1 /* Source code parsing and tree node generation for the GNU compiler
2 for the Java(TM) language.
3 Copyright (C) 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004
4 Free Software Foundation, Inc.
5 Contributed by Alexandre Petit-Bianco (apbianco@cygnus.com)
6
7 This file is part of GCC.
8
9 GCC is free software; you can redistribute it and/or modify
10 it under the terms of the GNU General Public License as published by
11 the Free Software Foundation; either version 2, or (at your option)
12 any later version.
13
14 GCC is distributed in the hope that it will be useful,
15 but WITHOUT ANY WARRANTY; without even the implied warranty of
16 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 GNU General Public License for more details.
18
19 You should have received a copy of the GNU General Public License
20 along with GCC; see the file COPYING. If not, write to
21 the Free Software Foundation, 59 Temple Place - Suite 330,
22 Boston, MA 02111-1307, USA.
23
24 Java and all Java-based marks are trademarks or registered trademarks
25 of Sun Microsystems, Inc. in the United States and other countries.
26 The Free Software Foundation is independent of Sun Microsystems, Inc. */
27
28 /* This file parses java source code and issues a tree node image
29 suitable for code generation (byte code and targeted CPU assembly
30 language).
31
32 The grammar conforms to the Java grammar described in "The Java(TM)
33 Language Specification. J. Gosling, B. Joy, G. Steele. Addison Wesley
34 1996, ISBN 0-201-63451-1"
35
36 The following modifications were brought to the original grammar:
37
38 method_body: added the rule '| block SC_TK'
39 static_initializer: added the rule 'static block SC_TK'.
40
41 Note: All the extra rules described above should go away when the
42 empty_statement rule will work.
43
44 statement_nsi: 'nsi' should be read no_short_if.
45
46 Some rules have been modified to support JDK1.1 inner classes
47 definitions and other extensions. */
48
49 %{
50 #include "config.h"
51 #include "system.h"
52 #include "coretypes.h"
53 #include "tm.h"
54 #include <dirent.h>
55 #include "tree.h"
56 #include "rtl.h"
57 #include "real.h"
58 #include "obstack.h"
59 #include "toplev.h"
60 #include "flags.h"
61 #include "java-tree.h"
62 #include "jcf.h"
63 #include "lex.h"
64 #include "parse.h"
65 #include "zipfile.h"
66 #include "convert.h"
67 #include "buffer.h"
68 #include "xref.h"
69 #include "function.h"
70 #include "except.h"
71 #include "ggc.h"
72 #include "debug.h"
73 #include "tree-inline.h"
74 #include "cgraph.h"
75
76 /* Local function prototypes */
77 static char *java_accstring_lookup (int);
78 static void classitf_redefinition_error (const char *,tree, tree, tree);
79 static void variable_redefinition_error (tree, tree, tree, int);
80 static tree create_class (int, tree, tree, tree);
81 static tree create_interface (int, tree, tree);
82 static void end_class_declaration (int);
83 static tree find_field (tree, tree);
84 static tree lookup_field_wrapper (tree, tree);
85 static int duplicate_declaration_error_p (tree, tree, tree);
86 static void register_fields (int, tree, tree);
87 static tree parser_qualified_classname (tree);
88 static int parser_check_super (tree, tree, tree);
89 static int parser_check_super_interface (tree, tree, tree);
90 static void check_modifiers_consistency (int);
91 static tree lookup_cl (tree);
92 static tree lookup_java_method2 (tree, tree, int);
93 static tree method_header (int, tree, tree, tree);
94 static void fix_method_argument_names (tree ,tree);
95 static tree method_declarator (tree, tree);
96 static void parse_warning_context (tree cl, const char *msg, ...)
97 ATTRIBUTE_PRINTF_2;
98 static void issue_warning_error_from_context (tree, const char *msg, va_list)
99 ATTRIBUTE_PRINTF (2, 0);
100 static void parse_ctor_invocation_error (void);
101 static tree parse_jdk1_1_error (const char *);
102 static void complete_class_report_errors (jdep *);
103 static int process_imports (void);
104 static void read_import_dir (tree);
105 static int find_in_imports_on_demand (tree, tree);
106 static void find_in_imports (tree, tree);
107 static void check_inner_class_access (tree, tree, tree);
108 static int check_pkg_class_access (tree, tree, bool);
109 static void register_package (tree);
110 static tree resolve_package (tree, tree *, tree *);
111 static tree resolve_class (tree, tree, tree, tree);
112 static void declare_local_variables (int, tree, tree);
113 static void dump_java_tree (enum tree_dump_index, tree);
114 static void source_start_java_method (tree);
115 static void source_end_java_method (void);
116 static tree find_name_in_single_imports (tree);
117 static void check_abstract_method_header (tree);
118 static tree lookup_java_interface_method2 (tree, tree);
119 static tree resolve_expression_name (tree, tree *);
120 static tree maybe_create_class_interface_decl (tree, tree, tree, tree);
121 static int check_class_interface_creation (int, int, tree, tree, tree, tree);
122 static tree patch_method_invocation (tree, tree, tree, int, int *, tree *);
123 static int breakdown_qualified (tree *, tree *, tree);
124 static int in_same_package (tree, tree);
125 static tree resolve_and_layout (tree, tree);
126 static tree qualify_and_find (tree, tree, tree);
127 static tree resolve_no_layout (tree, tree);
128 static int invocation_mode (tree, int);
129 static tree find_applicable_accessible_methods_list (int, tree, tree, tree);
130 static void search_applicable_methods_list (int, tree, tree, tree, tree *, tree *);
131 static tree find_most_specific_methods_list (tree);
132 static int argument_types_convertible (tree, tree);
133 static tree patch_invoke (tree, tree, tree);
134 static int maybe_use_access_method (int, tree *, tree *);
135 static tree lookup_method_invoke (int, tree, tree, tree, tree);
136 static tree register_incomplete_type (int, tree, tree, tree);
137 static tree check_inner_circular_reference (tree, tree);
138 static tree check_circular_reference (tree);
139 static tree obtain_incomplete_type (tree);
140 static tree java_complete_lhs (tree);
141 static tree java_complete_tree (tree);
142 static tree maybe_generate_pre_expand_clinit (tree);
143 static int analyze_clinit_body (tree, tree);
144 static int maybe_yank_clinit (tree);
145 static void java_complete_expand_method (tree);
146 static void java_expand_method_bodies (tree);
147 static int unresolved_type_p (tree, tree *);
148 static void create_jdep_list (struct parser_ctxt *);
149 static tree build_expr_block (tree, tree);
150 static tree enter_block (void);
151 static tree exit_block (void);
152 static tree lookup_name_in_blocks (tree);
153 static void maybe_absorb_scoping_blocks (void);
154 static tree build_method_invocation (tree, tree);
155 static tree build_new_invocation (tree, tree);
156 static tree build_assignment (int, int, tree, tree);
157 static tree build_binop (enum tree_code, int, tree, tree);
158 static tree patch_assignment (tree, tree);
159 static tree patch_binop (tree, tree, tree);
160 static tree build_unaryop (int, int, tree);
161 static tree build_incdec (int, int, tree, int);
162 static tree patch_unaryop (tree, tree);
163 static tree build_cast (int, tree, tree);
164 static tree build_null_of_type (tree);
165 static tree patch_cast (tree, tree);
166 static int valid_ref_assignconv_cast_p (tree, tree, int);
167 static int valid_builtin_assignconv_identity_widening_p (tree, tree);
168 static int valid_cast_to_p (tree, tree);
169 static int valid_method_invocation_conversion_p (tree, tree);
170 static tree try_builtin_assignconv (tree, tree, tree);
171 static tree try_reference_assignconv (tree, tree);
172 static tree build_unresolved_array_type (tree);
173 static int build_type_name_from_array_name (tree, tree *);
174 static tree build_array_from_name (tree, tree, tree, tree *);
175 static tree build_array_ref (int, tree, tree);
176 static tree patch_array_ref (tree);
177 static tree make_qualified_name (tree, tree, int);
178 static tree merge_qualified_name (tree, tree);
179 static tree make_qualified_primary (tree, tree, int);
180 static int resolve_qualified_expression_name (tree, tree *, tree *, tree *);
181 static void qualify_ambiguous_name (tree);
182 static tree resolve_field_access (tree, tree *, tree *);
183 static tree build_newarray_node (tree, tree, int);
184 static tree patch_newarray (tree);
185 static tree resolve_type_during_patch (tree);
186 static tree build_this (int);
187 static tree build_wfl_wrap (tree, int);
188 static tree build_return (int, tree);
189 static tree patch_return (tree);
190 static tree maybe_access_field (tree, tree, tree);
191 static int complete_function_arguments (tree);
192 static int check_for_static_method_reference (tree, tree, tree, tree, tree);
193 static int not_accessible_p (tree, tree, tree, int);
194 static void check_deprecation (tree, tree);
195 static int class_in_current_package (tree);
196 static tree build_if_else_statement (int, tree, tree, tree);
197 static tree patch_if_else_statement (tree);
198 static tree add_stmt_to_compound (tree, tree, tree);
199 static tree add_stmt_to_block (tree, tree, tree);
200 static tree patch_exit_expr (tree);
201 static tree build_labeled_block (int, tree);
202 static tree finish_labeled_statement (tree, tree);
203 static tree build_bc_statement (int, int, tree);
204 static tree patch_bc_statement (tree);
205 static tree patch_loop_statement (tree);
206 static tree build_new_loop (tree);
207 static tree build_loop_body (int, tree, int);
208 static tree finish_loop_body (int, tree, tree, int);
209 static tree build_debugable_stmt (int, tree);
210 static tree finish_for_loop (int, tree, tree, tree);
211 static tree patch_switch_statement (tree);
212 static tree string_constant_concatenation (tree, tree);
213 static tree build_string_concatenation (tree, tree);
214 static tree patch_string_cst (tree);
215 static tree patch_string (tree);
216 static tree encapsulate_with_try_catch (int, tree, tree, tree);
217 static tree build_assertion (int, tree, tree);
218 static tree build_try_statement (int, tree, tree);
219 static tree build_try_finally_statement (int, tree, tree);
220 static tree patch_try_statement (tree);
221 static tree patch_synchronized_statement (tree, tree);
222 static tree patch_throw_statement (tree, tree);
223 static void check_thrown_exceptions (int, tree, tree);
224 static int check_thrown_exceptions_do (tree);
225 static void purge_unchecked_exceptions (tree);
226 static bool ctors_unchecked_throws_clause_p (tree);
227 static void check_concrete_throws_clauses (tree, tree, tree, tree);
228 static void check_throws_clauses (tree, tree, tree);
229 static void finish_method_declaration (tree);
230 static tree build_super_invocation (tree);
231 static int verify_constructor_circularity (tree, tree);
232 static char *constructor_circularity_msg (tree, tree);
233 static tree build_this_super_qualified_invocation (int, tree, tree, int, int);
234 static const char *get_printable_method_name (tree);
235 static tree patch_conditional_expr (tree, tree, tree);
236 static tree generate_finit (tree);
237 static tree generate_instinit (tree);
238 static tree build_instinit_invocation (tree);
239 static void fix_constructors (tree);
240 static tree build_alias_initializer_parameter_list (int, tree, tree, int *);
241 static tree craft_constructor (tree, tree);
242 static int verify_constructor_super (tree);
243 static tree create_artificial_method (tree, int, tree, tree, tree);
244 static void start_artificial_method_body (tree);
245 static void end_artificial_method_body (tree);
246 static int check_method_redefinition (tree, tree);
247 static int check_method_types_complete (tree);
248 static bool hack_is_accessible_p (tree, tree);
249 static void java_check_regular_methods (tree);
250 static void check_interface_throws_clauses (tree, tree);
251 static void java_check_abstract_methods (tree);
252 static void unreachable_stmt_error (tree);
253 static int not_accessible_field_error (tree, tree);
254 static tree find_expr_with_wfl (tree);
255 static void missing_return_error (tree);
256 static tree build_new_array_init (int, tree);
257 static tree patch_new_array_init (tree, tree);
258 static tree maybe_build_array_element_wfl (tree);
259 static int array_constructor_check_entry (tree, tree);
260 static const char *purify_type_name (const char *);
261 static tree fold_constant_for_init (tree, tree);
262 static tree strip_out_static_field_access_decl (tree);
263 static jdeplist *reverse_jdep_list (struct parser_ctxt *);
264 static void static_ref_err (tree, tree, tree);
265 static void parser_add_interface (tree, tree, tree);
266 static void add_superinterfaces (tree, tree);
267 static tree jdep_resolve_class (jdep *);
268 static int note_possible_classname (const char *, int);
269 static void java_complete_expand_classes (void);
270 static void java_complete_expand_class (tree);
271 static void java_complete_expand_methods (tree);
272 static tree cut_identifier_in_qualified (tree);
273 static tree java_stabilize_reference (tree);
274 static tree do_unary_numeric_promotion (tree);
275 static char * operator_string (tree);
276 static tree do_merge_string_cste (tree, const char *, int, int);
277 static tree merge_string_cste (tree, tree, int);
278 static tree java_refold (tree);
279 static int java_decl_equiv (tree, tree);
280 static int binop_compound_p (enum tree_code);
281 static tree search_loop (tree);
282 static int labeled_block_contains_loop_p (tree, tree);
283 static int check_abstract_method_definitions (int, tree, tree);
284 static void java_check_abstract_method_definitions (tree);
285 static void java_debug_context_do (int);
286 static void java_parser_context_push_initialized_field (void);
287 static void java_parser_context_pop_initialized_field (void);
288 static tree reorder_static_initialized (tree);
289 static void java_parser_context_suspend (void);
290 static void java_parser_context_resume (void);
291 static int pop_current_osb (struct parser_ctxt *);
292
293 /* JDK 1.1 work. FIXME */
294
295 static tree maybe_make_nested_class_name (tree);
296 static int make_nested_class_name (tree);
297 static void set_nested_class_simple_name_value (tree, int);
298 static void link_nested_class_to_enclosing (void);
299 static tree resolve_inner_class (htab_t, tree, tree *, tree *, tree);
300 static tree find_as_inner_class (tree, tree, tree);
301 static tree find_as_inner_class_do (tree, tree);
302 static int check_inner_class_redefinition (tree, tree);
303
304 static tree build_thisn_assign (void);
305 static tree build_current_thisn (tree);
306 static tree build_access_to_thisn (tree, tree, int);
307 static tree maybe_build_thisn_access_method (tree);
308
309 static tree build_outer_field_access (tree, tree);
310 static tree build_outer_field_access_methods (tree);
311 static tree build_outer_field_access_expr (int, tree, tree,
312 tree, tree);
313 static tree build_outer_method_access_method (tree);
314 static tree build_new_access_id (void);
315 static tree build_outer_field_access_method (tree, tree, tree,
316 tree, tree);
317
318 static int outer_field_access_p (tree, tree);
319 static int outer_field_expanded_access_p (tree, tree *,
320 tree *, tree *);
321 static tree outer_field_access_fix (tree, tree, tree);
322 static tree build_incomplete_class_ref (int, tree);
323 static tree patch_incomplete_class_ref (tree);
324 static tree create_anonymous_class (int, tree);
325 static void patch_anonymous_class (tree, tree, tree);
326 static void add_inner_class_fields (tree, tree);
327
328 static tree build_dot_class_method (tree);
329 static tree build_dot_class_method_invocation (tree, tree);
330 static void create_new_parser_context (int);
331 static tree maybe_build_class_init_for_field (tree, tree);
332
333 static int attach_init_test_initialization_flags (void **, void *);
334 static int emit_test_initialization (void **, void *);
335
336 static char *string_convert_int_cst (tree);
337
338 /* Number of error found so far. */
339 int java_error_count;
340 /* Number of warning found so far. */
341 int java_warning_count;
342 /* Tell when not to fold, when doing xrefs */
343 int do_not_fold;
344 /* Cyclic inheritance report, as it can be set by layout_class */
345 const char *cyclic_inheritance_report;
346
347 /* The current parser context */
348 struct parser_ctxt *ctxp;
349
350 /* List of things that were analyzed for which code will be generated */
351 struct parser_ctxt *ctxp_for_generation = NULL;
352
353 /* binop_lookup maps token to tree_code. It is used where binary
354 operations are involved and required by the parser. RDIV_EXPR
355 covers both integral/floating point division. The code is changed
356 once the type of both operator is worked out. */
357
358 static const enum tree_code binop_lookup[19] =
359 {
360 PLUS_EXPR, MINUS_EXPR, MULT_EXPR, RDIV_EXPR, TRUNC_MOD_EXPR,
361 LSHIFT_EXPR, RSHIFT_EXPR, URSHIFT_EXPR,
362 BIT_AND_EXPR, BIT_XOR_EXPR, BIT_IOR_EXPR,
363 TRUTH_ANDIF_EXPR, TRUTH_ORIF_EXPR,
364 EQ_EXPR, NE_EXPR, GT_EXPR, GE_EXPR, LT_EXPR, LE_EXPR,
365 };
366 #define BINOP_LOOKUP(VALUE) \
367 binop_lookup [((VALUE) - PLUS_TK) % ARRAY_SIZE (binop_lookup)]
368
369 /* This is the end index for binary operators that can also be used
370 in compound assignments. */
371 #define BINOP_COMPOUND_CANDIDATES 11
372
373 /* The "$L" identifier we use to create labels. */
374 static GTY(()) tree label_id;
375
376 /* The "StringBuffer" identifier used for the String `+' operator. */
377 static GTY(()) tree wfl_string_buffer;
378
379 /* The "append" identifier used for String `+' operator. */
380 static GTY(()) tree wfl_append;
381
382 /* The "toString" identifier used for String `+' operator. */
383 static GTY(()) tree wfl_to_string;
384
385 /* The "java.lang" import qualified name. */
386 static GTY(()) tree java_lang_id;
387
388 /* The generated `inst$' identifier used for generated enclosing
389 instance/field access functions. */
390 static GTY(()) tree inst_id;
391
392 /* Context and flag for static blocks */
393 static GTY(()) tree current_static_block;
394
395 /* The generated `write_parm_value$' identifier. */
396 static GTY(()) tree wpv_id;
397
398 /* The list of all packages we've seen so far */
399 static GTY(()) tree package_list;
400
401 /* Hold THIS for the scope of the current method decl. */
402 static GTY(()) tree current_this;
403
404 /* Hold a list of catch clauses list. The first element of this list is
405 the list of the catch clauses of the currently analyzed try block. */
406 static GTY(()) tree currently_caught_type_list;
407
408 /* This holds a linked list of all the case labels for the current
409 switch statement. It is only used when checking to see if there
410 are duplicate labels. FIXME: probably this should just be attached
411 to the switch itself; then it could be referenced via
412 `ctxp->current_loop'. */
413 static GTY(()) tree case_label_list;
414
415 /* Anonymous class counter. Will be reset to 1 every time a non
416 anonymous class gets created. */
417 static int anonymous_class_counter = 1;
418
419 static GTY(()) tree src_parse_roots[1];
420
421 /* All classes seen from source code */
422 #define gclass_list src_parse_roots[0]
423
424 /* Check modifiers. If one doesn't fit, retrieve it in its declaration
425 line and point it out. */
426 /* Should point out the one that don't fit. ASCII/unicode, going
427 backward. FIXME */
428
429 #define check_modifiers(__message, __value, __mask) do { \
430 if ((__value) & ~(__mask)) \
431 { \
432 size_t i, remainder = (__value) & ~(__mask); \
433 for (i = 0; i < ARRAY_SIZE (ctxp->modifier_ctx); i++) \
434 if ((1 << i) & remainder) \
435 parse_error_context (ctxp->modifier_ctx [i], (__message), \
436 java_accstring_lookup (1 << i)); \
437 } \
438 } while (0)
439
440 %}
441
442 %union {
443 tree node;
444 int sub_token;
445 struct {
446 int token;
447 int location;
448 } operator;
449 int value;
450 }
451
452 %{
453 #include "lex.c"
454 %}
455
456 %pure_parser
457
458 /* Things defined here have to match the order of what's in the
459 binop_lookup table. */
460
461 %token PLUS_TK MINUS_TK MULT_TK DIV_TK REM_TK
462 %token LS_TK SRS_TK ZRS_TK
463 %token AND_TK XOR_TK OR_TK
464 %token BOOL_AND_TK BOOL_OR_TK
465 %token EQ_TK NEQ_TK GT_TK GTE_TK LT_TK LTE_TK
466
467 /* This maps to the same binop_lookup entry than the token above */
468
469 %token PLUS_ASSIGN_TK MINUS_ASSIGN_TK MULT_ASSIGN_TK DIV_ASSIGN_TK
470 %token REM_ASSIGN_TK
471 %token LS_ASSIGN_TK SRS_ASSIGN_TK ZRS_ASSIGN_TK
472 %token AND_ASSIGN_TK XOR_ASSIGN_TK OR_ASSIGN_TK
473
474
475 /* Modifier TOKEN have to be kept in this order. Don't scramble it */
476
477 %token PUBLIC_TK PRIVATE_TK PROTECTED_TK
478 %token STATIC_TK FINAL_TK SYNCHRONIZED_TK
479 %token VOLATILE_TK TRANSIENT_TK NATIVE_TK
480 %token PAD_TK ABSTRACT_TK STRICT_TK
481 %token MODIFIER_TK
482
483 /* Keep those two in order, too */
484 %token DECR_TK INCR_TK
485
486 /* From now one, things can be in any order */
487
488 %token DEFAULT_TK IF_TK THROW_TK
489 %token BOOLEAN_TK DO_TK IMPLEMENTS_TK
490 %token THROWS_TK BREAK_TK IMPORT_TK
491 %token ELSE_TK INSTANCEOF_TK RETURN_TK
492 %token VOID_TK CATCH_TK INTERFACE_TK
493 %token CASE_TK EXTENDS_TK FINALLY_TK
494 %token SUPER_TK WHILE_TK CLASS_TK
495 %token SWITCH_TK CONST_TK TRY_TK
496 %token FOR_TK NEW_TK CONTINUE_TK
497 %token GOTO_TK PACKAGE_TK THIS_TK
498 %token ASSERT_TK
499
500 %token BYTE_TK SHORT_TK INT_TK LONG_TK
501 %token CHAR_TK INTEGRAL_TK
502
503 %token FLOAT_TK DOUBLE_TK FP_TK
504
505 %token ID_TK
506
507 %token REL_QM_TK REL_CL_TK NOT_TK NEG_TK
508
509 %token ASSIGN_ANY_TK ASSIGN_TK
510 %token OP_TK CP_TK OCB_TK CCB_TK OSB_TK CSB_TK SC_TK C_TK DOT_TK
511
512 %token STRING_LIT_TK CHAR_LIT_TK INT_LIT_TK FP_LIT_TK
513 %token TRUE_TK FALSE_TK BOOL_LIT_TK NULL_TK
514
515 %type <value> modifiers MODIFIER_TK final synchronized
516
517 %type <node> super ID_TK identifier
518 %type <node> name simple_name qualified_name
519 %type <node> type_declaration compilation_unit
520 field_declaration method_declaration extends_interfaces
521 interfaces interface_type_list
522 import_declarations package_declaration
523 type_declarations interface_body
524 interface_member_declaration constant_declaration
525 interface_member_declarations interface_type
526 abstract_method_declaration
527 %type <node> class_body_declaration class_member_declaration
528 static_initializer constructor_declaration block
529 %type <node> class_body_declarations constructor_header
530 %type <node> class_or_interface_type class_type class_type_list
531 constructor_declarator explicit_constructor_invocation
532 %type <node> dim_expr dim_exprs this_or_super throws
533
534 %type <node> variable_declarator_id variable_declarator
535 variable_declarators variable_initializer
536 variable_initializers constructor_body
537 array_initializer
538
539 %type <node> class_body block_end constructor_block_end
540 %type <node> statement statement_without_trailing_substatement
541 labeled_statement if_then_statement label_decl
542 if_then_else_statement while_statement for_statement
543 statement_nsi labeled_statement_nsi do_statement
544 if_then_else_statement_nsi while_statement_nsi
545 for_statement_nsi statement_expression_list for_init
546 for_update statement_expression expression_statement
547 primary_no_new_array expression primary
548 array_creation_expression array_type
549 class_instance_creation_expression field_access
550 method_invocation array_access something_dot_new
551 argument_list postfix_expression while_expression
552 post_increment_expression post_decrement_expression
553 unary_expression_not_plus_minus unary_expression
554 pre_increment_expression pre_decrement_expression
555 cast_expression
556 multiplicative_expression additive_expression
557 shift_expression relational_expression
558 equality_expression and_expression
559 exclusive_or_expression inclusive_or_expression
560 conditional_and_expression conditional_or_expression
561 conditional_expression assignment_expression
562 left_hand_side assignment for_header for_begin
563 constant_expression do_statement_begin empty_statement
564 switch_statement synchronized_statement throw_statement
565 try_statement assert_statement
566 switch_expression switch_block
567 catches catch_clause catch_clause_parameter finally
568 anonymous_class_creation trap_overflow_corner_case
569 %type <node> return_statement break_statement continue_statement
570
571 %type <operator> ASSIGN_TK MULT_ASSIGN_TK DIV_ASSIGN_TK
572 %type <operator> REM_ASSIGN_TK PLUS_ASSIGN_TK MINUS_ASSIGN_TK
573 %type <operator> LS_ASSIGN_TK SRS_ASSIGN_TK ZRS_ASSIGN_TK
574 %type <operator> AND_ASSIGN_TK XOR_ASSIGN_TK OR_ASSIGN_TK
575 %type <operator> ASSIGN_ANY_TK assignment_operator
576 %token <operator> EQ_TK GTE_TK ZRS_TK SRS_TK GT_TK LTE_TK LS_TK
577 %token <operator> BOOL_AND_TK AND_TK BOOL_OR_TK OR_TK INCR_TK PLUS_TK
578 %token <operator> DECR_TK MINUS_TK MULT_TK DIV_TK XOR_TK REM_TK NEQ_TK
579 %token <operator> NEG_TK REL_QM_TK REL_CL_TK NOT_TK LT_TK OCB_TK CCB_TK
580 %token <operator> OP_TK OSB_TK DOT_TK THROW_TK INSTANCEOF_TK
581 %type <operator> THIS_TK SUPER_TK RETURN_TK BREAK_TK CONTINUE_TK
582 %type <operator> CASE_TK DEFAULT_TK TRY_TK CATCH_TK SYNCHRONIZED_TK
583 %type <operator> NEW_TK ASSERT_TK
584
585 %type <node> method_body
586
587 %type <node> literal INT_LIT_TK FP_LIT_TK BOOL_LIT_TK CHAR_LIT_TK
588 STRING_LIT_TK NULL_TK VOID_TK
589
590 %type <node> IF_TK WHILE_TK FOR_TK
591
592 %type <node> formal_parameter_list formal_parameter
593 method_declarator method_header
594
595 %type <node> primitive_type reference_type type
596 BOOLEAN_TK INTEGRAL_TK FP_TK
597
598 /* Added or modified JDK 1.1 rule types */
599 %type <node> type_literals
600
601 %%
602 /* 19.2 Production from 2.3: The Syntactic Grammar */
603 goal: compilation_unit
604 {}
605 ;
606
607 /* 19.3 Productions from 3: Lexical structure */
608 literal:
609 INT_LIT_TK
610 | FP_LIT_TK
611 | BOOL_LIT_TK
612 | CHAR_LIT_TK
613 | STRING_LIT_TK
614 | NULL_TK
615 ;
616
617 /* 19.4 Productions from 4: Types, Values and Variables */
618 type:
619 primitive_type
620 | reference_type
621 ;
622
623 primitive_type:
624 INTEGRAL_TK
625 | FP_TK
626 | BOOLEAN_TK
627 ;
628
629 reference_type:
630 class_or_interface_type
631 | array_type
632 ;
633
634 class_or_interface_type:
635 name
636 ;
637
638 class_type:
639 class_or_interface_type /* Default rule */
640 ;
641
642 interface_type:
643 class_or_interface_type
644 ;
645
646 array_type:
647 primitive_type dims
648 {
649 int osb = pop_current_osb (ctxp);
650 tree t = build_java_array_type (($1), -1);
651 while (--osb)
652 t = build_unresolved_array_type (t);
653 $$ = t;
654 }
655 | name dims
656 {
657 int osb = pop_current_osb (ctxp);
658 tree t = $1;
659 while (osb--)
660 t = build_unresolved_array_type (t);
661 $$ = t;
662 }
663 ;
664
665 /* 19.5 Productions from 6: Names */
666 name:
667 simple_name /* Default rule */
668 | qualified_name /* Default rule */
669 ;
670
671 simple_name:
672 identifier /* Default rule */
673 ;
674
675 qualified_name:
676 name DOT_TK identifier
677 { $$ = make_qualified_name ($1, $3, $2.location); }
678 ;
679
680 identifier:
681 ID_TK
682 ;
683
684 /* 19.6: Production from 7: Packages */
685 compilation_unit:
686 {$$ = NULL;}
687 | package_declaration
688 | import_declarations
689 | type_declarations
690 | package_declaration import_declarations
691 | package_declaration type_declarations
692 | import_declarations type_declarations
693 | package_declaration import_declarations type_declarations
694 ;
695
696 import_declarations:
697 import_declaration
698 {
699 $$ = NULL;
700 }
701 | import_declarations import_declaration
702 {
703 $$ = NULL;
704 }
705 ;
706
707 type_declarations:
708 type_declaration
709 | type_declarations type_declaration
710 ;
711
712 package_declaration:
713 PACKAGE_TK name SC_TK
714 {
715 ctxp->package = EXPR_WFL_NODE ($2);
716 register_package (ctxp->package);
717 }
718 | PACKAGE_TK error
719 {yyerror ("Missing name"); RECOVER;}
720 | PACKAGE_TK name error
721 {yyerror ("';' expected"); RECOVER;}
722 ;
723
724 import_declaration:
725 single_type_import_declaration
726 | type_import_on_demand_declaration
727 ;
728
729 single_type_import_declaration:
730 IMPORT_TK name SC_TK
731 {
732 tree name = EXPR_WFL_NODE ($2), last_name;
733 int i = IDENTIFIER_LENGTH (name)-1;
734 const char *last = &IDENTIFIER_POINTER (name)[i];
735 while (last != IDENTIFIER_POINTER (name))
736 {
737 if (last [0] == '.')
738 break;
739 last--;
740 }
741 last_name = get_identifier (++last);
742 if (IS_A_SINGLE_IMPORT_CLASSFILE_NAME_P (last_name))
743 {
744 tree err = find_name_in_single_imports (last_name);
745 if (err && err != name)
746 parse_error_context
747 ($2, "Ambiguous class: `%s' and `%s'",
748 IDENTIFIER_POINTER (name),
749 IDENTIFIER_POINTER (err));
750 else
751 REGISTER_IMPORT ($2, last_name);
752 }
753 else
754 REGISTER_IMPORT ($2, last_name);
755 }
756 | IMPORT_TK error
757 {yyerror ("Missing name"); RECOVER;}
758 | IMPORT_TK name error
759 {yyerror ("';' expected"); RECOVER;}
760 ;
761
762 type_import_on_demand_declaration:
763 IMPORT_TK name DOT_TK MULT_TK SC_TK
764 {
765 tree name = EXPR_WFL_NODE ($2);
766 tree it;
767 /* Search for duplicates. */
768 for (it = ctxp->import_demand_list; it; it = TREE_CHAIN (it))
769 if (EXPR_WFL_NODE (TREE_PURPOSE (it)) == name)
770 break;
771 /* Don't import the same thing more than once, just ignore
772 duplicates (7.5.2) */
773 if (! it)
774 {
775 read_import_dir ($2);
776 ctxp->import_demand_list =
777 chainon (ctxp->import_demand_list,
778 build_tree_list ($2, NULL_TREE));
779 }
780 }
781 | IMPORT_TK name DOT_TK error
782 {yyerror ("'*' expected"); RECOVER;}
783 | IMPORT_TK name DOT_TK MULT_TK error
784 {yyerror ("';' expected"); RECOVER;}
785 ;
786
787 type_declaration:
788 class_declaration
789 { end_class_declaration (0); }
790 | interface_declaration
791 { end_class_declaration (0); }
792 | empty_statement
793 | error
794 {
795 YYERROR_NOW;
796 yyerror ("Class or interface declaration expected");
797 }
798 ;
799
800 /* 19.7 Shortened from the original:
801 modifiers: modifier | modifiers modifier
802 modifier: any of public... */
803 modifiers:
804 MODIFIER_TK
805 {
806 $$ = (1 << $1);
807 }
808 | modifiers MODIFIER_TK
809 {
810 int acc = (1 << $2);
811 if ($$ & acc)
812 parse_error_context
813 (ctxp->modifier_ctx [$2], "Modifier `%s' declared twice",
814 java_accstring_lookup (acc));
815 else
816 {
817 $$ |= acc;
818 }
819 }
820 ;
821
822 /* 19.8.1 Production from $8.1: Class Declaration */
823 class_declaration:
824 modifiers CLASS_TK identifier super interfaces
825 { create_class ($1, $3, $4, $5); }
826 class_body
827 {;}
828 | CLASS_TK identifier super interfaces
829 { create_class (0, $2, $3, $4); }
830 class_body
831 {;}
832 | modifiers CLASS_TK error
833 { yyerror ("Missing class name"); RECOVER; }
834 | CLASS_TK error
835 { yyerror ("Missing class name"); RECOVER; }
836 | CLASS_TK identifier error
837 {
838 if (!ctxp->class_err) yyerror ("'{' expected");
839 DRECOVER(class1);
840 }
841 | modifiers CLASS_TK identifier error
842 { if (!ctxp->class_err) yyerror ("'{' expected"); RECOVER; }
843 ;
844
845 super:
846 { $$ = NULL; }
847 | EXTENDS_TK class_type
848 { $$ = $2; }
849 | EXTENDS_TK class_type error
850 {yyerror ("'{' expected"); ctxp->class_err=1;}
851 | EXTENDS_TK error
852 {yyerror ("Missing super class name"); ctxp->class_err=1;}
853 ;
854
855 interfaces:
856 { $$ = NULL_TREE; }
857 | IMPLEMENTS_TK interface_type_list
858 { $$ = $2; }
859 | IMPLEMENTS_TK error
860 {
861 ctxp->class_err=1;
862 yyerror ("Missing interface name");
863 }
864 ;
865
866 interface_type_list:
867 interface_type
868 {
869 ctxp->interface_number = 1;
870 $$ = build_tree_list ($1, NULL_TREE);
871 }
872 | interface_type_list C_TK interface_type
873 {
874 ctxp->interface_number++;
875 $$ = chainon ($1, build_tree_list ($3, NULL_TREE));
876 }
877 | interface_type_list C_TK error
878 {yyerror ("Missing interface name"); RECOVER;}
879 ;
880
881 class_body:
882 OCB_TK CCB_TK
883 {
884 /* Store the location of the `}' when doing xrefs */
885 if (flag_emit_xref)
886 DECL_END_SOURCE_LINE (GET_CPC ()) =
887 EXPR_WFL_ADD_COL ($2.location, 1);
888 $$ = GET_CPC ();
889 }
890 | OCB_TK class_body_declarations CCB_TK
891 {
892 /* Store the location of the `}' when doing xrefs */
893 if (flag_emit_xref)
894 DECL_END_SOURCE_LINE (GET_CPC ()) =
895 EXPR_WFL_ADD_COL ($3.location, 1);
896 $$ = GET_CPC ();
897 }
898 ;
899
900 class_body_declarations:
901 class_body_declaration
902 | class_body_declarations class_body_declaration
903 ;
904
905 class_body_declaration:
906 class_member_declaration
907 | static_initializer
908 | constructor_declaration
909 | block /* Added, JDK1.1, instance initializer */
910 {
911 if ($1 != empty_stmt_node)
912 {
913 TREE_CHAIN ($1) = CPC_INSTANCE_INITIALIZER_STMT (ctxp);
914 SET_CPC_INSTANCE_INITIALIZER_STMT (ctxp, $1);
915 }
916 }
917 ;
918
919 class_member_declaration:
920 field_declaration
921 | method_declaration
922 | class_declaration /* Added, JDK1.1 inner classes */
923 { end_class_declaration (1); }
924 | interface_declaration /* Added, JDK1.1 inner interfaces */
925 { end_class_declaration (1); }
926 | empty_statement
927 ;
928
929 /* 19.8.2 Productions from 8.3: Field Declarations */
930 field_declaration:
931 type variable_declarators SC_TK
932 { register_fields (0, $1, $2); }
933 | modifiers type variable_declarators SC_TK
934 {
935 check_modifiers
936 ("Illegal modifier `%s' for field declaration",
937 $1, FIELD_MODIFIERS);
938 check_modifiers_consistency ($1);
939 register_fields ($1, $2, $3);
940 }
941 ;
942
943 variable_declarators:
944 /* Should we use build_decl_list () instead ? FIXME */
945 variable_declarator /* Default rule */
946 | variable_declarators C_TK variable_declarator
947 { $$ = chainon ($1, $3); }
948 | variable_declarators C_TK error
949 {yyerror ("Missing term"); RECOVER;}
950 ;
951
952 variable_declarator:
953 variable_declarator_id
954 { $$ = build_tree_list ($1, NULL_TREE); }
955 | variable_declarator_id ASSIGN_TK variable_initializer
956 {
957 if (java_error_count)
958 $3 = NULL_TREE;
959 $$ = build_tree_list
960 ($1, build_assignment ($2.token, $2.location, $1, $3));
961 }
962 | variable_declarator_id ASSIGN_TK error
963 {
964 yyerror ("Missing variable initializer");
965 $$ = build_tree_list ($1, NULL_TREE);
966 RECOVER;
967 }
968 | variable_declarator_id ASSIGN_TK variable_initializer error
969 {
970 yyerror ("';' expected");
971 $$ = build_tree_list ($1, NULL_TREE);
972 RECOVER;
973 }
974 ;
975
976 variable_declarator_id:
977 identifier
978 | variable_declarator_id OSB_TK CSB_TK
979 { $$ = build_unresolved_array_type ($1); }
980 | identifier error
981 {yyerror ("Invalid declaration"); DRECOVER(vdi);}
982 | variable_declarator_id OSB_TK error
983 {
984 yyerror ("']' expected");
985 DRECOVER(vdi);
986 }
987 | variable_declarator_id CSB_TK error
988 {yyerror ("Unbalanced ']'"); DRECOVER(vdi);}
989 ;
990
991 variable_initializer:
992 expression
993 | array_initializer
994 ;
995
996 /* 19.8.3 Productions from 8.4: Method Declarations */
997 method_declaration:
998 method_header
999 {
1000 current_function_decl = $1;
1001 if (current_function_decl
1002 && TREE_CODE (current_function_decl) == FUNCTION_DECL)
1003 source_start_java_method (current_function_decl);
1004 else
1005 current_function_decl = NULL_TREE;
1006 }
1007 method_body
1008 { finish_method_declaration ($3); }
1009 | method_header error
1010 {YYNOT_TWICE yyerror ("'{' expected"); RECOVER;}
1011 ;
1012
1013 method_header:
1014 type method_declarator throws
1015 { $$ = method_header (0, $1, $2, $3); }
1016 | VOID_TK method_declarator throws
1017 { $$ = method_header (0, void_type_node, $2, $3); }
1018 | modifiers type method_declarator throws
1019 { $$ = method_header ($1, $2, $3, $4); }
1020 | modifiers VOID_TK method_declarator throws
1021 { $$ = method_header ($1, void_type_node, $3, $4); }
1022 | type error
1023 {
1024 yyerror ("Invalid method declaration, method name required");
1025 RECOVER;
1026 }
1027 | modifiers type error
1028 {
1029 yyerror ("Identifier expected");
1030 RECOVER;
1031 }
1032 | VOID_TK error
1033 {
1034 yyerror ("Identifier expected");
1035 RECOVER;
1036 }
1037 | modifiers VOID_TK error
1038 {
1039 yyerror ("Identifier expected");
1040 RECOVER;
1041 }
1042 | modifiers error
1043 {
1044 yyerror ("Invalid method declaration, return type required");
1045 RECOVER;
1046 }
1047 ;
1048
1049 method_declarator:
1050 identifier OP_TK CP_TK
1051 {
1052 ctxp->formal_parameter_number = 0;
1053 $$ = method_declarator ($1, NULL_TREE);
1054 }
1055 | identifier OP_TK formal_parameter_list CP_TK
1056 { $$ = method_declarator ($1, $3); }
1057 | method_declarator OSB_TK CSB_TK
1058 {
1059 EXPR_WFL_LINECOL (wfl_operator) = $2.location;
1060 TREE_PURPOSE ($1) =
1061 build_unresolved_array_type (TREE_PURPOSE ($1));
1062 parse_warning_context
1063 (wfl_operator,
1064 "Discouraged form of returned type specification");
1065 }
1066 | identifier OP_TK error
1067 {yyerror ("')' expected"); DRECOVER(method_declarator);}
1068 | method_declarator OSB_TK error
1069 {yyerror ("']' expected"); RECOVER;}
1070 ;
1071
1072 formal_parameter_list:
1073 formal_parameter
1074 {
1075 ctxp->formal_parameter_number = 1;
1076 }
1077 | formal_parameter_list C_TK formal_parameter
1078 {
1079 ctxp->formal_parameter_number += 1;
1080 $$ = chainon ($1, $3);
1081 }
1082 | formal_parameter_list C_TK error
1083 { yyerror ("Missing formal parameter term"); RECOVER; }
1084 ;
1085
1086 formal_parameter:
1087 type variable_declarator_id
1088 {
1089 $$ = build_tree_list ($2, $1);
1090 }
1091 | final type variable_declarator_id /* Added, JDK1.1 final parms */
1092 {
1093 $$ = build_tree_list ($3, $2);
1094 ARG_FINAL_P ($$) = 1;
1095 }
1096 | type error
1097 {
1098 yyerror ("Missing identifier"); RECOVER;
1099 $$ = NULL_TREE;
1100 }
1101 | final type error
1102 {
1103 yyerror ("Missing identifier"); RECOVER;
1104 $$ = NULL_TREE;
1105 }
1106 ;
1107
1108 final:
1109 modifiers
1110 {
1111 check_modifiers ("Illegal modifier `%s'. Only `final' was expected here",
1112 $1, ACC_FINAL);
1113 if ($1 != ACC_FINAL)
1114 MODIFIER_WFL (FINAL_TK) = build_wfl_node (NULL_TREE);
1115 }
1116 ;
1117
1118 throws:
1119 { $$ = NULL_TREE; }
1120 | THROWS_TK class_type_list
1121 { $$ = $2; }
1122 | THROWS_TK error
1123 {yyerror ("Missing class type term"); RECOVER;}
1124 ;
1125
1126 class_type_list:
1127 class_type
1128 { $$ = build_tree_list ($1, $1); }
1129 | class_type_list C_TK class_type
1130 { $$ = tree_cons ($3, $3, $1); }
1131 | class_type_list C_TK error
1132 {yyerror ("Missing class type term"); RECOVER;}
1133 ;
1134
1135 method_body:
1136 block
1137 | SC_TK { $$ = NULL_TREE; }
1138 ;
1139
1140 /* 19.8.4 Productions from 8.5: Static Initializers */
1141 static_initializer:
1142 static block
1143 {
1144 TREE_CHAIN ($2) = CPC_STATIC_INITIALIZER_STMT (ctxp);
1145 SET_CPC_STATIC_INITIALIZER_STMT (ctxp, $2);
1146 current_static_block = NULL_TREE;
1147 }
1148 ;
1149
1150 static: /* Test lval.sub_token here */
1151 modifiers
1152 {
1153 check_modifiers ("Illegal modifier `%s' for static initializer", $1, ACC_STATIC);
1154 /* Can't have a static initializer in an innerclass */
1155 if ($1 | ACC_STATIC &&
1156 GET_CPC_LIST () && !TOPLEVEL_CLASS_DECL_P (GET_CPC ()))
1157 parse_error_context
1158 (MODIFIER_WFL (STATIC_TK),
1159 "Can't define static initializer in class `%s'. Static initializer can only be defined in top-level classes",
1160 IDENTIFIER_POINTER (DECL_NAME (GET_CPC ())));
1161 SOURCE_FRONTEND_DEBUG (("Modifiers: %d", $1));
1162 }
1163 ;
1164
1165 /* 19.8.5 Productions from 8.6: Constructor Declarations */
1166 constructor_declaration:
1167 constructor_header
1168 {
1169 current_function_decl = $1;
1170 source_start_java_method (current_function_decl);
1171 }
1172 constructor_body
1173 { finish_method_declaration ($3); }
1174 ;
1175
1176 constructor_header:
1177 constructor_declarator throws
1178 { $$ = method_header (0, NULL_TREE, $1, $2); }
1179 | modifiers constructor_declarator throws
1180 { $$ = method_header ($1, NULL_TREE, $2, $3); }
1181 ;
1182
1183 constructor_declarator:
1184 simple_name OP_TK CP_TK
1185 {
1186 ctxp->formal_parameter_number = 0;
1187 $$ = method_declarator ($1, NULL_TREE);
1188 }
1189 | simple_name OP_TK formal_parameter_list CP_TK
1190 { $$ = method_declarator ($1, $3); }
1191 ;
1192
1193 constructor_body:
1194 /* Unlike regular method, we always need a complete (empty)
1195 body so we can safely perform all the required code
1196 addition (super invocation and field initialization) */
1197 block_begin constructor_block_end
1198 {
1199 BLOCK_EXPR_BODY ($2) = empty_stmt_node;
1200 $$ = $2;
1201 }
1202 | block_begin explicit_constructor_invocation constructor_block_end
1203 { $$ = $3; }
1204 | block_begin block_statements constructor_block_end
1205 { $$ = $3; }
1206 | block_begin explicit_constructor_invocation block_statements constructor_block_end
1207 { $$ = $4; }
1208 ;
1209
1210 constructor_block_end:
1211 block_end
1212 ;
1213
1214 /* Error recovery for that rule moved down expression_statement: rule. */
1215 explicit_constructor_invocation:
1216 this_or_super OP_TK CP_TK SC_TK
1217 {
1218 $$ = build_method_invocation ($1, NULL_TREE);
1219 $$ = build_debugable_stmt (EXPR_WFL_LINECOL ($1), $$);
1220 $$ = java_method_add_stmt (current_function_decl, $$);
1221 }
1222 | this_or_super OP_TK argument_list CP_TK SC_TK
1223 {
1224 $$ = build_method_invocation ($1, $3);
1225 $$ = build_debugable_stmt (EXPR_WFL_LINECOL ($1), $$);
1226 $$ = java_method_add_stmt (current_function_decl, $$);
1227 }
1228 /* Added, JDK1.1 inner classes. Modified because the rule
1229 'primary' couldn't work. */
1230 | name DOT_TK SUPER_TK OP_TK argument_list CP_TK SC_TK
1231 {$$ = parse_jdk1_1_error ("explicit constructor invocation"); }
1232 | name DOT_TK SUPER_TK OP_TK CP_TK SC_TK
1233 {$$ = parse_jdk1_1_error ("explicit constructor invocation"); }
1234 ;
1235
1236 this_or_super: /* Added, simplifies error diagnostics */
1237 THIS_TK
1238 {
1239 tree wfl = build_wfl_node (this_identifier_node);
1240 EXPR_WFL_LINECOL (wfl) = $1.location;
1241 $$ = wfl;
1242 }
1243 | SUPER_TK
1244 {
1245 tree wfl = build_wfl_node (super_identifier_node);
1246 EXPR_WFL_LINECOL (wfl) = $1.location;
1247 $$ = wfl;
1248 }
1249 ;
1250
1251 /* 19.9 Productions from 9: Interfaces */
1252 /* 19.9.1 Productions from 9.1: Interfaces Declarations */
1253 interface_declaration:
1254 INTERFACE_TK identifier
1255 { create_interface (0, $2, NULL_TREE); }
1256 interface_body
1257 { ; }
1258 | modifiers INTERFACE_TK identifier
1259 { create_interface ($1, $3, NULL_TREE); }
1260 interface_body
1261 { ; }
1262 | INTERFACE_TK identifier extends_interfaces
1263 { create_interface (0, $2, $3); }
1264 interface_body
1265 { ; }
1266 | modifiers INTERFACE_TK identifier extends_interfaces
1267 { create_interface ($1, $3, $4); }
1268 interface_body
1269 { ; }
1270 | INTERFACE_TK identifier error
1271 { yyerror ("'{' expected"); RECOVER; }
1272 | modifiers INTERFACE_TK identifier error
1273 { yyerror ("'{' expected"); RECOVER; }
1274 ;
1275
1276 extends_interfaces:
1277 EXTENDS_TK interface_type
1278 {
1279 ctxp->interface_number = 1;
1280 $$ = build_tree_list ($2, NULL_TREE);
1281 }
1282 | extends_interfaces C_TK interface_type
1283 {
1284 ctxp->interface_number++;
1285 $$ = chainon ($1, build_tree_list ($3, NULL_TREE));
1286 }
1287 | EXTENDS_TK error
1288 {yyerror ("Invalid interface type"); RECOVER;}
1289 | extends_interfaces C_TK error
1290 {yyerror ("Missing term"); RECOVER;}
1291 ;
1292
1293 interface_body:
1294 OCB_TK CCB_TK
1295 { $$ = NULL_TREE; }
1296 | OCB_TK interface_member_declarations CCB_TK
1297 { $$ = NULL_TREE; }
1298 ;
1299
1300 interface_member_declarations:
1301 interface_member_declaration
1302 | interface_member_declarations interface_member_declaration
1303 ;
1304
1305 interface_member_declaration:
1306 constant_declaration
1307 | abstract_method_declaration
1308 | class_declaration /* Added, JDK1.1 inner classes */
1309 { end_class_declaration (1); }
1310 | interface_declaration /* Added, JDK1.1 inner interfaces */
1311 { end_class_declaration (1); }
1312 ;
1313
1314 constant_declaration:
1315 field_declaration
1316 ;
1317
1318 abstract_method_declaration:
1319 method_header SC_TK
1320 {
1321 check_abstract_method_header ($1);
1322 current_function_decl = NULL_TREE; /* FIXME ? */
1323 }
1324 | method_header error
1325 {yyerror ("';' expected"); RECOVER;}
1326 ;
1327
1328 /* 19.10 Productions from 10: Arrays */
1329 array_initializer:
1330 OCB_TK CCB_TK
1331 { $$ = build_new_array_init ($1.location, NULL_TREE); }
1332 | OCB_TK C_TK CCB_TK
1333 { $$ = build_new_array_init ($1.location, NULL_TREE); }
1334 | OCB_TK variable_initializers CCB_TK
1335 { $$ = build_new_array_init ($1.location, $2); }
1336 | OCB_TK variable_initializers C_TK CCB_TK
1337 { $$ = build_new_array_init ($1.location, $2); }
1338 ;
1339
1340 variable_initializers:
1341 variable_initializer
1342 {
1343 $$ = tree_cons (maybe_build_array_element_wfl ($1),
1344 $1, NULL_TREE);
1345 }
1346 | variable_initializers C_TK variable_initializer
1347 {
1348 $$ = tree_cons (maybe_build_array_element_wfl ($3), $3, $1);
1349 }
1350 | variable_initializers C_TK error
1351 {yyerror ("Missing term"); RECOVER;}
1352 ;
1353
1354 /* 19.11 Production from 14: Blocks and Statements */
1355 block:
1356 block_begin block_end
1357 { $$ = $2; }
1358 | block_begin block_statements block_end
1359 { $$ = $3; }
1360 ;
1361
1362 block_begin:
1363 OCB_TK
1364 { enter_block (); }
1365 ;
1366
1367 block_end:
1368 CCB_TK
1369 {
1370 maybe_absorb_scoping_blocks ();
1371 /* Store the location of the `}' when doing xrefs */
1372 if (current_function_decl && flag_emit_xref)
1373 DECL_END_SOURCE_LINE (current_function_decl) =
1374 EXPR_WFL_ADD_COL ($1.location, 1);
1375 $$ = exit_block ();
1376 if (!BLOCK_SUBBLOCKS ($$))
1377 BLOCK_SUBBLOCKS ($$) = empty_stmt_node;
1378 }
1379 ;
1380
1381 block_statements:
1382 block_statement
1383 | block_statements block_statement
1384 ;
1385
1386 block_statement:
1387 local_variable_declaration_statement
1388 | statement
1389 { java_method_add_stmt (current_function_decl, $1); }
1390 | class_declaration /* Added, JDK1.1 local classes */
1391 {
1392 LOCAL_CLASS_P (TREE_TYPE (GET_CPC ())) = 1;
1393 end_class_declaration (1);
1394 }
1395 ;
1396
1397 local_variable_declaration_statement:
1398 local_variable_declaration SC_TK /* Can't catch missing ';' here */
1399 ;
1400
1401 local_variable_declaration:
1402 type variable_declarators
1403 { declare_local_variables (0, $1, $2); }
1404 | final type variable_declarators /* Added, JDK1.1 final locals */
1405 { declare_local_variables ($1, $2, $3); }
1406 ;
1407
1408 statement:
1409 statement_without_trailing_substatement
1410 | labeled_statement
1411 | if_then_statement
1412 | if_then_else_statement
1413 | while_statement
1414 | for_statement
1415 { $$ = exit_block (); }
1416 ;
1417
1418 statement_nsi:
1419 statement_without_trailing_substatement
1420 | labeled_statement_nsi
1421 | if_then_else_statement_nsi
1422 | while_statement_nsi
1423 | for_statement_nsi
1424 { $$ = exit_block (); }
1425 ;
1426
1427 statement_without_trailing_substatement:
1428 block
1429 | empty_statement
1430 | expression_statement
1431 | switch_statement
1432 | do_statement
1433 | break_statement
1434 | continue_statement
1435 | return_statement
1436 | synchronized_statement
1437 | throw_statement
1438 | try_statement
1439 | assert_statement
1440 ;
1441
1442 empty_statement:
1443 SC_TK
1444 {
1445 if (flag_extraneous_semicolon
1446 && ! current_static_block
1447 && (! current_function_decl ||
1448 /* Verify we're not in a inner class declaration */
1449 (GET_CPC () != TYPE_NAME
1450 (DECL_CONTEXT (current_function_decl)))))
1451
1452 {
1453 EXPR_WFL_SET_LINECOL (wfl_operator, input_line, -1);
1454 parse_warning_context (wfl_operator, "An empty declaration is a deprecated feature that should not be used");
1455 }
1456 $$ = empty_stmt_node;
1457 }
1458 ;
1459
1460 label_decl:
1461 identifier REL_CL_TK
1462 {
1463 $$ = build_labeled_block (EXPR_WFL_LINECOL ($1),
1464 EXPR_WFL_NODE ($1));
1465 pushlevel (2);
1466 push_labeled_block ($$);
1467 PUSH_LABELED_BLOCK ($$);
1468 }
1469 ;
1470
1471 labeled_statement:
1472 label_decl statement
1473 { $$ = finish_labeled_statement ($1, $2); }
1474 | identifier error
1475 {yyerror ("':' expected"); RECOVER;}
1476 ;
1477
1478 labeled_statement_nsi:
1479 label_decl statement_nsi
1480 { $$ = finish_labeled_statement ($1, $2); }
1481 ;
1482
1483 /* We concentrate here a bunch of error handling rules that we couldn't write
1484 earlier, because expression_statement catches a missing ';'. */
1485 expression_statement:
1486 statement_expression SC_TK
1487 {
1488 /* We have a statement. Generate a WFL around it so
1489 we can debug it */
1490 $$ = build_expr_wfl ($1, input_filename, input_line, 0);
1491 /* We know we have a statement, so set the debug
1492 info to be eventually generate here. */
1493 $$ = JAVA_MAYBE_GENERATE_DEBUG_INFO ($$);
1494 }
1495 | error SC_TK
1496 {
1497 YYNOT_TWICE yyerror ("Invalid expression statement");
1498 DRECOVER (expr_stmt);
1499 }
1500 | error OCB_TK
1501 {
1502 YYNOT_TWICE yyerror ("Invalid expression statement");
1503 DRECOVER (expr_stmt);
1504 }
1505 | error CCB_TK
1506 {
1507 YYNOT_TWICE yyerror ("Invalid expression statement");
1508 DRECOVER (expr_stmt);
1509 }
1510 | this_or_super OP_TK error
1511 {yyerror ("')' expected"); RECOVER;}
1512 | this_or_super OP_TK CP_TK error
1513 {
1514 parse_ctor_invocation_error ();
1515 RECOVER;
1516 }
1517 | this_or_super OP_TK argument_list error
1518 {yyerror ("')' expected"); RECOVER;}
1519 | this_or_super OP_TK argument_list CP_TK error
1520 {
1521 parse_ctor_invocation_error ();
1522 RECOVER;
1523 }
1524 | name DOT_TK SUPER_TK error
1525 {yyerror ("'(' expected"); RECOVER;}
1526 | name DOT_TK SUPER_TK OP_TK error
1527 {yyerror ("')' expected"); RECOVER;}
1528 | name DOT_TK SUPER_TK OP_TK argument_list error
1529 {yyerror ("')' expected"); RECOVER;}
1530 | name DOT_TK SUPER_TK OP_TK argument_list CP_TK error
1531 {yyerror ("';' expected"); RECOVER;}
1532 | name DOT_TK SUPER_TK OP_TK CP_TK error
1533 {yyerror ("';' expected"); RECOVER;}
1534 ;
1535
1536 statement_expression:
1537 assignment
1538 | pre_increment_expression
1539 | pre_decrement_expression
1540 | post_increment_expression
1541 | post_decrement_expression
1542 | method_invocation
1543 | class_instance_creation_expression
1544 ;
1545
1546 if_then_statement:
1547 IF_TK OP_TK expression CP_TK statement
1548 {
1549 $$ = build_if_else_statement ($2.location, $3,
1550 $5, NULL_TREE);
1551 }
1552 | IF_TK error
1553 {yyerror ("'(' expected"); RECOVER;}
1554 | IF_TK OP_TK error
1555 {yyerror ("Missing term"); RECOVER;}
1556 | IF_TK OP_TK expression error
1557 {yyerror ("')' expected"); RECOVER;}
1558 ;
1559
1560 if_then_else_statement:
1561 IF_TK OP_TK expression CP_TK statement_nsi ELSE_TK statement
1562 { $$ = build_if_else_statement ($2.location, $3, $5, $7); }
1563 ;
1564
1565 if_then_else_statement_nsi:
1566 IF_TK OP_TK expression CP_TK statement_nsi ELSE_TK statement_nsi
1567 { $$ = build_if_else_statement ($2.location, $3, $5, $7); }
1568 ;
1569
1570 switch_statement:
1571 switch_expression
1572 {
1573 enter_block ();
1574 }
1575 switch_block
1576 {
1577 /* Make into "proper list" of COMPOUND_EXPRs.
1578 I.e. make the last statement also have its own
1579 COMPOUND_EXPR. */
1580 maybe_absorb_scoping_blocks ();
1581 TREE_OPERAND ($1, 1) = exit_block ();
1582 $$ = build_debugable_stmt (EXPR_WFL_LINECOL ($1), $1);
1583 }
1584 ;
1585
1586 switch_expression:
1587 SWITCH_TK OP_TK expression CP_TK
1588 {
1589 $$ = build (SWITCH_EXPR, NULL_TREE, $3, NULL_TREE);
1590 EXPR_WFL_LINECOL ($$) = $2.location;
1591 }
1592 | SWITCH_TK error
1593 {yyerror ("'(' expected"); RECOVER;}
1594 | SWITCH_TK OP_TK error
1595 {yyerror ("Missing term or ')'"); DRECOVER(switch_statement);}
1596 | SWITCH_TK OP_TK expression CP_TK error
1597 {yyerror ("'{' expected"); RECOVER;}
1598 ;
1599
1600 /* Default assignment is there to avoid type node on switch_block
1601 node. */
1602
1603 switch_block:
1604 OCB_TK CCB_TK
1605 { $$ = NULL_TREE; }
1606 | OCB_TK switch_labels CCB_TK
1607 { $$ = NULL_TREE; }
1608 | OCB_TK switch_block_statement_groups CCB_TK
1609 { $$ = NULL_TREE; }
1610 | OCB_TK switch_block_statement_groups switch_labels CCB_TK
1611 { $$ = NULL_TREE; }
1612 ;
1613
1614 switch_block_statement_groups:
1615 switch_block_statement_group
1616 | switch_block_statement_groups switch_block_statement_group
1617 ;
1618
1619 switch_block_statement_group:
1620 switch_labels block_statements
1621 ;
1622
1623 switch_labels:
1624 switch_label
1625 | switch_labels switch_label
1626 ;
1627
1628 switch_label:
1629 CASE_TK constant_expression REL_CL_TK
1630 {
1631 tree lab = build1 (CASE_EXPR, NULL_TREE, $2);
1632 EXPR_WFL_LINECOL (lab) = $1.location;
1633 java_method_add_stmt (current_function_decl, lab);
1634 }
1635 | DEFAULT_TK REL_CL_TK
1636 {
1637 tree lab = build (DEFAULT_EXPR, NULL_TREE, NULL_TREE);
1638 EXPR_WFL_LINECOL (lab) = $1.location;
1639 java_method_add_stmt (current_function_decl, lab);
1640 }
1641 | CASE_TK error
1642 {yyerror ("Missing or invalid constant expression"); RECOVER;}
1643 | CASE_TK constant_expression error
1644 {yyerror ("':' expected"); RECOVER;}
1645 | DEFAULT_TK error
1646 {yyerror ("':' expected"); RECOVER;}
1647 ;
1648
1649 while_expression:
1650 WHILE_TK OP_TK expression CP_TK
1651 {
1652 tree body = build_loop_body ($2.location, $3, 0);
1653 $$ = build_new_loop (body);
1654 }
1655 ;
1656
1657 while_statement:
1658 while_expression statement
1659 { $$ = finish_loop_body (0, NULL_TREE, $2, 0); }
1660 | WHILE_TK error
1661 {YYERROR_NOW; yyerror ("'(' expected"); RECOVER;}
1662 | WHILE_TK OP_TK error
1663 {yyerror ("Missing term and ')' expected"); RECOVER;}
1664 | WHILE_TK OP_TK expression error
1665 {yyerror ("')' expected"); RECOVER;}
1666 ;
1667
1668 while_statement_nsi:
1669 while_expression statement_nsi
1670 { $$ = finish_loop_body (0, NULL_TREE, $2, 0); }
1671 ;
1672
1673 do_statement_begin:
1674 DO_TK
1675 {
1676 tree body = build_loop_body (0, NULL_TREE, 1);
1677 $$ = build_new_loop (body);
1678 }
1679 /* Need error handing here. FIXME */
1680 ;
1681
1682 do_statement:
1683 do_statement_begin statement WHILE_TK OP_TK expression CP_TK SC_TK
1684 { $$ = finish_loop_body ($4.location, $5, $2, 1); }
1685 ;
1686
1687 for_statement:
1688 for_begin SC_TK expression SC_TK for_update CP_TK statement
1689 {
1690 if (TREE_CODE_CLASS (TREE_CODE ($3)) == 'c')
1691 $3 = build_wfl_node ($3);
1692 $$ = finish_for_loop (EXPR_WFL_LINECOL ($3), $3, $5, $7);
1693 }
1694 | for_begin SC_TK SC_TK for_update CP_TK statement
1695 {
1696 $$ = finish_for_loop (0, NULL_TREE, $4, $6);
1697 /* We have not condition, so we get rid of the EXIT_EXPR */
1698 LOOP_EXPR_BODY_CONDITION_EXPR (LOOP_EXPR_BODY ($$), 0) =
1699 empty_stmt_node;
1700 }
1701 | for_begin SC_TK error
1702 {yyerror ("Invalid control expression"); RECOVER;}
1703 | for_begin SC_TK expression SC_TK error
1704 {yyerror ("Invalid update expression"); RECOVER;}
1705 | for_begin SC_TK SC_TK error
1706 {yyerror ("Invalid update expression"); RECOVER;}
1707 ;
1708
1709 for_statement_nsi:
1710 for_begin SC_TK expression SC_TK for_update CP_TK statement_nsi
1711 { $$ = finish_for_loop (EXPR_WFL_LINECOL ($3), $3, $5, $7);}
1712 | for_begin SC_TK SC_TK for_update CP_TK statement_nsi
1713 {
1714 $$ = finish_for_loop (0, NULL_TREE, $4, $6);
1715 /* We have not condition, so we get rid of the EXIT_EXPR */
1716 LOOP_EXPR_BODY_CONDITION_EXPR (LOOP_EXPR_BODY ($$), 0) =
1717 empty_stmt_node;
1718 }
1719 ;
1720
1721 for_header:
1722 FOR_TK OP_TK
1723 {
1724 /* This scope defined for local variable that may be
1725 defined within the scope of the for loop */
1726 enter_block ();
1727 }
1728 | FOR_TK error
1729 {yyerror ("'(' expected"); DRECOVER(for_1);}
1730 | FOR_TK OP_TK error
1731 {yyerror ("Invalid init statement"); RECOVER;}
1732 ;
1733
1734 for_begin:
1735 for_header for_init
1736 {
1737 /* We now declare the loop body. The loop is
1738 declared as a for loop. */
1739 tree body = build_loop_body (0, NULL_TREE, 0);
1740 $$ = build_new_loop (body);
1741 FOR_LOOP_P ($$) = 1;
1742 /* The loop is added to the current block the for
1743 statement is defined within */
1744 java_method_add_stmt (current_function_decl, $$);
1745 }
1746 ;
1747 for_init: /* Can be empty */
1748 { $$ = empty_stmt_node; }
1749 | statement_expression_list
1750 {
1751 /* Init statement recorded within the previously
1752 defined block scope */
1753 $$ = java_method_add_stmt (current_function_decl, $1);
1754 }
1755 | local_variable_declaration
1756 {
1757 /* Local variable are recorded within the previously
1758 defined block scope */
1759 $$ = NULL_TREE;
1760 }
1761 | statement_expression_list error
1762 {yyerror ("';' expected"); DRECOVER(for_init_1);}
1763 ;
1764
1765 for_update: /* Can be empty */
1766 {$$ = empty_stmt_node;}
1767 | statement_expression_list
1768 { $$ = build_debugable_stmt (BUILD_LOCATION (), $1); }
1769 ;
1770
1771 statement_expression_list:
1772 statement_expression
1773 { $$ = add_stmt_to_compound (NULL_TREE, NULL_TREE, $1); }
1774 | statement_expression_list C_TK statement_expression
1775 { $$ = add_stmt_to_compound ($1, NULL_TREE, $3); }
1776 | statement_expression_list C_TK error
1777 {yyerror ("Missing term"); RECOVER;}
1778 ;
1779
1780 break_statement:
1781 BREAK_TK SC_TK
1782 { $$ = build_bc_statement ($1.location, 1, NULL_TREE); }
1783 | BREAK_TK identifier SC_TK
1784 { $$ = build_bc_statement ($1.location, 1, $2); }
1785 | BREAK_TK error
1786 {yyerror ("Missing term"); RECOVER;}
1787 | BREAK_TK identifier error
1788 {yyerror ("';' expected"); RECOVER;}
1789 ;
1790
1791 continue_statement:
1792 CONTINUE_TK SC_TK
1793 { $$ = build_bc_statement ($1.location, 0, NULL_TREE); }
1794 | CONTINUE_TK identifier SC_TK
1795 { $$ = build_bc_statement ($1.location, 0, $2); }
1796 | CONTINUE_TK error
1797 {yyerror ("Missing term"); RECOVER;}
1798 | CONTINUE_TK identifier error
1799 {yyerror ("';' expected"); RECOVER;}
1800 ;
1801
1802 return_statement:
1803 RETURN_TK SC_TK
1804 { $$ = build_return ($1.location, NULL_TREE); }
1805 | RETURN_TK expression SC_TK
1806 { $$ = build_return ($1.location, $2); }
1807 | RETURN_TK error
1808 {yyerror ("Missing term"); RECOVER;}
1809 | RETURN_TK expression error
1810 {yyerror ("';' expected"); RECOVER;}
1811 ;
1812
1813 throw_statement:
1814 THROW_TK expression SC_TK
1815 {
1816 $$ = build1 (THROW_EXPR, NULL_TREE, $2);
1817 EXPR_WFL_LINECOL ($$) = $1.location;
1818 }
1819 | THROW_TK error
1820 {yyerror ("Missing term"); RECOVER;}
1821 | THROW_TK expression error
1822 {yyerror ("';' expected"); RECOVER;}
1823 ;
1824
1825 assert_statement:
1826 ASSERT_TK expression REL_CL_TK expression SC_TK
1827 {
1828 $$ = build_assertion ($1.location, $2, $4);
1829 }
1830 | ASSERT_TK expression SC_TK
1831 {
1832 $$ = build_assertion ($1.location, $2, NULL_TREE);
1833 }
1834 | ASSERT_TK error
1835 {yyerror ("Missing term"); RECOVER;}
1836 | ASSERT_TK expression error
1837 {yyerror ("';' expected"); RECOVER;}
1838 ;
1839
1840 synchronized_statement:
1841 synchronized OP_TK expression CP_TK block
1842 {
1843 $$ = build (SYNCHRONIZED_EXPR, NULL_TREE, $3, $5);
1844 EXPR_WFL_LINECOL ($$) =
1845 EXPR_WFL_LINECOL (MODIFIER_WFL (SYNCHRONIZED_TK));
1846 }
1847 | synchronized OP_TK expression CP_TK error
1848 {yyerror ("'{' expected"); RECOVER;}
1849 | synchronized error
1850 {yyerror ("'(' expected"); RECOVER;}
1851 | synchronized OP_TK error CP_TK
1852 {yyerror ("Missing term"); RECOVER;}
1853 | synchronized OP_TK error
1854 {yyerror ("Missing term"); RECOVER;}
1855 ;
1856
1857 synchronized:
1858 modifiers
1859 {
1860 check_modifiers (
1861 "Illegal modifier `%s'. Only `synchronized' was expected here",
1862 $1, ACC_SYNCHRONIZED);
1863 if ($1 != ACC_SYNCHRONIZED)
1864 MODIFIER_WFL (SYNCHRONIZED_TK) =
1865 build_wfl_node (NULL_TREE);
1866 }
1867 ;
1868
1869 try_statement:
1870 TRY_TK block catches
1871 { $$ = build_try_statement ($1.location, $2, $3); }
1872 | TRY_TK block finally
1873 { $$ = build_try_finally_statement ($1.location, $2, $3); }
1874 | TRY_TK block catches finally
1875 { $$ = build_try_finally_statement
1876 ($1.location, build_try_statement ($1.location,
1877 $2, $3), $4);
1878 }
1879 | TRY_TK error
1880 {yyerror ("'{' expected"); DRECOVER (try_statement);}
1881 ;
1882
1883 catches:
1884 catch_clause
1885 | catches catch_clause
1886 {
1887 TREE_CHAIN ($2) = $1;
1888 $$ = $2;
1889 }
1890 ;
1891
1892 catch_clause:
1893 catch_clause_parameter block
1894 {
1895 java_method_add_stmt (current_function_decl, $2);
1896 exit_block ();
1897 $$ = $1;
1898 }
1899 ;
1900
1901 catch_clause_parameter:
1902 CATCH_TK OP_TK formal_parameter CP_TK
1903 {
1904 /* We add a block to define a scope for
1905 formal_parameter (CCBP). The formal parameter is
1906 declared initialized by the appropriate function
1907 call */
1908 tree ccpb;
1909 tree init;
1910 if ($3)
1911 {
1912 ccpb = enter_block ();
1913 init = build_assignment
1914 (ASSIGN_TK, $2.location, TREE_PURPOSE ($3),
1915 build (JAVA_EXC_OBJ_EXPR, ptr_type_node));
1916 declare_local_variables (0, TREE_VALUE ($3),
1917 build_tree_list
1918 (TREE_PURPOSE ($3), init));
1919 $$ = build1 (CATCH_EXPR, NULL_TREE, ccpb);
1920 EXPR_WFL_LINECOL ($$) = $1.location;
1921 }
1922 else
1923 {
1924 $$ = error_mark_node;
1925 }
1926 }
1927 | CATCH_TK error
1928 {yyerror ("'(' expected"); RECOVER; $$ = NULL_TREE;}
1929 | CATCH_TK OP_TK error
1930 {
1931 yyerror ("Missing term or ')' expected");
1932 RECOVER; $$ = NULL_TREE;
1933 }
1934 | CATCH_TK OP_TK error CP_TK /* That's for () */
1935 {yyerror ("Missing term"); RECOVER; $$ = NULL_TREE;}
1936 ;
1937
1938 finally:
1939 FINALLY_TK block
1940 { $$ = $2; }
1941 | FINALLY_TK error
1942 {yyerror ("'{' expected"); RECOVER; }
1943 ;
1944
1945 /* 19.12 Production from 15: Expressions */
1946 primary:
1947 primary_no_new_array
1948 | array_creation_expression
1949 ;
1950
1951 primary_no_new_array:
1952 literal
1953 | THIS_TK
1954 { $$ = build_this ($1.location); }
1955 | OP_TK expression CP_TK
1956 {$$ = $2;}
1957 | class_instance_creation_expression
1958 | field_access
1959 | method_invocation
1960 | array_access
1961 | type_literals
1962 /* Added, JDK1.1 inner classes. Documentation is wrong
1963 refering to a 'ClassName' (class_name) rule that doesn't
1964 exist. Used name: instead. */
1965 | name DOT_TK THIS_TK
1966 {
1967 tree wfl = build_wfl_node (this_identifier_node);
1968 $$ = make_qualified_primary ($1, wfl, EXPR_WFL_LINECOL ($1));
1969 }
1970 | OP_TK expression error
1971 {yyerror ("')' expected"); RECOVER;}
1972 | name DOT_TK error
1973 {yyerror ("'class' or 'this' expected" ); RECOVER;}
1974 | primitive_type DOT_TK error
1975 {yyerror ("'class' expected" ); RECOVER;}
1976 | VOID_TK DOT_TK error
1977 {yyerror ("'class' expected" ); RECOVER;}
1978 ;
1979
1980 type_literals:
1981 name DOT_TK CLASS_TK
1982 { $$ = build_incomplete_class_ref ($2.location, $1); }
1983 | array_type DOT_TK CLASS_TK
1984 { $$ = build_incomplete_class_ref ($2.location, $1); }
1985 | primitive_type DOT_TK CLASS_TK
1986 { $$ = build_incomplete_class_ref ($2.location, $1); }
1987 | VOID_TK DOT_TK CLASS_TK
1988 {
1989 $$ = build_incomplete_class_ref ($2.location,
1990 void_type_node);
1991 }
1992 ;
1993
1994 class_instance_creation_expression:
1995 NEW_TK class_type OP_TK argument_list CP_TK
1996 { $$ = build_new_invocation ($2, $4); }
1997 | NEW_TK class_type OP_TK CP_TK
1998 { $$ = build_new_invocation ($2, NULL_TREE); }
1999 | anonymous_class_creation
2000 /* Added, JDK1.1 inner classes, modified to use name or
2001 primary instead of primary solely which couldn't work in
2002 all situations. */
2003 | something_dot_new identifier OP_TK CP_TK
2004 {
2005 tree ctor = build_new_invocation ($2, NULL_TREE);
2006 $$ = make_qualified_primary ($1, ctor,
2007 EXPR_WFL_LINECOL ($1));
2008 }
2009 | something_dot_new identifier OP_TK CP_TK class_body
2010 | something_dot_new identifier OP_TK argument_list CP_TK
2011 {
2012 tree ctor = build_new_invocation ($2, $4);
2013 $$ = make_qualified_primary ($1, ctor,
2014 EXPR_WFL_LINECOL ($1));
2015 }
2016 | something_dot_new identifier OP_TK argument_list CP_TK class_body
2017 | NEW_TK error SC_TK
2018 {yyerror ("'(' expected"); DRECOVER(new_1);}
2019 | NEW_TK class_type error
2020 {yyerror ("'(' expected"); RECOVER;}
2021 | NEW_TK class_type OP_TK error
2022 {yyerror ("')' or term expected"); RECOVER;}
2023 | NEW_TK class_type OP_TK argument_list error
2024 {yyerror ("')' expected"); RECOVER;}
2025 | something_dot_new error
2026 {YYERROR_NOW; yyerror ("Identifier expected"); RECOVER;}
2027 | something_dot_new identifier error
2028 {yyerror ("'(' expected"); RECOVER;}
2029 ;
2030
2031 /* Created after JDK1.1 rules originally added to
2032 class_instance_creation_expression, but modified to use
2033 'class_type' instead of 'TypeName' (type_name) which is mentioned
2034 in the documentation but doesn't exist. */
2035
2036 anonymous_class_creation:
2037 NEW_TK class_type OP_TK argument_list CP_TK
2038 { create_anonymous_class ($1.location, $2); }
2039 class_body
2040 {
2041 tree id = build_wfl_node (DECL_NAME (GET_CPC ()));
2042 EXPR_WFL_LINECOL (id) = EXPR_WFL_LINECOL ($2);
2043
2044 end_class_declaration (1);
2045
2046 /* Now we can craft the new expression */
2047 $$ = build_new_invocation (id, $4);
2048
2049 /* Note that we can't possibly be here if
2050 `class_type' is an interface (in which case the
2051 anonymous class extends Object and implements
2052 `class_type', hence its constructor can't have
2053 arguments.) */
2054
2055 /* Otherwise, the innerclass must feature a
2056 constructor matching `argument_list'. Anonymous
2057 classes are a bit special: it's impossible to
2058 define constructor for them, hence constructors
2059 must be generated following the hints provided by
2060 the `new' expression. Whether a super constructor
2061 of that nature exists or not is to be verified
2062 later on in verify_constructor_super.
2063
2064 It's during the expansion of a `new' statement
2065 refering to an anonymous class that a ctor will
2066 be generated for the anonymous class, with the
2067 right arguments. */
2068
2069 }
2070 | NEW_TK class_type OP_TK CP_TK
2071 { create_anonymous_class ($1.location, $2); }
2072 class_body
2073 {
2074 tree id = build_wfl_node (DECL_NAME (GET_CPC ()));
2075 EXPR_WFL_LINECOL (id) = EXPR_WFL_LINECOL ($2);
2076
2077 end_class_declaration (1);
2078
2079 /* Now we can craft the new expression. The
2080 statement doesn't need to be remember so that a
2081 constructor can be generated, since its signature
2082 is already known. */
2083 $$ = build_new_invocation (id, NULL_TREE);
2084 }
2085 ;
2086
2087 something_dot_new: /* Added, not part of the specs. */
2088 name DOT_TK NEW_TK
2089 { $$ = $1; }
2090 | primary DOT_TK NEW_TK
2091 { $$ = $1; }
2092 ;
2093
2094 argument_list:
2095 expression
2096 {
2097 $$ = tree_cons (NULL_TREE, $1, NULL_TREE);
2098 ctxp->formal_parameter_number = 1;
2099 }
2100 | argument_list C_TK expression
2101 {
2102 ctxp->formal_parameter_number += 1;
2103 $$ = tree_cons (NULL_TREE, $3, $1);
2104 }
2105 | argument_list C_TK error
2106 {yyerror ("Missing term"); RECOVER;}
2107 ;
2108
2109 array_creation_expression:
2110 NEW_TK primitive_type dim_exprs
2111 { $$ = build_newarray_node ($2, $3, 0); }
2112 | NEW_TK class_or_interface_type dim_exprs
2113 { $$ = build_newarray_node ($2, $3, 0); }
2114 | NEW_TK primitive_type dim_exprs dims
2115 { $$ = build_newarray_node ($2, $3, pop_current_osb (ctxp));}
2116 | NEW_TK class_or_interface_type dim_exprs dims
2117 { $$ = build_newarray_node ($2, $3, pop_current_osb (ctxp));}
2118 /* Added, JDK1.1 anonymous array. Initial documentation rule
2119 modified */
2120 | NEW_TK class_or_interface_type dims array_initializer
2121 {
2122 char *sig;
2123 int osb = pop_current_osb (ctxp);
2124 while (osb--)
2125 obstack_grow (&temporary_obstack, "[]", 2);
2126 obstack_1grow (&temporary_obstack, '\0');
2127 sig = obstack_finish (&temporary_obstack);
2128 $$ = build (NEW_ANONYMOUS_ARRAY_EXPR, NULL_TREE,
2129 $2, get_identifier (sig), $4);
2130 }
2131 | NEW_TK primitive_type dims array_initializer
2132 {
2133 int osb = pop_current_osb (ctxp);
2134 tree type = $2;
2135 while (osb--)
2136 type = build_java_array_type (type, -1);
2137 $$ = build (NEW_ANONYMOUS_ARRAY_EXPR, NULL_TREE,
2138 build_pointer_type (type), NULL_TREE, $4);
2139 }
2140 | NEW_TK error CSB_TK
2141 {yyerror ("'[' expected"); DRECOVER ("]");}
2142 | NEW_TK error OSB_TK
2143 {yyerror ("']' expected"); RECOVER;}
2144 ;
2145
2146 dim_exprs:
2147 dim_expr
2148 { $$ = build_tree_list (NULL_TREE, $1); }
2149 | dim_exprs dim_expr
2150 { $$ = tree_cons (NULL_TREE, $2, $$); }
2151 ;
2152
2153 dim_expr:
2154 OSB_TK expression CSB_TK
2155 {
2156 if (JNUMERIC_TYPE_P (TREE_TYPE ($2)))
2157 {
2158 $2 = build_wfl_node ($2);
2159 TREE_TYPE ($2) = NULL_TREE;
2160 }
2161 EXPR_WFL_LINECOL ($2) = $1.location;
2162 $$ = $2;
2163 }
2164 | OSB_TK expression error
2165 {yyerror ("']' expected"); RECOVER;}
2166 | OSB_TK error
2167 {
2168 yyerror ("Missing term");
2169 yyerror ("']' expected");
2170 RECOVER;
2171 }
2172 ;
2173
2174 dims:
2175 OSB_TK CSB_TK
2176 {
2177 int allocate = 0;
2178 /* If not initialized, allocate memory for the osb
2179 numbers stack */
2180 if (!ctxp->osb_limit)
2181 {
2182 allocate = ctxp->osb_limit = 32;
2183 ctxp->osb_depth = -1;
2184 }
2185 /* If capacity overflown, reallocate a bigger chunk */
2186 else if (ctxp->osb_depth+1 == ctxp->osb_limit)
2187 allocate = ctxp->osb_limit << 1;
2188
2189 if (allocate)
2190 {
2191 allocate *= sizeof (int);
2192 if (ctxp->osb_number)
2193 ctxp->osb_number = xrealloc (ctxp->osb_number,
2194 allocate);
2195 else
2196 ctxp->osb_number = xmalloc (allocate);
2197 }
2198 ctxp->osb_depth++;
2199 CURRENT_OSB (ctxp) = 1;
2200 }
2201 | dims OSB_TK CSB_TK
2202 { CURRENT_OSB (ctxp)++; }
2203 | dims OSB_TK error
2204 { yyerror ("']' expected"); RECOVER;}
2205 ;
2206
2207 field_access:
2208 primary DOT_TK identifier
2209 { $$ = make_qualified_primary ($1, $3, $2.location); }
2210 /* FIXME - REWRITE TO:
2211 { $$ = build_binop (COMPONENT_REF, $2.location, $1, $3); } */
2212 | SUPER_TK DOT_TK identifier
2213 {
2214 tree super_wfl = build_wfl_node (super_identifier_node);
2215 EXPR_WFL_LINECOL (super_wfl) = $1.location;
2216 $$ = make_qualified_name (super_wfl, $3, $2.location);
2217 }
2218 | SUPER_TK error
2219 {yyerror ("Field expected"); DRECOVER (super_field_acces);}
2220 ;
2221
2222 method_invocation:
2223 name OP_TK CP_TK
2224 { $$ = build_method_invocation ($1, NULL_TREE); }
2225 | name OP_TK argument_list CP_TK
2226 { $$ = build_method_invocation ($1, $3); }
2227 | primary DOT_TK identifier OP_TK CP_TK
2228 {
2229 if (TREE_CODE ($1) == THIS_EXPR)
2230 $$ = build_this_super_qualified_invocation
2231 (1, $3, NULL_TREE, 0, $2.location);
2232 else
2233 {
2234 tree invok = build_method_invocation ($3, NULL_TREE);
2235 $$ = make_qualified_primary ($1, invok, $2.location);
2236 }
2237 }
2238 | primary DOT_TK identifier OP_TK argument_list CP_TK
2239 {
2240 if (TREE_CODE ($1) == THIS_EXPR)
2241 $$ = build_this_super_qualified_invocation
2242 (1, $3, $5, 0, $2.location);
2243 else
2244 {
2245 tree invok = build_method_invocation ($3, $5);
2246 $$ = make_qualified_primary ($1, invok, $2.location);
2247 }
2248 }
2249 | SUPER_TK DOT_TK identifier OP_TK CP_TK
2250 {
2251 $$ = build_this_super_qualified_invocation
2252 (0, $3, NULL_TREE, $1.location, $2.location);
2253 }
2254 | SUPER_TK DOT_TK identifier OP_TK argument_list CP_TK
2255 {
2256 $$ = build_this_super_qualified_invocation
2257 (0, $3, $5, $1.location, $2.location);
2258 }
2259 /* Screws up thing. I let it here until I'm convinced it can
2260 be removed. FIXME
2261 | primary DOT_TK error
2262 {yyerror ("'(' expected"); DRECOVER(bad);} */
2263 | SUPER_TK DOT_TK error CP_TK
2264 { yyerror ("'(' expected"); DRECOVER (method_invocation); }
2265 | SUPER_TK DOT_TK error DOT_TK
2266 { yyerror ("'(' expected"); DRECOVER (method_invocation); }
2267 ;
2268
2269 array_access:
2270 name OSB_TK expression CSB_TK
2271 { $$ = build_array_ref ($2.location, $1, $3); }
2272 | primary_no_new_array OSB_TK expression CSB_TK
2273 { $$ = build_array_ref ($2.location, $1, $3); }
2274 | name OSB_TK error
2275 {
2276 yyerror ("Missing term and ']' expected");
2277 DRECOVER(array_access);
2278 }
2279 | name OSB_TK expression error
2280 {
2281 yyerror ("']' expected");
2282 DRECOVER(array_access);
2283 }
2284 | primary_no_new_array OSB_TK error
2285 {
2286 yyerror ("Missing term and ']' expected");
2287 DRECOVER(array_access);
2288 }
2289 | primary_no_new_array OSB_TK expression error
2290 {
2291 yyerror ("']' expected");
2292 DRECOVER(array_access);
2293 }
2294 ;
2295
2296 postfix_expression:
2297 primary
2298 | name
2299 | post_increment_expression
2300 | post_decrement_expression
2301 ;
2302
2303 post_increment_expression:
2304 postfix_expression INCR_TK
2305 { $$ = build_incdec ($2.token, $2.location, $1, 1); }
2306 ;
2307
2308 post_decrement_expression:
2309 postfix_expression DECR_TK
2310 { $$ = build_incdec ($2.token, $2.location, $1, 1); }
2311 ;
2312
2313 trap_overflow_corner_case:
2314 pre_increment_expression
2315 | pre_decrement_expression
2316 | PLUS_TK unary_expression
2317 {$$ = build_unaryop ($1.token, $1.location, $2); }
2318 | unary_expression_not_plus_minus
2319 | PLUS_TK error
2320 {yyerror ("Missing term"); RECOVER}
2321 ;
2322
2323 unary_expression:
2324 trap_overflow_corner_case
2325 {
2326 error_if_numeric_overflow ($1);
2327 $$ = $1;
2328 }
2329 | MINUS_TK trap_overflow_corner_case
2330 {$$ = build_unaryop ($1.token, $1.location, $2); }
2331 | MINUS_TK error
2332 {yyerror ("Missing term"); RECOVER}
2333 ;
2334
2335 pre_increment_expression:
2336 INCR_TK unary_expression
2337 {$$ = build_incdec ($1.token, $1.location, $2, 0); }
2338 | INCR_TK error
2339 {yyerror ("Missing term"); RECOVER}
2340 ;
2341
2342 pre_decrement_expression:
2343 DECR_TK unary_expression
2344 {$$ = build_incdec ($1.token, $1.location, $2, 0); }
2345 | DECR_TK error
2346 {yyerror ("Missing term"); RECOVER}
2347 ;
2348
2349 unary_expression_not_plus_minus:
2350 postfix_expression
2351 | NOT_TK unary_expression
2352 {$$ = build_unaryop ($1.token, $1.location, $2); }
2353 | NEG_TK unary_expression
2354 {$$ = build_unaryop ($1.token, $1.location, $2); }
2355 | cast_expression
2356 | NOT_TK error
2357 {yyerror ("Missing term"); RECOVER}
2358 | NEG_TK error
2359 {yyerror ("Missing term"); RECOVER}
2360 ;
2361
2362 cast_expression: /* Error handling here is potentially weak */
2363 OP_TK primitive_type dims CP_TK unary_expression
2364 {
2365 tree type = $2;
2366 int osb = pop_current_osb (ctxp);
2367 while (osb--)
2368 type = build_java_array_type (type, -1);
2369 $$ = build_cast ($1.location, type, $5);
2370 }
2371 | OP_TK primitive_type CP_TK unary_expression
2372 { $$ = build_cast ($1.location, $2, $4); }
2373 | OP_TK expression CP_TK unary_expression_not_plus_minus
2374 { $$ = build_cast ($1.location, $2, $4); }
2375 | OP_TK name dims CP_TK unary_expression_not_plus_minus
2376 {
2377 const char *ptr;
2378 int osb = pop_current_osb (ctxp);
2379 obstack_grow (&temporary_obstack,
2380 IDENTIFIER_POINTER (EXPR_WFL_NODE ($2)),
2381 IDENTIFIER_LENGTH (EXPR_WFL_NODE ($2)));
2382 while (osb--)
2383 obstack_grow (&temporary_obstack, "[]", 2);
2384 obstack_1grow (&temporary_obstack, '\0');
2385 ptr = obstack_finish (&temporary_obstack);
2386 EXPR_WFL_NODE ($2) = get_identifier (ptr);
2387 $$ = build_cast ($1.location, $2, $5);
2388 }
2389 | OP_TK primitive_type OSB_TK error
2390 {yyerror ("']' expected, invalid type expression");}
2391 | OP_TK error
2392 {
2393 YYNOT_TWICE yyerror ("Invalid type expression"); RECOVER;
2394 RECOVER;
2395 }
2396 | OP_TK primitive_type dims CP_TK error
2397 {yyerror ("Missing term"); RECOVER;}
2398 | OP_TK primitive_type CP_TK error
2399 {yyerror ("Missing term"); RECOVER;}
2400 | OP_TK name dims CP_TK error
2401 {yyerror ("Missing term"); RECOVER;}
2402 ;
2403
2404 multiplicative_expression:
2405 unary_expression
2406 | multiplicative_expression MULT_TK unary_expression
2407 {
2408 $$ = build_binop (BINOP_LOOKUP ($2.token),
2409 $2.location, $1, $3);
2410 }
2411 | multiplicative_expression DIV_TK unary_expression
2412 {
2413 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2414 $1, $3);
2415 }
2416 | multiplicative_expression REM_TK unary_expression
2417 {
2418 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2419 $1, $3);
2420 }
2421 | multiplicative_expression MULT_TK error
2422 {yyerror ("Missing term"); RECOVER;}
2423 | multiplicative_expression DIV_TK error
2424 {yyerror ("Missing term"); RECOVER;}
2425 | multiplicative_expression REM_TK error
2426 {yyerror ("Missing term"); RECOVER;}
2427 ;
2428
2429 additive_expression:
2430 multiplicative_expression
2431 | additive_expression PLUS_TK multiplicative_expression
2432 {
2433 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2434 $1, $3);
2435 }
2436 | additive_expression MINUS_TK multiplicative_expression
2437 {
2438 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2439 $1, $3);
2440 }
2441 | additive_expression PLUS_TK error
2442 {yyerror ("Missing term"); RECOVER;}
2443 | additive_expression MINUS_TK error
2444 {yyerror ("Missing term"); RECOVER;}
2445 ;
2446
2447 shift_expression:
2448 additive_expression
2449 | shift_expression LS_TK additive_expression
2450 {
2451 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2452 $1, $3);
2453 }
2454 | shift_expression SRS_TK additive_expression
2455 {
2456 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2457 $1, $3);
2458 }
2459 | shift_expression ZRS_TK additive_expression
2460 {
2461 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2462 $1, $3);
2463 }
2464 | shift_expression LS_TK error
2465 {yyerror ("Missing term"); RECOVER;}
2466 | shift_expression SRS_TK error
2467 {yyerror ("Missing term"); RECOVER;}
2468 | shift_expression ZRS_TK error
2469 {yyerror ("Missing term"); RECOVER;}
2470 ;
2471
2472 relational_expression:
2473 shift_expression
2474 | relational_expression LT_TK shift_expression
2475 {
2476 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2477 $1, $3);
2478 }
2479 | relational_expression GT_TK shift_expression
2480 {
2481 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2482 $1, $3);
2483 }
2484 | relational_expression LTE_TK shift_expression
2485 {
2486 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2487 $1, $3);
2488 }
2489 | relational_expression GTE_TK shift_expression
2490 {
2491 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2492 $1, $3);
2493 }
2494 | relational_expression INSTANCEOF_TK reference_type
2495 { $$ = build_binop (INSTANCEOF_EXPR, $2.location, $1, $3); }
2496 | relational_expression LT_TK error
2497 {yyerror ("Missing term"); RECOVER;}
2498 | relational_expression GT_TK error
2499 {yyerror ("Missing term"); RECOVER;}
2500 | relational_expression LTE_TK error
2501 {yyerror ("Missing term"); RECOVER;}
2502 | relational_expression GTE_TK error
2503 {yyerror ("Missing term"); RECOVER;}
2504 | relational_expression INSTANCEOF_TK error
2505 {yyerror ("Invalid reference type"); RECOVER;}
2506 ;
2507
2508 equality_expression:
2509 relational_expression
2510 | equality_expression EQ_TK relational_expression
2511 {
2512 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2513 $1, $3);
2514 }
2515 | equality_expression NEQ_TK relational_expression
2516 {
2517 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2518 $1, $3);
2519 }
2520 | equality_expression EQ_TK error
2521 {yyerror ("Missing term"); RECOVER;}
2522 | equality_expression NEQ_TK error
2523 {yyerror ("Missing term"); RECOVER;}
2524 ;
2525
2526 and_expression:
2527 equality_expression
2528 | and_expression AND_TK equality_expression
2529 {
2530 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2531 $1, $3);
2532 }
2533 | and_expression AND_TK error
2534 {yyerror ("Missing term"); RECOVER;}
2535 ;
2536
2537 exclusive_or_expression:
2538 and_expression
2539 | exclusive_or_expression XOR_TK and_expression
2540 {
2541 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2542 $1, $3);
2543 }
2544 | exclusive_or_expression XOR_TK error
2545 {yyerror ("Missing term"); RECOVER;}
2546 ;
2547
2548 inclusive_or_expression:
2549 exclusive_or_expression
2550 | inclusive_or_expression OR_TK exclusive_or_expression
2551 {
2552 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2553 $1, $3);
2554 }
2555 | inclusive_or_expression OR_TK error
2556 {yyerror ("Missing term"); RECOVER;}
2557 ;
2558
2559 conditional_and_expression:
2560 inclusive_or_expression
2561 | conditional_and_expression BOOL_AND_TK inclusive_or_expression
2562 {
2563 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2564 $1, $3);
2565 }
2566 | conditional_and_expression BOOL_AND_TK error
2567 {yyerror ("Missing term"); RECOVER;}
2568 ;
2569
2570 conditional_or_expression:
2571 conditional_and_expression
2572 | conditional_or_expression BOOL_OR_TK conditional_and_expression
2573 {
2574 $$ = build_binop (BINOP_LOOKUP ($2.token), $2.location,
2575 $1, $3);
2576 }
2577 | conditional_or_expression BOOL_OR_TK error
2578 {yyerror ("Missing term"); RECOVER;}
2579 ;
2580
2581 conditional_expression: /* Error handling here is weak */
2582 conditional_or_expression
2583 | conditional_or_expression REL_QM_TK expression REL_CL_TK conditional_expression
2584 {
2585 $$ = build (CONDITIONAL_EXPR, NULL_TREE, $1, $3, $5);
2586 EXPR_WFL_LINECOL ($$) = $2.location;
2587 }
2588 | conditional_or_expression REL_QM_TK REL_CL_TK error
2589 {
2590 YYERROR_NOW;
2591 yyerror ("Missing term");
2592 DRECOVER (1);
2593 }
2594 | conditional_or_expression REL_QM_TK error
2595 {yyerror ("Missing term"); DRECOVER (2);}
2596 | conditional_or_expression REL_QM_TK expression REL_CL_TK error
2597 {yyerror ("Missing term"); DRECOVER (3);}
2598 ;
2599
2600 assignment_expression:
2601 conditional_expression
2602 | assignment
2603 ;
2604
2605 assignment:
2606 left_hand_side assignment_operator assignment_expression
2607 { $$ = build_assignment ($2.token, $2.location, $1, $3); }
2608 | left_hand_side assignment_operator error
2609 {
2610 YYNOT_TWICE yyerror ("Missing term");
2611 DRECOVER (assign);
2612 }
2613 ;
2614
2615 left_hand_side:
2616 name
2617 | field_access
2618 | array_access
2619 ;
2620
2621 assignment_operator:
2622 ASSIGN_ANY_TK
2623 | ASSIGN_TK
2624 ;
2625
2626 expression:
2627 assignment_expression
2628 ;
2629
2630 constant_expression:
2631 expression
2632 ;
2633
2634 %%
2635
2636 /* Helper function to retrieve an OSB count. Should be used when the
2637 `dims:' rule is being used. */
2638
2639 static int
2640 pop_current_osb (struct parser_ctxt *ctxp)
2641 {
2642 int to_return;
2643
2644 if (ctxp->osb_depth < 0)
2645 abort ();
2646
2647 to_return = CURRENT_OSB (ctxp);
2648 ctxp->osb_depth--;
2649
2650 return to_return;
2651 }
2652
2653
2654
2655 /* This section of the code deal with save/restoring parser contexts.
2656 Add mode documentation here. FIXME */
2657
2658 /* Helper function. Create a new parser context. With
2659 COPY_FROM_PREVIOUS set to a nonzero value, content of the previous
2660 context is copied, otherwise, the new context is zeroed. The newly
2661 created context becomes the current one. */
2662
2663 static void
create_new_parser_context(int copy_from_previous)2664 create_new_parser_context (int copy_from_previous)
2665 {
2666 struct parser_ctxt *new;
2667
2668 new = ggc_alloc (sizeof (struct parser_ctxt));
2669 if (copy_from_previous)
2670 {
2671 memcpy (new, ctxp, sizeof (struct parser_ctxt));
2672 /* This flag, indicating the context saves global values,
2673 should only be set by java_parser_context_save_global. */
2674 new->saved_data_ctx = 0;
2675 }
2676 else
2677 memset (new, 0, sizeof (struct parser_ctxt));
2678
2679 new->next = ctxp;
2680 ctxp = new;
2681 }
2682
2683 /* Create a new parser context and make it the current one. */
2684
2685 void
java_push_parser_context(void)2686 java_push_parser_context (void)
2687 {
2688 create_new_parser_context (0);
2689 }
2690
2691 void
java_pop_parser_context(int generate)2692 java_pop_parser_context (int generate)
2693 {
2694 tree current;
2695 struct parser_ctxt *toFree, *next;
2696
2697 if (!ctxp)
2698 return;
2699
2700 toFree = ctxp;
2701 next = ctxp->next;
2702 if (next)
2703 {
2704 input_line = ctxp->lineno;
2705 current_class = ctxp->class_type;
2706 }
2707
2708 /* If the old and new lexers differ, then free the old one. */
2709 if (ctxp->lexer && next && ctxp->lexer != next->lexer)
2710 java_destroy_lexer (ctxp->lexer);
2711
2712 /* Set the single import class file flag to 0 for the current list
2713 of imported things */
2714 for (current = ctxp->import_list; current; current = TREE_CHAIN (current))
2715 IS_A_SINGLE_IMPORT_CLASSFILE_NAME_P (TREE_VALUE (current)) = 0;
2716
2717 /* And restore those of the previous context */
2718 if ((ctxp = next)) /* Assignment is really meant here */
2719 for (current = ctxp->import_list; current; current = TREE_CHAIN (current))
2720 IS_A_SINGLE_IMPORT_CLASSFILE_NAME_P (TREE_VALUE (current)) = 1;
2721
2722 /* If we pushed a context to parse a class intended to be generated,
2723 we keep it so we can remember the class. What we could actually
2724 do is to just update a list of class names. */
2725 if (generate)
2726 {
2727 toFree->next = ctxp_for_generation;
2728 ctxp_for_generation = toFree;
2729 }
2730 }
2731
2732 /* Create a parser context for the use of saving some global
2733 variables. */
2734
2735 void
java_parser_context_save_global(void)2736 java_parser_context_save_global (void)
2737 {
2738 if (!ctxp)
2739 {
2740 java_push_parser_context ();
2741 ctxp->saved_data_ctx = 1;
2742 }
2743
2744 /* If this context already stores data, create a new one suitable
2745 for data storage. */
2746 else if (ctxp->saved_data)
2747 {
2748 create_new_parser_context (1);
2749 ctxp->saved_data_ctx = 1;
2750 }
2751
2752 ctxp->lineno = input_line;
2753 ctxp->class_type = current_class;
2754 ctxp->filename = input_filename;
2755 ctxp->function_decl = current_function_decl;
2756 ctxp->saved_data = 1;
2757 }
2758
2759 /* Restore some global variables from the previous context. Make the
2760 previous context the current one. */
2761
2762 void
java_parser_context_restore_global(void)2763 java_parser_context_restore_global (void)
2764 {
2765 input_line = ctxp->lineno;
2766 current_class = ctxp->class_type;
2767 input_filename = ctxp->filename;
2768 if (wfl_operator)
2769 {
2770 tree s;
2771 BUILD_FILENAME_IDENTIFIER_NODE (s, input_filename);
2772 EXPR_WFL_FILENAME_NODE (wfl_operator) = s;
2773 }
2774 current_function_decl = ctxp->function_decl;
2775 ctxp->saved_data = 0;
2776 if (ctxp->saved_data_ctx)
2777 java_pop_parser_context (0);
2778 }
2779
2780 /* Suspend vital data for the current class/function being parsed so
2781 that an other class can be parsed. Used to let local/anonymous
2782 classes be parsed. */
2783
2784 static void
java_parser_context_suspend(void)2785 java_parser_context_suspend (void)
2786 {
2787 /* This makes debugging through java_debug_context easier */
2788 static const char *const name = "<inner buffer context>";
2789
2790 /* Duplicate the previous context, use it to save the globals we're
2791 interested in */
2792 create_new_parser_context (1);
2793 ctxp->function_decl = current_function_decl;
2794 ctxp->class_type = current_class;
2795
2796 /* Then create a new context which inherits all data from the
2797 previous one. This will be the new current context */
2798 create_new_parser_context (1);
2799
2800 /* Help debugging */
2801 ctxp->next->filename = name;
2802 }
2803
2804 /* Resume vital data for the current class/function being parsed so
2805 that an other class can be parsed. Used to let local/anonymous
2806 classes be parsed. The trick is the data storing file position
2807 informations must be restored to their current value, so parsing
2808 can resume as if no context was ever saved. */
2809
2810 static void
java_parser_context_resume(void)2811 java_parser_context_resume (void)
2812 {
2813 struct parser_ctxt *old = ctxp; /* This one is to be discarded */
2814 struct parser_ctxt *saver = old->next; /* This one contain saved info */
2815 struct parser_ctxt *restored = saver->next; /* This one is the old current */
2816
2817 /* We need to inherit the list of classes to complete/generate */
2818 restored->classd_list = old->classd_list;
2819 restored->class_list = old->class_list;
2820
2821 /* Restore the current class and function from the saver */
2822 current_class = saver->class_type;
2823 current_function_decl = saver->function_decl;
2824
2825 /* Retrieve the restored context */
2826 ctxp = restored;
2827
2828 /* Re-installed the data for the parsing to carry on */
2829 memcpy (&ctxp->marker_begining, &old->marker_begining,
2830 (size_t)(&ctxp->marker_end - &ctxp->marker_begining));
2831 }
2832
2833 /* Add a new anchor node to which all statement(s) initializing static
2834 and non static initialized upon declaration field(s) will be
2835 linked. */
2836
2837 static void
java_parser_context_push_initialized_field(void)2838 java_parser_context_push_initialized_field (void)
2839 {
2840 tree node;
2841
2842 node = build_tree_list (NULL_TREE, NULL_TREE);
2843 TREE_CHAIN (node) = CPC_STATIC_INITIALIZER_LIST (ctxp);
2844 CPC_STATIC_INITIALIZER_LIST (ctxp) = node;
2845
2846 node = build_tree_list (NULL_TREE, NULL_TREE);
2847 TREE_CHAIN (node) = CPC_INITIALIZER_LIST (ctxp);
2848 CPC_INITIALIZER_LIST (ctxp) = node;
2849
2850 node = build_tree_list (NULL_TREE, NULL_TREE);
2851 TREE_CHAIN (node) = CPC_INSTANCE_INITIALIZER_LIST (ctxp);
2852 CPC_INSTANCE_INITIALIZER_LIST (ctxp) = node;
2853 }
2854
2855 /* Pop the lists of initialized field. If this lists aren't empty,
2856 remember them so we can use it to create and populate the finit$
2857 or <clinit> functions. */
2858
2859 static void
java_parser_context_pop_initialized_field(void)2860 java_parser_context_pop_initialized_field (void)
2861 {
2862 tree stmts;
2863 tree class_type = TREE_TYPE (GET_CPC ());
2864
2865 if (CPC_INITIALIZER_LIST (ctxp))
2866 {
2867 stmts = CPC_INITIALIZER_STMT (ctxp);
2868 CPC_INITIALIZER_LIST (ctxp) = TREE_CHAIN (CPC_INITIALIZER_LIST (ctxp));
2869 if (stmts && !java_error_count)
2870 TYPE_FINIT_STMT_LIST (class_type) = reorder_static_initialized (stmts);
2871 }
2872
2873 if (CPC_STATIC_INITIALIZER_LIST (ctxp))
2874 {
2875 stmts = CPC_STATIC_INITIALIZER_STMT (ctxp);
2876 CPC_STATIC_INITIALIZER_LIST (ctxp) =
2877 TREE_CHAIN (CPC_STATIC_INITIALIZER_LIST (ctxp));
2878 /* Keep initialization in order to enforce 8.5 */
2879 if (stmts && !java_error_count)
2880 TYPE_CLINIT_STMT_LIST (class_type) = nreverse (stmts);
2881 }
2882
2883 /* JDK 1.1 instance initializers */
2884 if (CPC_INSTANCE_INITIALIZER_LIST (ctxp))
2885 {
2886 stmts = CPC_INSTANCE_INITIALIZER_STMT (ctxp);
2887 CPC_INSTANCE_INITIALIZER_LIST (ctxp) =
2888 TREE_CHAIN (CPC_INSTANCE_INITIALIZER_LIST (ctxp));
2889 if (stmts && !java_error_count)
2890 TYPE_II_STMT_LIST (class_type) = nreverse (stmts);
2891 }
2892 }
2893
2894 static tree
reorder_static_initialized(tree list)2895 reorder_static_initialized (tree list)
2896 {
2897 /* We have to keep things in order. The alias initializer have to
2898 come first, then the initialized regular field, in reverse to
2899 keep them in lexical order. */
2900 tree marker, previous = NULL_TREE;
2901 for (marker = list; marker; previous = marker, marker = TREE_CHAIN (marker))
2902 if (TREE_CODE (marker) == TREE_LIST
2903 && !TREE_VALUE (marker) && !TREE_PURPOSE (marker))
2904 break;
2905
2906 /* No static initialized, the list is fine as is */
2907 if (!previous)
2908 list = TREE_CHAIN (marker);
2909
2910 /* No marker? reverse the whole list */
2911 else if (!marker)
2912 list = nreverse (list);
2913
2914 /* Otherwise, reverse what's after the marker and the new reordered
2915 sublist will replace the marker. */
2916 else
2917 {
2918 TREE_CHAIN (previous) = NULL_TREE;
2919 list = nreverse (list);
2920 list = chainon (TREE_CHAIN (marker), list);
2921 }
2922 return list;
2923 }
2924
2925 /* Helper functions to dump the parser context stack. */
2926
2927 #define TAB_CONTEXT(C) \
2928 {int i; for (i = 0; i < (C); i++) fputc (' ', stderr);}
2929
2930 static void
java_debug_context_do(int tab)2931 java_debug_context_do (int tab)
2932 {
2933 struct parser_ctxt *copy = ctxp;
2934 while (copy)
2935 {
2936 TAB_CONTEXT (tab);
2937 fprintf (stderr, "ctxt: 0x%0lX\n", (unsigned long)copy);
2938 TAB_CONTEXT (tab);
2939 fprintf (stderr, "filename: %s\n", copy->filename);
2940 TAB_CONTEXT (tab);
2941 fprintf (stderr, "lineno: %d\n", copy->lineno);
2942 TAB_CONTEXT (tab);
2943 fprintf (stderr, "package: %s\n",
2944 (copy->package ?
2945 IDENTIFIER_POINTER (copy->package) : "<none>"));
2946 TAB_CONTEXT (tab);
2947 fprintf (stderr, "context for saving: %d\n", copy->saved_data_ctx);
2948 TAB_CONTEXT (tab);
2949 fprintf (stderr, "saved data: %d\n", copy->saved_data);
2950 copy = copy->next;
2951 tab += 2;
2952 }
2953 }
2954
2955 /* Dump the stacked up parser contexts. Intended to be called from a
2956 debugger. */
2957
2958 void
java_debug_context(void)2959 java_debug_context (void)
2960 {
2961 java_debug_context_do (0);
2962 }
2963
2964
2965
2966 /* Flag for the error report routine to issue the error the first time
2967 it's called (overriding the default behavior which is to drop the
2968 first invocation and honor the second one, taking advantage of a
2969 richer context. */
2970 static int force_error = 0;
2971
2972 /* Reporting an constructor invocation error. */
2973 static void
parse_ctor_invocation_error(void)2974 parse_ctor_invocation_error (void)
2975 {
2976 if (DECL_CONSTRUCTOR_P (current_function_decl))
2977 yyerror ("Constructor invocation must be first thing in a constructor");
2978 else
2979 yyerror ("Only constructors can invoke constructors");
2980 }
2981
2982 /* Reporting JDK1.1 features not implemented. */
2983
2984 static tree
parse_jdk1_1_error(const char * msg)2985 parse_jdk1_1_error (const char *msg)
2986 {
2987 sorry (": `%s' JDK1.1(TM) feature", msg);
2988 java_error_count++;
2989 return empty_stmt_node;
2990 }
2991
2992 static int do_warning = 0;
2993
2994 void
yyerror(const char * msg)2995 yyerror (const char *msg)
2996 {
2997 static java_lc elc;
2998 static int prev_lineno;
2999 static const char *prev_msg;
3000
3001 int save_lineno;
3002 char *remainder, *code_from_source;
3003
3004 if (!force_error && prev_lineno == input_line)
3005 return;
3006
3007 /* Save current error location but report latter, when the context is
3008 richer. */
3009 if (ctxp->java_error_flag == 0)
3010 {
3011 ctxp->java_error_flag = 1;
3012 elc = ctxp->elc;
3013 /* Do something to use the previous line if we're reaching the
3014 end of the file... */
3015 #ifdef VERBOSE_SKELETON
3016 printf ("* Error detected (%s)\n", (msg ? msg : "(null)"));
3017 #endif
3018 return;
3019 }
3020
3021 /* Ignore duplicate message on the same line. BTW, this is dubious. FIXME */
3022 if (!force_error && msg == prev_msg && prev_lineno == elc.line)
3023 return;
3024
3025 ctxp->java_error_flag = 0;
3026 if (do_warning)
3027 java_warning_count++;
3028 else
3029 java_error_count++;
3030
3031 if (elc.col == 0 && msg && msg[1] == ';')
3032 {
3033 elc.col = ctxp->p_line->char_col-1;
3034 elc.line = ctxp->p_line->lineno;
3035 }
3036
3037 save_lineno = input_line;
3038 prev_lineno = input_line = elc.line;
3039 prev_msg = msg;
3040
3041 code_from_source = java_get_line_col (ctxp->filename, elc.line, elc.col);
3042 obstack_grow0 (&temporary_obstack,
3043 code_from_source, strlen (code_from_source));
3044 remainder = obstack_finish (&temporary_obstack);
3045 if (do_warning)
3046 warning ("%s.\n%s", msg, remainder);
3047 else
3048 error ("%s.\n%s", msg, remainder);
3049
3050 /* This allow us to cheaply avoid an extra 'Invalid expression
3051 statement' error report when errors have been already reported on
3052 the same line. This occurs when we report an error but don't have
3053 a synchronization point other than ';', which
3054 expression_statement is the only one to take care of. */
3055 ctxp->prevent_ese = input_line = save_lineno;
3056 }
3057
3058 static void
issue_warning_error_from_context(tree cl,const char * msg,va_list ap)3059 issue_warning_error_from_context (tree cl, const char *msg, va_list ap)
3060 {
3061 const char *saved, *saved_input_filename;
3062 char buffer [4096];
3063 vsprintf (buffer, msg, ap);
3064 force_error = 1;
3065
3066 ctxp->elc.line = EXPR_WFL_LINENO (cl);
3067 ctxp->elc.col = (EXPR_WFL_COLNO (cl) == 0xfff ? -1 :
3068 (EXPR_WFL_COLNO (cl) == 0xffe ? -2 : EXPR_WFL_COLNO (cl)));
3069
3070 /* We have a CL, that's a good reason for using it if it contains data */
3071 saved = ctxp->filename;
3072 if (TREE_CODE (cl) == EXPR_WITH_FILE_LOCATION && EXPR_WFL_FILENAME_NODE (cl))
3073 ctxp->filename = EXPR_WFL_FILENAME (cl);
3074 saved_input_filename = input_filename;
3075 input_filename = ctxp->filename;
3076 java_error (NULL);
3077 java_error (buffer);
3078 ctxp->filename = saved;
3079 input_filename = saved_input_filename;
3080 force_error = 0;
3081 }
3082
3083 /* Issue an error message at a current source line CL */
3084
3085 void
parse_error_context(tree cl,const char * msg,...)3086 parse_error_context (tree cl, const char *msg, ...)
3087 {
3088 va_list ap;
3089 va_start (ap, msg);
3090 issue_warning_error_from_context (cl, msg, ap);
3091 va_end (ap);
3092 }
3093
3094 /* Issue a warning at a current source line CL */
3095
3096 static void
parse_warning_context(tree cl,const char * msg,...)3097 parse_warning_context (tree cl, const char *msg, ...)
3098 {
3099 va_list ap;
3100 va_start (ap, msg);
3101
3102 force_error = do_warning = 1;
3103 issue_warning_error_from_context (cl, msg, ap);
3104 do_warning = force_error = 0;
3105 va_end (ap);
3106 }
3107
3108 static tree
find_expr_with_wfl(tree node)3109 find_expr_with_wfl (tree node)
3110 {
3111 while (node)
3112 {
3113 char code;
3114 tree to_return;
3115
3116 switch (TREE_CODE (node))
3117 {
3118 case BLOCK:
3119 node = BLOCK_EXPR_BODY (node);
3120 continue;
3121
3122 case COMPOUND_EXPR:
3123 to_return = find_expr_with_wfl (TREE_OPERAND (node, 0));
3124 if (to_return)
3125 return to_return;
3126 node = TREE_OPERAND (node, 1);
3127 continue;
3128
3129 case LOOP_EXPR:
3130 node = TREE_OPERAND (node, 0);
3131 continue;
3132
3133 case LABELED_BLOCK_EXPR:
3134 node = TREE_OPERAND (node, 1);
3135 continue;
3136
3137 default:
3138 code = TREE_CODE_CLASS (TREE_CODE (node));
3139 if (((code == '1') || (code == '2') || (code == 'e'))
3140 && EXPR_WFL_LINECOL (node))
3141 return node;
3142 return NULL_TREE;
3143 }
3144 }
3145 return NULL_TREE;
3146 }
3147
3148 /* Issue a missing return statement error. Uses METHOD to figure the
3149 last line of the method the error occurs in. */
3150
3151 static void
missing_return_error(tree method)3152 missing_return_error (tree method)
3153 {
3154 EXPR_WFL_SET_LINECOL (wfl_operator, DECL_FUNCTION_LAST_LINE (method), -2);
3155 parse_error_context (wfl_operator, "Missing return statement");
3156 }
3157
3158 /* Issue an unreachable statement error. From NODE, find the next
3159 statement to report appropriately. */
3160 static void
unreachable_stmt_error(tree node)3161 unreachable_stmt_error (tree node)
3162 {
3163 /* Browse node to find the next expression node that has a WFL. Use
3164 the location to report the error */
3165 if (TREE_CODE (node) == COMPOUND_EXPR)
3166 node = find_expr_with_wfl (TREE_OPERAND (node, 1));
3167 else
3168 node = find_expr_with_wfl (node);
3169
3170 if (node)
3171 {
3172 EXPR_WFL_SET_LINECOL (wfl_operator, EXPR_WFL_LINENO (node), -2);
3173 parse_error_context (wfl_operator, "Unreachable statement");
3174 }
3175 else
3176 abort ();
3177 }
3178
3179 static int
not_accessible_field_error(tree wfl,tree decl)3180 not_accessible_field_error (tree wfl, tree decl)
3181 {
3182 parse_error_context
3183 (wfl, "Can't access %s field `%s.%s' from `%s'",
3184 java_accstring_lookup (get_access_flags_from_decl (decl)),
3185 GET_TYPE_NAME (DECL_CONTEXT (decl)),
3186 IDENTIFIER_POINTER (DECL_NAME (decl)),
3187 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (current_class))));
3188 return 1;
3189 }
3190
3191 int
java_report_errors(void)3192 java_report_errors (void)
3193 {
3194 if (java_error_count)
3195 fprintf (stderr, "%d error%s",
3196 java_error_count, (java_error_count == 1 ? "" : "s"));
3197 if (java_warning_count)
3198 fprintf (stderr, "%s%d warning%s", (java_error_count ? ", " : ""),
3199 java_warning_count, (java_warning_count == 1 ? "" : "s"));
3200 if (java_error_count || java_warning_count)
3201 putc ('\n', stderr);
3202 return java_error_count;
3203 }
3204
3205 static char *
java_accstring_lookup(int flags)3206 java_accstring_lookup (int flags)
3207 {
3208 static char buffer [80];
3209 #define COPY_RETURN(S) {strcpy (buffer, S); return buffer;}
3210
3211 /* Access modifier looked-up first for easier report on forbidden
3212 access. */
3213 if (flags & ACC_PUBLIC) COPY_RETURN ("public");
3214 if (flags & ACC_PRIVATE) COPY_RETURN ("private");
3215 if (flags & ACC_PROTECTED) COPY_RETURN ("protected");
3216 if (flags & ACC_STATIC) COPY_RETURN ("static");
3217 if (flags & ACC_FINAL) COPY_RETURN ("final");
3218 if (flags & ACC_SYNCHRONIZED) COPY_RETURN ("synchronized");
3219 if (flags & ACC_VOLATILE) COPY_RETURN ("volatile");
3220 if (flags & ACC_TRANSIENT) COPY_RETURN ("transient");
3221 if (flags & ACC_NATIVE) COPY_RETURN ("native");
3222 if (flags & ACC_INTERFACE) COPY_RETURN ("interface");
3223 if (flags & ACC_ABSTRACT) COPY_RETURN ("abstract");
3224
3225 buffer [0] = '\0';
3226 return buffer;
3227 #undef COPY_RETURN
3228 }
3229
3230 /* Issuing error messages upon redefinition of classes, interfaces or
3231 variables. */
3232
3233 static void
classitf_redefinition_error(const char * context,tree id,tree decl,tree cl)3234 classitf_redefinition_error (const char *context, tree id, tree decl, tree cl)
3235 {
3236 parse_error_context (cl, "%s `%s' already defined in %s:%d",
3237 context, IDENTIFIER_POINTER (id),
3238 DECL_SOURCE_FILE (decl), DECL_SOURCE_LINE (decl));
3239 /* Here we should point out where its redefined. It's a unicode. FIXME */
3240 }
3241
3242 static void
variable_redefinition_error(tree context,tree name,tree type,int line)3243 variable_redefinition_error (tree context, tree name, tree type, int line)
3244 {
3245 const char *type_name;
3246
3247 /* Figure a proper name for type. We might haven't resolved it */
3248 if (TREE_CODE (type) == POINTER_TYPE && !TREE_TYPE (type))
3249 type_name = IDENTIFIER_POINTER (TYPE_NAME (type));
3250 else
3251 type_name = lang_printable_name (type, 0);
3252
3253 parse_error_context (context,
3254 "Variable `%s' is already defined in this method and was declared `%s %s' at line %d",
3255 IDENTIFIER_POINTER (name),
3256 type_name, IDENTIFIER_POINTER (name), line);
3257 }
3258
3259 /* If ANAME is terminated with `[]', it indicates an array. This
3260 function returns the number of `[]' found and if this number is
3261 greater than zero, it extracts the array type name and places it in
3262 the node pointed to by TRIMMED unless TRIMMED is null. */
3263
3264 static int
build_type_name_from_array_name(tree aname,tree * trimmed)3265 build_type_name_from_array_name (tree aname, tree *trimmed)
3266 {
3267 const char *name = IDENTIFIER_POINTER (aname);
3268 int len = IDENTIFIER_LENGTH (aname);
3269 int array_dims;
3270
3271 STRING_STRIP_BRACKETS (name, len, array_dims);
3272
3273 if (array_dims && trimmed)
3274 *trimmed = get_identifier_with_length (name, len);
3275
3276 return array_dims;
3277 }
3278
3279 static tree
build_array_from_name(tree type,tree type_wfl,tree name,tree * ret_name)3280 build_array_from_name (tree type, tree type_wfl, tree name, tree *ret_name)
3281 {
3282 int more_dims = 0;
3283
3284 /* Eventually get more dims */
3285 more_dims = build_type_name_from_array_name (name, &name);
3286
3287 /* If we have, then craft a new type for this variable */
3288 if (more_dims)
3289 {
3290 tree save = type;
3291
3292 /* If we have a pointer, use its type */
3293 if (TREE_CODE (type) == POINTER_TYPE)
3294 type = TREE_TYPE (type);
3295
3296 /* Building the first dimension of a primitive type uses this
3297 function */
3298 if (JPRIMITIVE_TYPE_P (type))
3299 {
3300 type = build_java_array_type (type, -1);
3301 more_dims--;
3302 }
3303 /* Otherwise, if we have a WFL for this type, use it (the type
3304 is already an array on an unresolved type, and we just keep
3305 on adding dimensions) */
3306 else if (type_wfl)
3307 {
3308 type = type_wfl;
3309 more_dims += build_type_name_from_array_name (TYPE_NAME (save),
3310 NULL);
3311 }
3312
3313 /* Add all the dimensions */
3314 while (more_dims--)
3315 type = build_unresolved_array_type (type);
3316
3317 /* The type may have been incomplete in the first place */
3318 if (type_wfl)
3319 type = obtain_incomplete_type (type);
3320 }
3321
3322 if (ret_name)
3323 *ret_name = name;
3324 return type;
3325 }
3326
3327 /* Build something that the type identifier resolver will identify as
3328 being an array to an unresolved type. TYPE_WFL is a WFL on a
3329 identifier. */
3330
3331 static tree
build_unresolved_array_type(tree type_or_wfl)3332 build_unresolved_array_type (tree type_or_wfl)
3333 {
3334 const char *ptr;
3335 tree wfl;
3336
3337 /* TYPE_OR_WFL might be an array on a resolved type. In this case,
3338 just create a array type */
3339 if (TREE_CODE (type_or_wfl) == RECORD_TYPE)
3340 return build_java_array_type (type_or_wfl, -1);
3341
3342 obstack_grow (&temporary_obstack,
3343 IDENTIFIER_POINTER (EXPR_WFL_NODE (type_or_wfl)),
3344 IDENTIFIER_LENGTH (EXPR_WFL_NODE (type_or_wfl)));
3345 obstack_grow0 (&temporary_obstack, "[]", 2);
3346 ptr = obstack_finish (&temporary_obstack);
3347 wfl = build_expr_wfl (get_identifier (ptr),
3348 EXPR_WFL_FILENAME (type_or_wfl),
3349 EXPR_WFL_LINENO (type_or_wfl),
3350 EXPR_WFL_COLNO (type_or_wfl));
3351 /* Re-install the existing qualifications so that the type can be
3352 resolved properly. */
3353 EXPR_WFL_QUALIFICATION (wfl) = EXPR_WFL_QUALIFICATION (type_or_wfl);
3354 return wfl;
3355 }
3356
3357 static void
parser_add_interface(tree class_decl,tree interface_decl,tree wfl)3358 parser_add_interface (tree class_decl, tree interface_decl, tree wfl)
3359 {
3360 if (maybe_add_interface (TREE_TYPE (class_decl), TREE_TYPE (interface_decl)))
3361 parse_error_context (wfl, "Interface `%s' repeated",
3362 IDENTIFIER_POINTER (DECL_NAME (interface_decl)));
3363 }
3364
3365 /* Bulk of common class/interface checks. Return 1 if an error was
3366 encountered. TAG is 0 for a class, 1 for an interface. */
3367
3368 static int
check_class_interface_creation(int is_interface,int flags,tree raw_name,tree qualified_name,tree decl,tree cl)3369 check_class_interface_creation (int is_interface, int flags, tree raw_name,
3370 tree qualified_name, tree decl, tree cl)
3371 {
3372 tree node;
3373 int sca = 0; /* Static class allowed */
3374 int icaf = 0; /* Inner class allowed flags */
3375 int uaaf = CLASS_MODIFIERS; /* Usually allowed access flags */
3376
3377 if (!quiet_flag)
3378 fprintf (stderr, " %s%s %s",
3379 (CPC_INNER_P () ? "inner" : ""),
3380 (is_interface ? "interface" : "class"),
3381 IDENTIFIER_POINTER (qualified_name));
3382
3383 /* Scope of an interface/class type name:
3384 - Can't be imported by a single type import
3385 - Can't already exists in the package */
3386 if (IS_A_SINGLE_IMPORT_CLASSFILE_NAME_P (raw_name)
3387 && (node = find_name_in_single_imports (raw_name))
3388 && !CPC_INNER_P ())
3389 {
3390 parse_error_context
3391 (cl, "%s name `%s' clashes with imported type `%s'",
3392 (is_interface ? "Interface" : "Class"),
3393 IDENTIFIER_POINTER (raw_name), IDENTIFIER_POINTER (node));
3394 return 1;
3395 }
3396 if (decl && CLASS_COMPLETE_P (decl))
3397 {
3398 classitf_redefinition_error ((is_interface ? "Interface" : "Class"),
3399 qualified_name, decl, cl);
3400 return 1;
3401 }
3402
3403 if (check_inner_class_redefinition (raw_name, cl))
3404 return 1;
3405
3406 /* If public, file name should match class/interface name, except
3407 when dealing with an inner class */
3408 if (!CPC_INNER_P () && (flags & ACC_PUBLIC ))
3409 {
3410 const char *f;
3411
3412 for (f = &input_filename [strlen (input_filename)];
3413 f != input_filename && ! IS_DIR_SEPARATOR (f[0]);
3414 f--)
3415 ;
3416 if (IS_DIR_SEPARATOR (f[0]))
3417 f++;
3418 if (strncmp (IDENTIFIER_POINTER (raw_name),
3419 f , IDENTIFIER_LENGTH (raw_name)) ||
3420 f [IDENTIFIER_LENGTH (raw_name)] != '.')
3421 parse_error_context
3422 (cl, "Public %s `%s' must be defined in a file called `%s.java'",
3423 (is_interface ? "interface" : "class"),
3424 IDENTIFIER_POINTER (qualified_name),
3425 IDENTIFIER_POINTER (raw_name));
3426 }
3427
3428 /* Static classes can be declared only in top level classes. Note:
3429 once static, a inner class is a top level class. */
3430 if (flags & ACC_STATIC)
3431 {
3432 /* Catch the specific error of declaring an class inner class
3433 with no toplevel enclosing class. Prevent check_modifiers from
3434 complaining a second time */
3435 if (CPC_INNER_P () && !TOPLEVEL_CLASS_DECL_P (GET_CPC()))
3436 {
3437 parse_error_context (cl, "Inner class `%s' can't be static. Static classes can only occur in interfaces and top-level classes",
3438 IDENTIFIER_POINTER (qualified_name));
3439 sca = ACC_STATIC;
3440 }
3441 /* Else, in the context of a top-level class declaration, let
3442 `check_modifiers' do its job, otherwise, give it a go */
3443 else
3444 sca = (GET_CPC_LIST () ? ACC_STATIC : 0);
3445 }
3446
3447 /* Inner classes can be declared private or protected
3448 within their enclosing classes. */
3449 if (CPC_INNER_P ())
3450 {
3451 /* A class which is local to a block can't be public, private,
3452 protected or static. But it is created final, so allow this
3453 one. */
3454 if (current_function_decl)
3455 icaf = sca = uaaf = ACC_FINAL;
3456 else
3457 {
3458 check_modifiers_consistency (flags);
3459 icaf = ACC_PROTECTED;
3460 if (! CLASS_INTERFACE (GET_CPC ()))
3461 icaf |= ACC_PRIVATE;
3462 }
3463 }
3464
3465 if (is_interface)
3466 {
3467 if (CPC_INNER_P ())
3468 uaaf = INTERFACE_INNER_MODIFIERS;
3469 else
3470 uaaf = INTERFACE_MODIFIERS;
3471
3472 check_modifiers ("Illegal modifier `%s' for interface declaration",
3473 flags, uaaf);
3474 }
3475 else
3476 check_modifiers ((current_function_decl ?
3477 "Illegal modifier `%s' for local class declaration" :
3478 "Illegal modifier `%s' for class declaration"),
3479 flags, uaaf|sca|icaf);
3480 return 0;
3481 }
3482
3483 /* Construct a nested class name. If the final component starts with
3484 a digit, return true. Otherwise return false. */
3485 static int
make_nested_class_name(tree cpc_list)3486 make_nested_class_name (tree cpc_list)
3487 {
3488 tree name;
3489
3490 if (!cpc_list)
3491 return 0;
3492
3493 make_nested_class_name (TREE_CHAIN (cpc_list));
3494
3495 /* Pick the qualified name when dealing with the first upmost
3496 enclosing class */
3497 name = (TREE_CHAIN (cpc_list)
3498 ? TREE_PURPOSE (cpc_list) : DECL_NAME (TREE_VALUE (cpc_list)));
3499 obstack_grow (&temporary_obstack,
3500 IDENTIFIER_POINTER (name), IDENTIFIER_LENGTH (name));
3501 obstack_1grow (&temporary_obstack, '$');
3502
3503 return ISDIGIT (IDENTIFIER_POINTER (name)[0]);
3504 }
3505
3506 /* Can't redefine a class already defined in an earlier scope. */
3507
3508 static int
check_inner_class_redefinition(tree raw_name,tree cl)3509 check_inner_class_redefinition (tree raw_name, tree cl)
3510 {
3511 tree scope_list;
3512
3513 for (scope_list = GET_CPC_LIST (); scope_list;
3514 scope_list = GET_NEXT_ENCLOSING_CPC (scope_list))
3515 if (raw_name == GET_CPC_UN_NODE (scope_list))
3516 {
3517 parse_error_context
3518 (cl, "The class name `%s' is already defined in this scope. An inner class may not have the same simple name as any of its enclosing classes",
3519 IDENTIFIER_POINTER (raw_name));
3520 return 1;
3521 }
3522 return 0;
3523 }
3524
3525 /* Tries to find a decl for CLASS_TYPE within ENCLOSING. If we fail,
3526 we remember ENCLOSING and SUPER. */
3527
3528 static tree
resolve_inner_class(htab_t circularity_hash,tree cl,tree * enclosing,tree * super,tree class_type)3529 resolve_inner_class (htab_t circularity_hash, tree cl, tree *enclosing,
3530 tree *super, tree class_type)
3531 {
3532 tree local_enclosing = *enclosing;
3533 tree local_super = NULL_TREE;
3534
3535 while (local_enclosing)
3536 {
3537 tree intermediate, decl;
3538
3539 *htab_find_slot (circularity_hash, local_enclosing, INSERT) =
3540 local_enclosing;
3541
3542 if ((decl = find_as_inner_class (local_enclosing, class_type, cl)))
3543 return decl;
3544
3545 intermediate = local_enclosing;
3546 /* Explore enclosing contexts. */
3547 while (INNER_CLASS_DECL_P (intermediate))
3548 {
3549 intermediate = DECL_CONTEXT (intermediate);
3550 if ((decl = find_as_inner_class (intermediate, class_type, cl)))
3551 return decl;
3552 }
3553
3554 /* Now go to the upper classes, bail out if necessary. We will
3555 analyze the returned SUPER and act accordingly (see
3556 do_resolve_class). */
3557 if (JPRIMITIVE_TYPE_P (TREE_TYPE (local_enclosing))
3558 || TREE_TYPE (local_enclosing) == void_type_node)
3559 {
3560 parse_error_context (cl, "Qualifier must be a reference");
3561 local_enclosing = NULL_TREE;
3562 break;
3563 }
3564 local_super = CLASSTYPE_SUPER (TREE_TYPE (local_enclosing));
3565 if (!local_super || local_super == object_type_node)
3566 break;
3567
3568 if (TREE_CODE (local_super) == POINTER_TYPE)
3569 local_super = do_resolve_class (NULL, local_super, NULL, NULL);
3570 else
3571 local_super = TYPE_NAME (local_super);
3572
3573 /* We may not have checked for circular inheritance yet, so do so
3574 here to prevent an infinite loop. */
3575 if (htab_find (circularity_hash, local_super) != NULL)
3576 {
3577 if (!cl)
3578 cl = lookup_cl (local_enclosing);
3579
3580 parse_error_context
3581 (cl, "Cyclic inheritance involving %s",
3582 IDENTIFIER_POINTER (DECL_NAME (local_enclosing)));
3583 local_enclosing = NULL_TREE;
3584 }
3585 else
3586 local_enclosing = local_super;
3587 }
3588
3589 /* We failed. Return LOCAL_SUPER and LOCAL_ENCLOSING. */
3590 *super = local_super;
3591 *enclosing = local_enclosing;
3592
3593 return NULL_TREE;
3594 }
3595
3596 /* Within ENCLOSING, find a decl for NAME and return it. NAME can be
3597 qualified. */
3598
3599 static tree
find_as_inner_class(tree enclosing,tree name,tree cl)3600 find_as_inner_class (tree enclosing, tree name, tree cl)
3601 {
3602 tree qual, to_return;
3603 if (!enclosing)
3604 return NULL_TREE;
3605
3606 name = TYPE_NAME (name);
3607
3608 /* First search: within the scope of `enclosing', search for name */
3609 if (QUALIFIED_P (name) && cl && EXPR_WFL_NODE (cl) == name)
3610 qual = EXPR_WFL_QUALIFICATION (cl);
3611 else if (cl)
3612 qual = build_tree_list (cl, NULL_TREE);
3613 else
3614 qual = build_tree_list (build_expr_wfl (name, NULL, 0, 0), NULL_TREE);
3615
3616 if ((to_return = find_as_inner_class_do (qual, enclosing)))
3617 return to_return;
3618
3619 /* We're dealing with a qualified name. Try to resolve thing until
3620 we get something that is an enclosing class. */
3621 if (QUALIFIED_P (name) && cl && EXPR_WFL_NODE (cl) == name)
3622 {
3623 tree acc = NULL_TREE, decl = NULL_TREE, ptr;
3624
3625 for (qual = EXPR_WFL_QUALIFICATION (cl); qual && !decl;
3626 qual = TREE_CHAIN (qual))
3627 {
3628 acc = merge_qualified_name (acc,
3629 EXPR_WFL_NODE (TREE_PURPOSE (qual)));
3630 BUILD_PTR_FROM_NAME (ptr, acc);
3631 decl = do_resolve_class (NULL_TREE, ptr, NULL_TREE, cl);
3632 }
3633
3634 /* A NULL qual and a decl means that the search ended
3635 successfully?!? We have to do something then. FIXME */
3636
3637 if (decl)
3638 enclosing = decl;
3639 else
3640 qual = EXPR_WFL_QUALIFICATION (cl);
3641 }
3642 /* Otherwise, create a qual for the other part of the resolution. */
3643 else
3644 qual = build_tree_list (build_expr_wfl (name, NULL, 0, 0), NULL_TREE);
3645
3646 return find_as_inner_class_do (qual, enclosing);
3647 }
3648
3649 /* We go inside the list of sub classes and try to find a way
3650 through. */
3651
3652 static tree
find_as_inner_class_do(tree qual,tree enclosing)3653 find_as_inner_class_do (tree qual, tree enclosing)
3654 {
3655 if (!qual)
3656 return NULL_TREE;
3657
3658 for (; qual && enclosing; qual = TREE_CHAIN (qual))
3659 {
3660 tree name_to_match = EXPR_WFL_NODE (TREE_PURPOSE (qual));
3661 tree next_enclosing = NULL_TREE;
3662 tree inner_list;
3663
3664 for (inner_list = DECL_INNER_CLASS_LIST (enclosing);
3665 inner_list; inner_list = TREE_CHAIN (inner_list))
3666 {
3667 if (TREE_VALUE (inner_list) == name_to_match)
3668 {
3669 next_enclosing = TREE_PURPOSE (inner_list);
3670 break;
3671 }
3672 }
3673 enclosing = next_enclosing;
3674 }
3675
3676 return (!qual && enclosing ? enclosing : NULL_TREE);
3677 }
3678
3679 /* Reach all inner classes and tie their unqualified name to a
3680 DECL. */
3681
3682 static void
set_nested_class_simple_name_value(tree outer,int set)3683 set_nested_class_simple_name_value (tree outer, int set)
3684 {
3685 tree l;
3686
3687 for (l = DECL_INNER_CLASS_LIST (outer); l; l = TREE_CHAIN (l))
3688 IDENTIFIER_GLOBAL_VALUE (TREE_VALUE (l)) = (set ?
3689 TREE_PURPOSE (l) : NULL_TREE);
3690 }
3691
3692 static void
link_nested_class_to_enclosing(void)3693 link_nested_class_to_enclosing (void)
3694 {
3695 if (GET_ENCLOSING_CPC ())
3696 {
3697 tree enclosing = GET_ENCLOSING_CPC_CONTEXT ();
3698 DECL_INNER_CLASS_LIST (enclosing) =
3699 tree_cons (GET_CPC (), GET_CPC_UN (),
3700 DECL_INNER_CLASS_LIST (enclosing));
3701 }
3702 }
3703
3704 static tree
maybe_make_nested_class_name(tree name)3705 maybe_make_nested_class_name (tree name)
3706 {
3707 tree id = NULL_TREE;
3708
3709 if (CPC_INNER_P ())
3710 {
3711 /* If we're in a function, we must append a number to create the
3712 nested class name. However, we don't do this if the class we
3713 are constructing is anonymous, because in that case we'll
3714 already have a number as the class name. */
3715 if (! make_nested_class_name (GET_CPC_LIST ())
3716 && current_function_decl != NULL_TREE
3717 && ! ISDIGIT (IDENTIFIER_POINTER (name)[0]))
3718 {
3719 char buf[10];
3720 sprintf (buf, "%d", anonymous_class_counter);
3721 ++anonymous_class_counter;
3722 obstack_grow (&temporary_obstack, buf, strlen (buf));
3723 obstack_1grow (&temporary_obstack, '$');
3724 }
3725 obstack_grow0 (&temporary_obstack,
3726 IDENTIFIER_POINTER (name),
3727 IDENTIFIER_LENGTH (name));
3728 id = get_identifier (obstack_finish (&temporary_obstack));
3729 if (ctxp->package)
3730 QUALIFIED_P (id) = 1;
3731 }
3732 return id;
3733 }
3734
3735 /* If DECL is NULL, create and push a new DECL, record the current
3736 line CL and do other maintenance things. */
3737
3738 static tree
maybe_create_class_interface_decl(tree decl,tree raw_name,tree qualified_name,tree cl)3739 maybe_create_class_interface_decl (tree decl, tree raw_name,
3740 tree qualified_name, tree cl)
3741 {
3742 if (!decl)
3743 decl = push_class (make_class (), qualified_name);
3744
3745 /* Take care of the file and line business */
3746 DECL_SOURCE_FILE (decl) = EXPR_WFL_FILENAME (cl);
3747 /* If we're emitting xrefs, store the line/col number information */
3748 if (flag_emit_xref)
3749 DECL_SOURCE_LINE (decl) = EXPR_WFL_LINECOL (cl);
3750 else
3751 DECL_SOURCE_LINE (decl) = EXPR_WFL_LINENO (cl);
3752 CLASS_FROM_SOURCE_P (TREE_TYPE (decl)) = 1;
3753 CLASS_PARSED_P (TREE_TYPE (decl)) = 1;
3754 CLASS_FROM_CURRENTLY_COMPILED_P (TREE_TYPE (decl)) =
3755 IS_A_COMMAND_LINE_FILENAME_P (EXPR_WFL_FILENAME_NODE (cl));
3756
3757 PUSH_CPC (decl, raw_name);
3758 DECL_CONTEXT (decl) = GET_ENCLOSING_CPC_CONTEXT ();
3759
3760 /* Link the declaration to the already seen ones */
3761 TREE_CHAIN (decl) = ctxp->class_list;
3762 ctxp->class_list = decl;
3763
3764 /* Create a new nodes in the global lists */
3765 gclass_list = tree_cons (NULL_TREE, decl, gclass_list);
3766 all_class_list = tree_cons (NULL_TREE, decl, all_class_list);
3767
3768 /* Install a new dependency list element */
3769 create_jdep_list (ctxp);
3770
3771 SOURCE_FRONTEND_DEBUG (("Defining class/interface %s",
3772 IDENTIFIER_POINTER (qualified_name)));
3773 return decl;
3774 }
3775
3776 static void
add_superinterfaces(tree decl,tree interface_list)3777 add_superinterfaces (tree decl, tree interface_list)
3778 {
3779 tree node;
3780 /* Superinterface(s): if present and defined, parser_check_super_interface ()
3781 takes care of ensuring that:
3782 - This is an accessible interface type,
3783 - Circularity detection.
3784 parser_add_interface is then called. If present but not defined,
3785 the check operation is delayed until the super interface gets
3786 defined. */
3787 for (node = interface_list; node; node = TREE_CHAIN (node))
3788 {
3789 tree current = TREE_PURPOSE (node);
3790 tree idecl = IDENTIFIER_CLASS_VALUE (EXPR_WFL_NODE (current));
3791 if (idecl && CLASS_LOADED_P (TREE_TYPE (idecl)))
3792 {
3793 if (!parser_check_super_interface (idecl, decl, current))
3794 parser_add_interface (decl, idecl, current);
3795 }
3796 else
3797 register_incomplete_type (JDEP_INTERFACE,
3798 current, decl, NULL_TREE);
3799 }
3800 }
3801
3802 /* Create an interface in pass1 and return its decl. Return the
3803 interface's decl in pass 2. */
3804
3805 static tree
create_interface(int flags,tree id,tree super)3806 create_interface (int flags, tree id, tree super)
3807 {
3808 tree raw_name = EXPR_WFL_NODE (id);
3809 tree q_name = parser_qualified_classname (raw_name);
3810 tree decl = IDENTIFIER_CLASS_VALUE (q_name);
3811
3812 /* Certain syntax errors are making SUPER be like ID. Avoid this
3813 case. */
3814 if (ctxp->class_err && id == super)
3815 super = NULL;
3816
3817 EXPR_WFL_NODE (id) = q_name; /* Keep source location, even if refined. */
3818
3819 /* Basic checks: scope, redefinition, modifiers */
3820 if (check_class_interface_creation (1, flags, raw_name, q_name, decl, id))
3821 {
3822 PUSH_ERROR ();
3823 return NULL_TREE;
3824 }
3825
3826 /* Suspend the current parsing context if we're parsing an inner
3827 interface */
3828 if (CPC_INNER_P ())
3829 {
3830 java_parser_context_suspend ();
3831 /* Interface members are public. */
3832 if (CLASS_INTERFACE (GET_CPC ()))
3833 flags |= ACC_PUBLIC;
3834 }
3835
3836 /* Push a new context for (static) initialized upon declaration fields */
3837 java_parser_context_push_initialized_field ();
3838
3839 /* Interface modifiers check
3840 - public/abstract allowed (already done at that point)
3841 - abstract is obsolete (comes first, it's a warning, or should be)
3842 - Can't use twice the same (checked in the modifier rule) */
3843 if ((flags & ACC_ABSTRACT) && flag_redundant)
3844 parse_warning_context
3845 (MODIFIER_WFL (ABSTRACT_TK),
3846 "Redundant use of `abstract' modifier. Interface `%s' is implicitly abstract", IDENTIFIER_POINTER (raw_name));
3847
3848 /* Create a new decl if DECL is NULL, otherwise fix it */
3849 decl = maybe_create_class_interface_decl (decl, raw_name, q_name, id);
3850
3851 /* Set super info and mark the class a complete */
3852 set_super_info (ACC_INTERFACE | flags, TREE_TYPE (decl),
3853 object_type_node, ctxp->interface_number);
3854 ctxp->interface_number = 0;
3855 CLASS_COMPLETE_P (decl) = 1;
3856 add_superinterfaces (decl, super);
3857
3858 /* Eventually sets the @deprecated tag flag */
3859 CHECK_DEPRECATED (decl);
3860
3861 return decl;
3862 }
3863
3864 /* Patch anonymous class CLASS, by either extending or implementing
3865 DEP. */
3866
3867 static void
patch_anonymous_class(tree type_decl,tree class_decl,tree wfl)3868 patch_anonymous_class (tree type_decl, tree class_decl, tree wfl)
3869 {
3870 tree class = TREE_TYPE (class_decl);
3871 tree type = TREE_TYPE (type_decl);
3872 tree binfo = TYPE_BINFO (class);
3873
3874 /* If it's an interface, implement it */
3875 if (CLASS_INTERFACE (type_decl))
3876 {
3877 tree s_binfo;
3878 int length;
3879
3880 if (parser_check_super_interface (type_decl, class_decl, wfl))
3881 return;
3882
3883 s_binfo = TREE_VEC_ELT (BINFO_BASETYPES (TYPE_BINFO (class)), 0);
3884 length = TREE_VEC_LENGTH (TYPE_BINFO_BASETYPES (class))+1;
3885 TYPE_BINFO_BASETYPES (class) = make_tree_vec (length);
3886 TREE_VEC_ELT (BINFO_BASETYPES (TYPE_BINFO (class)), 0) = s_binfo;
3887 /* And add the interface */
3888 parser_add_interface (class_decl, type_decl, wfl);
3889 }
3890 /* Otherwise, it's a type we want to extend */
3891 else
3892 {
3893 if (parser_check_super (type_decl, class_decl, wfl))
3894 return;
3895 BINFO_TYPE (TREE_VEC_ELT (BINFO_BASETYPES (binfo), 0)) = type;
3896 }
3897 }
3898
3899 static tree
create_anonymous_class(int location,tree type_name)3900 create_anonymous_class (int location, tree type_name)
3901 {
3902 char buffer [80];
3903 tree super = NULL_TREE, itf = NULL_TREE;
3904 tree id, type_decl, class;
3905
3906 /* The unqualified name of the anonymous class. It's just a number. */
3907 sprintf (buffer, "%d", anonymous_class_counter++);
3908 id = build_wfl_node (get_identifier (buffer));
3909 EXPR_WFL_LINECOL (id) = location;
3910
3911 /* We know about the type to extend/implement. We go ahead */
3912 if ((type_decl = IDENTIFIER_CLASS_VALUE (EXPR_WFL_NODE (type_name))))
3913 {
3914 /* Create a class which either implements on extends the designated
3915 class. The class bears an inaccessible name. */
3916 if (CLASS_INTERFACE (type_decl))
3917 {
3918 /* It's OK to modify it here. It's been already used and
3919 shouldn't be reused */
3920 ctxp->interface_number = 1;
3921 /* Interfaces should presented as a list of WFLs */
3922 itf = build_tree_list (type_name, NULL_TREE);
3923 }
3924 else
3925 super = type_name;
3926 }
3927
3928 class = create_class (ACC_FINAL, id, super, itf);
3929
3930 /* We didn't know anything about the stuff. We register a dependence. */
3931 if (!type_decl)
3932 register_incomplete_type (JDEP_ANONYMOUS, type_name, class, NULL_TREE);
3933
3934 ANONYMOUS_CLASS_P (TREE_TYPE (class)) = 1;
3935 return class;
3936 }
3937
3938 /* Create a class in pass1 and return its decl. Return class
3939 interface's decl in pass 2. */
3940
3941 static tree
create_class(int flags,tree id,tree super,tree interfaces)3942 create_class (int flags, tree id, tree super, tree interfaces)
3943 {
3944 tree raw_name = EXPR_WFL_NODE (id);
3945 tree class_id, decl;
3946 tree super_decl_type;
3947
3948 /* Certain syntax errors are making SUPER be like ID. Avoid this
3949 case. */
3950 if (ctxp->class_err && id == super)
3951 super = NULL;
3952
3953 class_id = parser_qualified_classname (raw_name);
3954 decl = IDENTIFIER_CLASS_VALUE (class_id);
3955 EXPR_WFL_NODE (id) = class_id;
3956
3957 /* Basic check: scope, redefinition, modifiers */
3958 if (check_class_interface_creation (0, flags, raw_name, class_id, decl, id))
3959 {
3960 PUSH_ERROR ();
3961 return NULL_TREE;
3962 }
3963
3964 /* Suspend the current parsing context if we're parsing an inner
3965 class or an anonymous class. */
3966 if (CPC_INNER_P ())
3967 {
3968 java_parser_context_suspend ();
3969 /* Interface members are public. */
3970 if (CLASS_INTERFACE (GET_CPC ()))
3971 flags |= ACC_PUBLIC;
3972 }
3973
3974 /* Push a new context for (static) initialized upon declaration fields */
3975 java_parser_context_push_initialized_field ();
3976
3977 /* Class modifier check:
3978 - Allowed modifier (already done at that point)
3979 - abstract AND final forbidden
3980 - Public classes defined in the correct file */
3981 if ((flags & ACC_ABSTRACT) && (flags & ACC_FINAL))
3982 parse_error_context
3983 (id, "Class `%s' can't be declared both abstract and final",
3984 IDENTIFIER_POINTER (raw_name));
3985
3986 /* Create a new decl if DECL is NULL, otherwise fix it */
3987 decl = maybe_create_class_interface_decl (decl, raw_name, class_id, id);
3988
3989 /* If SUPER exists, use it, otherwise use Object */
3990 if (super)
3991 {
3992 /* Can't extend java.lang.Object */
3993 if (TREE_TYPE (IDENTIFIER_CLASS_VALUE (class_id)) == object_type_node)
3994 {
3995 parse_error_context (id, "Can't extend `java.lang.Object'");
3996 return NULL_TREE;
3997 }
3998
3999 super_decl_type =
4000 register_incomplete_type (JDEP_SUPER, super, decl, NULL_TREE);
4001 }
4002 else if (TREE_TYPE (decl) != object_type_node)
4003 super_decl_type = object_type_node;
4004 /* We're defining java.lang.Object */
4005 else
4006 super_decl_type = NULL_TREE;
4007
4008 /* A class nested in an interface is implicitly static. */
4009 if (INNER_CLASS_DECL_P (decl)
4010 && CLASS_INTERFACE (TYPE_NAME (TREE_TYPE (DECL_CONTEXT (decl)))))
4011 {
4012 flags |= ACC_STATIC;
4013 }
4014
4015 /* Set super info and mark the class as complete. */
4016 set_super_info (flags, TREE_TYPE (decl), super_decl_type,
4017 ctxp->interface_number);
4018 ctxp->interface_number = 0;
4019 CLASS_COMPLETE_P (decl) = 1;
4020 add_superinterfaces (decl, interfaces);
4021
4022 /* Add the private this$<n> field, Replicate final locals still in
4023 scope as private final fields mangled like val$<local_name>.
4024 This doesn't not occur for top level (static) inner classes. */
4025 if (PURE_INNER_CLASS_DECL_P (decl))
4026 add_inner_class_fields (decl, current_function_decl);
4027
4028 /* If doing xref, store the location at which the inherited class
4029 (if any) was seen. */
4030 if (flag_emit_xref && super)
4031 DECL_INHERITED_SOURCE_LINE (decl) = EXPR_WFL_LINECOL (super);
4032
4033 /* Eventually sets the @deprecated tag flag */
4034 CHECK_DEPRECATED (decl);
4035
4036 /* Reset the anonymous class counter when declaring non inner classes */
4037 if (!INNER_CLASS_DECL_P (decl))
4038 anonymous_class_counter = 1;
4039
4040 return decl;
4041 }
4042
4043 /* End a class declaration: register the statements used to create
4044 finit$ and <clinit>, pop the current class and resume the prior
4045 parser context if necessary. */
4046
4047 static void
end_class_declaration(int resume)4048 end_class_declaration (int resume)
4049 {
4050 /* If an error occurred, context weren't pushed and won't need to be
4051 popped by a resume. */
4052 int no_error_occurred = ctxp->next && GET_CPC () != error_mark_node;
4053
4054 if (GET_CPC () != error_mark_node)
4055 dump_java_tree (TDI_class, GET_CPC ());
4056
4057 java_parser_context_pop_initialized_field ();
4058 POP_CPC ();
4059 if (resume && no_error_occurred)
4060 java_parser_context_resume ();
4061
4062 /* We're ending a class declaration, this is a good time to reset
4063 the interface cout. Note that might have been already done in
4064 create_interface, but if at that time an inner class was being
4065 dealt with, the interface count was reset in a context created
4066 for the sake of handling inner classes declaration. */
4067 ctxp->interface_number = 0;
4068 }
4069
4070 static void
add_inner_class_fields(tree class_decl,tree fct_decl)4071 add_inner_class_fields (tree class_decl, tree fct_decl)
4072 {
4073 tree block, marker, f;
4074
4075 f = add_field (TREE_TYPE (class_decl),
4076 build_current_thisn (TREE_TYPE (class_decl)),
4077 build_pointer_type (TREE_TYPE (DECL_CONTEXT (class_decl))),
4078 ACC_PRIVATE);
4079 FIELD_THISN (f) = 1;
4080
4081 if (!fct_decl)
4082 return;
4083
4084 for (block = GET_CURRENT_BLOCK (fct_decl);
4085 block && TREE_CODE (block) == BLOCK; block = BLOCK_SUPERCONTEXT (block))
4086 {
4087 tree decl;
4088 for (decl = BLOCK_EXPR_DECLS (block); decl; decl = TREE_CHAIN (decl))
4089 {
4090 tree name, pname;
4091 tree wfl, init, list;
4092
4093 /* Avoid non final arguments. */
4094 if (!LOCAL_FINAL_P (decl))
4095 continue;
4096
4097 MANGLE_OUTER_LOCAL_VARIABLE_NAME (name, DECL_NAME (decl));
4098 MANGLE_ALIAS_INITIALIZER_PARAMETER_NAME_ID (pname, DECL_NAME (decl));
4099 wfl = build_wfl_node (name);
4100 init = build_wfl_node (pname);
4101 /* Build an initialization for the field: it will be
4102 initialized by a parameter added to finit$, bearing a
4103 mangled name of the field itself (param$<n>.) The
4104 parameter is provided to finit$ by the constructor
4105 invoking it (hence the constructor will also feature a
4106 hidden parameter, set to the value of the outer context
4107 local at the time the inner class is created.)
4108
4109 Note: we take into account all possible locals that can
4110 be accessed by the inner class. It's actually not trivial
4111 to minimize these aliases down to the ones really
4112 used. One way to do that would be to expand all regular
4113 methods first, then finit$ to get a picture of what's
4114 used. It works with the exception that we would have to
4115 go back on all constructor invoked in regular methods to
4116 have their invocation reworked (to include the right amount
4117 of alias initializer parameters.)
4118
4119 The only real way around, I think, is a first pass to
4120 identify locals really used in the inner class. We leave
4121 the flag FIELD_LOCAL_ALIAS_USED around for that future
4122 use.
4123
4124 On the other hand, it only affect local inner classes,
4125 whose constructors (and finit$ call) will be featuring
4126 unnecessary arguments. It's easy for a developer to keep
4127 this number of parameter down by using the `final'
4128 keyword only when necessary. For the time being, we can
4129 issue a warning on unnecessary finals. FIXME */
4130 init = build_assignment (ASSIGN_TK, EXPR_WFL_LINECOL (wfl),
4131 wfl, init);
4132
4133 /* Register the field. The TREE_LIST holding the part
4134 initialized/initializer will be marked ARG_FINAL_P so
4135 that the created field can be marked
4136 FIELD_LOCAL_ALIAS. */
4137 list = build_tree_list (wfl, init);
4138 ARG_FINAL_P (list) = 1;
4139 register_fields (ACC_PRIVATE | ACC_FINAL, TREE_TYPE (decl), list);
4140 }
4141 }
4142
4143 if (!CPC_INITIALIZER_STMT (ctxp))
4144 return;
4145
4146 /* If we ever registered an alias field, insert and marker to
4147 remember where the list ends. The second part of the list (the one
4148 featuring initialized fields) so it can be later reversed to
4149 enforce 8.5. The marker will be removed during that operation. */
4150 marker = build_tree_list (NULL_TREE, NULL_TREE);
4151 TREE_CHAIN (marker) = CPC_INITIALIZER_STMT (ctxp);
4152 SET_CPC_INITIALIZER_STMT (ctxp, marker);
4153 }
4154
4155 /* Can't use lookup_field () since we don't want to load the class and
4156 can't set the CLASS_LOADED_P flag */
4157
4158 static tree
find_field(tree class,tree name)4159 find_field (tree class, tree name)
4160 {
4161 tree decl;
4162 for (decl = TYPE_FIELDS (class); decl; decl = TREE_CHAIN (decl))
4163 {
4164 if (DECL_NAME (decl) == name)
4165 return decl;
4166 }
4167 return NULL_TREE;
4168 }
4169
4170 /* Wrap around lookup_field that doesn't potentially upset the value
4171 of CLASS */
4172
4173 static tree
lookup_field_wrapper(tree class,tree name)4174 lookup_field_wrapper (tree class, tree name)
4175 {
4176 tree type = class;
4177 tree decl = NULL_TREE;
4178 java_parser_context_save_global ();
4179
4180 /* Last chance: if we're within the context of an inner class, we
4181 might be trying to access a local variable defined in an outer
4182 context. We try to look for it now. */
4183 if (INNER_CLASS_TYPE_P (class) && TREE_CODE (name) == IDENTIFIER_NODE)
4184 {
4185 tree new_name;
4186 MANGLE_OUTER_LOCAL_VARIABLE_NAME (new_name, name);
4187 decl = lookup_field (&type, new_name);
4188 if (decl && decl != error_mark_node)
4189 FIELD_LOCAL_ALIAS_USED (decl) = 1;
4190 }
4191 if (!decl || decl == error_mark_node)
4192 {
4193 type = class;
4194 decl = lookup_field (&type, name);
4195 }
4196
4197 /* If the field still hasn't been found, try the next enclosing context. */
4198 if (!decl && INNER_CLASS_TYPE_P (class))
4199 {
4200 tree outer_type = TREE_TYPE (DECL_CONTEXT (TYPE_NAME (class)));
4201 decl = lookup_field_wrapper (outer_type, name);
4202 }
4203
4204 java_parser_context_restore_global ();
4205 return decl == error_mark_node ? NULL : decl;
4206 }
4207
4208 /* Find duplicate field within the same class declarations and report
4209 the error. Returns 1 if a duplicated field was found, 0
4210 otherwise. */
4211
4212 static int
duplicate_declaration_error_p(tree new_field_name,tree new_type,tree cl)4213 duplicate_declaration_error_p (tree new_field_name, tree new_type, tree cl)
4214 {
4215 /* This might be modified to work with method decl as well */
4216 tree decl = find_field (TREE_TYPE (GET_CPC ()), new_field_name);
4217 if (decl)
4218 {
4219 char *t1 = xstrdup (purify_type_name
4220 ((TREE_CODE (new_type) == POINTER_TYPE
4221 && TREE_TYPE (new_type) == NULL_TREE) ?
4222 IDENTIFIER_POINTER (TYPE_NAME (new_type)) :
4223 lang_printable_name (new_type, 1)));
4224 /* The type may not have been completed by the time we report
4225 the error */
4226 char *t2 = xstrdup (purify_type_name
4227 ((TREE_CODE (TREE_TYPE (decl)) == POINTER_TYPE
4228 && TREE_TYPE (TREE_TYPE (decl)) == NULL_TREE) ?
4229 IDENTIFIER_POINTER (TYPE_NAME (TREE_TYPE (decl))) :
4230 lang_printable_name (TREE_TYPE (decl), 1)));
4231 parse_error_context
4232 (cl , "Duplicate variable declaration: `%s %s' was `%s %s' (%s:%d)",
4233 t1, IDENTIFIER_POINTER (new_field_name),
4234 t2, IDENTIFIER_POINTER (DECL_NAME (decl)),
4235 DECL_SOURCE_FILE (decl), DECL_SOURCE_LINE (decl));
4236 free (t1);
4237 free (t2);
4238 return 1;
4239 }
4240 return 0;
4241 }
4242
4243 /* Field registration routine. If TYPE doesn't exist, field
4244 declarations are linked to the undefined TYPE dependency list, to
4245 be later resolved in java_complete_class () */
4246
4247 static void
register_fields(int flags,tree type,tree variable_list)4248 register_fields (int flags, tree type, tree variable_list)
4249 {
4250 tree current, saved_type;
4251 tree class_type = NULL_TREE;
4252 int saved_lineno = input_line;
4253 int must_chain = 0;
4254 tree wfl = NULL_TREE;
4255
4256 if (GET_CPC ())
4257 class_type = TREE_TYPE (GET_CPC ());
4258
4259 if (!class_type || class_type == error_mark_node)
4260 return;
4261
4262 /* If we're adding fields to interfaces, those fields are public,
4263 static, final */
4264 if (CLASS_INTERFACE (TYPE_NAME (class_type)))
4265 {
4266 OBSOLETE_MODIFIER_WARNING (MODIFIER_WFL (PUBLIC_TK),
4267 flags, ACC_PUBLIC, "interface field(s)");
4268 OBSOLETE_MODIFIER_WARNING (MODIFIER_WFL (STATIC_TK),
4269 flags, ACC_STATIC, "interface field(s)");
4270 OBSOLETE_MODIFIER_WARNING (MODIFIER_WFL (FINAL_TK),
4271 flags, ACC_FINAL, "interface field(s)");
4272 check_modifiers ("Illegal interface member modifier `%s'", flags,
4273 INTERFACE_FIELD_MODIFIERS);
4274 flags |= (ACC_PUBLIC | ACC_STATIC | ACC_FINAL);
4275 }
4276
4277 /* Obtain a suitable type for resolution, if necessary */
4278 SET_TYPE_FOR_RESOLUTION (type, wfl, must_chain);
4279
4280 /* If TYPE is fully resolved and we don't have a reference, make one */
4281 PROMOTE_RECORD_IF_COMPLETE (type, must_chain);
4282
4283 for (current = variable_list, saved_type = type; current;
4284 current = TREE_CHAIN (current), type = saved_type)
4285 {
4286 tree real_type;
4287 tree field_decl;
4288 tree cl = TREE_PURPOSE (current);
4289 tree init = TREE_VALUE (current);
4290 tree current_name = EXPR_WFL_NODE (cl);
4291
4292 /* Can't declare non-final static fields in inner classes */
4293 if ((flags & ACC_STATIC) && !TOPLEVEL_CLASS_TYPE_P (class_type)
4294 && !(flags & ACC_FINAL))
4295 parse_error_context
4296 (cl, "Field `%s' can't be static in inner class `%s' unless it is final",
4297 IDENTIFIER_POINTER (EXPR_WFL_NODE (cl)),
4298 lang_printable_name (class_type, 0));
4299
4300 /* Process NAME, as it may specify extra dimension(s) for it */
4301 type = build_array_from_name (type, wfl, current_name, ¤t_name);
4302
4303 /* Type adjustment. We may have just readjusted TYPE because
4304 the variable specified more dimensions. Make sure we have
4305 a reference if we can and don't have one already. Also
4306 change the name if we have an init. */
4307 if (type != saved_type)
4308 {
4309 PROMOTE_RECORD_IF_COMPLETE (type, must_chain);
4310 if (init)
4311 EXPR_WFL_NODE (TREE_OPERAND (init, 0)) = current_name;
4312 }
4313
4314 real_type = GET_REAL_TYPE (type);
4315 /* Check for redeclarations */
4316 if (duplicate_declaration_error_p (current_name, real_type, cl))
4317 continue;
4318
4319 /* Set lineno to the line the field was found and create a
4320 declaration for it. Eventually sets the @deprecated tag flag. */
4321 if (flag_emit_xref)
4322 input_line = EXPR_WFL_LINECOL (cl);
4323 else
4324 input_line = EXPR_WFL_LINENO (cl);
4325 field_decl = add_field (class_type, current_name, real_type, flags);
4326 CHECK_DEPRECATED_NO_RESET (field_decl);
4327
4328 /* If the field denotes a final instance variable, then we
4329 allocate a LANG_DECL_SPECIFIC part to keep track of its
4330 initialization. We also mark whether the field was
4331 initialized upon its declaration. We don't do that if the
4332 created field is an alias to a final local. */
4333 if (!ARG_FINAL_P (current) && (flags & ACC_FINAL))
4334 {
4335 MAYBE_CREATE_VAR_LANG_DECL_SPECIFIC (field_decl);
4336 DECL_FIELD_FINAL_WFL (field_decl) = cl;
4337 }
4338
4339 /* If the couple initializer/initialized is marked ARG_FINAL_P,
4340 we mark the created field FIELD_LOCAL_ALIAS, so that we can
4341 hide parameters to this inner class finit$ and
4342 constructors. It also means that the field isn't final per
4343 say. */
4344 if (ARG_FINAL_P (current))
4345 {
4346 FIELD_LOCAL_ALIAS (field_decl) = 1;
4347 FIELD_FINAL (field_decl) = 0;
4348 }
4349
4350 /* Check if we must chain. */
4351 if (must_chain)
4352 register_incomplete_type (JDEP_FIELD, wfl, field_decl, type);
4353
4354 /* If we have an initialization value tied to the field */
4355 if (init)
4356 {
4357 /* The field is declared static */
4358 if (flags & ACC_STATIC)
4359 {
4360 /* We include the field and its initialization part into
4361 a list used to generate <clinit>. After <clinit> is
4362 walked, field initializations will be processed and
4363 fields initialized with known constants will be taken
4364 out of <clinit> and have their DECL_INITIAL set
4365 appropriately. */
4366 TREE_CHAIN (init) = CPC_STATIC_INITIALIZER_STMT (ctxp);
4367 SET_CPC_STATIC_INITIALIZER_STMT (ctxp, init);
4368 if (TREE_OPERAND (init, 1)
4369 && TREE_CODE (TREE_OPERAND (init, 1)) == NEW_ARRAY_INIT)
4370 TREE_STATIC (TREE_OPERAND (init, 1)) = 1;
4371 }
4372 /* A non-static field declared with an immediate initialization is
4373 to be initialized in <init>, if any. This field is remembered
4374 to be processed at the time of the generation of <init>. */
4375 else
4376 {
4377 TREE_CHAIN (init) = CPC_INITIALIZER_STMT (ctxp);
4378 SET_CPC_INITIALIZER_STMT (ctxp, init);
4379 }
4380 MODIFY_EXPR_FROM_INITIALIZATION_P (init) = 1;
4381 DECL_INITIAL (field_decl) = TREE_OPERAND (init, 1);
4382 }
4383 }
4384
4385 CLEAR_DEPRECATED;
4386 input_line = saved_lineno;
4387 }
4388
4389 /* Generate finit$, using the list of initialized fields to populate
4390 its body. finit$'s parameter(s) list is adjusted to include the
4391 one(s) used to initialized the field(s) caching outer context
4392 local(s). */
4393
4394 static tree
generate_finit(tree class_type)4395 generate_finit (tree class_type)
4396 {
4397 int count = 0;
4398 tree list = TYPE_FINIT_STMT_LIST (class_type);
4399 tree mdecl, current, parms;
4400
4401 parms = build_alias_initializer_parameter_list (AIPL_FUNCTION_CREATION,
4402 class_type, NULL_TREE,
4403 &count);
4404 CRAFTED_PARAM_LIST_FIXUP (parms);
4405 mdecl = create_artificial_method (class_type, ACC_PRIVATE, void_type_node,
4406 finit_identifier_node, parms);
4407 fix_method_argument_names (parms, mdecl);
4408 layout_class_method (class_type, CLASSTYPE_SUPER (class_type),
4409 mdecl, NULL_TREE);
4410 DECL_FUNCTION_NAP (mdecl) = count;
4411 start_artificial_method_body (mdecl);
4412
4413 for (current = list; current; current = TREE_CHAIN (current))
4414 java_method_add_stmt (mdecl,
4415 build_debugable_stmt (EXPR_WFL_LINECOL (current),
4416 current));
4417 end_artificial_method_body (mdecl);
4418 return mdecl;
4419 }
4420
4421 /* Generate a function to run the instance initialization code. The
4422 private method is called `instinit$'. Unless we're dealing with an
4423 anonymous class, we determine whether all ctors of CLASS_TYPE
4424 declare a checked exception in their `throws' clause in order to
4425 see whether it's necessary to encapsulate the instance initializer
4426 statements in a try/catch/rethrow sequence. */
4427
4428 static tree
generate_instinit(tree class_type)4429 generate_instinit (tree class_type)
4430 {
4431 tree current;
4432 tree compound = NULL_TREE;
4433 tree parms = tree_cons (this_identifier_node,
4434 build_pointer_type (class_type), end_params_node);
4435 tree mdecl = create_artificial_method (class_type, ACC_PRIVATE,
4436 void_type_node,
4437 instinit_identifier_node, parms);
4438
4439 layout_class_method (class_type, CLASSTYPE_SUPER (class_type),
4440 mdecl, NULL_TREE);
4441
4442 /* Gather all the statements in a compound */
4443 for (current = TYPE_II_STMT_LIST (class_type);
4444 current; current = TREE_CHAIN (current))
4445 compound = add_stmt_to_compound (compound, NULL_TREE, current);
4446
4447 /* We need to encapsulate COMPOUND by a try/catch statement to
4448 rethrow exceptions that might occur in the instance initializer.
4449 We do that only if all ctors of CLASS_TYPE are set to catch a
4450 checked exception. This doesn't apply to anonymous classes (since
4451 they don't have declared ctors.) */
4452 if (!ANONYMOUS_CLASS_P (class_type) &&
4453 ctors_unchecked_throws_clause_p (class_type))
4454 {
4455 compound = encapsulate_with_try_catch (0, exception_type_node, compound,
4456 build1 (THROW_EXPR, NULL_TREE,
4457 build_wfl_node (wpv_id)));
4458 DECL_FUNCTION_THROWS (mdecl) = build_tree_list (NULL_TREE,
4459 exception_type_node);
4460 }
4461
4462 start_artificial_method_body (mdecl);
4463 java_method_add_stmt (mdecl, compound);
4464 end_artificial_method_body (mdecl);
4465
4466 return mdecl;
4467 }
4468
4469 /* FIXME */
4470 static tree
build_instinit_invocation(tree class_type)4471 build_instinit_invocation (tree class_type)
4472 {
4473 tree to_return = NULL_TREE;
4474
4475 if (TYPE_II_STMT_LIST (class_type))
4476 {
4477 tree parm = build_tree_list (NULL_TREE,
4478 build_wfl_node (this_identifier_node));
4479 to_return =
4480 build_method_invocation (build_wfl_node (instinit_identifier_node),
4481 parm);
4482 }
4483 return to_return;
4484 }
4485
4486 /* Shared across method_declarator and method_header to remember the
4487 patch stage that was reached during the declaration of the method.
4488 A method DECL is built differently is there is no patch
4489 (JDEP_NO_PATCH) or a patch (JDEP_METHOD or JDEP_METHOD_RETURN)
4490 pending on the currently defined method. */
4491
4492 static int patch_stage;
4493
4494 /* Check the method declaration and add the method to its current
4495 class. If the argument list is known to contain incomplete types,
4496 the method is partially added and the registration will be resume
4497 once the method arguments resolved. If TYPE is NULL, we're dealing
4498 with a constructor. */
4499
4500 static tree
method_header(int flags,tree type,tree mdecl,tree throws)4501 method_header (int flags, tree type, tree mdecl, tree throws)
4502 {
4503 tree type_wfl = NULL_TREE;
4504 tree meth_name = NULL_TREE;
4505 tree current, orig_arg, this_class = NULL;
4506 tree id, meth;
4507 int saved_lineno;
4508 int constructor_ok = 0, must_chain;
4509 int count;
4510
4511 if (mdecl == error_mark_node)
4512 return error_mark_node;
4513 meth = TREE_VALUE (mdecl);
4514 id = TREE_PURPOSE (mdecl);
4515
4516 check_modifiers_consistency (flags);
4517
4518 if (GET_CPC ())
4519 this_class = TREE_TYPE (GET_CPC ());
4520
4521 if (!this_class || this_class == error_mark_node)
4522 return NULL_TREE;
4523
4524 /* There are some forbidden modifiers for an abstract method and its
4525 class must be abstract as well. */
4526 if (type && (flags & ACC_ABSTRACT))
4527 {
4528 ABSTRACT_CHECK (flags, ACC_PRIVATE, id, "Private");
4529 ABSTRACT_CHECK (flags, ACC_STATIC, id, "Static");
4530 ABSTRACT_CHECK (flags, ACC_FINAL, id, "Final");
4531 ABSTRACT_CHECK (flags, ACC_NATIVE, id, "Native");
4532 ABSTRACT_CHECK (flags, ACC_SYNCHRONIZED, id, "Synchronized");
4533 ABSTRACT_CHECK (flags, ACC_STRICT, id, "Strictfp");
4534 if (!CLASS_ABSTRACT (TYPE_NAME (this_class))
4535 && !CLASS_INTERFACE (TYPE_NAME (this_class)))
4536 parse_error_context
4537 (id, "Class `%s' must be declared abstract to define abstract method `%s'",
4538 IDENTIFIER_POINTER (DECL_NAME (GET_CPC ())),
4539 IDENTIFIER_POINTER (EXPR_WFL_NODE (id)));
4540 }
4541
4542 /* A native method can't be strictfp. */
4543 if ((flags & ACC_NATIVE) && (flags & ACC_STRICT))
4544 parse_error_context (id, "native method `%s' can't be strictfp",
4545 IDENTIFIER_POINTER (EXPR_WFL_NODE (id)));
4546 /* No such thing as a transient or volatile method. */
4547 if ((flags & ACC_TRANSIENT))
4548 parse_error_context (id, "method `%s' can't be transient",
4549 IDENTIFIER_POINTER (EXPR_WFL_NODE (id)));
4550 if ((flags & ACC_VOLATILE))
4551 parse_error_context (id, "method `%s' can't be volatile",
4552 IDENTIFIER_POINTER (EXPR_WFL_NODE (id)));
4553
4554 /* Things to be checked when declaring a constructor */
4555 if (!type)
4556 {
4557 int ec = java_error_count;
4558 /* 8.6: Constructor declarations: we might be trying to define a
4559 method without specifying a return type. */
4560 if (EXPR_WFL_NODE (id) != GET_CPC_UN ())
4561 parse_error_context
4562 (id, "Invalid method declaration, return type required");
4563 /* 8.6.3: Constructor modifiers */
4564 else
4565 {
4566 JCONSTRUCTOR_CHECK (flags, ACC_ABSTRACT, id, "abstract");
4567 JCONSTRUCTOR_CHECK (flags, ACC_STATIC, id, "static");
4568 JCONSTRUCTOR_CHECK (flags, ACC_FINAL, id, "final");
4569 JCONSTRUCTOR_CHECK (flags, ACC_NATIVE, id, "native");
4570 JCONSTRUCTOR_CHECK (flags, ACC_SYNCHRONIZED, id, "synchronized");
4571 JCONSTRUCTOR_CHECK (flags, ACC_STRICT, id, "strictfp");
4572 }
4573 /* If we found error here, we don't consider it's OK to tread
4574 the method definition as a constructor, for the rest of this
4575 function */
4576 if (ec == java_error_count)
4577 constructor_ok = 1;
4578 }
4579
4580 /* Method declared within the scope of an interface are implicitly
4581 abstract and public. Conflicts with other erroneously provided
4582 modifiers are checked right after. */
4583
4584 if (CLASS_INTERFACE (TYPE_NAME (this_class)))
4585 {
4586 /* If FLAGS isn't set because of a modifier, turn the
4587 corresponding modifier WFL to NULL so we issue a warning on
4588 the obsolete use of the modifier */
4589 if (!(flags & ACC_PUBLIC))
4590 MODIFIER_WFL (PUBLIC_TK) = NULL;
4591 if (!(flags & ACC_ABSTRACT))
4592 MODIFIER_WFL (ABSTRACT_TK) = NULL;
4593 flags |= ACC_PUBLIC;
4594 flags |= ACC_ABSTRACT;
4595 }
4596
4597 /* Inner class can't declare static methods */
4598 if ((flags & ACC_STATIC) && !TOPLEVEL_CLASS_TYPE_P (this_class))
4599 {
4600 parse_error_context
4601 (id, "Method `%s' can't be static in inner class `%s'. Only members of interfaces and top-level classes can be static",
4602 IDENTIFIER_POINTER (EXPR_WFL_NODE (id)),
4603 lang_printable_name (this_class, 0));
4604 }
4605
4606 /* Modifiers context reset moved up, so abstract method declaration
4607 modifiers can be later checked. */
4608
4609 /* Set constructor returned type to void and method name to <init>,
4610 unless we found an error identifier the constructor (in which
4611 case we retain the original name) */
4612 if (!type)
4613 {
4614 type = void_type_node;
4615 if (constructor_ok)
4616 meth_name = init_identifier_node;
4617 }
4618 else
4619 meth_name = EXPR_WFL_NODE (id);
4620
4621 /* Do the returned type resolution and registration if necessary */
4622 SET_TYPE_FOR_RESOLUTION (type, type_wfl, must_chain);
4623
4624 if (meth_name)
4625 type = build_array_from_name (type, type_wfl, meth_name, &meth_name);
4626 EXPR_WFL_NODE (id) = meth_name;
4627 PROMOTE_RECORD_IF_COMPLETE (type, must_chain);
4628
4629 if (must_chain)
4630 {
4631 patch_stage = JDEP_METHOD_RETURN;
4632 register_incomplete_type (patch_stage, type_wfl, id, type);
4633 TREE_TYPE (meth) = GET_REAL_TYPE (type);
4634 }
4635 else
4636 TREE_TYPE (meth) = type;
4637
4638 saved_lineno = input_line;
4639 /* When defining an abstract or interface method, the curly
4640 bracket at level 1 doesn't exist because there is no function
4641 body */
4642 input_line = (ctxp->first_ccb_indent1 ? ctxp->first_ccb_indent1 :
4643 EXPR_WFL_LINENO (id));
4644
4645 /* Remember the original argument list */
4646 orig_arg = TYPE_ARG_TYPES (meth);
4647
4648 if (patch_stage) /* includes ret type and/or all args */
4649 {
4650 jdep *jdep;
4651 meth = add_method_1 (this_class, flags, meth_name, meth);
4652 /* Patch for the return type */
4653 if (patch_stage == JDEP_METHOD_RETURN)
4654 {
4655 jdep = CLASSD_LAST (ctxp->classd_list);
4656 JDEP_GET_PATCH (jdep) = &TREE_TYPE (TREE_TYPE (meth));
4657 }
4658 /* This is the stop JDEP. METH allows the function's signature
4659 to be computed. */
4660 register_incomplete_type (JDEP_METHOD_END, NULL_TREE, meth, NULL_TREE);
4661 }
4662 else
4663 meth = add_method (this_class, flags, meth_name,
4664 build_java_signature (meth));
4665
4666 /* Remember final parameters */
4667 MARK_FINAL_PARMS (meth, orig_arg);
4668
4669 /* Fix the method argument list so we have the argument name
4670 information */
4671 fix_method_argument_names (orig_arg, meth);
4672
4673 /* Register the parameter number and re-install the current line
4674 number */
4675 DECL_MAX_LOCALS (meth) = ctxp->formal_parameter_number+1;
4676 input_line = saved_lineno;
4677
4678 /* Register exception specified by the `throws' keyword for
4679 resolution and set the method decl appropriate field to the list.
4680 Note: the grammar ensures that what we get here are class
4681 types. */
4682 if (throws)
4683 {
4684 throws = nreverse (throws);
4685 for (current = throws; current; current = TREE_CHAIN (current))
4686 {
4687 register_incomplete_type (JDEP_EXCEPTION, TREE_VALUE (current),
4688 NULL_TREE, NULL_TREE);
4689 JDEP_GET_PATCH (CLASSD_LAST (ctxp->classd_list)) =
4690 &TREE_VALUE (current);
4691 }
4692 DECL_FUNCTION_THROWS (meth) = throws;
4693 }
4694
4695 if (TREE_TYPE (GET_CPC ()) != object_type_node)
4696 DECL_FUNCTION_WFL (meth) = id;
4697
4698 /* Set the flag if we correctly processed a constructor */
4699 if (constructor_ok)
4700 {
4701 DECL_CONSTRUCTOR_P (meth) = 1;
4702 /* Compute and store the number of artificial parameters declared
4703 for this constructor */
4704 for (count = 0, current = TYPE_FIELDS (this_class); current;
4705 current = TREE_CHAIN (current))
4706 if (FIELD_LOCAL_ALIAS (current))
4707 count++;
4708 DECL_FUNCTION_NAP (meth) = count;
4709 }
4710
4711 /* Eventually set the @deprecated tag flag */
4712 CHECK_DEPRECATED (meth);
4713
4714 /* If doing xref, store column and line number information instead
4715 of the line number only. */
4716 if (flag_emit_xref)
4717 DECL_SOURCE_LINE (meth) = EXPR_WFL_LINECOL (id);
4718
4719 return meth;
4720 }
4721
4722 static void
fix_method_argument_names(tree orig_arg,tree meth)4723 fix_method_argument_names (tree orig_arg, tree meth)
4724 {
4725 tree arg = TYPE_ARG_TYPES (TREE_TYPE (meth));
4726 if (TREE_CODE (TREE_TYPE (meth)) == METHOD_TYPE)
4727 {
4728 TREE_PURPOSE (arg) = this_identifier_node;
4729 arg = TREE_CHAIN (arg);
4730 }
4731 while (orig_arg != end_params_node)
4732 {
4733 TREE_PURPOSE (arg) = TREE_PURPOSE (orig_arg);
4734 orig_arg = TREE_CHAIN (orig_arg);
4735 arg = TREE_CHAIN (arg);
4736 }
4737 }
4738
4739 /* Complete the method declaration with METHOD_BODY. */
4740
4741 static void
finish_method_declaration(tree method_body)4742 finish_method_declaration (tree method_body)
4743 {
4744 int flags;
4745
4746 if (!current_function_decl)
4747 return;
4748
4749 flags = get_access_flags_from_decl (current_function_decl);
4750
4751 /* 8.4.5 Method Body */
4752 if ((flags & ACC_ABSTRACT || flags & ACC_NATIVE) && method_body)
4753 {
4754 tree name = DECL_NAME (current_function_decl);
4755 parse_error_context (DECL_FUNCTION_WFL (current_function_decl),
4756 "%s method `%s' can't have a body defined",
4757 (METHOD_NATIVE (current_function_decl) ?
4758 "Native" : "Abstract"),
4759 IDENTIFIER_POINTER (name));
4760 method_body = NULL_TREE;
4761 }
4762 else if (!(flags & ACC_ABSTRACT) && !(flags & ACC_NATIVE) && !method_body)
4763 {
4764 tree name = DECL_NAME (current_function_decl);
4765 parse_error_context
4766 (DECL_FUNCTION_WFL (current_function_decl),
4767 "Non native and non abstract method `%s' must have a body defined",
4768 IDENTIFIER_POINTER (name));
4769 method_body = NULL_TREE;
4770 }
4771
4772 if (flag_emit_class_files && method_body
4773 && TREE_CODE (method_body) == NOP_EXPR
4774 && TREE_TYPE (current_function_decl)
4775 && TREE_TYPE (TREE_TYPE (current_function_decl)) == void_type_node)
4776 method_body = build1 (RETURN_EXPR, void_type_node, NULL);
4777
4778 BLOCK_EXPR_BODY (DECL_FUNCTION_BODY (current_function_decl)) = method_body;
4779 maybe_absorb_scoping_blocks ();
4780 /* Exit function's body */
4781 exit_block ();
4782 /* Merge last line of the function with first line, directly in the
4783 function decl. It will be used to emit correct debug info. */
4784 if (!flag_emit_xref)
4785 DECL_FUNCTION_LAST_LINE (current_function_decl) = ctxp->last_ccb_indent1;
4786
4787 /* Since function's argument's list are shared, reset the
4788 ARG_FINAL_P parameter that might have been set on some of this
4789 function parameters. */
4790 UNMARK_FINAL_PARMS (current_function_decl);
4791
4792 /* So we don't have an irrelevant function declaration context for
4793 the next static block we'll see. */
4794 current_function_decl = NULL_TREE;
4795 }
4796
4797 /* Build a an error message for constructor circularity errors. */
4798
4799 static char *
constructor_circularity_msg(tree from,tree to)4800 constructor_circularity_msg (tree from, tree to)
4801 {
4802 static char string [4096];
4803 char *t = xstrdup (lang_printable_name (from, 0));
4804 sprintf (string, "`%s' invokes `%s'", t, lang_printable_name (to, 0));
4805 free (t);
4806 return string;
4807 }
4808
4809 /* Verify a circular call to METH. Return 1 if an error is found, 0
4810 otherwise. */
4811
4812 static GTY(()) tree vcc_list;
4813 static int
verify_constructor_circularity(tree meth,tree current)4814 verify_constructor_circularity (tree meth, tree current)
4815 {
4816 tree c;
4817
4818 for (c = DECL_CONSTRUCTOR_CALLS (current); c; c = TREE_CHAIN (c))
4819 {
4820 if (TREE_VALUE (c) == meth)
4821 {
4822 char *t;
4823 if (vcc_list)
4824 {
4825 tree liste;
4826 vcc_list = nreverse (vcc_list);
4827 for (liste = vcc_list; liste; liste = TREE_CHAIN (liste))
4828 {
4829 parse_error_context
4830 (TREE_PURPOSE (TREE_PURPOSE (liste)), "%s",
4831 constructor_circularity_msg
4832 (TREE_VALUE (liste), TREE_VALUE (TREE_PURPOSE (liste))));
4833 java_error_count--;
4834 }
4835 }
4836 t = xstrdup (lang_printable_name (meth, 0));
4837 parse_error_context (TREE_PURPOSE (c),
4838 "%s: recursive invocation of constructor `%s'",
4839 constructor_circularity_msg (current, meth), t);
4840 free (t);
4841 vcc_list = NULL_TREE;
4842 return 1;
4843 }
4844 }
4845 for (c = DECL_CONSTRUCTOR_CALLS (current); c; c = TREE_CHAIN (c))
4846 {
4847 vcc_list = tree_cons (c, current, vcc_list);
4848 if (verify_constructor_circularity (meth, TREE_VALUE (c)))
4849 return 1;
4850 vcc_list = TREE_CHAIN (vcc_list);
4851 }
4852 return 0;
4853 }
4854
4855 /* Check modifiers that can be declared but exclusively */
4856
4857 static void
check_modifiers_consistency(int flags)4858 check_modifiers_consistency (int flags)
4859 {
4860 int acc_count = 0;
4861 tree cl = NULL_TREE;
4862
4863 THIS_MODIFIER_ONLY (flags, ACC_PUBLIC, PUBLIC_TK, acc_count, cl);
4864 THIS_MODIFIER_ONLY (flags, ACC_PRIVATE, PRIVATE_TK, acc_count, cl);
4865 THIS_MODIFIER_ONLY (flags, ACC_PROTECTED, PROTECTED_TK, acc_count, cl);
4866 if (acc_count > 1)
4867 parse_error_context
4868 (cl, "Inconsistent member declaration. At most one of `public', `private', or `protected' may be specified");
4869
4870 acc_count = 0;
4871 cl = NULL_TREE;
4872 THIS_MODIFIER_ONLY (flags, ACC_FINAL, FINAL_TK, acc_count, cl);
4873 THIS_MODIFIER_ONLY (flags, ACC_VOLATILE, VOLATILE_TK, acc_count, cl);
4874 if (acc_count > 1)
4875 parse_error_context (cl,
4876 "Inconsistent member declaration. At most one of `final' or `volatile' may be specified");
4877 }
4878
4879 /* Check the methode header METH for abstract specifics features */
4880
4881 static void
check_abstract_method_header(tree meth)4882 check_abstract_method_header (tree meth)
4883 {
4884 int flags = get_access_flags_from_decl (meth);
4885
4886 OBSOLETE_MODIFIER_WARNING2 (MODIFIER_WFL (ABSTRACT_TK), flags,
4887 ACC_ABSTRACT, "abstract method",
4888 IDENTIFIER_POINTER (DECL_NAME (meth)));
4889 OBSOLETE_MODIFIER_WARNING2 (MODIFIER_WFL (PUBLIC_TK), flags,
4890 ACC_PUBLIC, "abstract method",
4891 IDENTIFIER_POINTER (DECL_NAME (meth)));
4892
4893 check_modifiers ("Illegal modifier `%s' for interface method",
4894 flags, INTERFACE_METHOD_MODIFIERS);
4895 }
4896
4897 /* Create a FUNCTION_TYPE node and start augmenting it with the
4898 declared function arguments. Arguments type that can't be resolved
4899 are left as they are, but the returned node is marked as containing
4900 incomplete types. */
4901
4902 static tree
method_declarator(tree id,tree list)4903 method_declarator (tree id, tree list)
4904 {
4905 tree arg_types = NULL_TREE, current, node;
4906 tree meth = make_node (FUNCTION_TYPE);
4907 jdep *jdep;
4908
4909 patch_stage = JDEP_NO_PATCH;
4910
4911 if (GET_CPC () == error_mark_node)
4912 return error_mark_node;
4913
4914 /* If we're dealing with an inner class constructor, we hide the
4915 this$<n> decl in the name field of its parameter declaration. We
4916 also might have to hide the outer context local alias
4917 initializers. Not done when the class is a toplevel class. */
4918 if (PURE_INNER_CLASS_DECL_P (GET_CPC ())
4919 && EXPR_WFL_NODE (id) == GET_CPC_UN ())
4920 {
4921 tree aliases_list, type, thisn;
4922 /* First the aliases, linked to the regular parameters */
4923 aliases_list =
4924 build_alias_initializer_parameter_list (AIPL_FUNCTION_DECLARATION,
4925 TREE_TYPE (GET_CPC ()),
4926 NULL_TREE, NULL);
4927 list = chainon (nreverse (aliases_list), list);
4928
4929 /* Then this$<n> */
4930 type = TREE_TYPE (DECL_CONTEXT (GET_CPC ()));
4931 thisn = build_current_thisn (TREE_TYPE (GET_CPC ()));
4932 list = tree_cons (build_wfl_node (thisn), build_pointer_type (type),
4933 list);
4934 }
4935
4936 for (current = list; current; current = TREE_CHAIN (current))
4937 {
4938 int must_chain = 0;
4939 tree wfl_name = TREE_PURPOSE (current);
4940 tree type = TREE_VALUE (current);
4941 tree name = EXPR_WFL_NODE (wfl_name);
4942 tree already, arg_node;
4943 tree type_wfl = NULL_TREE;
4944 tree real_type;
4945
4946 /* Obtain a suitable type for resolution, if necessary */
4947 SET_TYPE_FOR_RESOLUTION (type, type_wfl, must_chain);
4948
4949 /* Process NAME, as it may specify extra dimension(s) for it */
4950 type = build_array_from_name (type, type_wfl, name, &name);
4951 EXPR_WFL_NODE (wfl_name) = name;
4952
4953 real_type = GET_REAL_TYPE (type);
4954 if (TREE_CODE (real_type) == RECORD_TYPE)
4955 {
4956 real_type = promote_type (real_type);
4957 if (TREE_CODE (type) == TREE_LIST)
4958 TREE_PURPOSE (type) = real_type;
4959 }
4960
4961 /* Check redefinition */
4962 for (already = arg_types; already; already = TREE_CHAIN (already))
4963 if (TREE_PURPOSE (already) == name)
4964 {
4965 parse_error_context
4966 (wfl_name, "Variable `%s' is used more than once in the argument list of method `%s'",
4967 IDENTIFIER_POINTER (name),
4968 IDENTIFIER_POINTER (EXPR_WFL_NODE (id)));
4969 break;
4970 }
4971
4972 /* If we've an incomplete argument type, we know there is a location
4973 to patch when the type get resolved, later. */
4974 jdep = NULL;
4975 if (must_chain)
4976 {
4977 patch_stage = JDEP_METHOD;
4978 type = register_incomplete_type (patch_stage,
4979 type_wfl, wfl_name, type);
4980 jdep = CLASSD_LAST (ctxp->classd_list);
4981 JDEP_MISC (jdep) = id;
4982 }
4983
4984 /* The argument node: a name and a (possibly) incomplete type. */
4985 arg_node = build_tree_list (name, real_type);
4986 /* Remember arguments declared final. */
4987 ARG_FINAL_P (arg_node) = ARG_FINAL_P (current);
4988
4989 if (jdep)
4990 JDEP_GET_PATCH (jdep) = &TREE_VALUE (arg_node);
4991 TREE_CHAIN (arg_node) = arg_types;
4992 arg_types = arg_node;
4993 }
4994 TYPE_ARG_TYPES (meth) = chainon (nreverse (arg_types), end_params_node);
4995 node = build_tree_list (id, meth);
4996 return node;
4997 }
4998
4999 static int
unresolved_type_p(tree wfl,tree * returned)5000 unresolved_type_p (tree wfl, tree *returned)
5001
5002 {
5003 if (TREE_CODE (wfl) == EXPR_WITH_FILE_LOCATION)
5004 {
5005 if (returned)
5006 {
5007 tree decl = IDENTIFIER_CLASS_VALUE (EXPR_WFL_NODE (wfl));
5008 if (decl && current_class && (decl == TYPE_NAME (current_class)))
5009 *returned = TREE_TYPE (decl);
5010 else if (GET_CPC_UN () == EXPR_WFL_NODE (wfl))
5011 *returned = TREE_TYPE (GET_CPC ());
5012 else
5013 *returned = NULL_TREE;
5014 }
5015 return 1;
5016 }
5017 if (returned)
5018 *returned = wfl;
5019 return 0;
5020 }
5021
5022 /* From NAME, build a qualified identifier node using the
5023 qualification from the current package definition. */
5024
5025 static tree
parser_qualified_classname(tree name)5026 parser_qualified_classname (tree name)
5027 {
5028 tree nested_class_name;
5029
5030 if ((nested_class_name = maybe_make_nested_class_name (name)))
5031 return nested_class_name;
5032
5033 if (ctxp->package)
5034 return merge_qualified_name (ctxp->package, name);
5035 else
5036 return name;
5037 }
5038
5039 /* Called once the type a interface extends is resolved. Returns 0 if
5040 everything is OK. */
5041
5042 static int
parser_check_super_interface(tree super_decl,tree this_decl,tree this_wfl)5043 parser_check_super_interface (tree super_decl, tree this_decl, tree this_wfl)
5044 {
5045 tree super_type = TREE_TYPE (super_decl);
5046
5047 /* Has to be an interface */
5048 if (!CLASS_INTERFACE (super_decl))
5049 {
5050 parse_error_context
5051 (this_wfl, "%s `%s' can't implement/extend %s `%s'",
5052 (CLASS_INTERFACE (TYPE_NAME (TREE_TYPE (this_decl))) ?
5053 "Interface" : "Class"),
5054 IDENTIFIER_POINTER (DECL_NAME (this_decl)),
5055 (TYPE_ARRAY_P (super_type) ? "array" : "class"),
5056 IDENTIFIER_POINTER (DECL_NAME (super_decl)));
5057 return 1;
5058 }
5059
5060 /* Check top-level interface access. Inner classes are subject to member
5061 access rules (6.6.1). */
5062 if (! INNER_CLASS_P (super_type)
5063 && check_pkg_class_access (DECL_NAME (super_decl),
5064 lookup_cl (this_decl), true))
5065 return 1;
5066
5067 SOURCE_FRONTEND_DEBUG (("Completing interface %s with %s",
5068 IDENTIFIER_POINTER (DECL_NAME (this_decl)),
5069 IDENTIFIER_POINTER (DECL_NAME (super_decl))));
5070 return 0;
5071 }
5072
5073 /* Makes sure that SUPER_DECL is suitable to extend THIS_DECL. Returns
5074 0 if everything is OK. */
5075
5076 static int
parser_check_super(tree super_decl,tree this_decl,tree wfl)5077 parser_check_super (tree super_decl, tree this_decl, tree wfl)
5078 {
5079 tree super_type = TREE_TYPE (super_decl);
5080
5081 /* SUPER should be a CLASS (neither an array nor an interface) */
5082 if (TYPE_ARRAY_P (super_type) || CLASS_INTERFACE (TYPE_NAME (super_type)))
5083 {
5084 parse_error_context
5085 (wfl, "Class `%s' can't subclass %s `%s'",
5086 IDENTIFIER_POINTER (DECL_NAME (this_decl)),
5087 (CLASS_INTERFACE (TYPE_NAME (super_type)) ? "interface" : "array"),
5088 IDENTIFIER_POINTER (DECL_NAME (super_decl)));
5089 return 1;
5090 }
5091
5092 if (CLASS_FINAL (TYPE_NAME (super_type)))
5093 {
5094 parse_error_context (wfl, "Can't subclass final classes: %s",
5095 IDENTIFIER_POINTER (DECL_NAME (super_decl)));
5096 return 1;
5097 }
5098
5099 /* Check top-level class scope. Inner classes are subject to member access
5100 rules (6.6.1). */
5101 if (! INNER_CLASS_P (super_type)
5102 && (check_pkg_class_access (DECL_NAME (super_decl), wfl, true)))
5103 return 1;
5104
5105 SOURCE_FRONTEND_DEBUG (("Completing class %s with %s",
5106 IDENTIFIER_POINTER (DECL_NAME (this_decl)),
5107 IDENTIFIER_POINTER (DECL_NAME (super_decl))));
5108 return 0;
5109 }
5110
5111 /* Create a new dependency list and link it (in a LIFO manner) to the
5112 CTXP list of type dependency list. */
5113
5114 static void
create_jdep_list(struct parser_ctxt * ctxp)5115 create_jdep_list (struct parser_ctxt *ctxp)
5116 {
5117 jdeplist *new = xmalloc (sizeof (jdeplist));
5118 new->first = new->last = NULL;
5119 new->next = ctxp->classd_list;
5120 ctxp->classd_list = new;
5121 }
5122
5123 static jdeplist *
reverse_jdep_list(struct parser_ctxt * ctxp)5124 reverse_jdep_list (struct parser_ctxt *ctxp)
5125 {
5126 jdeplist *prev = NULL, *current, *next;
5127 for (current = ctxp->classd_list; current; current = next)
5128 {
5129 next = current->next;
5130 current->next = prev;
5131 prev = current;
5132 }
5133 return prev;
5134 }
5135
5136 /* Create a fake pointer based on the ID stored in
5137 TYPE_NAME. TYPE_NAME can be a WFL or a incomplete type asking to be
5138 registered again. */
5139
5140 static tree
obtain_incomplete_type(tree type_name)5141 obtain_incomplete_type (tree type_name)
5142 {
5143 tree ptr = NULL_TREE, name;
5144
5145 if (TREE_CODE (type_name) == EXPR_WITH_FILE_LOCATION)
5146 name = EXPR_WFL_NODE (type_name);
5147 else if (INCOMPLETE_TYPE_P (type_name))
5148 name = TYPE_NAME (type_name);
5149 else
5150 abort ();
5151
5152 /* Workaround from build_pointer_type for incomplete types. */
5153 BUILD_PTR_FROM_NAME (ptr, name);
5154 TYPE_MODE (ptr) = ptr_mode;
5155 layout_type (ptr);
5156
5157 return ptr;
5158 }
5159
5160 /* Register a incomplete type whose name is WFL. Reuse PTR if PTR is
5161 non NULL instead of computing a new fake type based on WFL. The new
5162 dependency is inserted in the current type dependency list, in FIFO
5163 manner. */
5164
5165 static tree
register_incomplete_type(int kind,tree wfl,tree decl,tree ptr)5166 register_incomplete_type (int kind, tree wfl, tree decl, tree ptr)
5167 {
5168 jdep *new = xmalloc (sizeof (jdep));
5169
5170 if (!ptr && kind != JDEP_METHOD_END) /* JDEP_METHOD_END is a mere marker */
5171 ptr = obtain_incomplete_type (wfl);
5172
5173 JDEP_KIND (new) = kind;
5174 JDEP_DECL (new) = decl;
5175 JDEP_TO_RESOLVE (new) = ptr;
5176 JDEP_WFL (new) = wfl;
5177 JDEP_CHAIN (new) = NULL;
5178 JDEP_MISC (new) = NULL_TREE;
5179 /* For some dependencies, set the enclosing class of the current
5180 class to be the enclosing context */
5181 if ((kind == JDEP_INTERFACE || kind == JDEP_ANONYMOUS)
5182 && GET_ENCLOSING_CPC ())
5183 JDEP_ENCLOSING (new) = TREE_VALUE (GET_ENCLOSING_CPC ());
5184 else if (kind == JDEP_SUPER)
5185 JDEP_ENCLOSING (new) = (GET_ENCLOSING_CPC () ?
5186 TREE_VALUE (GET_ENCLOSING_CPC ()) : NULL_TREE);
5187 else
5188 JDEP_ENCLOSING (new) = GET_CPC ();
5189 JDEP_GET_PATCH (new) = (tree *)NULL;
5190
5191 JDEP_INSERT (ctxp->classd_list, new);
5192
5193 return ptr;
5194 }
5195
5196 /* This checks for circular references with innerclasses. We start
5197 from SOURCE and should never reach TARGET. Extended/implemented
5198 types in SOURCE have their enclosing context checked not to reach
5199 TARGET. When the last enclosing context of SOURCE is reached, its
5200 extended/implemented types are also checked not to reach TARGET.
5201 In case of error, WFL of the offending type is returned; NULL_TREE
5202 otherwise. */
5203
5204 static tree
check_inner_circular_reference(tree source,tree target)5205 check_inner_circular_reference (tree source, tree target)
5206 {
5207 tree basetype_vec = TYPE_BINFO_BASETYPES (source);
5208 tree ctx, cl;
5209 int i;
5210
5211 if (!basetype_vec)
5212 return NULL_TREE;
5213
5214 for (i = 0; i < TREE_VEC_LENGTH (basetype_vec); i++)
5215 {
5216 tree su;
5217
5218 /* We can end up with a NULL_TREE or an incomplete type here if
5219 we encountered previous type resolution errors. It's safe to
5220 simply ignore these cases. */
5221 if (TREE_VEC_ELT (basetype_vec, i) == NULL_TREE)
5222 continue;
5223 su = BINFO_TYPE (TREE_VEC_ELT (basetype_vec, i));
5224 if (INCOMPLETE_TYPE_P (su))
5225 continue;
5226
5227 if (inherits_from_p (su, target))
5228 return lookup_cl (TYPE_NAME (su));
5229
5230 for (ctx = DECL_CONTEXT (TYPE_NAME (su)); ctx; ctx = DECL_CONTEXT (ctx))
5231 {
5232 /* An enclosing context shouldn't be TARGET */
5233 if (ctx == TYPE_NAME (target))
5234 return lookup_cl (TYPE_NAME (su));
5235
5236 /* When we reach the enclosing last context, start a check
5237 on it, with the same target */
5238 if (! DECL_CONTEXT (ctx) &&
5239 (cl = check_inner_circular_reference (TREE_TYPE (ctx), target)))
5240 return cl;
5241 }
5242 }
5243 return NULL_TREE;
5244 }
5245
5246 /* Explore TYPE's `extends' clause member(s) and return the WFL of the
5247 offending type if a circularity is detected. NULL_TREE is returned
5248 otherwise. TYPE can be an interface or a class. */
5249
5250 static tree
check_circular_reference(tree type)5251 check_circular_reference (tree type)
5252 {
5253 tree basetype_vec = TYPE_BINFO_BASETYPES (type);
5254 int i;
5255
5256 if (!basetype_vec)
5257 return NULL_TREE;
5258
5259 if (! CLASS_INTERFACE (TYPE_NAME (type)))
5260 {
5261 if (inherits_from_p (CLASSTYPE_SUPER (type), type))
5262 return lookup_cl (TYPE_NAME (type));
5263 return NULL_TREE;
5264 }
5265
5266 for (i = 0; i < TREE_VEC_LENGTH (basetype_vec); i++)
5267 {
5268 tree vec_elt = TREE_VEC_ELT (basetype_vec, i);
5269 if (vec_elt && BINFO_TYPE (vec_elt) != object_type_node
5270 && interface_of_p (type, BINFO_TYPE (vec_elt)))
5271 return lookup_cl (TYPE_NAME (BINFO_TYPE (vec_elt)));
5272 }
5273 return NULL_TREE;
5274 }
5275
5276 void
java_check_circular_reference(void)5277 java_check_circular_reference (void)
5278 {
5279 tree current;
5280 for (current = ctxp->class_list; current; current = TREE_CHAIN (current))
5281 {
5282 tree type = TREE_TYPE (current);
5283 tree cl;
5284
5285 cl = check_circular_reference (type);
5286 if (! cl)
5287 cl = check_inner_circular_reference (type, type);
5288 if (cl)
5289 parse_error_context (cl, "Cyclic class inheritance%s",
5290 (cyclic_inheritance_report ?
5291 cyclic_inheritance_report : ""));
5292 }
5293 }
5294
5295 /* Augment the parameter list PARM with parameters crafted to
5296 initialize outer context locals aliases. Through ARTIFICIAL, a
5297 count is kept of the number of crafted parameters. MODE governs
5298 what eventually gets created: something suitable for a function
5299 creation or a function invocation, either the constructor or
5300 finit$. */
5301
5302 static tree
build_alias_initializer_parameter_list(int mode,tree class_type,tree parm,int * artificial)5303 build_alias_initializer_parameter_list (int mode, tree class_type, tree parm,
5304 int *artificial)
5305 {
5306 tree field;
5307 tree additional_parms = NULL_TREE;
5308
5309 for (field = TYPE_FIELDS (class_type); field; field = TREE_CHAIN (field))
5310 if (FIELD_LOCAL_ALIAS (field))
5311 {
5312 const char *buffer = IDENTIFIER_POINTER (DECL_NAME (field));
5313 tree purpose = NULL_TREE, value = NULL_TREE, name = NULL_TREE;
5314 tree mangled_id;
5315
5316 switch (mode)
5317 {
5318 case AIPL_FUNCTION_DECLARATION:
5319 MANGLE_ALIAS_INITIALIZER_PARAMETER_NAME_STR (mangled_id,
5320 &buffer [4]);
5321 purpose = build_wfl_node (mangled_id);
5322 if (TREE_CODE (TREE_TYPE (field)) == POINTER_TYPE)
5323 value = build_wfl_node (TYPE_NAME (TREE_TYPE (field)));
5324 else
5325 value = TREE_TYPE (field);
5326 break;
5327
5328 case AIPL_FUNCTION_CREATION:
5329 MANGLE_ALIAS_INITIALIZER_PARAMETER_NAME_STR (purpose,
5330 &buffer [4]);
5331 value = TREE_TYPE (field);
5332 break;
5333
5334 case AIPL_FUNCTION_FINIT_INVOCATION:
5335 MANGLE_ALIAS_INITIALIZER_PARAMETER_NAME_STR (mangled_id,
5336 &buffer [4]);
5337 /* Now, this is wrong. purpose should always be the NAME
5338 of something and value its matching value (decl, type,
5339 etc...) FIXME -- but there is a lot to fix. */
5340
5341 /* When invoked for this kind of operation, we already
5342 know whether a field is used or not. */
5343 purpose = TREE_TYPE (field);
5344 value = build_wfl_node (mangled_id);
5345 break;
5346
5347 case AIPL_FUNCTION_CTOR_INVOCATION:
5348 /* There are two case: the constructor invocation happens
5349 outside the local inner, in which case, locales from the outer
5350 context are directly used.
5351
5352 Otherwise, we fold to using the alias directly. */
5353 if (class_type == current_class)
5354 value = field;
5355 else
5356 {
5357 name = get_identifier (&buffer[4]);
5358 value = IDENTIFIER_LOCAL_VALUE (name);
5359 }
5360 break;
5361 }
5362 additional_parms = tree_cons (purpose, value, additional_parms);
5363 if (artificial)
5364 *artificial +=1;
5365 }
5366 if (additional_parms)
5367 {
5368 if (ANONYMOUS_CLASS_P (class_type)
5369 && mode == AIPL_FUNCTION_CTOR_INVOCATION)
5370 additional_parms = nreverse (additional_parms);
5371 parm = chainon (additional_parms, parm);
5372 }
5373
5374 return parm;
5375 }
5376
5377 /* Craft a constructor for CLASS_DECL -- what we should do when none
5378 where found. ARGS is non NULL when a special signature must be
5379 enforced. This is the case for anonymous classes. */
5380
5381 static tree
craft_constructor(tree class_decl,tree args)5382 craft_constructor (tree class_decl, tree args)
5383 {
5384 tree class_type = TREE_TYPE (class_decl);
5385 tree parm = NULL_TREE;
5386 int flags = (get_access_flags_from_decl (class_decl) & ACC_PUBLIC ?
5387 ACC_PUBLIC : 0);
5388 int i = 0, artificial = 0;
5389 tree decl, ctor_name;
5390 char buffer [80];
5391
5392 /* The constructor name is <init> unless we're dealing with an
5393 anonymous class, in which case the name will be fixed after having
5394 be expanded. */
5395 if (ANONYMOUS_CLASS_P (class_type))
5396 ctor_name = DECL_NAME (class_decl);
5397 else
5398 ctor_name = init_identifier_node;
5399
5400 /* If we're dealing with an inner class constructor, we hide the
5401 this$<n> decl in the name field of its parameter declaration. */
5402 if (PURE_INNER_CLASS_TYPE_P (class_type))
5403 {
5404 tree type = TREE_TYPE (DECL_CONTEXT (TYPE_NAME (class_type)));
5405 parm = tree_cons (build_current_thisn (class_type),
5406 build_pointer_type (type), parm);
5407
5408 /* Some more arguments to be hidden here. The values of the local
5409 variables of the outer context that the inner class needs to see. */
5410 parm = build_alias_initializer_parameter_list (AIPL_FUNCTION_CREATION,
5411 class_type, parm,
5412 &artificial);
5413 }
5414
5415 /* Then if there are any args to be enforced, enforce them now */
5416 for (; args && args != end_params_node; args = TREE_CHAIN (args))
5417 {
5418 sprintf (buffer, "parm%d", i++);
5419 parm = tree_cons (get_identifier (buffer), TREE_VALUE (args), parm);
5420 }
5421
5422 CRAFTED_PARAM_LIST_FIXUP (parm);
5423 decl = create_artificial_method (class_type, flags, void_type_node,
5424 ctor_name, parm);
5425 fix_method_argument_names (parm, decl);
5426 /* Now, mark the artificial parameters. */
5427 DECL_FUNCTION_NAP (decl) = artificial;
5428 DECL_FUNCTION_SYNTHETIC_CTOR (decl) = DECL_CONSTRUCTOR_P (decl) = 1;
5429 DECL_INLINE (decl) = 1;
5430 return decl;
5431 }
5432
5433
5434 /* Fix the constructors. This will be called right after circular
5435 references have been checked. It is necessary to fix constructors
5436 early even if no code generation will take place for that class:
5437 some generated constructor might be required by the class whose
5438 compilation triggered this one to be simply loaded. */
5439
5440 void
java_fix_constructors(void)5441 java_fix_constructors (void)
5442 {
5443 tree current;
5444
5445 for (current = ctxp->class_list; current; current = TREE_CHAIN (current))
5446 {
5447 tree class_type = TREE_TYPE (current);
5448 int saw_ctor = 0;
5449 tree decl;
5450
5451 if (CLASS_INTERFACE (TYPE_NAME (class_type)))
5452 continue;
5453
5454 output_class = current_class = class_type;
5455 for (decl = TYPE_METHODS (class_type); decl; decl = TREE_CHAIN (decl))
5456 {
5457 if (DECL_CONSTRUCTOR_P (decl))
5458 {
5459 fix_constructors (decl);
5460 saw_ctor = 1;
5461 }
5462 }
5463
5464 /* Anonymous class constructor can't be generated that early. */
5465 if (!saw_ctor && !ANONYMOUS_CLASS_P (class_type))
5466 craft_constructor (current, NULL_TREE);
5467 }
5468 }
5469
5470 /* safe_layout_class just makes sure that we can load a class without
5471 disrupting the current_class, input_file, lineno, etc, information
5472 about the class processed currently. */
5473
5474 void
safe_layout_class(tree class)5475 safe_layout_class (tree class)
5476 {
5477 tree save_current_class = current_class;
5478 location_t save_location = input_location;
5479
5480 layout_class (class);
5481
5482 current_class = save_current_class;
5483 input_location = save_location;
5484 }
5485
5486 static tree
jdep_resolve_class(jdep * dep)5487 jdep_resolve_class (jdep *dep)
5488 {
5489 tree decl;
5490
5491 if (JDEP_RESOLVED_P (dep))
5492 decl = JDEP_RESOLVED_DECL (dep);
5493 else
5494 {
5495 decl = resolve_class (JDEP_ENCLOSING (dep), JDEP_TO_RESOLVE (dep),
5496 JDEP_DECL (dep), JDEP_WFL (dep));
5497 JDEP_RESOLVED (dep, decl);
5498 /* If there is no WFL, that's ok. We generate this warning
5499 elsewhere. */
5500 if (decl && JDEP_WFL (dep) != NULL_TREE)
5501 check_deprecation (JDEP_WFL (dep), decl);
5502 }
5503
5504 if (!decl)
5505 complete_class_report_errors (dep);
5506 else if (PURE_INNER_CLASS_DECL_P (decl))
5507 {
5508 tree inner = TREE_TYPE (decl);
5509 if (! CLASS_LOADED_P (inner))
5510 {
5511 safe_layout_class (inner);
5512 if (TYPE_SIZE (inner) == error_mark_node)
5513 TYPE_SIZE (inner) = NULL_TREE;
5514 }
5515 check_inner_class_access (decl, JDEP_ENCLOSING (dep), JDEP_WFL (dep));
5516 }
5517 return decl;
5518 }
5519
5520 /* Complete unsatisfied class declaration and their dependencies */
5521
5522 void
java_complete_class(void)5523 java_complete_class (void)
5524 {
5525 tree cclass;
5526 jdeplist *cclassd;
5527 int error_found;
5528 tree type;
5529
5530 /* Process imports */
5531 process_imports ();
5532
5533 /* Reverse things so we have the right order */
5534 ctxp->class_list = nreverse (ctxp->class_list);
5535 ctxp->classd_list = reverse_jdep_list (ctxp);
5536
5537 for (cclassd = ctxp->classd_list, cclass = ctxp->class_list;
5538 cclass && cclassd;
5539 cclass = TREE_CHAIN (cclass), cclassd = CLASSD_CHAIN (cclassd))
5540 {
5541 jdep *dep;
5542
5543 /* We keep the compilation unit imports in the class so that
5544 they can be used later to resolve type dependencies that
5545 aren't necessary to solve now. */
5546 TYPE_IMPORT_LIST (TREE_TYPE (cclass)) = ctxp->import_list;
5547 TYPE_IMPORT_DEMAND_LIST (TREE_TYPE (cclass)) = ctxp->import_demand_list;
5548
5549 for (dep = CLASSD_FIRST (cclassd); dep; dep = JDEP_CHAIN (dep))
5550 {
5551 tree decl;
5552 if (!(decl = jdep_resolve_class (dep)))
5553 continue;
5554
5555 /* Now it's time to patch */
5556 switch (JDEP_KIND (dep))
5557 {
5558 case JDEP_SUPER:
5559 /* Simply patch super */
5560 if (parser_check_super (decl, JDEP_DECL (dep), JDEP_WFL (dep)))
5561 continue;
5562 BINFO_TYPE (TREE_VEC_ELT (BINFO_BASETYPES (TYPE_BINFO
5563 (TREE_TYPE (JDEP_DECL (dep)))), 0)) = TREE_TYPE (decl);
5564 break;
5565
5566 case JDEP_FIELD:
5567 {
5568 /* We do part of the job done in add_field */
5569 tree field_decl = JDEP_DECL (dep);
5570 tree field_type = TREE_TYPE (decl);
5571 if (TREE_CODE (field_type) == RECORD_TYPE)
5572 field_type = promote_type (field_type);
5573 TREE_TYPE (field_decl) = field_type;
5574 DECL_ALIGN (field_decl) = 0;
5575 DECL_USER_ALIGN (field_decl) = 0;
5576 layout_decl (field_decl, 0);
5577 SOURCE_FRONTEND_DEBUG
5578 (("Completed field/var decl `%s' with `%s'",
5579 IDENTIFIER_POINTER (DECL_NAME (field_decl)),
5580 IDENTIFIER_POINTER (DECL_NAME (decl))));
5581 break;
5582 }
5583 case JDEP_METHOD: /* We start patching a method */
5584 case JDEP_METHOD_RETURN:
5585 error_found = 0;
5586 while (1)
5587 {
5588 if (decl)
5589 {
5590 type = TREE_TYPE(decl);
5591 if (TREE_CODE (type) == RECORD_TYPE)
5592 type = promote_type (type);
5593 JDEP_APPLY_PATCH (dep, type);
5594 SOURCE_FRONTEND_DEBUG
5595 (((JDEP_KIND (dep) == JDEP_METHOD_RETURN ?
5596 "Completing fct `%s' with ret type `%s'":
5597 "Completing arg `%s' with type `%s'"),
5598 IDENTIFIER_POINTER (EXPR_WFL_NODE
5599 (JDEP_DECL_WFL (dep))),
5600 IDENTIFIER_POINTER (DECL_NAME (decl))));
5601 }
5602 else
5603 error_found = 1;
5604 dep = JDEP_CHAIN (dep);
5605 if (JDEP_KIND (dep) == JDEP_METHOD_END)
5606 break;
5607 else
5608 decl = jdep_resolve_class (dep);
5609 }
5610 if (!error_found)
5611 {
5612 tree mdecl = JDEP_DECL (dep), signature;
5613 /* Recompute and reset the signature, check first that
5614 all types are now defined. If they're not,
5615 don't build the signature. */
5616 if (check_method_types_complete (mdecl))
5617 {
5618 signature = build_java_signature (TREE_TYPE (mdecl));
5619 set_java_signature (TREE_TYPE (mdecl), signature);
5620 }
5621 }
5622 else
5623 continue;
5624 break;
5625
5626 case JDEP_INTERFACE:
5627 if (parser_check_super_interface (decl, JDEP_DECL (dep),
5628 JDEP_WFL (dep)))
5629 continue;
5630 parser_add_interface (JDEP_DECL (dep), decl, JDEP_WFL (dep));
5631 break;
5632
5633 case JDEP_PARM:
5634 case JDEP_VARIABLE:
5635 type = TREE_TYPE(decl);
5636 if (TREE_CODE (type) == RECORD_TYPE)
5637 type = promote_type (type);
5638 JDEP_APPLY_PATCH (dep, type);
5639 break;
5640
5641 case JDEP_TYPE:
5642 JDEP_APPLY_PATCH (dep, TREE_TYPE (decl));
5643 SOURCE_FRONTEND_DEBUG
5644 (("Completing a random type dependency on a '%s' node",
5645 tree_code_name [TREE_CODE (JDEP_DECL (dep))]));
5646 break;
5647
5648 case JDEP_EXCEPTION:
5649 JDEP_APPLY_PATCH (dep, TREE_TYPE (decl));
5650 SOURCE_FRONTEND_DEBUG
5651 (("Completing `%s' `throws' argument node",
5652 IDENTIFIER_POINTER (EXPR_WFL_NODE (JDEP_WFL (dep)))));
5653 break;
5654
5655 case JDEP_ANONYMOUS:
5656 patch_anonymous_class (decl, JDEP_DECL (dep), JDEP_WFL (dep));
5657 break;
5658
5659 default:
5660 abort ();
5661 }
5662 }
5663 }
5664 return;
5665 }
5666
5667 /* Resolve class CLASS_TYPE. Handle the case of trying to resolve an
5668 array. */
5669
5670 static tree
resolve_class(tree enclosing,tree class_type,tree decl,tree cl)5671 resolve_class (tree enclosing, tree class_type, tree decl, tree cl)
5672 {
5673 tree tname = TYPE_NAME (class_type);
5674 tree resolved_type = TREE_TYPE (class_type);
5675 int array_dims = 0;
5676 tree resolved_type_decl;
5677
5678 if (resolved_type != NULL_TREE)
5679 {
5680 tree resolved_type_decl = TYPE_NAME (resolved_type);
5681 if (resolved_type_decl == NULL_TREE
5682 || TREE_CODE (resolved_type_decl) == IDENTIFIER_NODE)
5683 {
5684 resolved_type_decl = build_decl (TYPE_DECL,
5685 TYPE_NAME (class_type),
5686 resolved_type);
5687 }
5688 return resolved_type_decl;
5689 }
5690
5691 /* 1- Check to see if we have an array. If true, find what we really
5692 want to resolve */
5693 if ((array_dims = build_type_name_from_array_name (tname,
5694 &TYPE_NAME (class_type))))
5695 WFL_STRIP_BRACKET (cl, cl);
5696
5697 /* 2- Resolve the bare type */
5698 if (!(resolved_type_decl = do_resolve_class (enclosing, class_type,
5699 decl, cl)))
5700 return NULL_TREE;
5701 resolved_type = TREE_TYPE (resolved_type_decl);
5702
5703 /* 3- If we have an array, reconstruct the array down to its nesting */
5704 if (array_dims)
5705 {
5706 for (; array_dims; array_dims--)
5707 resolved_type = build_java_array_type (resolved_type, -1);
5708 resolved_type_decl = TYPE_NAME (resolved_type);
5709 }
5710 TREE_TYPE (class_type) = resolved_type;
5711 return resolved_type_decl;
5712 }
5713
5714 /* Effectively perform the resolution of class CLASS_TYPE. DECL or CL
5715 are used to report error messages; CL must either be NULL_TREE or a
5716 WFL wrapping a class. Do not try to replace TYPE_NAME (class_type)
5717 by a variable, since it is changed by find_in_imports{_on_demand}
5718 and (but it doesn't really matter) qualify_and_find. */
5719
5720 tree
do_resolve_class(tree enclosing,tree class_type,tree decl,tree cl)5721 do_resolve_class (tree enclosing, tree class_type, tree decl, tree cl)
5722 {
5723 tree new_class_decl = NULL_TREE, super = NULL_TREE;
5724 tree saved_enclosing_type = enclosing ? TREE_TYPE (enclosing) : NULL_TREE;
5725 tree decl_result;
5726 htab_t circularity_hash;
5727
5728 if (QUALIFIED_P (TYPE_NAME (class_type)))
5729 {
5730 /* If the type name is of the form `Q . Id', then Q is either a
5731 package name or a class name. First we try to find Q as a
5732 class and then treat Id as a member type. If we can't find Q
5733 as a class then we fall through. */
5734 tree q, left, left_type, right;
5735 if (breakdown_qualified (&left, &right, TYPE_NAME (class_type)) == 0)
5736 {
5737 BUILD_PTR_FROM_NAME (left_type, left);
5738 q = do_resolve_class (enclosing, left_type, decl, cl);
5739 if (q)
5740 {
5741 enclosing = q;
5742 saved_enclosing_type = TREE_TYPE (q);
5743 BUILD_PTR_FROM_NAME (class_type, right);
5744 }
5745 }
5746 }
5747
5748 if (enclosing)
5749 {
5750 /* This hash table is used to register the classes we're going
5751 through when searching the current class as an inner class, in
5752 order to detect circular references. Remember to free it before
5753 returning the section 0- of this function. */
5754 circularity_hash = htab_create (20, htab_hash_pointer, htab_eq_pointer,
5755 NULL);
5756
5757 /* 0- Search in the current class as an inner class.
5758 Maybe some code here should be added to load the class or
5759 something, at least if the class isn't an inner class and ended
5760 being loaded from class file. FIXME. */
5761 while (enclosing)
5762 {
5763 new_class_decl = resolve_inner_class (circularity_hash, cl, &enclosing,
5764 &super, class_type);
5765 if (new_class_decl)
5766 break;
5767
5768 /* If we haven't found anything because SUPER reached Object and
5769 ENCLOSING happens to be an innerclass, try the enclosing context. */
5770 if ((!super || super == object_type_node) &&
5771 enclosing && INNER_CLASS_DECL_P (enclosing))
5772 enclosing = DECL_CONTEXT (enclosing);
5773 else
5774 enclosing = NULL_TREE;
5775 }
5776
5777 htab_delete (circularity_hash);
5778
5779 if (new_class_decl)
5780 return new_class_decl;
5781 }
5782
5783 /* 1- Check for the type in single imports. This will change
5784 TYPE_NAME() if something relevant is found */
5785 find_in_imports (saved_enclosing_type, class_type);
5786
5787 /* 2- And check for the type in the current compilation unit */
5788 if ((new_class_decl = IDENTIFIER_CLASS_VALUE (TYPE_NAME (class_type))))
5789 {
5790 if (!CLASS_LOADED_P (TREE_TYPE (new_class_decl)) &&
5791 !CLASS_FROM_SOURCE_P (TREE_TYPE (new_class_decl)))
5792 load_class (TYPE_NAME (class_type), 0);
5793 return IDENTIFIER_CLASS_VALUE (TYPE_NAME (class_type));
5794 }
5795
5796 /* 3- Search according to the current package definition */
5797 if (!QUALIFIED_P (TYPE_NAME (class_type)))
5798 {
5799 if ((new_class_decl = qualify_and_find (class_type, ctxp->package,
5800 TYPE_NAME (class_type))))
5801 return new_class_decl;
5802 }
5803
5804 /* 4- Check the import on demands. Don't allow bar.baz to be
5805 imported from foo.* */
5806 if (!QUALIFIED_P (TYPE_NAME (class_type)))
5807 if (find_in_imports_on_demand (saved_enclosing_type, class_type))
5808 return NULL_TREE;
5809
5810 /* If found in find_in_imports_on_demand, the type has already been
5811 loaded. */
5812 if ((new_class_decl = IDENTIFIER_CLASS_VALUE (TYPE_NAME (class_type))))
5813 return new_class_decl;
5814
5815 /* 5- Try with a name qualified with the package name we've seen so far */
5816 if (!QUALIFIED_P (TYPE_NAME (class_type)))
5817 {
5818 tree package;
5819
5820 /* If there is a current package (ctxp->package), it's the first
5821 element of package_list and we can skip it. */
5822 for (package = (ctxp->package ?
5823 TREE_CHAIN (package_list) : package_list);
5824 package; package = TREE_CHAIN (package))
5825 if ((new_class_decl = qualify_and_find (class_type,
5826 TREE_PURPOSE (package),
5827 TYPE_NAME (class_type))))
5828 return new_class_decl;
5829 }
5830
5831 /* 5- Check another compilation unit that bears the name of type */
5832 load_class (TYPE_NAME (class_type), 0);
5833
5834 if (!cl)
5835 cl = lookup_cl (decl);
5836
5837 /* If we don't have a value for CL, then we're being called recursively.
5838 We can't check package access just yet, but it will be taken care of
5839 by the caller. */
5840 if (cl)
5841 {
5842 if (check_pkg_class_access (TYPE_NAME (class_type), cl, true))
5843 return NULL_TREE;
5844 }
5845
5846 /* 6- Last call for a resolution */
5847 decl_result = IDENTIFIER_CLASS_VALUE (TYPE_NAME (class_type));
5848
5849 /* The final lookup might have registered a.b.c into a.b$c If we
5850 failed at the first lookup, progressively change the name if
5851 applicable and use the matching DECL instead. */
5852 if (!decl_result && QUALIFIED_P (TYPE_NAME (class_type)))
5853 {
5854 char *separator;
5855 tree name = TYPE_NAME (class_type);
5856 char *namebuffer = alloca (IDENTIFIER_LENGTH (name) + 1);
5857
5858 strcpy (namebuffer, IDENTIFIER_POINTER (name));
5859
5860 do {
5861
5862 /* Reach the last '.', and if applicable, replace it by a `$' and
5863 see if this exists as a type. */
5864 if ((separator = strrchr (namebuffer, '.')))
5865 {
5866 *separator = '$';
5867 name = get_identifier (namebuffer);
5868 decl_result = IDENTIFIER_CLASS_VALUE (name);
5869 }
5870 } while (!decl_result && separator);
5871 }
5872 return decl_result;
5873 }
5874
5875 static tree
qualify_and_find(tree class_type,tree package,tree name)5876 qualify_and_find (tree class_type, tree package, tree name)
5877 {
5878 tree new_qualified = merge_qualified_name (package, name);
5879 tree new_class_decl;
5880
5881 if (!IDENTIFIER_CLASS_VALUE (new_qualified))
5882 load_class (new_qualified, 0);
5883 if ((new_class_decl = IDENTIFIER_CLASS_VALUE (new_qualified)))
5884 {
5885 if (!CLASS_LOADED_P (TREE_TYPE (new_class_decl)) &&
5886 !CLASS_FROM_SOURCE_P (TREE_TYPE (new_class_decl)))
5887 load_class (new_qualified, 0);
5888 TYPE_NAME (class_type) = new_qualified;
5889 return IDENTIFIER_CLASS_VALUE (new_qualified);
5890 }
5891 return NULL_TREE;
5892 }
5893
5894 /* Resolve NAME and lay it out (if not done and if not the current
5895 parsed class). Return a decl node. This function is meant to be
5896 called when type resolution is necessary during the walk pass. */
5897
5898 static tree
resolve_and_layout(tree something,tree cl)5899 resolve_and_layout (tree something, tree cl)
5900 {
5901 tree decl, decl_type;
5902
5903 /* Don't do that on the current class */
5904 if (something == current_class)
5905 return TYPE_NAME (current_class);
5906
5907 /* Don't do anything for void and other primitive types */
5908 if (JPRIMITIVE_TYPE_P (something) || something == void_type_node)
5909 return NULL_TREE;
5910
5911 /* Pointer types can be reall pointer types or fake pointers. When
5912 finding a real pointer, recheck for primitive types */
5913 if (TREE_CODE (something) == POINTER_TYPE)
5914 {
5915 if (TREE_TYPE (something))
5916 {
5917 something = TREE_TYPE (something);
5918 if (JPRIMITIVE_TYPE_P (something) || something == void_type_node)
5919 return NULL_TREE;
5920 }
5921 else
5922 something = TYPE_NAME (something);
5923 }
5924
5925 /* Don't do anything for arrays of primitive types */
5926 if (TREE_CODE (something) == RECORD_TYPE && TYPE_ARRAY_P (something)
5927 && JPRIMITIVE_TYPE_P (TYPE_ARRAY_ELEMENT (something)))
5928 return NULL_TREE;
5929
5930 /* Something might be a WFL */
5931 if (TREE_CODE (something) == EXPR_WITH_FILE_LOCATION)
5932 something = EXPR_WFL_NODE (something);
5933
5934 /* Otherwise, if something is not and IDENTIFIER_NODE, it can be a a
5935 TYPE_DECL or a real TYPE */
5936 else if (TREE_CODE (something) != IDENTIFIER_NODE)
5937 something = (TREE_CODE (TYPE_NAME (something)) == TYPE_DECL ?
5938 DECL_NAME (TYPE_NAME (something)) : TYPE_NAME (something));
5939
5940 if (!(decl = resolve_no_layout (something, cl)))
5941 return NULL_TREE;
5942
5943 /* Resolve and layout if necessary */
5944 decl_type = TREE_TYPE (decl);
5945 layout_class_methods (decl_type);
5946 /* Check methods */
5947 if (CLASS_FROM_SOURCE_P (decl_type))
5948 java_check_methods (decl);
5949 /* Layout the type if necessary */
5950 if (decl_type != current_class && !CLASS_LOADED_P (decl_type))
5951 safe_layout_class (decl_type);
5952
5953 return decl;
5954 }
5955
5956 /* Resolve a class, returns its decl but doesn't perform any
5957 layout. The current parsing context is saved and restored */
5958
5959 static tree
resolve_no_layout(tree name,tree cl)5960 resolve_no_layout (tree name, tree cl)
5961 {
5962 tree ptr, decl;
5963 BUILD_PTR_FROM_NAME (ptr, name);
5964 java_parser_context_save_global ();
5965 decl = resolve_class (TYPE_NAME (current_class), ptr, NULL_TREE, cl);
5966 java_parser_context_restore_global ();
5967
5968 return decl;
5969 }
5970
5971 /* Called when reporting errors. Skip the '[]'s in a complex array
5972 type description that failed to be resolved. purify_type_name can't
5973 use an identifier tree. */
5974
5975 static const char *
purify_type_name(const char * name)5976 purify_type_name (const char *name)
5977 {
5978 int len = strlen (name);
5979 int bracket_found;
5980
5981 STRING_STRIP_BRACKETS (name, len, bracket_found);
5982 if (bracket_found)
5983 {
5984 char *stripped_name = xmemdup (name, len, len+1);
5985 stripped_name [len] = '\0';
5986 return stripped_name;
5987 }
5988 return name;
5989 }
5990
5991 /* The type CURRENT refers to can't be found. We print error messages. */
5992
5993 static void
complete_class_report_errors(jdep * dep)5994 complete_class_report_errors (jdep *dep)
5995 {
5996 const char *name;
5997
5998 if (!JDEP_WFL (dep))
5999 return;
6000
6001 name = IDENTIFIER_POINTER (EXPR_WFL_NODE (JDEP_WFL (dep)));
6002 switch (JDEP_KIND (dep))
6003 {
6004 case JDEP_SUPER:
6005 parse_error_context
6006 (JDEP_WFL (dep), "Superclass `%s' of class `%s' not found",
6007 purify_type_name (name),
6008 IDENTIFIER_POINTER (DECL_NAME (JDEP_DECL (dep))));
6009 break;
6010 case JDEP_FIELD:
6011 parse_error_context
6012 (JDEP_WFL (dep), "Type `%s' not found in declaration of field `%s'",
6013 purify_type_name (name),
6014 IDENTIFIER_POINTER (DECL_NAME (JDEP_DECL (dep))));
6015 break;
6016 case JDEP_METHOD: /* Covers arguments */
6017 parse_error_context
6018 (JDEP_WFL (dep), "Type `%s' not found in the declaration of the argument `%s' of method `%s'",
6019 purify_type_name (name),
6020 IDENTIFIER_POINTER (EXPR_WFL_NODE (JDEP_DECL_WFL (dep))),
6021 IDENTIFIER_POINTER (EXPR_WFL_NODE (JDEP_MISC (dep))));
6022 break;
6023 case JDEP_METHOD_RETURN: /* Covers return type */
6024 parse_error_context
6025 (JDEP_WFL (dep), "Type `%s' not found in the declaration of the return type of method `%s'",
6026 purify_type_name (name),
6027 IDENTIFIER_POINTER (EXPR_WFL_NODE (JDEP_DECL_WFL (dep))));
6028 break;
6029 case JDEP_INTERFACE:
6030 parse_error_context
6031 (JDEP_WFL (dep), "Superinterface `%s' of %s `%s' not found",
6032 IDENTIFIER_POINTER (EXPR_WFL_NODE (JDEP_WFL (dep))),
6033 (CLASS_OR_INTERFACE (JDEP_DECL (dep), "class", "interface")),
6034 IDENTIFIER_POINTER (DECL_NAME (JDEP_DECL (dep))));
6035 break;
6036 case JDEP_VARIABLE:
6037 parse_error_context
6038 (JDEP_WFL (dep), "Type `%s' not found in the declaration of the local variable `%s'",
6039 purify_type_name (IDENTIFIER_POINTER
6040 (EXPR_WFL_NODE (JDEP_WFL (dep)))),
6041 IDENTIFIER_POINTER (DECL_NAME (JDEP_DECL (dep))));
6042 break;
6043 case JDEP_EXCEPTION: /* As specified by `throws' */
6044 parse_error_context
6045 (JDEP_WFL (dep), "Class `%s' not found in `throws'",
6046 IDENTIFIER_POINTER (EXPR_WFL_NODE (JDEP_WFL (dep))));
6047 break;
6048 default:
6049 /* Fix for -Wall. Just break doing nothing. The error will be
6050 caught later */
6051 break;
6052 }
6053 }
6054
6055 /* Return a static string containing the DECL prototype string. If
6056 DECL is a constructor, use the class name instead of the form
6057 <init> */
6058
6059 static const char *
get_printable_method_name(tree decl)6060 get_printable_method_name (tree decl)
6061 {
6062 const char *to_return;
6063 tree name = NULL_TREE;
6064
6065 if (DECL_CONSTRUCTOR_P (decl))
6066 {
6067 name = DECL_NAME (decl);
6068 DECL_NAME (decl) = DECL_NAME (TYPE_NAME (DECL_CONTEXT (decl)));
6069 }
6070
6071 to_return = lang_printable_name (decl, 0);
6072 if (DECL_CONSTRUCTOR_P (decl))
6073 DECL_NAME (decl) = name;
6074
6075 return to_return;
6076 }
6077
6078 /* Track method being redefined inside the same class. As a side
6079 effect, set DECL_NAME to an IDENTIFIER (prior entering this
6080 function it's a FWL, so we can track errors more accurately.) */
6081
6082 static int
check_method_redefinition(tree class,tree method)6083 check_method_redefinition (tree class, tree method)
6084 {
6085 tree redef, sig;
6086
6087 /* There's no need to verify <clinit> and finit$ and instinit$ */
6088 if (DECL_CLINIT_P (method)
6089 || DECL_FINIT_P (method) || DECL_INSTINIT_P (method))
6090 return 0;
6091
6092 sig = TYPE_ARGUMENT_SIGNATURE (TREE_TYPE (method));
6093 for (redef = TYPE_METHODS (class); redef; redef = TREE_CHAIN (redef))
6094 {
6095 if (redef == method)
6096 break;
6097 if (DECL_NAME (redef) == DECL_NAME (method)
6098 && sig == TYPE_ARGUMENT_SIGNATURE (TREE_TYPE (redef))
6099 && !DECL_ARTIFICIAL (method))
6100 {
6101 parse_error_context
6102 (DECL_FUNCTION_WFL (method), "Duplicate %s declaration `%s'",
6103 (DECL_CONSTRUCTOR_P (redef) ? "constructor" : "method"),
6104 get_printable_method_name (redef));
6105 return 1;
6106 }
6107 }
6108 return 0;
6109 }
6110
6111 /* Return 1 if check went ok, 0 otherwise. */
6112 static int
check_abstract_method_definitions(int do_interface,tree class_decl,tree type)6113 check_abstract_method_definitions (int do_interface, tree class_decl,
6114 tree type)
6115 {
6116 tree class = TREE_TYPE (class_decl);
6117 tree method, end_type;
6118 int ok = 1;
6119
6120 end_type = (do_interface ? object_type_node : type);
6121 for (method = TYPE_METHODS (type); method; method = TREE_CHAIN (method))
6122 {
6123 tree other_super, other_method, method_sig, method_name;
6124 int found = 0;
6125 int end_type_reached = 0;
6126
6127 if (!METHOD_ABSTRACT (method) || METHOD_FINAL (method))
6128 continue;
6129
6130 /* Now verify that somewhere in between TYPE and CLASS,
6131 abstract method METHOD gets a non abstract definition
6132 that is inherited by CLASS. */
6133
6134 method_sig = build_java_signature (TREE_TYPE (method));
6135 method_name = DECL_NAME (method);
6136 if (TREE_CODE (method_name) == EXPR_WITH_FILE_LOCATION)
6137 method_name = EXPR_WFL_NODE (method_name);
6138
6139 other_super = class;
6140 do {
6141 if (other_super == end_type)
6142 end_type_reached = 1;
6143
6144 /* Method search */
6145 for (other_method = TYPE_METHODS (other_super); other_method;
6146 other_method = TREE_CHAIN (other_method))
6147 {
6148 tree s = build_java_signature (TREE_TYPE (other_method));
6149 tree other_name = DECL_NAME (other_method);
6150
6151 if (TREE_CODE (other_name) == EXPR_WITH_FILE_LOCATION)
6152 other_name = EXPR_WFL_NODE (other_name);
6153 if (!DECL_CLINIT_P (other_method)
6154 && !DECL_CONSTRUCTOR_P (other_method)
6155 && method_name == other_name
6156 && method_sig == s
6157 && !METHOD_ABSTRACT (other_method))
6158 {
6159 found = 1;
6160 break;
6161 }
6162 }
6163 other_super = CLASSTYPE_SUPER (other_super);
6164 } while (!end_type_reached);
6165
6166 /* Report that abstract METHOD didn't find an implementation
6167 that CLASS can use. */
6168 if (!found)
6169 {
6170 char *t = xstrdup (lang_printable_name
6171 (TREE_TYPE (TREE_TYPE (method)), 0));
6172 tree ccn = DECL_NAME (TYPE_NAME (DECL_CONTEXT (method)));
6173
6174 parse_error_context
6175 (lookup_cl (class_decl),
6176 "Class `%s' doesn't define the abstract method `%s %s' from %s `%s'. This method must be defined or %s `%s' must be declared abstract",
6177 IDENTIFIER_POINTER (DECL_NAME (class_decl)),
6178 t, lang_printable_name (method, 0),
6179 (CLASS_INTERFACE (TYPE_NAME (DECL_CONTEXT (method))) ?
6180 "interface" : "class"),
6181 IDENTIFIER_POINTER (ccn),
6182 (CLASS_INTERFACE (class_decl) ? "interface" : "class"),
6183 IDENTIFIER_POINTER (DECL_NAME (class_decl)));
6184 ok = 0;
6185 free (t);
6186 }
6187 }
6188
6189 if (ok && do_interface)
6190 {
6191 /* Check for implemented interfaces. */
6192 int i;
6193 tree vector = TYPE_BINFO_BASETYPES (type);
6194 for (i = 1; ok && vector && i < TREE_VEC_LENGTH (vector); i++)
6195 {
6196 tree super = BINFO_TYPE (TREE_VEC_ELT (vector, i));
6197 ok = check_abstract_method_definitions (1, class_decl, super);
6198 }
6199 }
6200
6201 return ok;
6202 }
6203
6204 /* Check that CLASS_DECL somehow implements all inherited abstract
6205 methods. */
6206
6207 static void
java_check_abstract_method_definitions(tree class_decl)6208 java_check_abstract_method_definitions (tree class_decl)
6209 {
6210 tree class = TREE_TYPE (class_decl);
6211 tree super, vector;
6212 int i;
6213
6214 if (CLASS_ABSTRACT (class_decl))
6215 return;
6216
6217 /* Check for inherited types */
6218 super = class;
6219 do {
6220 super = CLASSTYPE_SUPER (super);
6221 check_abstract_method_definitions (0, class_decl, super);
6222 } while (super != object_type_node);
6223
6224 /* Check for implemented interfaces. */
6225 vector = TYPE_BINFO_BASETYPES (class);
6226 for (i = 1; i < TREE_VEC_LENGTH (vector); i++)
6227 {
6228 super = BINFO_TYPE (TREE_VEC_ELT (vector, i));
6229 check_abstract_method_definitions (1, class_decl, super);
6230 }
6231 }
6232
6233 /* Check all the types method DECL uses and return 1 if all of them
6234 are now complete, 0 otherwise. This is used to check whether its
6235 safe to build a method signature or not. */
6236
6237 static int
check_method_types_complete(tree decl)6238 check_method_types_complete (tree decl)
6239 {
6240 tree type = TREE_TYPE (decl);
6241 tree args;
6242
6243 if (!INCOMPLETE_TYPE_P (TREE_TYPE (type)))
6244 return 0;
6245
6246 args = TYPE_ARG_TYPES (type);
6247 if (TREE_CODE (type) == METHOD_TYPE)
6248 args = TREE_CHAIN (args);
6249 for (; args != end_params_node; args = TREE_CHAIN (args))
6250 if (INCOMPLETE_TYPE_P (TREE_VALUE (args)))
6251 return 0;
6252
6253 return 1;
6254 }
6255
6256 /* Visible interface to check methods contained in CLASS_DECL */
6257
6258 void
java_check_methods(tree class_decl)6259 java_check_methods (tree class_decl)
6260 {
6261 if (CLASS_METHOD_CHECKED_P (TREE_TYPE (class_decl)))
6262 return;
6263
6264 if (CLASS_INTERFACE (class_decl))
6265 java_check_abstract_methods (class_decl);
6266 else
6267 java_check_regular_methods (class_decl);
6268
6269 CLASS_METHOD_CHECKED_P (TREE_TYPE (class_decl)) = 1;
6270 }
6271
6272 /* Like not_accessible_p, but doesn't refer to the current class at
6273 all. */
6274 static bool
hack_is_accessible_p(tree member,tree from_where)6275 hack_is_accessible_p (tree member, tree from_where)
6276 {
6277 int flags = get_access_flags_from_decl (member);
6278
6279 if (from_where == DECL_CONTEXT (member)
6280 || (flags & ACC_PUBLIC))
6281 return true;
6282
6283 if ((flags & ACC_PROTECTED))
6284 {
6285 if (inherits_from_p (from_where, DECL_CONTEXT (member)))
6286 return true;
6287 }
6288
6289 if ((flags & ACC_PRIVATE))
6290 return false;
6291
6292 /* Package private, or protected. */
6293 return in_same_package (TYPE_NAME (from_where),
6294 TYPE_NAME (DECL_CONTEXT (member)));
6295 }
6296
6297 /* Check all the methods of CLASS_DECL. Methods are first completed
6298 then checked according to regular method existence rules. If no
6299 constructor for CLASS_DECL were encountered, then build its
6300 declaration. */
6301 static void
java_check_regular_methods(tree class_decl)6302 java_check_regular_methods (tree class_decl)
6303 {
6304 int saw_constructor = ANONYMOUS_CLASS_P (TREE_TYPE (class_decl));
6305 tree method;
6306 tree class = TREE_TYPE (class_decl);
6307 tree found = NULL_TREE;
6308 tree mthrows;
6309
6310 /* It is not necessary to check methods defined in java.lang.Object */
6311 if (class == object_type_node)
6312 return;
6313
6314 if (!TYPE_NVIRTUALS (class))
6315 TYPE_METHODS (class) = nreverse (TYPE_METHODS (class));
6316
6317 /* Should take interfaces into account. FIXME */
6318 for (method = TYPE_METHODS (class); method; method = TREE_CHAIN (method))
6319 {
6320 tree sig;
6321 tree method_wfl = DECL_FUNCTION_WFL (method);
6322 int aflags;
6323
6324 /* Check for redefinitions */
6325 if (check_method_redefinition (class, method))
6326 continue;
6327
6328 /* We verify things thrown by the method. They must inherit from
6329 java.lang.Throwable. */
6330 for (mthrows = DECL_FUNCTION_THROWS (method);
6331 mthrows; mthrows = TREE_CHAIN (mthrows))
6332 {
6333 if (!inherits_from_p (TREE_VALUE (mthrows), throwable_type_node))
6334 parse_error_context
6335 (TREE_PURPOSE (mthrows), "Class `%s' in `throws' clause must be a subclass of class `java.lang.Throwable'",
6336 IDENTIFIER_POINTER
6337 (DECL_NAME (TYPE_NAME (TREE_VALUE (mthrows)))));
6338 }
6339
6340 /* If we see one constructor a mark so we don't generate the
6341 default one. Also skip other verifications: constructors
6342 can't be inherited hence hidden or overridden. */
6343 if (DECL_CONSTRUCTOR_P (method))
6344 {
6345 saw_constructor = 1;
6346 continue;
6347 }
6348
6349 sig = build_java_argument_signature (TREE_TYPE (method));
6350 found = lookup_argument_method_generic (class, DECL_NAME (method), sig,
6351 SEARCH_SUPER | SEARCH_INTERFACE);
6352
6353 /* Inner class can't declare static methods */
6354 if (METHOD_STATIC (method) && !TOPLEVEL_CLASS_DECL_P (class_decl))
6355 {
6356 char *t = xstrdup (lang_printable_name (class, 0));
6357 parse_error_context
6358 (method_wfl, "Method `%s' can't be static in inner class `%s'. Only members of interfaces and top-level classes can be static",
6359 lang_printable_name (method, 0), t);
6360 free (t);
6361 }
6362
6363 /* Nothing overrides or it's a private method. */
6364 if (!found)
6365 continue;
6366 if (METHOD_PRIVATE (found))
6367 {
6368 found = NULL_TREE;
6369 continue;
6370 }
6371
6372 /* If `found' is declared in an interface, make sure the
6373 modifier matches. */
6374 if (CLASS_INTERFACE (TYPE_NAME (DECL_CONTEXT (found)))
6375 && clinit_identifier_node != DECL_NAME (found)
6376 && !METHOD_PUBLIC (method))
6377 {
6378 tree found_decl = TYPE_NAME (DECL_CONTEXT (found));
6379 parse_error_context (method_wfl, "Class `%s' must override `%s' with a public method in order to implement interface `%s'",
6380 IDENTIFIER_POINTER (DECL_NAME (class_decl)),
6381 lang_printable_name (method, 0),
6382 IDENTIFIER_POINTER (DECL_NAME (found_decl)));
6383 }
6384
6385 /* Can't override a method with the same name and different return
6386 types. */
6387 if (TREE_TYPE (TREE_TYPE (found)) != TREE_TYPE (TREE_TYPE (method)))
6388 {
6389 char *t = xstrdup
6390 (lang_printable_name (TREE_TYPE (TREE_TYPE (found)), 0));
6391 parse_error_context
6392 (method_wfl,
6393 "Method `%s' was defined with return type `%s' in class `%s'",
6394 lang_printable_name (found, 0), t,
6395 IDENTIFIER_POINTER
6396 (DECL_NAME (TYPE_NAME (DECL_CONTEXT (found)))));
6397 free (t);
6398 }
6399
6400 aflags = get_access_flags_from_decl (found);
6401
6402 /* Can't override final. Can't override static. */
6403 if (METHOD_FINAL (found) || METHOD_STATIC (found))
6404 {
6405 /* Static *can* override static */
6406 if (METHOD_STATIC (found) && METHOD_STATIC (method))
6407 continue;
6408 parse_error_context
6409 (method_wfl,
6410 "%s methods can't be overridden. Method `%s' is %s in class `%s'",
6411 (METHOD_FINAL (found) ? "Final" : "Static"),
6412 lang_printable_name (found, 0),
6413 (METHOD_FINAL (found) ? "final" : "static"),
6414 IDENTIFIER_POINTER
6415 (DECL_NAME (TYPE_NAME (DECL_CONTEXT (found)))));
6416 continue;
6417 }
6418
6419 /* Static method can't override instance method. */
6420 if (METHOD_STATIC (method))
6421 {
6422 parse_error_context
6423 (method_wfl,
6424 "Instance methods can't be overridden by a static method. Method `%s' is an instance method in class `%s'",
6425 lang_printable_name (found, 0),
6426 IDENTIFIER_POINTER
6427 (DECL_NAME (TYPE_NAME (DECL_CONTEXT (found)))));
6428 continue;
6429 }
6430
6431 /* - Overriding/hiding public must be public
6432 - Overriding/hiding protected must be protected or public
6433 - If the overridden or hidden method has default (package)
6434 access, then the overriding or hiding method must not be
6435 private; otherwise, a compile-time error occurs. If
6436 `found' belongs to an interface, things have been already
6437 taken care of. */
6438 if (!CLASS_INTERFACE (TYPE_NAME (DECL_CONTEXT (found)))
6439 && ((METHOD_PUBLIC (found) && !METHOD_PUBLIC (method))
6440 || (METHOD_PROTECTED (found)
6441 && !(METHOD_PUBLIC (method) || METHOD_PROTECTED (method)))
6442 || (!(aflags & (ACC_PUBLIC | ACC_PRIVATE | ACC_STATIC))
6443 && METHOD_PRIVATE (method))))
6444 {
6445 parse_error_context
6446 (method_wfl,
6447 "Methods can't be overridden to be more private. Method `%s' is not %s in class `%s'", lang_printable_name (method, 0),
6448 (METHOD_PUBLIC (method) ? "public" :
6449 (METHOD_PRIVATE (method) ? "private" : "protected")),
6450 IDENTIFIER_POINTER (DECL_NAME
6451 (TYPE_NAME (DECL_CONTEXT (found)))));
6452 continue;
6453 }
6454
6455 /* Check this method against all the other implementations it
6456 overrides. Here we only check the class hierarchy; the rest
6457 of the checking is done later. If this method is just a
6458 Miranda method, we can skip the check. */
6459 if (! METHOD_INVISIBLE (method))
6460 check_concrete_throws_clauses (class, method, DECL_NAME (method), sig);
6461 }
6462
6463 /* The above throws clause check only looked at superclasses. Now
6464 we must also make sure that all methods declared in interfaces
6465 have compatible throws clauses. FIXME: there are more efficient
6466 ways to organize this checking; we should implement one. */
6467 check_interface_throws_clauses (class, class);
6468
6469 if (!TYPE_NVIRTUALS (class))
6470 TYPE_METHODS (class) = nreverse (TYPE_METHODS (class));
6471
6472 /* Search for inherited abstract method not yet implemented in this
6473 class. */
6474 java_check_abstract_method_definitions (class_decl);
6475
6476 if (!saw_constructor)
6477 abort ();
6478 }
6479
6480 /* Check to make sure that all the methods in all the interfaces
6481 implemented by CLASS_DECL are compatible with the concrete
6482 implementations available in CHECK_CLASS_DECL. */
6483 static void
check_interface_throws_clauses(tree check_class_decl,tree class_decl)6484 check_interface_throws_clauses (tree check_class_decl, tree class_decl)
6485 {
6486 for (; class_decl != NULL_TREE; class_decl = CLASSTYPE_SUPER (class_decl))
6487 {
6488 tree bases;
6489 int iface_len;
6490 int i;
6491
6492 if (! CLASS_LOADED_P (class_decl))
6493 {
6494 if (CLASS_FROM_SOURCE_P (class_decl))
6495 safe_layout_class (class_decl);
6496 else
6497 load_class (class_decl, 1);
6498 }
6499
6500 bases = TYPE_BINFO_BASETYPES (class_decl);
6501 iface_len = TREE_VEC_LENGTH (bases) - 1;
6502 for (i = iface_len; i > 0; --i)
6503 {
6504 tree interface = BINFO_TYPE (TREE_VEC_ELT (bases, i));
6505 tree iface_method;
6506
6507 for (iface_method = TYPE_METHODS (interface);
6508 iface_method != NULL_TREE;
6509 iface_method = TREE_CHAIN (iface_method))
6510 {
6511 tree sig, method;
6512
6513 /* First look for a concrete method implemented or
6514 inherited by this class. No need to search
6515 interfaces here, since we're already looking through
6516 all of them. */
6517 sig = build_java_argument_signature (TREE_TYPE (iface_method));
6518 method
6519 = lookup_argument_method_generic (check_class_decl,
6520 DECL_NAME (iface_method),
6521 sig, SEARCH_VISIBLE);
6522 /* If we don't find an implementation, that is ok. Any
6523 potential errors from that are diagnosed elsewhere.
6524 Also, multiple inheritance with conflicting throws
6525 clauses is fine in the absence of a concrete
6526 implementation. */
6527 if (method != NULL_TREE && !METHOD_ABSTRACT (method)
6528 && !METHOD_INVISIBLE (iface_method))
6529 {
6530 tree method_wfl = DECL_FUNCTION_WFL (method);
6531 check_throws_clauses (method, method_wfl, iface_method);
6532 }
6533 }
6534
6535 /* Now check superinterfaces. */
6536 check_interface_throws_clauses (check_class_decl, interface);
6537 }
6538 }
6539 }
6540
6541 /* Check throws clauses of a method against the clauses of all the
6542 methods it overrides. We do this by searching up the class
6543 hierarchy, examining all matching accessible methods. */
6544 static void
check_concrete_throws_clauses(tree class,tree self_method,tree name,tree signature)6545 check_concrete_throws_clauses (tree class, tree self_method,
6546 tree name, tree signature)
6547 {
6548 tree method = lookup_argument_method_generic (class, name, signature,
6549 SEARCH_SUPER | SEARCH_VISIBLE);
6550 while (method != NULL_TREE)
6551 {
6552 if (! METHOD_INVISIBLE (method) && hack_is_accessible_p (method, class))
6553 check_throws_clauses (self_method, DECL_FUNCTION_WFL (self_method),
6554 method);
6555
6556 method = lookup_argument_method_generic (DECL_CONTEXT (method),
6557 name, signature,
6558 SEARCH_SUPER | SEARCH_VISIBLE);
6559 }
6560 }
6561
6562 /* Generate an error if the `throws' clause of METHOD (if any) is
6563 incompatible with the `throws' clause of FOUND (if any). */
6564 static void
check_throws_clauses(tree method,tree method_wfl,tree found)6565 check_throws_clauses (tree method, tree method_wfl, tree found)
6566 {
6567 tree mthrows;
6568
6569 /* Can't check these things with class loaded from bytecode. FIXME */
6570 if (!CLASS_FROM_SOURCE_P (DECL_CONTEXT (found)))
6571 return;
6572
6573 for (mthrows = DECL_FUNCTION_THROWS (method);
6574 mthrows; mthrows = TREE_CHAIN (mthrows))
6575 {
6576 tree fthrows;
6577
6578 /* We don't verify unchecked expressions */
6579 if (IS_UNCHECKED_EXCEPTION_P (TREE_VALUE (mthrows)))
6580 continue;
6581 /* Checked expression must be compatible */
6582 for (fthrows = DECL_FUNCTION_THROWS (found);
6583 fthrows; fthrows = TREE_CHAIN (fthrows))
6584 {
6585 if (inherits_from_p (TREE_VALUE (mthrows), TREE_VALUE (fthrows)))
6586 break;
6587 }
6588 if (!fthrows)
6589 {
6590 parse_error_context
6591 (method_wfl, "Invalid checked exception class `%s' in `throws' clause. The exception must be a subclass of an exception thrown by `%s' from class `%s'",
6592 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (TREE_VALUE (mthrows)))),
6593 lang_printable_name (found, 0),
6594 IDENTIFIER_POINTER
6595 (DECL_NAME (TYPE_NAME (DECL_CONTEXT (found)))));
6596 }
6597 }
6598 }
6599
6600 /* Check abstract method of interface INTERFACE */
6601 static void
java_check_abstract_methods(tree interface_decl)6602 java_check_abstract_methods (tree interface_decl)
6603 {
6604 int i, n;
6605 tree method, basetype_vec, found;
6606 tree interface = TREE_TYPE (interface_decl);
6607
6608 for (method = TYPE_METHODS (interface); method; method = TREE_CHAIN (method))
6609 {
6610 /* 2- Check for double definition inside the defining interface */
6611 if (check_method_redefinition (interface, method))
6612 continue;
6613
6614 /* 3- Overriding is OK as far as we preserve the return type. */
6615 found = lookup_java_interface_method2 (interface, method);
6616 if (found)
6617 {
6618 char *t;
6619 t = xstrdup (lang_printable_name (TREE_TYPE (TREE_TYPE (found)), 0));
6620 parse_error_context
6621 (DECL_FUNCTION_WFL (found),
6622 "Method `%s' was defined with return type `%s' in class `%s'",
6623 lang_printable_name (found, 0), t,
6624 IDENTIFIER_POINTER
6625 (DECL_NAME (TYPE_NAME (DECL_CONTEXT (found)))));
6626 free (t);
6627 continue;
6628 }
6629 }
6630
6631 /* 4- Inherited methods can't differ by their returned types */
6632 if (!(basetype_vec = TYPE_BINFO_BASETYPES (interface)))
6633 return;
6634 n = TREE_VEC_LENGTH (basetype_vec);
6635 for (i = 0; i < n; i++)
6636 {
6637 tree sub_interface_method, sub_interface;
6638 tree vec_elt = TREE_VEC_ELT (basetype_vec, i);
6639 if (!vec_elt)
6640 continue;
6641 sub_interface = BINFO_TYPE (vec_elt);
6642 for (sub_interface_method = TYPE_METHODS (sub_interface);
6643 sub_interface_method;
6644 sub_interface_method = TREE_CHAIN (sub_interface_method))
6645 {
6646 found = lookup_java_interface_method2 (interface,
6647 sub_interface_method);
6648 if (found && (found != sub_interface_method))
6649 {
6650 parse_error_context
6651 (lookup_cl (sub_interface_method),
6652 "Interface `%s' inherits method `%s' from interface `%s'. This method is redefined with a different return type in interface `%s'",
6653 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (interface))),
6654 lang_printable_name (found, 0),
6655 IDENTIFIER_POINTER
6656 (DECL_NAME (TYPE_NAME
6657 (DECL_CONTEXT (sub_interface_method)))),
6658 IDENTIFIER_POINTER
6659 (DECL_NAME (TYPE_NAME (DECL_CONTEXT (found)))));
6660 }
6661 }
6662 }
6663 }
6664
6665 /* Lookup methods in interfaces using their name and partial
6666 signature. Return a matching method only if their types differ. */
6667
6668 static tree
lookup_java_interface_method2(tree class,tree method_decl)6669 lookup_java_interface_method2 (tree class, tree method_decl)
6670 {
6671 int i, n;
6672 tree basetype_vec = TYPE_BINFO_BASETYPES (class), to_return;
6673
6674 if (!basetype_vec)
6675 return NULL_TREE;
6676
6677 n = TREE_VEC_LENGTH (basetype_vec);
6678 for (i = 0; i < n; i++)
6679 {
6680 tree vec_elt = TREE_VEC_ELT (basetype_vec, i), to_return;
6681 if ((BINFO_TYPE (vec_elt) != object_type_node)
6682 && (to_return =
6683 lookup_java_method2 (BINFO_TYPE (vec_elt), method_decl, 1)))
6684 return to_return;
6685 }
6686 for (i = 0; i < n; i++)
6687 {
6688 to_return = lookup_java_interface_method2
6689 (BINFO_TYPE (TREE_VEC_ELT (basetype_vec, i)), method_decl);
6690 if (to_return)
6691 return to_return;
6692 }
6693
6694 return NULL_TREE;
6695 }
6696
6697 /* Lookup method using their name and partial signature. Return a
6698 matching method only if their types differ. */
6699
6700 static tree
lookup_java_method2(tree clas,tree method_decl,int do_interface)6701 lookup_java_method2 (tree clas, tree method_decl, int do_interface)
6702 {
6703 tree method, method_signature, method_name, method_type, name;
6704
6705 method_signature = build_java_argument_signature (TREE_TYPE (method_decl));
6706 name = DECL_NAME (method_decl);
6707 method_name = (TREE_CODE (name) == EXPR_WITH_FILE_LOCATION ?
6708 EXPR_WFL_NODE (name) : name);
6709 method_type = TREE_TYPE (TREE_TYPE (method_decl));
6710
6711 while (clas != NULL_TREE)
6712 {
6713 for (method = TYPE_METHODS (clas);
6714 method != NULL_TREE; method = TREE_CHAIN (method))
6715 {
6716 tree method_sig = build_java_argument_signature (TREE_TYPE (method));
6717 tree name = DECL_NAME (method);
6718 if ((TREE_CODE (name) == EXPR_WITH_FILE_LOCATION ?
6719 EXPR_WFL_NODE (name) : name) == method_name
6720 && method_sig == method_signature
6721 && TREE_TYPE (TREE_TYPE (method)) != method_type)
6722 return method;
6723 }
6724 clas = (do_interface ? NULL_TREE : CLASSTYPE_SUPER (clas));
6725 }
6726 return NULL_TREE;
6727 }
6728
6729 /* Return the line that matches DECL line number, and try its best to
6730 position the column number. Used during error reports. */
6731
6732 static GTY(()) tree cl_v;
6733 static tree
lookup_cl(tree decl)6734 lookup_cl (tree decl)
6735 {
6736 char *line, *found;
6737
6738 if (!decl)
6739 return NULL_TREE;
6740
6741 if (cl_v == NULL_TREE)
6742 {
6743 cl_v = build_expr_wfl (NULL_TREE, NULL, 0, 0);
6744 }
6745
6746 EXPR_WFL_FILENAME_NODE (cl_v) = get_identifier (DECL_SOURCE_FILE (decl));
6747 EXPR_WFL_SET_LINECOL (cl_v, DECL_SOURCE_LINE (decl), -1);
6748
6749 line = java_get_line_col (EXPR_WFL_FILENAME (cl_v),
6750 EXPR_WFL_LINENO (cl_v), EXPR_WFL_COLNO (cl_v));
6751
6752 found = strstr ((const char *)line,
6753 (const char *)IDENTIFIER_POINTER (DECL_NAME (decl)));
6754 if (found)
6755 EXPR_WFL_SET_LINECOL (cl_v, EXPR_WFL_LINENO (cl_v), found - line);
6756
6757 return cl_v;
6758 }
6759
6760 /* Look for a simple name in the single-type import list */
6761
6762 static tree
find_name_in_single_imports(tree name)6763 find_name_in_single_imports (tree name)
6764 {
6765 tree node;
6766
6767 for (node = ctxp->import_list; node; node = TREE_CHAIN (node))
6768 if (TREE_VALUE (node) == name)
6769 return (EXPR_WFL_NODE (TREE_PURPOSE (node)));
6770
6771 return NULL_TREE;
6772 }
6773
6774 /* Process all single-type import. */
6775
6776 static int
process_imports(void)6777 process_imports (void)
6778 {
6779 tree import;
6780 int error_found;
6781
6782 for (import = ctxp->import_list; import; import = TREE_CHAIN (import))
6783 {
6784 tree to_be_found = EXPR_WFL_NODE (TREE_PURPOSE (import));
6785 char *original_name;
6786
6787 original_name = xmemdup (IDENTIFIER_POINTER (to_be_found),
6788 IDENTIFIER_LENGTH (to_be_found),
6789 IDENTIFIER_LENGTH (to_be_found) + 1);
6790
6791 /* Don't load twice something already defined. */
6792 if (IDENTIFIER_CLASS_VALUE (to_be_found))
6793 continue;
6794
6795 while (1)
6796 {
6797 tree left;
6798
6799 QUALIFIED_P (to_be_found) = 1;
6800 load_class (to_be_found, 0);
6801 error_found =
6802 check_pkg_class_access (to_be_found, TREE_PURPOSE (import), true);
6803
6804 /* We found it, we can bail out */
6805 if (IDENTIFIER_CLASS_VALUE (to_be_found))
6806 {
6807 check_deprecation (TREE_PURPOSE (import),
6808 IDENTIFIER_CLASS_VALUE (to_be_found));
6809 break;
6810 }
6811
6812 /* We haven't found it. Maybe we're trying to access an
6813 inner class. The only way for us to know is to try again
6814 after having dropped a qualifier. If we can't break it further,
6815 we have an error. */
6816 if (breakdown_qualified (&left, NULL, to_be_found))
6817 break;
6818
6819 to_be_found = left;
6820 }
6821 if (!IDENTIFIER_CLASS_VALUE (to_be_found))
6822 {
6823 parse_error_context (TREE_PURPOSE (import),
6824 "Class or interface `%s' not found in import",
6825 original_name);
6826 error_found = 1;
6827 }
6828
6829 free (original_name);
6830 if (error_found)
6831 return 1;
6832 }
6833 return 0;
6834 }
6835
6836 /* Possibly find and mark a class imported by a single-type import
6837 statement. */
6838
6839 static void
find_in_imports(tree enclosing_type,tree class_type)6840 find_in_imports (tree enclosing_type, tree class_type)
6841 {
6842 tree import = (enclosing_type ? TYPE_IMPORT_LIST (enclosing_type) :
6843 ctxp->import_list);
6844 while (import)
6845 {
6846 if (TREE_VALUE (import) == TYPE_NAME (class_type))
6847 {
6848 TYPE_NAME (class_type) = EXPR_WFL_NODE (TREE_PURPOSE (import));
6849 QUALIFIED_P (TYPE_NAME (class_type)) = 1;
6850 return;
6851 }
6852 import = TREE_CHAIN (import);
6853 }
6854 }
6855
6856 static int
note_possible_classname(const char * name,int len)6857 note_possible_classname (const char *name, int len)
6858 {
6859 tree node;
6860 if (len > 5 && strncmp (&name [len-5], ".java", 5) == 0)
6861 len = len - 5;
6862 else if (len > 6 && strncmp (&name [len-6], ".class", 6) == 0)
6863 len = len - 6;
6864 else
6865 return 0;
6866 node = ident_subst (name, len, "", '/', '.', "");
6867 IS_A_CLASSFILE_NAME (node) = 1; /* Or soon to be */
6868 QUALIFIED_P (node) = strchr (name, '/') ? 1 : 0;
6869 return 1;
6870 }
6871
6872 /* Read a import directory, gathering potential match for further type
6873 references. Indifferently reads a filesystem or a ZIP archive
6874 directory. */
6875
6876 static void
read_import_dir(tree wfl)6877 read_import_dir (tree wfl)
6878 {
6879 tree package_id = EXPR_WFL_NODE (wfl);
6880 const char *package_name = IDENTIFIER_POINTER (package_id);
6881 int package_length = IDENTIFIER_LENGTH (package_id);
6882 DIR *dirp = NULL;
6883 JCF *saved_jcf = current_jcf;
6884
6885 int found = 0;
6886 int k;
6887 void *entry;
6888 struct buffer filename[1];
6889
6890 if (IS_AN_IMPORT_ON_DEMAND_P (package_id))
6891 return;
6892 IS_AN_IMPORT_ON_DEMAND_P (package_id) = 1;
6893
6894 BUFFER_INIT (filename);
6895 buffer_grow (filename, package_length + 100);
6896
6897 for (entry = jcf_path_start (); entry != NULL; entry = jcf_path_next (entry))
6898 {
6899 const char *entry_name = jcf_path_name (entry);
6900 int entry_length = strlen (entry_name);
6901 if (jcf_path_is_zipfile (entry))
6902 {
6903 ZipFile *zipf;
6904 buffer_grow (filename, entry_length);
6905 memcpy (filename->data, entry_name, entry_length - 1);
6906 filename->data[entry_length-1] = '\0';
6907 zipf = opendir_in_zip (filename->data, jcf_path_is_system (entry));
6908 if (zipf == NULL)
6909 error ("malformed .zip archive in CLASSPATH: %s", entry_name);
6910 else
6911 {
6912 ZipDirectory *zipd = (ZipDirectory *) zipf->central_directory;
6913 BUFFER_RESET (filename);
6914 for (k = 0; k < package_length; k++)
6915 {
6916 char ch = package_name[k];
6917 *filename->ptr++ = ch == '.' ? '/' : ch;
6918 }
6919 *filename->ptr++ = '/';
6920
6921 for (k = 0; k < zipf->count; k++, zipd = ZIPDIR_NEXT (zipd))
6922 {
6923 const char *current_entry = ZIPDIR_FILENAME (zipd);
6924 int current_entry_len = zipd->filename_length;
6925
6926 if (current_entry_len >= BUFFER_LENGTH (filename)
6927 && strncmp (filename->data, current_entry,
6928 BUFFER_LENGTH (filename)) != 0)
6929 continue;
6930 found |= note_possible_classname (current_entry,
6931 current_entry_len);
6932 }
6933 }
6934 }
6935 else
6936 {
6937 BUFFER_RESET (filename);
6938 buffer_grow (filename, entry_length + package_length + 4);
6939 strcpy (filename->data, entry_name);
6940 filename->ptr = filename->data + entry_length;
6941 for (k = 0; k < package_length; k++)
6942 {
6943 char ch = package_name[k];
6944 *filename->ptr++ = ch == '.' ? '/' : ch;
6945 }
6946 *filename->ptr = '\0';
6947
6948 dirp = opendir (filename->data);
6949 if (dirp == NULL)
6950 continue;
6951 *filename->ptr++ = '/';
6952 for (;;)
6953 {
6954 int len;
6955 const char *d_name;
6956 struct dirent *direntp = readdir (dirp);
6957 if (!direntp)
6958 break;
6959 d_name = direntp->d_name;
6960 len = strlen (direntp->d_name);
6961 buffer_grow (filename, len+1);
6962 strcpy (filename->ptr, d_name);
6963 found |= note_possible_classname (filename->data + entry_length,
6964 package_length+len+1);
6965 }
6966 if (dirp)
6967 closedir (dirp);
6968 }
6969 }
6970
6971 free (filename->data);
6972
6973 /* Here we should have a unified way of retrieving an entry, to be
6974 indexed. */
6975 if (!found)
6976 {
6977 static int first = 1;
6978 if (first)
6979 {
6980 error ("Can't find default package `%s'. Check the CLASSPATH environment variable and the access to the archives", package_name);
6981 java_error_count++;
6982 first = 0;
6983 }
6984 else
6985 parse_error_context (wfl, "Package `%s' not found in import",
6986 package_name);
6987 current_jcf = saved_jcf;
6988 return;
6989 }
6990 current_jcf = saved_jcf;
6991 }
6992
6993 /* Possibly find a type in the import on demands specified
6994 types. Returns 1 if an error occurred, 0 otherwise. Run through the
6995 entire list, to detected potential double definitions. */
6996
6997 static int
find_in_imports_on_demand(tree enclosing_type,tree class_type)6998 find_in_imports_on_demand (tree enclosing_type, tree class_type)
6999 {
7000 tree class_type_name = TYPE_NAME (class_type);
7001 tree import = (enclosing_type ? TYPE_IMPORT_DEMAND_LIST (enclosing_type) :
7002 ctxp->import_demand_list);
7003 tree cl = NULL_TREE;
7004 int seen_once = -1; /* -1 when not set, 1 if seen once, >1 otherwise. */
7005 int to_return = -1; /* -1 when not set, 0 or 1 otherwise */
7006 tree node;
7007
7008 for (; import; import = TREE_CHAIN (import))
7009 {
7010 int saved_lineno = input_line;
7011 int access_check;
7012 const char *id_name;
7013 tree decl, type_name_copy;
7014
7015 obstack_grow (&temporary_obstack,
7016 IDENTIFIER_POINTER (EXPR_WFL_NODE (TREE_PURPOSE (import))),
7017 IDENTIFIER_LENGTH (EXPR_WFL_NODE (TREE_PURPOSE (import))));
7018 obstack_1grow (&temporary_obstack, '.');
7019 obstack_grow0 (&temporary_obstack,
7020 IDENTIFIER_POINTER (class_type_name),
7021 IDENTIFIER_LENGTH (class_type_name));
7022 id_name = obstack_finish (&temporary_obstack);
7023
7024 if (! (node = maybe_get_identifier (id_name)))
7025 continue;
7026
7027 /* Setup lineno so that it refers to the line of the import (in
7028 case we parse a class file and encounter errors */
7029 input_line = EXPR_WFL_LINENO (TREE_PURPOSE (import));
7030
7031 type_name_copy = TYPE_NAME (class_type);
7032 TYPE_NAME (class_type) = node;
7033 QUALIFIED_P (node) = 1;
7034 decl = IDENTIFIER_CLASS_VALUE (node);
7035 access_check = -1;
7036 /* If there is no DECL set for the class or if the class isn't
7037 loaded and not seen in source yet, then load */
7038 if (!decl || (!CLASS_LOADED_P (TREE_TYPE (decl))
7039 && !CLASS_FROM_SOURCE_P (TREE_TYPE (decl))))
7040 {
7041 load_class (node, 0);
7042 decl = IDENTIFIER_CLASS_VALUE (node);
7043 }
7044 if (decl && ! INNER_CLASS_P (TREE_TYPE (decl)))
7045 access_check = check_pkg_class_access (node, TREE_PURPOSE (import),
7046 false);
7047 else
7048 /* 6.6.1: Inner classes are subject to member access rules. */
7049 access_check = 0;
7050
7051 input_line = saved_lineno;
7052
7053 /* If the loaded class is not accessible or couldn't be loaded,
7054 we restore the original TYPE_NAME and process the next
7055 import. */
7056 if (access_check || !decl)
7057 {
7058 TYPE_NAME (class_type) = type_name_copy;
7059 continue;
7060 }
7061
7062 /* If the loaded class is accessible, we keep a tab on it to
7063 detect and report multiple inclusions. */
7064 if (IS_A_CLASSFILE_NAME (node))
7065 {
7066 if (seen_once < 0)
7067 {
7068 cl = TREE_PURPOSE (import);
7069 seen_once = 1;
7070 }
7071 else if (seen_once >= 0)
7072 {
7073 tree location = (cl ? cl : TREE_PURPOSE (import));
7074 tree package = (cl ? EXPR_WFL_NODE (cl) :
7075 EXPR_WFL_NODE (TREE_PURPOSE (import)));
7076 seen_once++;
7077 parse_error_context
7078 (location,
7079 "Type `%s' also potentially defined in package `%s'",
7080 IDENTIFIER_POINTER (TYPE_NAME (class_type)),
7081 IDENTIFIER_POINTER (package));
7082 }
7083 }
7084 to_return = access_check;
7085 }
7086
7087 if (seen_once == 1)
7088 return to_return;
7089 else
7090 return (seen_once < 0 ? 0 : seen_once); /* It's ok not to have found */
7091 }
7092
7093 /* Add package NAME to the list of packages encountered so far. To
7094 speed up class lookup in do_resolve_class, we make sure a
7095 particular package is added only once. */
7096
7097 static void
register_package(tree name)7098 register_package (tree name)
7099 {
7100 static htab_t pht;
7101 void **e;
7102
7103 if (pht == NULL)
7104 pht = htab_create (50, htab_hash_pointer, htab_eq_pointer, NULL);
7105
7106 e = htab_find_slot (pht, name, INSERT);
7107 if (*e == NULL)
7108 {
7109 package_list = chainon (package_list, build_tree_list (name, NULL));
7110 *e = name;
7111 }
7112 }
7113
7114 static tree
resolve_package(tree pkg,tree * next,tree * type_name)7115 resolve_package (tree pkg, tree *next, tree *type_name)
7116 {
7117 tree current;
7118 tree decl = NULL_TREE;
7119 *type_name = NULL_TREE;
7120
7121 /* The trick is to determine when the package name stops and were
7122 the name of something contained in the package starts. Then we
7123 return a fully qualified name of what we want to get. */
7124
7125 *next = EXPR_WFL_QUALIFICATION (pkg);
7126
7127 /* Try to progressively construct a type name */
7128 if (TREE_CODE (pkg) == EXPR_WITH_FILE_LOCATION)
7129 for (current = EXPR_WFL_QUALIFICATION (pkg);
7130 current; current = TREE_CHAIN (current))
7131 {
7132 /* If we don't have what we're expecting, exit now. TYPE_NAME
7133 will be null and the error caught later. */
7134 if (TREE_CODE (QUAL_WFL (current)) != EXPR_WITH_FILE_LOCATION)
7135 break;
7136 *type_name =
7137 merge_qualified_name (*type_name, EXPR_WFL_NODE (QUAL_WFL (current)));
7138 if ((decl = resolve_no_layout (*type_name, NULL_TREE)))
7139 {
7140 /* resolve_package should be used in a loop, hence we
7141 point at this one to naturally process the next one at
7142 the next iteration. */
7143 *next = current;
7144 break;
7145 }
7146 }
7147 return decl;
7148 }
7149
7150
7151 /* Check accessibility of inner classes according to member access rules.
7152 DECL is the inner class, ENCLOSING_DECL is the class from which the
7153 access is being attempted. */
7154
7155 static void
check_inner_class_access(tree decl,tree enclosing_decl,tree cl)7156 check_inner_class_access (tree decl, tree enclosing_decl, tree cl)
7157 {
7158 const char *access;
7159 tree enclosing_decl_type;
7160
7161 /* We don't issue an error message when CL is null. CL can be null
7162 as a result of processing a JDEP crafted by source_start_java_method
7163 for the purpose of patching its parm decl. But the error would
7164 have been already trapped when fixing the method's signature.
7165 DECL can also be NULL in case of earlier errors. */
7166 if (!decl || !cl)
7167 return;
7168
7169 enclosing_decl_type = TREE_TYPE (enclosing_decl);
7170
7171 if (CLASS_PRIVATE (decl))
7172 {
7173 /* Access is permitted only within the body of the top-level
7174 class in which DECL is declared. */
7175 tree top_level = decl;
7176 while (DECL_CONTEXT (top_level))
7177 top_level = DECL_CONTEXT (top_level);
7178 while (DECL_CONTEXT (enclosing_decl))
7179 enclosing_decl = DECL_CONTEXT (enclosing_decl);
7180 if (top_level == enclosing_decl)
7181 return;
7182 access = "private";
7183 }
7184 else if (CLASS_PROTECTED (decl))
7185 {
7186 tree decl_context;
7187 /* Access is permitted from within the same package... */
7188 if (in_same_package (decl, enclosing_decl))
7189 return;
7190
7191 /* ... or from within the body of a subtype of the context in which
7192 DECL is declared. */
7193 decl_context = DECL_CONTEXT (decl);
7194 while (enclosing_decl)
7195 {
7196 if (CLASS_INTERFACE (decl))
7197 {
7198 if (interface_of_p (TREE_TYPE (decl_context),
7199 enclosing_decl_type))
7200 return;
7201 }
7202 else
7203 {
7204 /* Eww. The order of the arguments is different!! */
7205 if (inherits_from_p (enclosing_decl_type,
7206 TREE_TYPE (decl_context)))
7207 return;
7208 }
7209 enclosing_decl = DECL_CONTEXT (enclosing_decl);
7210 }
7211 access = "protected";
7212 }
7213 else if (! CLASS_PUBLIC (decl))
7214 {
7215 /* Access is permitted only from within the same package as DECL. */
7216 if (in_same_package (decl, enclosing_decl))
7217 return;
7218 access = "non-public";
7219 }
7220 else
7221 /* Class is public. */
7222 return;
7223
7224 parse_error_context (cl, "Nested %s %s is %s; cannot be accessed from here",
7225 (CLASS_INTERFACE (decl) ? "interface" : "class"),
7226 lang_printable_name (decl, 0), access);
7227 }
7228
7229 /* Accessibility check for top-level classes. If CLASS_NAME is in a
7230 foreign package, it must be PUBLIC. Return 0 if no access
7231 violations were found, 1 otherwise. If VERBOSE is true and an error
7232 was found, it is reported and accounted for. */
7233
7234 static int
check_pkg_class_access(tree class_name,tree cl,bool verbose)7235 check_pkg_class_access (tree class_name, tree cl, bool verbose)
7236 {
7237 tree type;
7238
7239 if (!IDENTIFIER_CLASS_VALUE (class_name))
7240 return 0;
7241
7242 if (!(type = TREE_TYPE (IDENTIFIER_CLASS_VALUE (class_name))))
7243 return 0;
7244
7245 if (!CLASS_PUBLIC (TYPE_NAME (type)))
7246 {
7247 /* Access to a private class within the same package is
7248 allowed. */
7249 tree l, r;
7250 breakdown_qualified (&l, &r, class_name);
7251 if (!QUALIFIED_P (class_name) && !ctxp->package)
7252 /* Both in the empty package. */
7253 return 0;
7254 if (l == ctxp->package)
7255 /* Both in the same package. */
7256 return 0;
7257
7258 if (verbose)
7259 parse_error_context
7260 (cl, "Can't access %s `%s'. Only public classes and interfaces in other packages can be accessed",
7261 (CLASS_INTERFACE (TYPE_NAME (type)) ? "interface" : "class"),
7262 IDENTIFIER_POINTER (class_name));
7263 return 1;
7264 }
7265 return 0;
7266 }
7267
7268 /* Local variable declaration. */
7269
7270 static void
declare_local_variables(int modifier,tree type,tree vlist)7271 declare_local_variables (int modifier, tree type, tree vlist)
7272 {
7273 tree decl, current, saved_type;
7274 tree type_wfl = NULL_TREE;
7275 int must_chain = 0;
7276 int final_p = 0;
7277
7278 /* Push a new block if statements were seen between the last time we
7279 pushed a block and now. Keep a count of blocks to close */
7280 if (BLOCK_EXPR_BODY (GET_CURRENT_BLOCK (current_function_decl)))
7281 {
7282 tree b = enter_block ();
7283 BLOCK_IS_IMPLICIT (b) = 1;
7284 }
7285
7286 if (modifier)
7287 {
7288 size_t i;
7289 for (i = 0; i < ARRAY_SIZE (ctxp->modifier_ctx); i++)
7290 if (1 << i & modifier)
7291 break;
7292 if (modifier == ACC_FINAL)
7293 final_p = 1;
7294 else
7295 {
7296 parse_error_context
7297 (ctxp->modifier_ctx [i],
7298 "Only `final' is allowed as a local variables modifier");
7299 return;
7300 }
7301 }
7302
7303 /* Obtain an incomplete type if TYPE is not complete. TYPE_WFL will
7304 hold the TYPE value if a new incomplete has to be created (as
7305 opposed to being found already existing and reused). */
7306 SET_TYPE_FOR_RESOLUTION (type, type_wfl, must_chain);
7307
7308 /* If TYPE is fully resolved and we don't have a reference, make one */
7309 PROMOTE_RECORD_IF_COMPLETE (type, must_chain);
7310
7311 /* Go through all the declared variables */
7312 for (current = vlist, saved_type = type; current;
7313 current = TREE_CHAIN (current), type = saved_type)
7314 {
7315 tree other, real_type;
7316 tree wfl = TREE_PURPOSE (current);
7317 tree name = EXPR_WFL_NODE (wfl);
7318 tree init = TREE_VALUE (current);
7319
7320 /* Process NAME, as it may specify extra dimension(s) for it */
7321 type = build_array_from_name (type, type_wfl, name, &name);
7322
7323 /* Variable redefinition check */
7324 if ((other = lookup_name_in_blocks (name)))
7325 {
7326 variable_redefinition_error (wfl, name, TREE_TYPE (other),
7327 DECL_SOURCE_LINE (other));
7328 continue;
7329 }
7330
7331 /* Type adjustment. We may have just readjusted TYPE because
7332 the variable specified more dimensions. Make sure we have
7333 a reference if we can and don't have one already. */
7334 PROMOTE_RECORD_IF_COMPLETE (type, must_chain);
7335
7336 real_type = GET_REAL_TYPE (type);
7337 /* Never layout this decl. This will be done when its scope
7338 will be entered */
7339 decl = build_decl (VAR_DECL, name, real_type);
7340 MAYBE_CREATE_VAR_LANG_DECL_SPECIFIC (decl);
7341 DECL_FINAL (decl) = final_p;
7342 BLOCK_CHAIN_DECL (decl);
7343
7344 /* If doing xreferencing, replace the line number with the WFL
7345 compound value */
7346 if (flag_emit_xref)
7347 DECL_SOURCE_LINE (decl) = EXPR_WFL_LINECOL (wfl);
7348
7349 /* Don't try to use an INIT statement when an error was found */
7350 if (init && java_error_count)
7351 init = NULL_TREE;
7352
7353 /* Add the initialization function to the current function's code */
7354 if (init)
7355 {
7356 /* Name might have been readjusted */
7357 EXPR_WFL_NODE (TREE_OPERAND (init, 0)) = name;
7358 MODIFY_EXPR_FROM_INITIALIZATION_P (init) = 1;
7359 java_method_add_stmt (current_function_decl,
7360 build_debugable_stmt (EXPR_WFL_LINECOL (init),
7361 init));
7362 }
7363
7364 /* Setup dependency the type of the decl */
7365 if (must_chain)
7366 {
7367 jdep *dep;
7368 register_incomplete_type (JDEP_VARIABLE, type_wfl, decl, type);
7369 dep = CLASSD_LAST (ctxp->classd_list);
7370 JDEP_GET_PATCH (dep) = &TREE_TYPE (decl);
7371 }
7372 }
7373 SOURCE_FRONTEND_DEBUG (("Defined locals"));
7374 }
7375
7376 /* Called during parsing. Build decls from argument list. */
7377
7378 static void
source_start_java_method(tree fndecl)7379 source_start_java_method (tree fndecl)
7380 {
7381 tree tem;
7382 tree parm_decl;
7383 int i;
7384
7385 if (!fndecl)
7386 return;
7387
7388 current_function_decl = fndecl;
7389
7390 /* New scope for the function */
7391 enter_block ();
7392 for (tem = TYPE_ARG_TYPES (TREE_TYPE (fndecl)), i = 0;
7393 tem != end_params_node; tem = TREE_CHAIN (tem), i++)
7394 {
7395 tree type = TREE_VALUE (tem);
7396 tree name = TREE_PURPOSE (tem);
7397
7398 /* If type is incomplete. Create an incomplete decl and ask for
7399 the decl to be patched later */
7400 if (INCOMPLETE_TYPE_P (type))
7401 {
7402 jdep *jdep;
7403 tree real_type = GET_REAL_TYPE (type);
7404 parm_decl = build_decl (PARM_DECL, name, real_type);
7405 type = obtain_incomplete_type (type);
7406 register_incomplete_type (JDEP_PARM, NULL_TREE, NULL_TREE, type);
7407 jdep = CLASSD_LAST (ctxp->classd_list);
7408 JDEP_MISC (jdep) = name;
7409 JDEP_GET_PATCH (jdep) = &TREE_TYPE (parm_decl);
7410 }
7411 else
7412 parm_decl = build_decl (PARM_DECL, name, type);
7413
7414 /* Remember if a local variable was declared final (via its
7415 TREE_LIST of type/name.) Set DECL_FINAL accordingly. */
7416 if (ARG_FINAL_P (tem))
7417 {
7418 MAYBE_CREATE_VAR_LANG_DECL_SPECIFIC (parm_decl);
7419 DECL_FINAL (parm_decl) = 1;
7420 }
7421
7422 BLOCK_CHAIN_DECL (parm_decl);
7423 }
7424 tem = BLOCK_EXPR_DECLS (DECL_FUNCTION_BODY (current_function_decl));
7425 BLOCK_EXPR_DECLS (DECL_FUNCTION_BODY (current_function_decl)) =
7426 nreverse (tem);
7427 DECL_ARG_SLOT_COUNT (current_function_decl) = i;
7428 DECL_MAX_LOCALS (current_function_decl) = i;
7429 }
7430
7431 /* Called during parsing. Creates an artificial method declaration. */
7432
7433 static tree
create_artificial_method(tree class,int flags,tree type,tree name,tree args)7434 create_artificial_method (tree class, int flags, tree type,
7435 tree name, tree args)
7436 {
7437 tree mdecl;
7438
7439 java_parser_context_save_global ();
7440 input_line = 0;
7441 mdecl = make_node (FUNCTION_TYPE);
7442 TREE_TYPE (mdecl) = type;
7443 TYPE_ARG_TYPES (mdecl) = args;
7444 mdecl = add_method (class, flags, name, build_java_signature (mdecl));
7445 java_parser_context_restore_global ();
7446 DECL_ARTIFICIAL (mdecl) = 1;
7447 return mdecl;
7448 }
7449
7450 /* Starts the body if an artificial method. */
7451
7452 static void
start_artificial_method_body(tree mdecl)7453 start_artificial_method_body (tree mdecl)
7454 {
7455 DECL_SOURCE_LINE (mdecl) = 1;
7456 DECL_FUNCTION_LAST_LINE (mdecl) = 1;
7457 source_start_java_method (mdecl);
7458 enter_block ();
7459 }
7460
7461 static void
end_artificial_method_body(tree mdecl)7462 end_artificial_method_body (tree mdecl)
7463 {
7464 /* exit_block modifies DECL_FUNCTION_BODY (current_function_decl).
7465 It has to be evaluated first. (if mdecl is current_function_decl,
7466 we have an undefined behavior if no temporary variable is used.) */
7467 tree b = exit_block ();
7468 BLOCK_EXPR_BODY (DECL_FUNCTION_BODY (mdecl)) = b;
7469 exit_block ();
7470 }
7471
7472 /* Dump a tree of some kind. This is a convenience wrapper for the
7473 dump_* functions in tree-dump.c. */
7474 static void
dump_java_tree(enum tree_dump_index phase,tree t)7475 dump_java_tree (enum tree_dump_index phase, tree t)
7476 {
7477 FILE *stream;
7478 int flags;
7479
7480 stream = dump_begin (phase, &flags);
7481 flags |= TDF_SLIM;
7482 if (stream)
7483 {
7484 dump_node (t, flags, stream);
7485 dump_end (phase, stream);
7486 }
7487 }
7488
7489 /* Terminate a function and expand its body. */
7490
7491 static void
source_end_java_method(void)7492 source_end_java_method (void)
7493 {
7494 tree fndecl = current_function_decl;
7495
7496 if (!fndecl)
7497 return;
7498
7499 java_parser_context_save_global ();
7500 input_line = ctxp->last_ccb_indent1;
7501
7502 /* Turn function bodies with only a NOP expr null, so they don't get
7503 generated at all and we won't get warnings when using the -W
7504 -Wall flags. */
7505 if (BLOCK_EXPR_BODY (DECL_FUNCTION_BODY (fndecl)) == empty_stmt_node)
7506 BLOCK_EXPR_BODY (DECL_FUNCTION_BODY (fndecl)) = NULL_TREE;
7507
7508 /* We've generated all the trees for this function, and it has been
7509 patched. Dump it to a file if the user requested it. */
7510 dump_java_tree (TDI_original, fndecl);
7511
7512 /* Defer expanding the method until cgraph analysis is complete. */
7513 if (DECL_SAVED_TREE (fndecl))
7514 cgraph_finalize_function (fndecl, false);
7515
7516 current_function_decl = NULL_TREE;
7517 java_parser_context_restore_global ();
7518 }
7519
7520 /* Record EXPR in the current function block. Complements compound
7521 expression second operand if necessary. */
7522
7523 tree
java_method_add_stmt(tree fndecl,tree expr)7524 java_method_add_stmt (tree fndecl, tree expr)
7525 {
7526 if (!GET_CURRENT_BLOCK (fndecl))
7527 return NULL_TREE;
7528 return add_stmt_to_block (GET_CURRENT_BLOCK (fndecl), NULL_TREE, expr);
7529 }
7530
7531 static tree
add_stmt_to_block(tree b,tree type,tree stmt)7532 add_stmt_to_block (tree b, tree type, tree stmt)
7533 {
7534 tree body = BLOCK_EXPR_BODY (b), c;
7535
7536 if (java_error_count)
7537 return body;
7538
7539 if ((c = add_stmt_to_compound (body, type, stmt)) == body)
7540 return body;
7541
7542 BLOCK_EXPR_BODY (b) = c;
7543 TREE_SIDE_EFFECTS (c) = 1;
7544 return c;
7545 }
7546
7547 /* Add STMT to EXISTING if possible, otherwise create a new
7548 COMPOUND_EXPR and add STMT to it. */
7549
7550 static tree
add_stmt_to_compound(tree existing,tree type,tree stmt)7551 add_stmt_to_compound (tree existing, tree type, tree stmt)
7552 {
7553 if (existing)
7554 return build (COMPOUND_EXPR, type, existing, stmt);
7555 else
7556 return stmt;
7557 }
7558
java_layout_seen_class_methods(void)7559 void java_layout_seen_class_methods (void)
7560 {
7561 tree previous_list = all_class_list;
7562 tree end = NULL_TREE;
7563 tree current;
7564
7565 while (1)
7566 {
7567 for (current = previous_list;
7568 current != end; current = TREE_CHAIN (current))
7569 layout_class_methods (TREE_TYPE (TREE_VALUE (current)));
7570
7571 if (previous_list != all_class_list)
7572 {
7573 end = previous_list;
7574 previous_list = all_class_list;
7575 }
7576 else
7577 break;
7578 }
7579 }
7580
7581 static GTY(()) tree stop_reordering;
7582 void
java_reorder_fields(void)7583 java_reorder_fields (void)
7584 {
7585 tree current;
7586
7587 for (current = gclass_list; current; current = TREE_CHAIN (current))
7588 {
7589 output_class = current_class = TREE_TYPE (TREE_VALUE (current));
7590
7591 if (current_class == stop_reordering)
7592 break;
7593
7594 /* Reverse the fields, but leave the dummy field in front.
7595 Fields are already ordered for Object and Class */
7596 if (TYPE_FIELDS (current_class) && current_class != object_type_node
7597 && current_class != class_type_node)
7598 {
7599 /* If the dummy field is there, reverse the right fields and
7600 just layout the type for proper fields offset */
7601 if (!DECL_NAME (TYPE_FIELDS (current_class)))
7602 {
7603 tree fields = TYPE_FIELDS (current_class);
7604 TREE_CHAIN (fields) = nreverse (TREE_CHAIN (fields));
7605 TYPE_SIZE (current_class) = NULL_TREE;
7606 }
7607 /* We don't have a dummy field, we need to layout the class,
7608 after having reversed the fields */
7609 else
7610 {
7611 TYPE_FIELDS (current_class) =
7612 nreverse (TYPE_FIELDS (current_class));
7613 TYPE_SIZE (current_class) = NULL_TREE;
7614 }
7615 }
7616 }
7617 /* There are cases were gclass_list will be empty. */
7618 if (gclass_list)
7619 stop_reordering = TREE_TYPE (TREE_VALUE (gclass_list));
7620 }
7621
7622 /* Layout the methods of all classes loaded in one way or another.
7623 Check methods of source parsed classes. Then reorder the
7624 fields and layout the classes or the type of all source parsed
7625 classes */
7626
7627 void
java_layout_classes(void)7628 java_layout_classes (void)
7629 {
7630 tree current;
7631 int save_error_count = java_error_count;
7632
7633 /* Layout the methods of all classes seen so far */
7634 java_layout_seen_class_methods ();
7635 java_parse_abort_on_error ();
7636 all_class_list = NULL_TREE;
7637
7638 /* Then check the methods of all parsed classes */
7639 for (current = gclass_list; current; current = TREE_CHAIN (current))
7640 if (CLASS_FROM_SOURCE_P (TREE_TYPE (TREE_VALUE (current))))
7641 java_check_methods (TREE_VALUE (current));
7642 java_parse_abort_on_error ();
7643
7644 for (current = gclass_list; current; current = TREE_CHAIN (current))
7645 {
7646 output_class = current_class = TREE_TYPE (TREE_VALUE (current));
7647 layout_class (current_class);
7648
7649 /* Error reported by the caller */
7650 if (java_error_count)
7651 return;
7652 }
7653
7654 /* We might have reloaded classes durign the process of laying out
7655 classes for code generation. We must layout the methods of those
7656 late additions, as constructor checks might use them */
7657 java_layout_seen_class_methods ();
7658 java_parse_abort_on_error ();
7659 }
7660
7661 /* Expand methods in the current set of classes remembered for
7662 generation. */
7663
7664 static void
java_complete_expand_classes(void)7665 java_complete_expand_classes (void)
7666 {
7667 tree current;
7668
7669 do_not_fold = flag_emit_xref;
7670
7671 for (current = ctxp->class_list; current; current = TREE_CHAIN (current))
7672 if (!INNER_CLASS_DECL_P (current))
7673 java_complete_expand_class (current);
7674 }
7675
7676 /* Expand the methods found in OUTER, starting first by OUTER's inner
7677 classes, if any. */
7678
7679 static void
java_complete_expand_class(tree outer)7680 java_complete_expand_class (tree outer)
7681 {
7682 tree inner_list;
7683
7684 set_nested_class_simple_name_value (outer, 1); /* Set */
7685
7686 /* We need to go after all inner classes and start expanding them,
7687 starting with most nested ones. We have to do that because nested
7688 classes might add functions to outer classes */
7689
7690 for (inner_list = DECL_INNER_CLASS_LIST (outer);
7691 inner_list; inner_list = TREE_CHAIN (inner_list))
7692 java_complete_expand_class (TREE_PURPOSE (inner_list));
7693
7694 java_complete_expand_methods (outer);
7695 set_nested_class_simple_name_value (outer, 0); /* Reset */
7696 }
7697
7698 /* Expand methods registered in CLASS_DECL. The general idea is that
7699 we expand regular methods first. This allows us get an estimate on
7700 how outer context local alias fields are really used so we can add
7701 to the constructor just enough code to initialize them properly (it
7702 also lets us generate finit$ correctly.) Then we expand the
7703 constructors and then <clinit>. */
7704
7705 static void
java_complete_expand_methods(tree class_decl)7706 java_complete_expand_methods (tree class_decl)
7707 {
7708 tree clinit, decl, first_decl;
7709
7710 output_class = current_class = TREE_TYPE (class_decl);
7711
7712 /* Pre-expand <clinit> to figure whether we really need it or
7713 not. If we do need it, we pre-expand the static fields so they're
7714 ready to be used somewhere else. <clinit> will be fully expanded
7715 after we processed the constructors. */
7716 first_decl = TYPE_METHODS (current_class);
7717 clinit = maybe_generate_pre_expand_clinit (current_class);
7718
7719 /* Then generate finit$ (if we need to) because constructors will
7720 try to use it.*/
7721 if (TYPE_FINIT_STMT_LIST (current_class))
7722 java_complete_expand_method (generate_finit (current_class));
7723
7724 /* Then generate instinit$ (if we need to) because constructors will
7725 try to use it. */
7726 if (TYPE_II_STMT_LIST (current_class))
7727 java_complete_expand_method (generate_instinit (current_class));
7728
7729 /* Now do the constructors */
7730 for (decl = first_decl ; !java_error_count && decl; decl = TREE_CHAIN (decl))
7731 {
7732 int no_body;
7733
7734 if (!DECL_CONSTRUCTOR_P (decl))
7735 continue;
7736
7737 no_body = !DECL_FUNCTION_BODY (decl);
7738 /* Don't generate debug info on line zero when expanding a
7739 generated constructor. */
7740 if (no_body)
7741 restore_line_number_status (1);
7742
7743 java_complete_expand_method (decl);
7744
7745 if (no_body)
7746 restore_line_number_status (0);
7747 }
7748
7749 /* First, do the ordinary methods. */
7750 for (decl = first_decl; decl; decl = TREE_CHAIN (decl))
7751 {
7752 /* Ctors aren't part of this batch. */
7753 if (DECL_CONSTRUCTOR_P (decl) || DECL_CLINIT_P (decl))
7754 continue;
7755
7756 /* Skip abstract or native methods -- but do handle native
7757 methods when generating JNI stubs. */
7758 if (METHOD_ABSTRACT (decl) || (! flag_jni && METHOD_NATIVE (decl)))
7759 {
7760 DECL_FUNCTION_BODY (decl) = NULL_TREE;
7761 continue;
7762 }
7763
7764 if (METHOD_NATIVE (decl))
7765 {
7766 tree body;
7767 current_function_decl = decl;
7768 body = build_jni_stub (decl);
7769 BLOCK_EXPR_BODY (DECL_FUNCTION_BODY (decl)) = body;
7770 }
7771
7772 java_complete_expand_method (decl);
7773 }
7774
7775 /* If there is indeed a <clinit>, fully expand it now */
7776 if (clinit)
7777 {
7778 /* Prevent the use of `this' inside <clinit> */
7779 ctxp->explicit_constructor_p = 1;
7780 java_complete_expand_method (clinit);
7781 ctxp->explicit_constructor_p = 0;
7782 }
7783
7784 /* We might have generated a class$ that we now want to expand */
7785 if (TYPE_DOT_CLASS (current_class))
7786 java_complete_expand_method (TYPE_DOT_CLASS (current_class));
7787
7788 /* Now verify constructor circularity (stop after the first one we
7789 prove wrong.) */
7790 if (!CLASS_INTERFACE (class_decl))
7791 for (decl = TYPE_METHODS (current_class); decl; decl = TREE_CHAIN (decl))
7792 if (DECL_CONSTRUCTOR_P (decl)
7793 && verify_constructor_circularity (decl, decl))
7794 break;
7795 }
7796
7797 /* Attempt to create <clinit>. Pre-expand static fields so they can be
7798 safely used in some other methods/constructors. */
7799
7800 static tree
maybe_generate_pre_expand_clinit(tree class_type)7801 maybe_generate_pre_expand_clinit (tree class_type)
7802 {
7803 tree current, mdecl;
7804
7805 if (!TYPE_CLINIT_STMT_LIST (class_type))
7806 return NULL_TREE;
7807
7808 /* Go through all static fields and pre expand them */
7809 for (current = TYPE_FIELDS (class_type); current;
7810 current = TREE_CHAIN (current))
7811 if (FIELD_STATIC (current))
7812 build_field_ref (NULL_TREE, class_type, DECL_NAME (current));
7813
7814 /* Then build the <clinit> method */
7815 mdecl = create_artificial_method (class_type, ACC_STATIC, void_type_node,
7816 clinit_identifier_node, end_params_node);
7817 layout_class_method (class_type, CLASSTYPE_SUPER (class_type),
7818 mdecl, NULL_TREE);
7819 start_artificial_method_body (mdecl);
7820
7821 /* We process the list of assignment we produced as the result of
7822 the declaration of initialized static field and add them as
7823 statement to the <clinit> method. */
7824 for (current = TYPE_CLINIT_STMT_LIST (class_type); current;
7825 current = TREE_CHAIN (current))
7826 {
7827 tree stmt = current;
7828 /* We build the assignment expression that will initialize the
7829 field to its value. There are strict rules on static
7830 initializers (8.5). FIXME */
7831 if (TREE_CODE (stmt) != BLOCK && stmt != empty_stmt_node)
7832 stmt = build_debugable_stmt (EXPR_WFL_LINECOL (stmt), stmt);
7833 java_method_add_stmt (mdecl, stmt);
7834 }
7835
7836 end_artificial_method_body (mdecl);
7837
7838 /* Now we want to place <clinit> as the last method (because we need
7839 it at least for interface so that it doesn't interfere with the
7840 dispatch table based lookup. */
7841 if (TREE_CHAIN (TYPE_METHODS (class_type)))
7842 {
7843 current = TREE_CHAIN (TYPE_METHODS (class_type));
7844 TYPE_METHODS (class_type) = current;
7845
7846 while (TREE_CHAIN (current))
7847 current = TREE_CHAIN (current);
7848
7849 TREE_CHAIN (current) = mdecl;
7850 TREE_CHAIN (mdecl) = NULL_TREE;
7851 }
7852
7853 return mdecl;
7854 }
7855
7856 /* Analyzes a method body and look for something that isn't a
7857 MODIFY_EXPR with a constant value. */
7858
7859 static int
analyze_clinit_body(tree this_class,tree bbody)7860 analyze_clinit_body (tree this_class, tree bbody)
7861 {
7862 while (bbody)
7863 switch (TREE_CODE (bbody))
7864 {
7865 case BLOCK:
7866 bbody = BLOCK_EXPR_BODY (bbody);
7867 break;
7868
7869 case EXPR_WITH_FILE_LOCATION:
7870 bbody = EXPR_WFL_NODE (bbody);
7871 break;
7872
7873 case COMPOUND_EXPR:
7874 if (analyze_clinit_body (this_class, TREE_OPERAND (bbody, 0)))
7875 return 1;
7876 bbody = TREE_OPERAND (bbody, 1);
7877 break;
7878
7879 case MODIFY_EXPR:
7880 /* If we're generating to class file and we're dealing with an
7881 array initialization, we return 1 to keep <clinit> */
7882 if (TREE_CODE (TREE_OPERAND (bbody, 1)) == NEW_ARRAY_INIT
7883 && flag_emit_class_files)
7884 return 1;
7885
7886 /* There are a few cases where we're required to keep
7887 <clinit>:
7888 - If this is an assignment whose operand is not constant,
7889 - If this is an assignment to a non-initialized field,
7890 - If this field is not a member of the current class.
7891 */
7892 return (! TREE_CONSTANT (TREE_OPERAND (bbody, 1))
7893 || ! DECL_INITIAL (TREE_OPERAND (bbody, 0))
7894 || DECL_CONTEXT (TREE_OPERAND (bbody, 0)) != this_class);
7895
7896 default:
7897 return 1;
7898 }
7899 return 0;
7900 }
7901
7902
7903 /* See whether we could get rid of <clinit>. Criteria are: all static
7904 final fields have constant initial values and the body of <clinit>
7905 is empty. Return 1 if <clinit> was discarded, 0 otherwise. */
7906
7907 static int
maybe_yank_clinit(tree mdecl)7908 maybe_yank_clinit (tree mdecl)
7909 {
7910 tree type, current;
7911 tree fbody, bbody;
7912
7913 if (!DECL_CLINIT_P (mdecl))
7914 return 0;
7915
7916 /* If the body isn't empty, then we keep <clinit>. Note that if
7917 we're emitting classfiles, this isn't enough not to rule it
7918 out. */
7919 fbody = DECL_FUNCTION_BODY (mdecl);
7920 bbody = BLOCK_EXPR_BODY (fbody);
7921 if (bbody && bbody != error_mark_node)
7922 bbody = BLOCK_EXPR_BODY (bbody);
7923 else
7924 return 0;
7925 if (bbody && ! flag_emit_class_files && bbody != empty_stmt_node)
7926 return 0;
7927
7928 type = DECL_CONTEXT (mdecl);
7929 current = TYPE_FIELDS (type);
7930
7931 for (current = (current ? TREE_CHAIN (current) : current);
7932 current; current = TREE_CHAIN (current))
7933 {
7934 tree f_init;
7935
7936 /* We're not interested in non-static fields. */
7937 if (!FIELD_STATIC (current))
7938 continue;
7939
7940 /* Nor in fields without initializers. */
7941 f_init = DECL_INITIAL (current);
7942 if (f_init == NULL_TREE)
7943 continue;
7944
7945 /* Anything that isn't String or a basic type is ruled out -- or
7946 if we know how to deal with it (when doing things natively) we
7947 should generated an empty <clinit> so that SUID are computed
7948 correctly. */
7949 if (! JSTRING_TYPE_P (TREE_TYPE (current))
7950 && ! JNUMERIC_TYPE_P (TREE_TYPE (current)))
7951 return 0;
7952
7953 if (! FIELD_FINAL (current) || ! TREE_CONSTANT (f_init))
7954 return 0;
7955 }
7956
7957 /* Now we analyze the method body and look for something that
7958 isn't a MODIFY_EXPR */
7959 if (bbody != empty_stmt_node && analyze_clinit_body (type, bbody))
7960 return 0;
7961
7962 /* Get rid of <clinit> in the class' list of methods */
7963 if (TYPE_METHODS (type) == mdecl)
7964 TYPE_METHODS (type) = TREE_CHAIN (mdecl);
7965 else
7966 for (current = TYPE_METHODS (type); current;
7967 current = TREE_CHAIN (current))
7968 if (TREE_CHAIN (current) == mdecl)
7969 {
7970 TREE_CHAIN (current) = TREE_CHAIN (mdecl);
7971 break;
7972 }
7973
7974 return 1;
7975 }
7976
7977 /* Install the argument from MDECL. Suitable to completion and
7978 expansion of mdecl's body. */
7979
7980 void
start_complete_expand_method(tree mdecl)7981 start_complete_expand_method (tree mdecl)
7982 {
7983 tree tem;
7984
7985 pushlevel (1); /* Prepare for a parameter push */
7986 tem = BLOCK_EXPR_DECLS (DECL_FUNCTION_BODY (current_function_decl));
7987 DECL_ARGUMENTS (mdecl) = tem;
7988
7989 for (; tem; tem = TREE_CHAIN (tem))
7990 {
7991 /* TREE_CHAIN (tem) will change after pushdecl. */
7992 tree next = TREE_CHAIN (tem);
7993 tree type = TREE_TYPE (tem);
7994 if (PROMOTE_PROTOTYPES
7995 && TYPE_PRECISION (type) < TYPE_PRECISION (integer_type_node)
7996 && INTEGRAL_TYPE_P (type))
7997 type = integer_type_node;
7998 DECL_ARG_TYPE (tem) = type;
7999 layout_decl (tem, 0);
8000 pushdecl (tem);
8001 /* Re-install the next so that the list is kept and the loop
8002 advances. */
8003 TREE_CHAIN (tem) = next;
8004 }
8005 pushdecl_force_head (DECL_ARGUMENTS (mdecl));
8006 input_line = DECL_SOURCE_LINE (mdecl);
8007 build_result_decl (mdecl);
8008 }
8009
8010
8011 /* Complete and expand a method. */
8012
8013 static void
java_complete_expand_method(tree mdecl)8014 java_complete_expand_method (tree mdecl)
8015 {
8016 tree fbody, block_body, exception_copy;
8017
8018 current_function_decl = mdecl;
8019 /* Fix constructors before expanding them */
8020 if (DECL_CONSTRUCTOR_P (mdecl))
8021 fix_constructors (mdecl);
8022
8023 /* Expand functions that have a body */
8024 if (!DECL_FUNCTION_BODY (mdecl))
8025 return;
8026
8027 fbody = DECL_FUNCTION_BODY (mdecl);
8028 block_body = BLOCK_EXPR_BODY (fbody);
8029 exception_copy = NULL_TREE;
8030
8031 current_function_decl = mdecl;
8032
8033 if (! quiet_flag)
8034 fprintf (stderr, " [%s.",
8035 lang_printable_name (DECL_CONTEXT (mdecl), 0));
8036 announce_function (mdecl);
8037 if (! quiet_flag)
8038 fprintf (stderr, "]");
8039
8040 /* Prepare the function for tree completion */
8041 start_complete_expand_method (mdecl);
8042
8043 /* Install the current this */
8044 current_this = (!METHOD_STATIC (mdecl) ?
8045 BLOCK_EXPR_DECLS (DECL_FUNCTION_BODY (mdecl)) : NULL_TREE);
8046
8047 /* Purge the `throws' list of unchecked exceptions (we save a copy
8048 of the list and re-install it later.) */
8049 exception_copy = copy_list (DECL_FUNCTION_THROWS (mdecl));
8050 purge_unchecked_exceptions (mdecl);
8051
8052 /* Install exceptions thrown with `throws' */
8053 PUSH_EXCEPTIONS (DECL_FUNCTION_THROWS (mdecl));
8054
8055 if (block_body != NULL_TREE)
8056 {
8057 block_body = java_complete_tree (block_body);
8058
8059 /* Before we check initialization, attached all class initialization
8060 variable to the block_body */
8061 htab_traverse (DECL_FUNCTION_INIT_TEST_TABLE (mdecl),
8062 attach_init_test_initialization_flags, block_body);
8063
8064 if (! flag_emit_xref && ! METHOD_NATIVE (mdecl))
8065 {
8066 check_for_initialization (block_body, mdecl);
8067
8068 /* Go through all the flags marking the initialization of
8069 static variables and see whether they're definitively
8070 assigned, in which case the type is remembered as
8071 definitively initialized in MDECL. */
8072 if (STATIC_CLASS_INIT_OPT_P ())
8073 {
8074 /* Always register the context as properly initialized in
8075 MDECL. This used with caution helps removing extra
8076 initialization of self. */
8077 if (METHOD_STATIC (mdecl))
8078 {
8079 *(htab_find_slot
8080 (DECL_FUNCTION_INITIALIZED_CLASS_TABLE (mdecl),
8081 DECL_CONTEXT (mdecl), INSERT)) = DECL_CONTEXT (mdecl);
8082 }
8083 }
8084 }
8085 ctxp->explicit_constructor_p = 0;
8086 }
8087
8088 BLOCK_EXPR_BODY (fbody) = block_body;
8089
8090 /* If we saw a return but couldn't evaluate it properly, we'll have
8091 an error_mark_node here. */
8092 if (block_body != error_mark_node
8093 && (block_body == NULL_TREE || CAN_COMPLETE_NORMALLY (block_body))
8094 && TREE_CODE (TREE_TYPE (TREE_TYPE (mdecl))) != VOID_TYPE
8095 && !flag_emit_xref)
8096 missing_return_error (current_function_decl);
8097
8098 /* See if we can get rid of <clinit> if MDECL happens to be <clinit> */
8099 maybe_yank_clinit (mdecl);
8100
8101 /* Pop the current level, with special measures if we found errors. */
8102 if (java_error_count)
8103 pushdecl_force_head (DECL_ARGUMENTS (mdecl));
8104 poplevel (1, 0, 1);
8105
8106 /* Pop the exceptions and sanity check */
8107 POP_EXCEPTIONS();
8108 if (currently_caught_type_list)
8109 abort ();
8110
8111 /* Restore the copy of the list of exceptions if emitting xrefs. */
8112 DECL_FUNCTION_THROWS (mdecl) = exception_copy;
8113 }
8114
8115 /* For with each class for which there's code to generate. */
8116
8117 static void
java_expand_method_bodies(tree class)8118 java_expand_method_bodies (tree class)
8119 {
8120 tree decl;
8121 for (decl = TYPE_METHODS (class); decl; decl = TREE_CHAIN (decl))
8122 {
8123 tree block;
8124 tree body;
8125
8126 if (! DECL_FUNCTION_BODY (decl))
8127 continue;
8128
8129 current_function_decl = decl;
8130
8131 block = BLOCK_EXPR_BODY (DECL_FUNCTION_BODY (decl));
8132
8133 if (TREE_CODE (block) != BLOCK)
8134 abort ();
8135
8136 /* Save the function body for inlining. */
8137 DECL_SAVED_TREE (decl) = block;
8138
8139 body = BLOCK_EXPR_BODY (block);
8140
8141 if (TREE_TYPE (body) == NULL_TREE)
8142 abort ();
8143
8144 /* It's time to assign the variable flagging static class
8145 initialization based on which classes invoked static methods
8146 are definitely initializing. This should be flagged. */
8147 if (STATIC_CLASS_INIT_OPT_P ())
8148 {
8149 tree list = DECL_FUNCTION_STATIC_METHOD_INVOCATION_COMPOUND (decl);
8150 for (; list != NULL_TREE; list = TREE_CHAIN (list))
8151 {
8152 /* Executed for each statement calling a static function.
8153 LIST is a TREE_LIST whose PURPOSE is the called function
8154 and VALUE is a compound whose second operand can be patched
8155 with static class initialization flag assignments. */
8156
8157 tree called_method = TREE_PURPOSE (list);
8158 tree compound = TREE_VALUE (list);
8159 tree assignment_compound_list
8160 = build_tree_list (called_method, NULL);
8161
8162 /* For each class definitely initialized in
8163 CALLED_METHOD, fill ASSIGNMENT_COMPOUND with
8164 assignment to the class initialization flag. */
8165 htab_traverse (DECL_FUNCTION_INITIALIZED_CLASS_TABLE (called_method),
8166 emit_test_initialization,
8167 assignment_compound_list);
8168
8169 if (TREE_VALUE (assignment_compound_list))
8170 TREE_OPERAND (compound, 1)
8171 = TREE_VALUE (assignment_compound_list);
8172 }
8173 }
8174
8175 /* Prepend class initialization to static methods. */
8176 if (METHOD_STATIC (decl) && ! METHOD_PRIVATE (decl)
8177 && ! flag_emit_class_files
8178 && ! DECL_CLINIT_P (decl)
8179 && ! CLASS_INTERFACE (TYPE_NAME (class)))
8180 {
8181 tree init = build (CALL_EXPR, void_type_node,
8182 build_address_of (soft_initclass_node),
8183 build_tree_list (NULL_TREE,
8184 build_class_ref (class)),
8185 NULL_TREE);
8186 TREE_SIDE_EFFECTS (init) = 1;
8187 body = build (COMPOUND_EXPR, TREE_TYPE (body), init, body);
8188 BLOCK_EXPR_BODY (block) = body;
8189 }
8190
8191 /* Wrap synchronized method bodies in a monitorenter
8192 plus monitorexit cleanup. */
8193 if (METHOD_SYNCHRONIZED (decl) && ! flag_emit_class_files)
8194 {
8195 tree enter, exit, lock;
8196 if (METHOD_STATIC (decl))
8197 lock = build_class_ref (class);
8198 else
8199 lock = DECL_ARGUMENTS (decl);
8200 BUILD_MONITOR_ENTER (enter, lock);
8201 BUILD_MONITOR_EXIT (exit, lock);
8202
8203 body = build (COMPOUND_EXPR, void_type_node,
8204 enter,
8205 build (TRY_FINALLY_EXPR, void_type_node, body, exit));
8206 BLOCK_EXPR_BODY (block) = body;
8207 }
8208
8209 /* Expand the the function body. */
8210 source_end_java_method ();
8211 }
8212 }
8213
8214
8215
8216 /* This section of the code deals with accessing enclosing context
8217 fields either directly by using the relevant access to this$<n> or
8218 by invoking an access method crafted for that purpose. */
8219
8220 /* Build the necessary access from an inner class to an outer
8221 class. This routine could be optimized to cache previous result
8222 (decl, current_class and returned access). When an access method
8223 needs to be generated, it always takes the form of a read. It might
8224 be later turned into a write by calling outer_field_access_fix. */
8225
8226 static tree
build_outer_field_access(tree id,tree decl)8227 build_outer_field_access (tree id, tree decl)
8228 {
8229 tree access = NULL_TREE;
8230 tree ctx = TREE_TYPE (DECL_CONTEXT (TYPE_NAME (current_class)));
8231 tree decl_ctx = DECL_CONTEXT (decl);
8232
8233 /* If the immediate enclosing context of the current class is the
8234 field decl's class or inherits from it; build the access as
8235 `this$<n>.<field>'. Note that we will break the `private' barrier
8236 if we're not emitting bytecodes. */
8237 if ((ctx == decl_ctx || inherits_from_p (ctx, decl_ctx))
8238 && (!FIELD_PRIVATE (decl) || !flag_emit_class_files ))
8239 {
8240 tree thisn = build_current_thisn (current_class);
8241 access = make_qualified_primary (build_wfl_node (thisn),
8242 id, EXPR_WFL_LINECOL (id));
8243 }
8244 /* Otherwise, generate access methods to outer this and access the
8245 field (either using an access method or by direct access.) */
8246 else
8247 {
8248 int lc = EXPR_WFL_LINECOL (id);
8249
8250 /* Now we chain the required number of calls to the access$0 to
8251 get a hold to the enclosing instance we need, and then we
8252 build the field access. */
8253 access = build_access_to_thisn (current_class, decl_ctx, lc);
8254
8255 /* If the field is private and we're generating bytecode, then
8256 we generate an access method */
8257 if (FIELD_PRIVATE (decl) && flag_emit_class_files )
8258 {
8259 tree name = build_outer_field_access_methods (decl);
8260 access = build_outer_field_access_expr (lc, decl_ctx,
8261 name, access, NULL_TREE);
8262 }
8263 /* Otherwise we use `access$(this$<j>). ... access$(this$<i>).<field>'.
8264 Once again we break the `private' access rule from a foreign
8265 class. */
8266 else
8267 access = make_qualified_primary (access, id, lc);
8268 }
8269 return resolve_expression_name (access, NULL);
8270 }
8271
8272 /* Return a nonzero value if NODE describes an outer field inner
8273 access. */
8274
8275 static int
outer_field_access_p(tree type,tree decl)8276 outer_field_access_p (tree type, tree decl)
8277 {
8278 if (!INNER_CLASS_TYPE_P (type)
8279 || TREE_CODE (decl) != FIELD_DECL
8280 || DECL_CONTEXT (decl) == type)
8281 return 0;
8282
8283 /* If the inner class extends the declaration context of the field
8284 we're trying to access, then this isn't an outer field access */
8285 if (inherits_from_p (type, DECL_CONTEXT (decl)))
8286 return 0;
8287
8288 for (type = TREE_TYPE (DECL_CONTEXT (TYPE_NAME (type))); ;
8289 type = TREE_TYPE (DECL_CONTEXT (TYPE_NAME (type))))
8290 {
8291 if (type == DECL_CONTEXT (decl))
8292 return 1;
8293
8294 if (!DECL_CONTEXT (TYPE_NAME (type)))
8295 {
8296 /* Before we give up, see whether the field is inherited from
8297 the enclosing context we're considering. */
8298 if (inherits_from_p (type, DECL_CONTEXT (decl)))
8299 return 1;
8300 break;
8301 }
8302 }
8303
8304 return 0;
8305 }
8306
8307 /* Return a nonzero value if NODE represents an outer field inner
8308 access that was been already expanded. As a side effect, it returns
8309 the name of the field being accessed and the argument passed to the
8310 access function, suitable for a regeneration of the access method
8311 call if necessary. */
8312
8313 static int
outer_field_expanded_access_p(tree node,tree * name,tree * arg_type,tree * arg)8314 outer_field_expanded_access_p (tree node, tree *name, tree *arg_type,
8315 tree *arg)
8316 {
8317 int identified = 0;
8318
8319 if (TREE_CODE (node) != CALL_EXPR)
8320 return 0;
8321
8322 /* Well, gcj generates slightly different tree nodes when compiling
8323 to native or bytecodes. It's the case for function calls. */
8324
8325 if (flag_emit_class_files
8326 && TREE_CODE (node) == CALL_EXPR
8327 && OUTER_FIELD_ACCESS_IDENTIFIER_P (DECL_NAME (TREE_OPERAND (node, 0))))
8328 identified = 1;
8329 else if (!flag_emit_class_files)
8330 {
8331 node = TREE_OPERAND (node, 0);
8332
8333 if (node && TREE_OPERAND (node, 0)
8334 && TREE_CODE (TREE_OPERAND (node, 0)) == ADDR_EXPR)
8335 {
8336 node = TREE_OPERAND (node, 0);
8337 if (TREE_OPERAND (node, 0)
8338 && TREE_CODE (TREE_OPERAND (node, 0)) == FUNCTION_DECL
8339 && (OUTER_FIELD_ACCESS_IDENTIFIER_P
8340 (DECL_NAME (TREE_OPERAND (node, 0)))))
8341 identified = 1;
8342 }
8343 }
8344
8345 if (identified && name && arg_type && arg)
8346 {
8347 tree argument = TREE_OPERAND (node, 1);
8348 *name = DECL_NAME (TREE_OPERAND (node, 0));
8349 *arg_type = TREE_TYPE (TREE_TYPE (TREE_VALUE (argument)));
8350 *arg = TREE_VALUE (argument);
8351 }
8352 return identified;
8353 }
8354
8355 /* Detect in NODE an outer field read access from an inner class and
8356 transform it into a write with RHS as an argument. This function is
8357 called from the java_complete_lhs when an assignment to a LHS can
8358 be identified. */
8359
8360 static tree
outer_field_access_fix(tree wfl,tree node,tree rhs)8361 outer_field_access_fix (tree wfl, tree node, tree rhs)
8362 {
8363 tree name, arg_type, arg;
8364
8365 if (outer_field_expanded_access_p (node, &name, &arg_type, &arg))
8366 {
8367 node = build_outer_field_access_expr (EXPR_WFL_LINECOL (wfl),
8368 arg_type, name, arg, rhs);
8369 return java_complete_tree (node);
8370 }
8371 return NULL_TREE;
8372 }
8373
8374 /* Construct the expression that calls an access method:
8375 <type>.access$<n>(<arg1> [, <arg2>]);
8376
8377 ARG2 can be NULL and will be omitted in that case. It will denote a
8378 read access. */
8379
8380 static tree
build_outer_field_access_expr(int lc,tree type,tree access_method_name,tree arg1,tree arg2)8381 build_outer_field_access_expr (int lc, tree type, tree access_method_name,
8382 tree arg1, tree arg2)
8383 {
8384 tree args, cn, access;
8385
8386 args = arg1 ? arg1 :
8387 build_wfl_node (build_current_thisn (current_class));
8388 args = build_tree_list (NULL_TREE, args);
8389
8390 if (arg2)
8391 args = tree_cons (NULL_TREE, arg2, args);
8392
8393 access = build_method_invocation (build_wfl_node (access_method_name), args);
8394 cn = build_wfl_node (DECL_NAME (TYPE_NAME (type)));
8395 return make_qualified_primary (cn, access, lc);
8396 }
8397
8398 static tree
build_new_access_id(void)8399 build_new_access_id (void)
8400 {
8401 static int access_n_counter = 1;
8402 char buffer [128];
8403
8404 sprintf (buffer, "access$%d", access_n_counter++);
8405 return get_identifier (buffer);
8406 }
8407
8408 /* Create the static access functions for the outer field DECL. We define a
8409 read:
8410 TREE_TYPE (<field>) access$<n> (DECL_CONTEXT (<field>) inst$) {
8411 return inst$.field;
8412 }
8413 and a write access:
8414 TREE_TYPE (<field>) access$<n> (DECL_CONTEXT (<field>) inst$,
8415 TREE_TYPE (<field>) value$) {
8416 return inst$.field = value$;
8417 }
8418 We should have a usage flags on the DECL so we can lazily turn the ones
8419 we're using for code generation. FIXME.
8420 */
8421
8422 static tree
build_outer_field_access_methods(tree decl)8423 build_outer_field_access_methods (tree decl)
8424 {
8425 tree id, args, stmt, mdecl;
8426
8427 if (FIELD_INNER_ACCESS_P (decl))
8428 return FIELD_INNER_ACCESS (decl);
8429
8430 MAYBE_CREATE_VAR_LANG_DECL_SPECIFIC (decl);
8431
8432 /* Create the identifier and a function named after it. */
8433 id = build_new_access_id ();
8434
8435 /* The identifier is marked as bearing the name of a generated write
8436 access function for outer field accessed from inner classes. */
8437 OUTER_FIELD_ACCESS_IDENTIFIER_P (id) = 1;
8438
8439 /* Create the read access */
8440 args = build_tree_list (inst_id, build_pointer_type (DECL_CONTEXT (decl)));
8441 TREE_CHAIN (args) = end_params_node;
8442 stmt = make_qualified_primary (build_wfl_node (inst_id),
8443 build_wfl_node (DECL_NAME (decl)), 0);
8444 stmt = build_return (0, stmt);
8445 mdecl = build_outer_field_access_method (DECL_CONTEXT (decl),
8446 TREE_TYPE (decl), id, args, stmt);
8447 DECL_FUNCTION_ACCESS_DECL (mdecl) = decl;
8448
8449 /* Create the write access method. No write access for final variable */
8450 if (!FIELD_FINAL (decl))
8451 {
8452 args = build_tree_list (inst_id,
8453 build_pointer_type (DECL_CONTEXT (decl)));
8454 TREE_CHAIN (args) = build_tree_list (wpv_id, TREE_TYPE (decl));
8455 TREE_CHAIN (TREE_CHAIN (args)) = end_params_node;
8456 stmt = make_qualified_primary (build_wfl_node (inst_id),
8457 build_wfl_node (DECL_NAME (decl)), 0);
8458 stmt = build_return (0, build_assignment (ASSIGN_TK, 0, stmt,
8459 build_wfl_node (wpv_id)));
8460 mdecl = build_outer_field_access_method (DECL_CONTEXT (decl),
8461 TREE_TYPE (decl), id,
8462 args, stmt);
8463 }
8464 DECL_FUNCTION_ACCESS_DECL (mdecl) = decl;
8465
8466 /* Return the access name */
8467 return FIELD_INNER_ACCESS (decl) = id;
8468 }
8469
8470 /* Build an field access method NAME. */
8471
8472 static tree
build_outer_field_access_method(tree class,tree type,tree name,tree args,tree body)8473 build_outer_field_access_method (tree class, tree type, tree name,
8474 tree args, tree body)
8475 {
8476 tree saved_current_function_decl, mdecl;
8477
8478 /* Create the method */
8479 mdecl = create_artificial_method (class, ACC_STATIC, type, name, args);
8480 fix_method_argument_names (args, mdecl);
8481 layout_class_method (class, NULL_TREE, mdecl, NULL_TREE);
8482
8483 /* Attach the method body. */
8484 saved_current_function_decl = current_function_decl;
8485 start_artificial_method_body (mdecl);
8486 java_method_add_stmt (mdecl, body);
8487 end_artificial_method_body (mdecl);
8488 current_function_decl = saved_current_function_decl;
8489
8490 return mdecl;
8491 }
8492
8493
8494 /* This section deals with building access function necessary for
8495 certain kinds of method invocation from inner classes. */
8496
8497 static tree
build_outer_method_access_method(tree decl)8498 build_outer_method_access_method (tree decl)
8499 {
8500 tree saved_current_function_decl, mdecl;
8501 tree args = NULL_TREE, call_args = NULL_TREE;
8502 tree carg, id, body, class;
8503 char buffer [80];
8504 int parm_id_count = 0;
8505
8506 /* Test this abort with an access to a private field */
8507 if (!strcmp (IDENTIFIER_POINTER (DECL_NAME (decl)), "access$"))
8508 abort ();
8509
8510 /* Check the cache first */
8511 if (DECL_FUNCTION_INNER_ACCESS (decl))
8512 return DECL_FUNCTION_INNER_ACCESS (decl);
8513
8514 class = DECL_CONTEXT (decl);
8515
8516 /* Obtain an access identifier and mark it */
8517 id = build_new_access_id ();
8518 OUTER_FIELD_ACCESS_IDENTIFIER_P (id) = 1;
8519
8520 carg = TYPE_ARG_TYPES (TREE_TYPE (decl));
8521 /* Create the arguments, as much as the original */
8522 for (; carg && carg != end_params_node;
8523 carg = TREE_CHAIN (carg))
8524 {
8525 sprintf (buffer, "write_parm_value$%d", parm_id_count++);
8526 args = chainon (args, build_tree_list (get_identifier (buffer),
8527 TREE_VALUE (carg)));
8528 }
8529 args = chainon (args, end_params_node);
8530
8531 /* Create the method */
8532 mdecl = create_artificial_method (class, ACC_STATIC,
8533 TREE_TYPE (TREE_TYPE (decl)), id, args);
8534 layout_class_method (class, NULL_TREE, mdecl, NULL_TREE);
8535 /* There is a potential bug here. We should be able to use
8536 fix_method_argument_names, but then arg names get mixed up and
8537 eventually a constructor will have its this$0 altered and the
8538 outer context won't be assignment properly. The testcase is
8539 stub.java FIXME */
8540 TYPE_ARG_TYPES (TREE_TYPE (mdecl)) = args;
8541
8542 /* Attach the method body. */
8543 saved_current_function_decl = current_function_decl;
8544 start_artificial_method_body (mdecl);
8545
8546 /* The actual method invocation uses the same args. When invoking a
8547 static methods that way, we don't want to skip the first
8548 argument. */
8549 carg = args;
8550 if (!METHOD_STATIC (decl))
8551 carg = TREE_CHAIN (carg);
8552 for (; carg && carg != end_params_node; carg = TREE_CHAIN (carg))
8553 call_args = tree_cons (NULL_TREE, build_wfl_node (TREE_PURPOSE (carg)),
8554 call_args);
8555
8556 body = build_method_invocation (build_wfl_node (DECL_NAME (decl)),
8557 call_args);
8558 if (!METHOD_STATIC (decl))
8559 body = make_qualified_primary (build_wfl_node (TREE_PURPOSE (args)),
8560 body, 0);
8561 if (TREE_TYPE (TREE_TYPE (decl)) != void_type_node)
8562 body = build_return (0, body);
8563 java_method_add_stmt (mdecl,body);
8564 end_artificial_method_body (mdecl);
8565 current_function_decl = saved_current_function_decl;
8566
8567 /* Back tag the access function so it know what it accesses */
8568 DECL_FUNCTION_ACCESS_DECL (decl) = mdecl;
8569
8570 /* Tag the current method so it knows it has an access generated */
8571 return DECL_FUNCTION_INNER_ACCESS (decl) = mdecl;
8572 }
8573
8574
8575 /* This section of the code deals with building expressions to access
8576 the enclosing instance of an inner class. The enclosing instance is
8577 kept in a generated field called this$<n>, with <n> being the
8578 inner class nesting level (starting from 0.) */
8579
8580 /* Build an access to a given this$<n>, always chaining access call to
8581 others. Access methods to this$<n> are build on the fly if
8582 necessary. This CAN'T be used to solely access this$<n-1> from
8583 this$<n> (which alway yield to special cases and optimization, see
8584 for example build_outer_field_access). */
8585
8586 static tree
build_access_to_thisn(tree from,tree to,int lc)8587 build_access_to_thisn (tree from, tree to, int lc)
8588 {
8589 tree access = NULL_TREE;
8590
8591 while (from != to && PURE_INNER_CLASS_TYPE_P (from))
8592 {
8593 if (!access)
8594 {
8595 access = build_current_thisn (from);
8596 access = build_wfl_node (access);
8597 }
8598 else
8599 {
8600 tree access0_wfl, cn;
8601
8602 maybe_build_thisn_access_method (from);
8603 access0_wfl = build_wfl_node (access0_identifier_node);
8604 cn = build_wfl_node (DECL_NAME (TYPE_NAME (from)));
8605 EXPR_WFL_LINECOL (access0_wfl) = lc;
8606 access = build_tree_list (NULL_TREE, access);
8607 access = build_method_invocation (access0_wfl, access);
8608 access = make_qualified_primary (cn, access, lc);
8609 }
8610
8611 /* If FROM isn't an inner class, that's fine, we've done enough.
8612 What we're looking for can be accessed from there. */
8613 from = DECL_CONTEXT (TYPE_NAME (from));
8614 if (!from)
8615 break;
8616 from = TREE_TYPE (from);
8617 }
8618 return access;
8619 }
8620
8621 /* Build an access function to the this$<n> local to TYPE. NULL_TREE
8622 is returned if nothing needs to be generated. Otherwise, the method
8623 generated and a method decl is returned.
8624
8625 NOTE: These generated methods should be declared in a class file
8626 attribute so that they can't be referred to directly. */
8627
8628 static tree
maybe_build_thisn_access_method(tree type)8629 maybe_build_thisn_access_method (tree type)
8630 {
8631 tree mdecl, args, stmt, rtype;
8632 tree saved_current_function_decl;
8633
8634 /* If TYPE is a top-level class, no access method is required.
8635 If there already is such an access method, bail out. */
8636 if (CLASS_ACCESS0_GENERATED_P (type) || !PURE_INNER_CLASS_TYPE_P (type))
8637 return NULL_TREE;
8638
8639 /* We generate the method. The method looks like:
8640 static <outer_of_type> access$0 (<type> inst$) { return inst$.this$<n>; }
8641 */
8642 args = build_tree_list (inst_id, build_pointer_type (type));
8643 TREE_CHAIN (args) = end_params_node;
8644 rtype = build_pointer_type (TREE_TYPE (DECL_CONTEXT (TYPE_NAME (type))));
8645 mdecl = create_artificial_method (type, ACC_STATIC, rtype,
8646 access0_identifier_node, args);
8647 fix_method_argument_names (args, mdecl);
8648 layout_class_method (type, NULL_TREE, mdecl, NULL_TREE);
8649 stmt = build_current_thisn (type);
8650 stmt = make_qualified_primary (build_wfl_node (inst_id),
8651 build_wfl_node (stmt), 0);
8652 stmt = build_return (0, stmt);
8653
8654 saved_current_function_decl = current_function_decl;
8655 start_artificial_method_body (mdecl);
8656 java_method_add_stmt (mdecl, stmt);
8657 end_artificial_method_body (mdecl);
8658 current_function_decl = saved_current_function_decl;
8659
8660 CLASS_ACCESS0_GENERATED_P (type) = 1;
8661
8662 return mdecl;
8663 }
8664
8665 /* Craft an correctly numbered `this$<n>'string. this$0 is used for
8666 the first level of innerclassing. this$1 for the next one, etc...
8667 This function can be invoked with TYPE to NULL, available and then
8668 has to count the parser context. */
8669
8670 static GTY(()) tree saved_thisn;
8671 static GTY(()) tree saved_type;
8672
8673 static tree
build_current_thisn(tree type)8674 build_current_thisn (tree type)
8675 {
8676 static int saved_i = -1;
8677 static int saved_type_i = 0;
8678 tree decl;
8679 char buffer [24];
8680 int i = 0;
8681
8682 if (type)
8683 {
8684 if (type == saved_type)
8685 i = saved_type_i;
8686 else
8687 {
8688 for (i = -1, decl = DECL_CONTEXT (TYPE_NAME (type));
8689 decl; decl = DECL_CONTEXT (decl), i++)
8690 ;
8691
8692 saved_type = type;
8693 saved_type_i = i;
8694 }
8695 }
8696 else
8697 i = list_length (GET_CPC_LIST ())-2;
8698
8699 if (i == saved_i)
8700 return saved_thisn;
8701
8702 sprintf (buffer, "this$%d", i);
8703 saved_i = i;
8704 saved_thisn = get_identifier (buffer);
8705 return saved_thisn;
8706 }
8707
8708 /* Return the assignment to the hidden enclosing context `this$<n>'
8709 by the second incoming parameter to the innerclass constructor. The
8710 form used is `this.this$<n> = this$<n>;'. */
8711
8712 static tree
build_thisn_assign(void)8713 build_thisn_assign (void)
8714 {
8715 if (current_class && PURE_INNER_CLASS_TYPE_P (current_class))
8716 {
8717 tree thisn = build_current_thisn (current_class);
8718 tree lhs = make_qualified_primary (build_wfl_node (this_identifier_node),
8719 build_wfl_node (thisn), 0);
8720 tree rhs = build_wfl_node (thisn);
8721 EXPR_WFL_SET_LINECOL (lhs, input_line, 0);
8722 return build_assignment (ASSIGN_TK, EXPR_WFL_LINECOL (lhs), lhs, rhs);
8723 }
8724 return NULL_TREE;
8725 }
8726
8727
8728 /* Building the synthetic `class$' used to implement the `.class' 1.1
8729 extension for non primitive types. This method looks like:
8730
8731 static Class class$(String type) throws NoClassDefFoundError
8732 {
8733 try {return (java.lang.Class.forName (String));}
8734 catch (ClassNotFoundException e) {
8735 throw new NoClassDefFoundError(e.getMessage());}
8736 } */
8737
8738 static GTY(()) tree get_message_wfl;
8739 static GTY(()) tree type_parm_wfl;
8740
8741 static tree
build_dot_class_method(tree class)8742 build_dot_class_method (tree class)
8743 {
8744 #define BWF(S) build_wfl_node (get_identifier ((S)))
8745 #define MQN(X,Y) make_qualified_name ((X), (Y), 0)
8746 tree args, tmp, saved_current_function_decl, mdecl, qual_name;
8747 tree stmt, throw_stmt;
8748
8749 if (!get_message_wfl)
8750 {
8751 get_message_wfl = build_wfl_node (get_identifier ("getMessage"));
8752 type_parm_wfl = build_wfl_node (get_identifier ("type$"));
8753 }
8754
8755 /* Build the arguments */
8756 args = build_tree_list (get_identifier ("type$"),
8757 build_pointer_type (string_type_node));
8758 TREE_CHAIN (args) = end_params_node;
8759
8760 /* Build the qualified name java.lang.Class.forName */
8761 tmp = MQN (MQN (MQN (BWF ("java"),
8762 BWF ("lang")), BWF ("Class")), BWF ("forName"));
8763
8764 /* Create the "class$" function */
8765 mdecl = create_artificial_method (class, ACC_STATIC,
8766 build_pointer_type (class_type_node),
8767 classdollar_identifier_node, args);
8768 qual_name = MQN (MQN (BWF ("java"), BWF ("lang")),
8769 BWF ("NoClassDefFoundError"));
8770 DECL_FUNCTION_THROWS (mdecl) = build_tree_list (NULL_TREE, qual_name);
8771 register_incomplete_type (JDEP_EXCEPTION, qual_name, NULL_TREE, NULL_TREE);
8772 JDEP_GET_PATCH (CLASSD_LAST (ctxp->classd_list)) =
8773 &TREE_VALUE (DECL_FUNCTION_THROWS (mdecl));
8774
8775 /* We start by building the try block. We need to build:
8776 return (java.lang.Class.forName (type)); */
8777 stmt = build_method_invocation (tmp,
8778 build_tree_list (NULL_TREE, type_parm_wfl));
8779 stmt = build_return (0, stmt);
8780
8781 /* Now onto the catch block. We start by building the expression
8782 throwing a new exception: throw new NoClassDefFoundError (_.getMessage) */
8783 throw_stmt = make_qualified_name (build_wfl_node (wpv_id),
8784 get_message_wfl, 0);
8785 throw_stmt = build_method_invocation (throw_stmt, NULL_TREE);
8786
8787 /* Build new NoClassDefFoundError (_.getMessage) */
8788 throw_stmt = build_new_invocation
8789 (build_wfl_node (get_identifier ("NoClassDefFoundError")),
8790 build_tree_list (build_pointer_type (string_type_node), throw_stmt));
8791
8792 /* Build the throw, (it's too early to use BUILD_THROW) */
8793 throw_stmt = build1 (THROW_EXPR, NULL_TREE, throw_stmt);
8794
8795 /* Encapsulate STMT in a try block. The catch clause executes THROW_STMT */
8796 qual_name = MQN (MQN (BWF ("java"), BWF ("lang")),
8797 BWF ("ClassNotFoundException"));
8798 stmt = encapsulate_with_try_catch (0, qual_name, stmt, throw_stmt);
8799
8800 fix_method_argument_names (args, mdecl);
8801 layout_class_method (class, NULL_TREE, mdecl, NULL_TREE);
8802 saved_current_function_decl = current_function_decl;
8803 start_artificial_method_body (mdecl);
8804 java_method_add_stmt (mdecl, stmt);
8805 end_artificial_method_body (mdecl);
8806 current_function_decl = saved_current_function_decl;
8807 TYPE_DOT_CLASS (class) = mdecl;
8808
8809 return mdecl;
8810 }
8811
8812 static tree
build_dot_class_method_invocation(tree this_class,tree type)8813 build_dot_class_method_invocation (tree this_class, tree type)
8814 {
8815 tree dot_class_method = TYPE_DOT_CLASS (this_class);
8816 tree sig_id, s, t;
8817
8818 if (TYPE_ARRAY_P (type))
8819 sig_id = build_java_signature (type);
8820 else
8821 sig_id = DECL_NAME (TYPE_NAME (type));
8822
8823 /* Ensure that the proper name separator is used */
8824 sig_id = unmangle_classname (IDENTIFIER_POINTER (sig_id),
8825 IDENTIFIER_LENGTH (sig_id));
8826
8827 s = build_string (IDENTIFIER_LENGTH (sig_id),
8828 IDENTIFIER_POINTER (sig_id));
8829 t = build_method_invocation (build_wfl_node (DECL_NAME (dot_class_method)),
8830 build_tree_list (NULL_TREE, s));
8831 if (DECL_CONTEXT (dot_class_method) != this_class)
8832 {
8833 tree class_name = DECL_NAME (TYPE_NAME (DECL_CONTEXT (dot_class_method)));
8834 t = make_qualified_primary (build_wfl_node (class_name), t, 0);
8835 }
8836 return t;
8837 }
8838
8839 /* This section of the code deals with constructor. */
8840
8841 /* Craft a body for default constructor. Patch existing constructor
8842 bodies with call to super() and field initialization statements if
8843 necessary. */
8844
8845 static void
fix_constructors(tree mdecl)8846 fix_constructors (tree mdecl)
8847 {
8848 tree iii; /* Instance Initializer Invocation */
8849 tree body = DECL_FUNCTION_BODY (mdecl);
8850 tree thisn_assign, compound = NULL_TREE;
8851 tree class_type = DECL_CONTEXT (mdecl);
8852
8853 if (DECL_FIXED_CONSTRUCTOR_P (mdecl))
8854 return;
8855 DECL_FIXED_CONSTRUCTOR_P (mdecl) = 1;
8856
8857 if (!body)
8858 {
8859 /* It is an error for the compiler to generate a default
8860 constructor if the superclass doesn't have a constructor that
8861 takes no argument, or the same args for an anonymous class */
8862 if (verify_constructor_super (mdecl))
8863 {
8864 tree sclass_decl = TYPE_NAME (CLASSTYPE_SUPER (class_type));
8865 tree save = DECL_NAME (mdecl);
8866 const char *n = IDENTIFIER_POINTER (DECL_NAME (sclass_decl));
8867 DECL_NAME (mdecl) = DECL_NAME (sclass_decl);
8868 parse_error_context
8869 (lookup_cl (TYPE_NAME (class_type)),
8870 "No constructor matching `%s' found in class `%s'",
8871 lang_printable_name (mdecl, 0), n);
8872 DECL_NAME (mdecl) = save;
8873 }
8874
8875 /* The constructor body must be crafted by hand. It's the
8876 constructor we defined when we realize we didn't have the
8877 CLASSNAME() constructor */
8878 start_artificial_method_body (mdecl);
8879
8880 /* Insert an assignment to the this$<n> hidden field, if
8881 necessary */
8882 if ((thisn_assign = build_thisn_assign ()))
8883 java_method_add_stmt (mdecl, thisn_assign);
8884
8885 /* We don't generate a super constructor invocation if we're
8886 compiling java.lang.Object. build_super_invocation takes care
8887 of that. */
8888 java_method_add_stmt (mdecl, build_super_invocation (mdecl));
8889
8890 /* FIXME */
8891 if ((iii = build_instinit_invocation (class_type)))
8892 java_method_add_stmt (mdecl, iii);
8893
8894 end_artificial_method_body (mdecl);
8895 }
8896 /* Search for an explicit constructor invocation */
8897 else
8898 {
8899 int found = 0;
8900 int invokes_this = 0;
8901 tree found_call = NULL_TREE;
8902 tree main_block = BLOCK_EXPR_BODY (body);
8903
8904 while (body)
8905 switch (TREE_CODE (body))
8906 {
8907 case CALL_EXPR:
8908 found = CALL_EXPLICIT_CONSTRUCTOR_P (body);
8909 if (CALL_THIS_CONSTRUCTOR_P (body))
8910 invokes_this = 1;
8911 body = NULL_TREE;
8912 break;
8913 case COMPOUND_EXPR:
8914 case EXPR_WITH_FILE_LOCATION:
8915 found_call = body;
8916 body = TREE_OPERAND (body, 0);
8917 break;
8918 case BLOCK:
8919 found_call = body;
8920 body = BLOCK_EXPR_BODY (body);
8921 break;
8922 default:
8923 found = 0;
8924 body = NULL_TREE;
8925 }
8926
8927 /* Generate the assignment to this$<n>, if necessary */
8928 if ((thisn_assign = build_thisn_assign ()))
8929 compound = add_stmt_to_compound (compound, NULL_TREE, thisn_assign);
8930
8931 /* The constructor is missing an invocation of super() */
8932 if (!found)
8933 compound = add_stmt_to_compound (compound, NULL_TREE,
8934 build_super_invocation (mdecl));
8935 /* Explicit super() invocation should take place before the
8936 instance initializer blocks. */
8937 else
8938 {
8939 compound = add_stmt_to_compound (compound, NULL_TREE,
8940 TREE_OPERAND (found_call, 0));
8941 TREE_OPERAND (found_call, 0) = empty_stmt_node;
8942 }
8943
8944 DECL_INIT_CALLS_THIS (mdecl) = invokes_this;
8945
8946 /* Insert the instance initializer block right after. */
8947 if (!invokes_this && (iii = build_instinit_invocation (class_type)))
8948 compound = add_stmt_to_compound (compound, NULL_TREE, iii);
8949
8950 /* Fix the constructor main block if we're adding extra stmts */
8951 if (compound)
8952 {
8953 compound = add_stmt_to_compound (compound, NULL_TREE,
8954 BLOCK_EXPR_BODY (main_block));
8955 BLOCK_EXPR_BODY (main_block) = compound;
8956 }
8957 }
8958 }
8959
8960 /* Browse constructors in the super class, searching for a constructor
8961 that doesn't take any argument. Return 0 if one is found, 1
8962 otherwise. If the current class is an anonymous inner class, look
8963 for something that has the same signature. */
8964
8965 static int
verify_constructor_super(tree mdecl)8966 verify_constructor_super (tree mdecl)
8967 {
8968 tree class = CLASSTYPE_SUPER (current_class);
8969 int super_inner = PURE_INNER_CLASS_TYPE_P (class);
8970 tree sdecl;
8971
8972 if (!class)
8973 return 0;
8974
8975 if (ANONYMOUS_CLASS_P (current_class))
8976 {
8977 tree mdecl_arg_type;
8978 SKIP_THIS_AND_ARTIFICIAL_PARMS (mdecl_arg_type, mdecl);
8979 for (sdecl = TYPE_METHODS (class); sdecl; sdecl = TREE_CHAIN (sdecl))
8980 if (DECL_CONSTRUCTOR_P (sdecl))
8981 {
8982 tree m_arg_type;
8983 tree arg_type = TREE_CHAIN (TYPE_ARG_TYPES (TREE_TYPE (sdecl)));
8984 if (super_inner)
8985 arg_type = TREE_CHAIN (arg_type);
8986 for (m_arg_type = mdecl_arg_type;
8987 (arg_type != end_params_node
8988 && m_arg_type != end_params_node);
8989 arg_type = TREE_CHAIN (arg_type),
8990 m_arg_type = TREE_CHAIN (m_arg_type))
8991 if (!valid_method_invocation_conversion_p
8992 (TREE_VALUE (arg_type),
8993 TREE_VALUE (m_arg_type)))
8994 break;
8995
8996 if (arg_type == end_params_node && m_arg_type == end_params_node)
8997 return 0;
8998 }
8999 }
9000 else
9001 {
9002 for (sdecl = TYPE_METHODS (class); sdecl; sdecl = TREE_CHAIN (sdecl))
9003 {
9004 tree arg = TREE_CHAIN (TYPE_ARG_TYPES (TREE_TYPE (sdecl)));
9005 if (super_inner)
9006 arg = TREE_CHAIN (arg);
9007 if (DECL_CONSTRUCTOR_P (sdecl) && arg == end_params_node)
9008 return 0;
9009 }
9010 }
9011 return 1;
9012 }
9013
9014 /* Generate code for all context remembered for code generation. */
9015
9016 static GTY(()) tree reversed_class_list;
9017 void
java_expand_classes(void)9018 java_expand_classes (void)
9019 {
9020 int save_error_count = 0;
9021 static struct parser_ctxt *cur_ctxp = NULL;
9022
9023 java_parse_abort_on_error ();
9024 if (!(ctxp = ctxp_for_generation))
9025 return;
9026 java_layout_classes ();
9027 java_parse_abort_on_error ();
9028
9029 for (cur_ctxp = ctxp_for_generation; cur_ctxp; cur_ctxp = cur_ctxp->next)
9030 {
9031 tree current;
9032 for (current = cur_ctxp->class_list;
9033 current;
9034 current = TREE_CHAIN (current))
9035 gen_indirect_dispatch_tables (TREE_TYPE (current));
9036 }
9037
9038 for (cur_ctxp = ctxp_for_generation; cur_ctxp; cur_ctxp = cur_ctxp->next)
9039 {
9040 ctxp = cur_ctxp;
9041 input_filename = ctxp->filename;
9042 lang_init_source (2); /* Error msgs have method prototypes */
9043 java_complete_expand_classes (); /* Complete and expand classes */
9044 java_parse_abort_on_error ();
9045 }
9046 input_filename = main_input_filename;
9047
9048 /* Find anonymous classes and expand their constructor. This extra pass is
9049 necessary because the constructor itself is only generated when the
9050 method in which it is defined is expanded. */
9051 for (cur_ctxp = ctxp_for_generation; cur_ctxp; cur_ctxp = cur_ctxp->next)
9052 {
9053 tree current;
9054 ctxp = cur_ctxp;
9055 for (current = ctxp->class_list; current; current = TREE_CHAIN (current))
9056 {
9057 output_class = current_class = TREE_TYPE (current);
9058 if (ANONYMOUS_CLASS_P (current_class))
9059 {
9060 tree d;
9061 for (d = TYPE_METHODS (current_class); d; d = TREE_CHAIN (d))
9062 {
9063 if (DECL_CONSTRUCTOR_P (d))
9064 {
9065 restore_line_number_status (1);
9066 java_complete_expand_method (d);
9067 restore_line_number_status (0);
9068 break; /* There is only one constructor. */
9069 }
9070 }
9071 }
9072 }
9073 }
9074
9075 /* Expanding the constructors of anonymous classes generates access
9076 methods. Scan all the methods looking for null DECL_RESULTs --
9077 this will be the case if a method hasn't been expanded. */
9078 for (cur_ctxp = ctxp_for_generation; cur_ctxp; cur_ctxp = cur_ctxp->next)
9079 {
9080 tree current;
9081 ctxp = cur_ctxp;
9082 for (current = ctxp->class_list; current; current = TREE_CHAIN (current))
9083 {
9084 tree d;
9085 output_class = current_class = TREE_TYPE (current);
9086 for (d = TYPE_METHODS (current_class); d; d = TREE_CHAIN (d))
9087 {
9088 if (DECL_RESULT (d) == NULL_TREE)
9089 {
9090 restore_line_number_status (1);
9091 java_complete_expand_method (d);
9092 restore_line_number_status (0);
9093 }
9094 }
9095 }
9096 }
9097
9098 /* ??? Instead of all this we could iterate around the list of
9099 classes until there were no more un-expanded methods. It would
9100 take a little longer -- one pass over the whole list of methods
9101 -- but it would be simpler. Like this: */
9102 #if 0
9103 {
9104 int something_changed;
9105
9106 do
9107 {
9108 something_changed = 0;
9109 for (cur_ctxp = ctxp_for_generation; cur_ctxp; cur_ctxp = cur_ctxp->next)
9110 {
9111 tree current;
9112 ctxp = cur_ctxp;
9113 for (current = ctxp->class_list; current; current = TREE_CHAIN (current))
9114 {
9115 tree d;
9116 output_class = current_class = TREE_TYPE (current);
9117 for (d = TYPE_METHODS (current_class); d; d = TREE_CHAIN (d))
9118 {
9119 if (DECL_RESULT (d) == NULL_TREE)
9120 {
9121 something_changed = 1;
9122 restore_line_number_status (1);
9123 java_complete_expand_method (d);
9124 restore_line_number_status (0);
9125 }
9126 }
9127 }
9128 }
9129 }
9130 while (something_changed);
9131 }
9132 #endif
9133
9134 /* If we've found error at that stage, don't try to generate
9135 anything, unless we're emitting xrefs or checking the syntax only
9136 (but not using -fsyntax-only for the purpose of generating
9137 bytecode. */
9138 if (java_error_count && !flag_emit_xref
9139 && (!flag_syntax_only && !flag_emit_class_files))
9140 return;
9141
9142 /* Now things are stable, go for generation of the class data. */
9143
9144 /* We pessimistically marked all methods and fields external until
9145 we knew what set of classes we were planning to compile. Now mark
9146 those that will be generated locally as not external. */
9147 for (cur_ctxp = ctxp_for_generation; cur_ctxp; cur_ctxp = cur_ctxp->next)
9148 {
9149 tree current;
9150 ctxp = cur_ctxp;
9151 for (current = ctxp->class_list; current; current = TREE_CHAIN (current))
9152 java_mark_class_local (TREE_TYPE (current));
9153 }
9154
9155 /* Compile the classes. */
9156 for (cur_ctxp = ctxp_for_generation; cur_ctxp; cur_ctxp = cur_ctxp->next)
9157 {
9158 tree current;
9159 reversed_class_list = NULL;
9160
9161 ctxp = cur_ctxp;
9162
9163 /* We write out the classes in reverse order. This ensures that
9164 inner classes are written before their containing classes,
9165 which is important for parallel builds. Otherwise, the
9166 class file for the outer class may be found, but the class
9167 file for the inner class may not be present. In that
9168 situation, the compiler cannot fall back to the original
9169 source, having already read the outer class, so we must
9170 prevent that situation. */
9171 for (current = ctxp->class_list;
9172 current;
9173 current = TREE_CHAIN (current))
9174 reversed_class_list
9175 = tree_cons (NULL_TREE, current, reversed_class_list);
9176
9177 for (current = reversed_class_list;
9178 current;
9179 current = TREE_CHAIN (current))
9180 {
9181 output_class = current_class = TREE_TYPE (TREE_VALUE (current));
9182 if (flag_emit_class_files)
9183 write_classfile (current_class);
9184 if (flag_emit_xref)
9185 expand_xref (current_class);
9186 else if (! flag_syntax_only)
9187 java_expand_method_bodies (current_class);
9188 }
9189 }
9190 }
9191
9192 void
java_finish_classes(void)9193 java_finish_classes (void)
9194 {
9195 static struct parser_ctxt *cur_ctxp = NULL;
9196 for (cur_ctxp = ctxp_for_generation; cur_ctxp; cur_ctxp = cur_ctxp->next)
9197 {
9198 tree current;
9199 ctxp = cur_ctxp;
9200 for (current = ctxp->class_list; current; current = TREE_CHAIN (current))
9201 {
9202 output_class = current_class = TREE_TYPE (current);
9203 finish_class ();
9204 }
9205 }
9206 }
9207
9208 /* Wrap non WFL PRIMARY around a WFL and set EXPR_WFL_QUALIFICATION to
9209 a tree list node containing RIGHT. Fore coming RIGHTs will be
9210 chained to this hook. LOCATION contains the location of the
9211 separating `.' operator. */
9212
9213 static tree
make_qualified_primary(tree primary,tree right,int location)9214 make_qualified_primary (tree primary, tree right, int location)
9215 {
9216 tree wfl;
9217
9218 if (TREE_CODE (primary) != EXPR_WITH_FILE_LOCATION)
9219 wfl = build_wfl_wrap (primary, location);
9220 else
9221 {
9222 wfl = primary;
9223 /* If wfl wasn't qualified, we build a first anchor */
9224 if (!EXPR_WFL_QUALIFICATION (wfl))
9225 EXPR_WFL_QUALIFICATION (wfl) = build_tree_list (wfl, NULL_TREE);
9226 }
9227
9228 /* And chain them */
9229 EXPR_WFL_LINECOL (right) = location;
9230 chainon (EXPR_WFL_QUALIFICATION (wfl), build_tree_list (right, NULL_TREE));
9231 PRIMARY_P (wfl) = 1;
9232 return wfl;
9233 }
9234
9235 /* Simple merge of two name separated by a `.' */
9236
9237 static tree
merge_qualified_name(tree left,tree right)9238 merge_qualified_name (tree left, tree right)
9239 {
9240 tree node;
9241 if (!left && !right)
9242 return NULL_TREE;
9243
9244 if (!left)
9245 return right;
9246
9247 if (!right)
9248 return left;
9249
9250 obstack_grow (&temporary_obstack, IDENTIFIER_POINTER (left),
9251 IDENTIFIER_LENGTH (left));
9252 obstack_1grow (&temporary_obstack, '.');
9253 obstack_grow0 (&temporary_obstack, IDENTIFIER_POINTER (right),
9254 IDENTIFIER_LENGTH (right));
9255 node = get_identifier (obstack_base (&temporary_obstack));
9256 obstack_free (&temporary_obstack, obstack_base (&temporary_obstack));
9257 QUALIFIED_P (node) = 1;
9258 return node;
9259 }
9260
9261 /* Merge the two parts of a qualified name into LEFT. Set the
9262 location information of the resulting node to LOCATION, usually
9263 inherited from the location information of the `.' operator. */
9264
9265 static tree
make_qualified_name(tree left,tree right,int location)9266 make_qualified_name (tree left, tree right, int location)
9267 {
9268 #ifdef USE_COMPONENT_REF
9269 tree node = build (COMPONENT_REF, NULL_TREE, left, right);
9270 EXPR_WFL_LINECOL (node) = location;
9271 return node;
9272 #else
9273 tree left_id = EXPR_WFL_NODE (left);
9274 tree right_id = EXPR_WFL_NODE (right);
9275 tree wfl, merge;
9276
9277 merge = merge_qualified_name (left_id, right_id);
9278
9279 /* Left wasn't qualified and is now qualified */
9280 if (!QUALIFIED_P (left_id))
9281 {
9282 tree wfl = build_expr_wfl (left_id, ctxp->filename, 0, 0);
9283 EXPR_WFL_LINECOL (wfl) = EXPR_WFL_LINECOL (left);
9284 EXPR_WFL_QUALIFICATION (left) = build_tree_list (wfl, NULL_TREE);
9285 }
9286
9287 wfl = build_expr_wfl (right_id, ctxp->filename, 0, 0);
9288 EXPR_WFL_LINECOL (wfl) = location;
9289 chainon (EXPR_WFL_QUALIFICATION (left), build_tree_list (wfl, NULL_TREE));
9290
9291 EXPR_WFL_NODE (left) = merge;
9292 return left;
9293 #endif
9294 }
9295
9296 /* Extract the last identifier component of the qualified in WFL. The
9297 last identifier is removed from the linked list */
9298
9299 static tree
cut_identifier_in_qualified(tree wfl)9300 cut_identifier_in_qualified (tree wfl)
9301 {
9302 tree q;
9303 tree previous = NULL_TREE;
9304 for (q = EXPR_WFL_QUALIFICATION (wfl); ; previous = q, q = TREE_CHAIN (q))
9305 if (!TREE_CHAIN (q))
9306 {
9307 if (!previous)
9308 /* Operating on a non qualified qualified WFL. */
9309 abort ();
9310
9311 TREE_CHAIN (previous) = NULL_TREE;
9312 return TREE_PURPOSE (q);
9313 }
9314 }
9315
9316 /* Resolve the expression name NAME. Return its decl. */
9317
9318 static tree
resolve_expression_name(tree id,tree * orig)9319 resolve_expression_name (tree id, tree *orig)
9320 {
9321 tree name = EXPR_WFL_NODE (id);
9322 tree decl;
9323
9324 /* 6.5.5.1: Simple expression names */
9325 if (!PRIMARY_P (id) && !QUALIFIED_P (name))
9326 {
9327 /* 15.13.1: NAME can appear within the scope of a local variable
9328 declaration */
9329 if ((decl = IDENTIFIER_LOCAL_VALUE (name)))
9330 return decl;
9331
9332 /* 15.13.1: NAME can appear within a class declaration */
9333 else
9334 {
9335 decl = lookup_field_wrapper (current_class, name);
9336 if (decl)
9337 {
9338 tree access = NULL_TREE;
9339 int fs = FIELD_STATIC (decl);
9340
9341 /* If we're accessing an outer scope local alias, make
9342 sure we change the name of the field we're going to
9343 build access to. */
9344 if (FIELD_LOCAL_ALIAS_USED (decl))
9345 name = DECL_NAME (decl);
9346
9347 check_deprecation (id, decl);
9348
9349 /* Instance variable (8.3.1.1) can't appear within
9350 static method, static initializer or initializer for
9351 a static variable. */
9352 if (!fs && METHOD_STATIC (current_function_decl))
9353 {
9354 static_ref_err (id, name, current_class);
9355 return error_mark_node;
9356 }
9357 /* Instance variables can't appear as an argument of
9358 an explicit constructor invocation */
9359 if (!fs && ctxp->explicit_constructor_p
9360 && !enclosing_context_p (DECL_CONTEXT (decl), current_class))
9361 {
9362 parse_error_context
9363 (id, "Can't reference `%s' before the superclass constructor has been called", IDENTIFIER_POINTER (name));
9364 return error_mark_node;
9365 }
9366
9367 /* If we're processing an inner class and we're trying
9368 to access a field belonging to an outer class, build
9369 the access to the field */
9370 if (!fs && outer_field_access_p (current_class, decl))
9371 {
9372 if (CLASS_STATIC (TYPE_NAME (current_class)))
9373 {
9374 static_ref_err (id, DECL_NAME (decl), current_class);
9375 return error_mark_node;
9376 }
9377 access = build_outer_field_access (id, decl);
9378 if (orig)
9379 *orig = access;
9380 return access;
9381 }
9382
9383 /* Otherwise build what it takes to access the field */
9384 access = build_field_ref ((fs ? NULL_TREE : current_this),
9385 DECL_CONTEXT (decl), name);
9386 if (fs)
9387 access = maybe_build_class_init_for_field (decl, access);
9388 /* We may be asked to save the real field access node */
9389 if (orig)
9390 *orig = access;
9391 /* Last check: can we access the field? */
9392 if (not_accessible_p (current_class, decl, NULL_TREE, 0))
9393 {
9394 not_accessible_field_error (id, decl);
9395 return error_mark_node;
9396 }
9397 /* And we return what we got */
9398 return access;
9399 }
9400 /* Fall down to error report on undefined variable */
9401 }
9402 }
9403 /* 6.5.5.2 Qualified Expression Names */
9404 else
9405 {
9406 if (orig)
9407 *orig = NULL_TREE;
9408 qualify_ambiguous_name (id);
9409 /* 15.10.1 Field Access Using a Primary and/or Expression Name */
9410 /* 15.10.2: Accessing Superclass Members using super */
9411 return resolve_field_access (id, orig, NULL);
9412 }
9413
9414 /* We've got an error here */
9415 if (INNER_CLASS_TYPE_P (current_class))
9416 parse_error_context (id,
9417 "Local variable `%s' can't be accessed from within the inner class `%s' unless it is declared final",
9418 IDENTIFIER_POINTER (name),
9419 IDENTIFIER_POINTER (DECL_NAME
9420 (TYPE_NAME (current_class))));
9421 else
9422 parse_error_context (id, "Undefined variable `%s'",
9423 IDENTIFIER_POINTER (name));
9424
9425 return error_mark_node;
9426 }
9427
9428 static void
static_ref_err(tree wfl,tree field_id,tree class_type)9429 static_ref_err (tree wfl, tree field_id, tree class_type)
9430 {
9431 parse_error_context
9432 (wfl,
9433 "Can't make a static reference to nonstatic variable `%s' in class `%s'",
9434 IDENTIFIER_POINTER (field_id),
9435 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (class_type))));
9436 }
9437
9438 /* 15.10.1 Field Access Using a Primary and/or Expression Name.
9439 We return something suitable to generate the field access. We also
9440 return the field decl in FIELD_DECL and its type in FIELD_TYPE. If
9441 recipient's address can be null. */
9442
9443 static tree
resolve_field_access(tree qual_wfl,tree * field_decl,tree * field_type)9444 resolve_field_access (tree qual_wfl, tree *field_decl, tree *field_type)
9445 {
9446 int is_static = 0;
9447 tree field_ref;
9448 tree decl, where_found, type_found;
9449
9450 if (resolve_qualified_expression_name (qual_wfl, &decl,
9451 &where_found, &type_found))
9452 return error_mark_node;
9453
9454 /* Resolve the LENGTH field of an array here */
9455 if (DECL_P (decl) && DECL_NAME (decl) == length_identifier_node
9456 && type_found && TYPE_ARRAY_P (type_found)
9457 && ! flag_emit_class_files && ! flag_emit_xref)
9458 {
9459 tree length = build_java_array_length_access (where_found);
9460 field_ref = length;
9461
9462 /* In case we're dealing with a static array, we need to
9463 initialize its class before the array length can be fetched.
9464 It's also a good time to create a DECL_RTL for the field if
9465 none already exists, otherwise if the field was declared in a
9466 class found in an external file and hasn't been (and won't
9467 be) accessed for its value, none will be created. */
9468 if (TREE_CODE (where_found) == VAR_DECL && FIELD_STATIC (where_found))
9469 {
9470 build_static_field_ref (where_found);
9471 field_ref = build_class_init (DECL_CONTEXT (where_found), field_ref);
9472 }
9473 }
9474 /* We might have been trying to resolve field.method(). In which
9475 case, the resolution is over and decl is the answer */
9476 else if (JDECL_P (decl) && IDENTIFIER_LOCAL_VALUE (DECL_NAME (decl)) == decl)
9477 field_ref = decl;
9478 else if (JDECL_P (decl))
9479 {
9480 if (!type_found)
9481 type_found = DECL_CONTEXT (decl);
9482 is_static = FIELD_STATIC (decl);
9483 field_ref = build_field_ref ((is_static && !flag_emit_xref?
9484 NULL_TREE : where_found),
9485 type_found, DECL_NAME (decl));
9486 if (field_ref == error_mark_node)
9487 return error_mark_node;
9488 if (is_static)
9489 field_ref = maybe_build_class_init_for_field (decl, field_ref);
9490
9491 /* If we're looking at a static field, we may need to generate a
9492 class initialization for it. This can happen when the access
9493 looks like `field.ref', where `field' is a static field in an
9494 interface we implement. */
9495 if (!flag_emit_class_files
9496 && !flag_emit_xref
9497 && TREE_CODE (where_found) == VAR_DECL
9498 && FIELD_STATIC (where_found))
9499 {
9500 build_static_field_ref (where_found);
9501 field_ref = build_class_init (DECL_CONTEXT (where_found), field_ref);
9502 }
9503 }
9504 else
9505 field_ref = decl;
9506
9507 if (field_decl)
9508 *field_decl = decl;
9509 if (field_type)
9510 *field_type = (QUAL_DECL_TYPE (decl) ?
9511 QUAL_DECL_TYPE (decl) : TREE_TYPE (decl));
9512 return field_ref;
9513 }
9514
9515 /* If NODE is an access to f static field, strip out the class
9516 initialization part and return the field decl, otherwise, return
9517 NODE. */
9518
9519 static tree
strip_out_static_field_access_decl(tree node)9520 strip_out_static_field_access_decl (tree node)
9521 {
9522 if (TREE_CODE (node) == COMPOUND_EXPR)
9523 {
9524 tree op1 = TREE_OPERAND (node, 1);
9525 if (TREE_CODE (op1) == COMPOUND_EXPR)
9526 {
9527 tree call = TREE_OPERAND (op1, 0);
9528 if (TREE_CODE (call) == CALL_EXPR
9529 && TREE_CODE (TREE_OPERAND (call, 0)) == ADDR_EXPR
9530 && TREE_OPERAND (TREE_OPERAND (call, 0), 0)
9531 == soft_initclass_node)
9532 return TREE_OPERAND (op1, 1);
9533 }
9534 else if (JDECL_P (op1))
9535 return op1;
9536 }
9537 return node;
9538 }
9539
9540 /* 6.5.5.2: Qualified Expression Names */
9541
9542 static int
resolve_qualified_expression_name(tree wfl,tree * found_decl,tree * where_found,tree * type_found)9543 resolve_qualified_expression_name (tree wfl, tree *found_decl,
9544 tree *where_found, tree *type_found)
9545 {
9546 int from_type = 0; /* Field search initiated from a type */
9547 int from_super = 0, from_cast = 0, from_qualified_this = 0;
9548 int previous_call_static = 0;
9549 int is_static;
9550 tree decl = NULL_TREE, type = NULL_TREE, q;
9551 /* For certain for of inner class instantiation */
9552 tree saved_current, saved_this;
9553 #define RESTORE_THIS_AND_CURRENT_CLASS \
9554 { current_class = saved_current; current_this = saved_this;}
9555
9556 *type_found = *where_found = NULL_TREE;
9557
9558 for (q = EXPR_WFL_QUALIFICATION (wfl); q; q = TREE_CHAIN (q))
9559 {
9560 tree qual_wfl = QUAL_WFL (q);
9561 tree ret_decl; /* for EH checking */
9562 int location; /* for EH checking */
9563
9564 /* 15.10.1 Field Access Using a Primary */
9565 switch (TREE_CODE (qual_wfl))
9566 {
9567 case CALL_EXPR:
9568 case NEW_CLASS_EXPR:
9569 /* If the access to the function call is a non static field,
9570 build the code to access it. */
9571 if (JDECL_P (decl) && !FIELD_STATIC (decl))
9572 {
9573 decl = maybe_access_field (decl, *where_found,
9574 DECL_CONTEXT (decl));
9575 if (decl == error_mark_node)
9576 return 1;
9577 }
9578
9579 /* And code for the function call */
9580 if (complete_function_arguments (qual_wfl))
9581 return 1;
9582
9583 /* We might have to setup a new current class and a new this
9584 for the search of an inner class, relative to the type of
9585 a expression resolved as `decl'. The current values are
9586 saved and restored shortly after */
9587 saved_current = current_class;
9588 saved_this = current_this;
9589 if (decl
9590 && (TREE_CODE (qual_wfl) == NEW_CLASS_EXPR
9591 || from_qualified_this))
9592 {
9593 /* If we still have `from_qualified_this', we have the form
9594 <T>.this.f() and we need to build <T>.this */
9595 if (from_qualified_this)
9596 {
9597 decl = build_access_to_thisn (current_class, type, 0);
9598 decl = java_complete_tree (decl);
9599 type = TREE_TYPE (TREE_TYPE (decl));
9600 }
9601 current_class = type;
9602 current_this = decl;
9603 from_qualified_this = 0;
9604 }
9605
9606 if (from_super && TREE_CODE (qual_wfl) == CALL_EXPR)
9607 CALL_USING_SUPER (qual_wfl) = 1;
9608 location = (TREE_CODE (qual_wfl) == CALL_EXPR ?
9609 EXPR_WFL_LINECOL (TREE_OPERAND (qual_wfl, 0)) : 0);
9610 *where_found = patch_method_invocation (qual_wfl, decl, type,
9611 from_super,
9612 &is_static, &ret_decl);
9613 from_super = 0;
9614 if (*where_found == error_mark_node)
9615 {
9616 RESTORE_THIS_AND_CURRENT_CLASS;
9617 return 1;
9618 }
9619 *type_found = type = QUAL_DECL_TYPE (*where_found);
9620
9621 *where_found = force_evaluation_order (*where_found);
9622
9623 /* If we're creating an inner class instance, check for that
9624 an enclosing instance is in scope */
9625 if (TREE_CODE (qual_wfl) == NEW_CLASS_EXPR
9626 && INNER_ENCLOSING_SCOPE_CHECK (type))
9627 {
9628 parse_error_context
9629 (qual_wfl, "No enclosing instance for inner class `%s' is in scope%s",
9630 lang_printable_name (type, 0),
9631 (!current_this ? "" :
9632 "; an explicit one must be provided when creating this inner class"));
9633 RESTORE_THIS_AND_CURRENT_CLASS;
9634 return 1;
9635 }
9636
9637 /* In case we had to change then to resolve a inner class
9638 instantiation using a primary qualified by a `new' */
9639 RESTORE_THIS_AND_CURRENT_CLASS;
9640
9641 if (location)
9642 {
9643 tree arguments = NULL_TREE;
9644 if (TREE_CODE (qual_wfl) == CALL_EXPR
9645 && TREE_OPERAND (qual_wfl, 1) != NULL_TREE)
9646 arguments = TREE_VALUE (TREE_OPERAND (qual_wfl, 1));
9647 check_thrown_exceptions (location, ret_decl, arguments);
9648 }
9649
9650 /* If the previous call was static and this one is too,
9651 build a compound expression to hold the two (because in
9652 that case, previous function calls aren't transported as
9653 forcoming function's argument. */
9654 if (previous_call_static && is_static)
9655 {
9656 decl = build (COMPOUND_EXPR, TREE_TYPE (*where_found),
9657 decl, *where_found);
9658 TREE_SIDE_EFFECTS (decl) = 1;
9659 }
9660 else
9661 {
9662 previous_call_static = is_static;
9663 decl = *where_found;
9664 }
9665 from_type = 0;
9666 continue;
9667
9668 case NEW_ARRAY_EXPR:
9669 case NEW_ANONYMOUS_ARRAY_EXPR:
9670 *where_found = decl = java_complete_tree (qual_wfl);
9671 if (decl == error_mark_node)
9672 return 1;
9673 *type_found = type = QUAL_DECL_TYPE (decl);
9674 continue;
9675
9676 case CONVERT_EXPR:
9677 *where_found = decl = java_complete_tree (qual_wfl);
9678 if (decl == error_mark_node)
9679 return 1;
9680 *type_found = type = QUAL_DECL_TYPE (decl);
9681 from_cast = 1;
9682 continue;
9683
9684 case CONDITIONAL_EXPR:
9685 case STRING_CST:
9686 case MODIFY_EXPR:
9687 *where_found = decl = java_complete_tree (qual_wfl);
9688 if (decl == error_mark_node)
9689 return 1;
9690 *type_found = type = QUAL_DECL_TYPE (decl);
9691 continue;
9692
9693 case ARRAY_REF:
9694 /* If the access to the function call is a non static field,
9695 build the code to access it. */
9696 if (JDECL_P (decl) && !FIELD_STATIC (decl))
9697 {
9698 decl = maybe_access_field (decl, *where_found, type);
9699 if (decl == error_mark_node)
9700 return 1;
9701 }
9702 /* And code for the array reference expression */
9703 decl = java_complete_tree (qual_wfl);
9704 if (decl == error_mark_node)
9705 return 1;
9706 type = QUAL_DECL_TYPE (decl);
9707 continue;
9708
9709 case PLUS_EXPR:
9710 if ((decl = java_complete_tree (qual_wfl)) == error_mark_node)
9711 return 1;
9712 if ((type = patch_string (decl)))
9713 decl = type;
9714 *where_found = QUAL_RESOLUTION (q) = decl;
9715 *type_found = type = TREE_TYPE (decl);
9716 break;
9717
9718 case CLASS_LITERAL:
9719 if ((decl = java_complete_tree (qual_wfl)) == error_mark_node)
9720 return 1;
9721 *where_found = QUAL_RESOLUTION (q) = decl;
9722 *type_found = type = TREE_TYPE (decl);
9723 break;
9724
9725 default:
9726 /* Fix for -Wall Just go to the next statement. Don't
9727 continue */
9728 break;
9729 }
9730
9731 /* If we fall here, we weren't processing a (static) function call. */
9732 previous_call_static = 0;
9733
9734 /* It can be the keyword THIS */
9735 if (TREE_CODE (qual_wfl) == EXPR_WITH_FILE_LOCATION
9736 && EXPR_WFL_NODE (qual_wfl) == this_identifier_node)
9737 {
9738 if (!current_this)
9739 {
9740 parse_error_context
9741 (wfl, "Keyword `this' used outside allowed context");
9742 return 1;
9743 }
9744 if (ctxp->explicit_constructor_p
9745 && type == current_class)
9746 {
9747 parse_error_context (wfl, "Can't reference `this' before the superclass constructor has been called");
9748 return 1;
9749 }
9750 /* We have to generate code for intermediate access */
9751 if (!from_type || TREE_TYPE (TREE_TYPE (current_this)) == type)
9752 {
9753 *where_found = decl = current_this;
9754 *type_found = type = QUAL_DECL_TYPE (decl);
9755 }
9756 /* We're trying to access the this from somewhere else. Make sure
9757 it's allowed before doing so. */
9758 else
9759 {
9760 if (!enclosing_context_p (type, current_class))
9761 {
9762 char *p = xstrdup (lang_printable_name (type, 0));
9763 parse_error_context (qual_wfl, "Can't use variable `%s.this': type `%s' isn't an outer type of type `%s'",
9764 p, p,
9765 lang_printable_name (current_class, 0));
9766 free (p);
9767 return 1;
9768 }
9769 from_qualified_this = 1;
9770 /* If there's nothing else after that, we need to
9771 produce something now, otherwise, the section of the
9772 code that needs to produce <T>.this will generate
9773 what is necessary. */
9774 if (!TREE_CHAIN (q))
9775 {
9776 decl = build_access_to_thisn (current_class, type, 0);
9777 *where_found = decl = java_complete_tree (decl);
9778 *type_found = type = TREE_TYPE (decl);
9779 }
9780 }
9781
9782 from_type = 0;
9783 continue;
9784 }
9785
9786 /* 15.10.2 Accessing Superclass Members using SUPER */
9787 if (TREE_CODE (qual_wfl) == EXPR_WITH_FILE_LOCATION
9788 && EXPR_WFL_NODE (qual_wfl) == super_identifier_node)
9789 {
9790 tree node;
9791 /* Check on the restricted use of SUPER */
9792 if (METHOD_STATIC (current_function_decl)
9793 || current_class == object_type_node)
9794 {
9795 parse_error_context
9796 (wfl, "Keyword `super' used outside allowed context");
9797 return 1;
9798 }
9799 /* Otherwise, treat SUPER as (SUPER_CLASS)THIS */
9800 node = build_cast (EXPR_WFL_LINECOL (qual_wfl),
9801 CLASSTYPE_SUPER (current_class),
9802 build_this (EXPR_WFL_LINECOL (qual_wfl)));
9803 *where_found = decl = java_complete_tree (node);
9804 if (decl == error_mark_node)
9805 return 1;
9806 *type_found = type = QUAL_DECL_TYPE (decl);
9807 from_super = from_type = 1;
9808 continue;
9809 }
9810
9811 /* 15.13.1: Can't search for field name in packages, so we
9812 assume a variable/class name was meant. */
9813 if (RESOLVE_PACKAGE_NAME_P (qual_wfl))
9814 {
9815 tree name;
9816 if ((decl = resolve_package (wfl, &q, &name)))
9817 {
9818 tree list;
9819 *where_found = decl;
9820
9821 /* We want to be absolutely sure that the class is laid
9822 out. We're going to search something inside it. */
9823 *type_found = type = TREE_TYPE (decl);
9824 layout_class (type);
9825 from_type = 1;
9826
9827 /* Fix them all the way down, if any are left. */
9828 if (q)
9829 {
9830 list = TREE_CHAIN (q);
9831 while (list)
9832 {
9833 RESOLVE_PACKAGE_NAME_P (QUAL_WFL (list)) = 0;
9834 list = TREE_CHAIN (list);
9835 }
9836 }
9837 }
9838 else
9839 {
9840 if (from_super || from_cast)
9841 parse_error_context
9842 ((from_cast ? qual_wfl : wfl),
9843 "No variable `%s' defined in class `%s'",
9844 IDENTIFIER_POINTER (EXPR_WFL_NODE (qual_wfl)),
9845 lang_printable_name (type, 0));
9846 else
9847 parse_error_context
9848 (qual_wfl, "Undefined variable or class name: `%s'",
9849 IDENTIFIER_POINTER (name));
9850 return 1;
9851 }
9852 }
9853
9854 /* We have a type name. It's been already resolved when the
9855 expression was qualified. */
9856 else if (RESOLVE_TYPE_NAME_P (qual_wfl) && QUAL_RESOLUTION (q))
9857 {
9858 decl = QUAL_RESOLUTION (q);
9859
9860 /* Sneak preview. If next we see a `new', we're facing a
9861 qualification with resulted in a type being selected
9862 instead of a field. Report the error */
9863 if(TREE_CHAIN (q)
9864 && TREE_CODE (TREE_PURPOSE (TREE_CHAIN (q))) == NEW_CLASS_EXPR)
9865 {
9866 parse_error_context (qual_wfl, "Undefined variable `%s'",
9867 IDENTIFIER_POINTER (EXPR_WFL_NODE (wfl)));
9868 return 1;
9869 }
9870
9871 if (not_accessible_p (TREE_TYPE (decl), decl, type, 0))
9872 return not_accessible_field_error (qual_wfl, decl);
9873 check_deprecation (qual_wfl, decl);
9874
9875 type = TREE_TYPE (decl);
9876 from_type = 1;
9877 }
9878 /* We resolve an expression name */
9879 else
9880 {
9881 tree field_decl = NULL_TREE;
9882
9883 /* If there exists an early resolution, use it. That occurs
9884 only once and we know that there are more things to
9885 come. Don't do that when processing something after SUPER
9886 (we need more thing to be put in place below */
9887 if (!from_super && QUAL_RESOLUTION (q))
9888 {
9889 decl = QUAL_RESOLUTION (q);
9890 if (!type)
9891 {
9892 if (TREE_CODE (decl) == FIELD_DECL && !FIELD_STATIC (decl))
9893 {
9894 if (current_this)
9895 *where_found = current_this;
9896 else
9897 {
9898 static_ref_err (qual_wfl, DECL_NAME (decl),
9899 current_class);
9900 return 1;
9901 }
9902 if (outer_field_access_p (current_class, decl))
9903 decl = build_outer_field_access (qual_wfl, decl);
9904 }
9905 else
9906 {
9907 *where_found = TREE_TYPE (decl);
9908 if (TREE_CODE (*where_found) == POINTER_TYPE)
9909 *where_found = TREE_TYPE (*where_found);
9910 }
9911 }
9912 }
9913
9914 /* Report and error if we're using a numerical literal as a
9915 qualifier. It can only be an INTEGER_CST. */
9916 else if (TREE_CODE (qual_wfl) == INTEGER_CST)
9917 {
9918 parse_error_context
9919 (wfl, "Can't use type `%s' as a qualifier",
9920 lang_printable_name (TREE_TYPE (qual_wfl), 0));
9921 return 1;
9922 }
9923
9924 /* We have to search for a field, knowing the type of its
9925 container. The flag FROM_TYPE indicates that we resolved
9926 the last member of the expression as a type name, which
9927 means that for the resolution of this field, we'll look
9928 for other errors than if it was resolved as a member of
9929 an other field. */
9930 else
9931 {
9932 int is_static;
9933 tree field_decl_type; /* For layout */
9934
9935 if (!from_type && !JREFERENCE_TYPE_P (type))
9936 {
9937 parse_error_context
9938 (qual_wfl, "Attempt to reference field `%s' in `%s %s'",
9939 IDENTIFIER_POINTER (EXPR_WFL_NODE (qual_wfl)),
9940 lang_printable_name (type, 0),
9941 IDENTIFIER_POINTER (DECL_NAME (decl)));
9942 return 1;
9943 }
9944
9945 field_decl = lookup_field_wrapper (type,
9946 EXPR_WFL_NODE (qual_wfl));
9947
9948 /* Maybe what we're trying to access to is an inner
9949 class, only if decl is a TYPE_DECL. */
9950 if (!field_decl && TREE_CODE (decl) == TYPE_DECL)
9951 {
9952 tree ptr, inner_decl;
9953
9954 BUILD_PTR_FROM_NAME (ptr, EXPR_WFL_NODE (qual_wfl));
9955 inner_decl = resolve_class (decl, ptr, NULL_TREE, qual_wfl);
9956 if (inner_decl)
9957 {
9958 check_inner_class_access (inner_decl, decl, qual_wfl);
9959 type = TREE_TYPE (inner_decl);
9960 decl = inner_decl;
9961 from_type = 1;
9962 continue;
9963 }
9964 }
9965
9966 if (field_decl == NULL_TREE)
9967 {
9968 parse_error_context
9969 (qual_wfl, "No variable `%s' defined in type `%s'",
9970 IDENTIFIER_POINTER (EXPR_WFL_NODE (qual_wfl)),
9971 GET_TYPE_NAME (type));
9972 return 1;
9973 }
9974 if (field_decl == error_mark_node)
9975 return 1;
9976
9977 /* Layout the type of field_decl, since we may need
9978 it. Don't do primitive types or loaded classes. The
9979 situation of non primitive arrays may not handled
9980 properly here. FIXME */
9981 if (TREE_CODE (TREE_TYPE (field_decl)) == POINTER_TYPE)
9982 field_decl_type = TREE_TYPE (TREE_TYPE (field_decl));
9983 else
9984 field_decl_type = TREE_TYPE (field_decl);
9985 if (!JPRIMITIVE_TYPE_P (field_decl_type)
9986 && !CLASS_LOADED_P (field_decl_type)
9987 && !TYPE_ARRAY_P (field_decl_type))
9988 resolve_and_layout (field_decl_type, NULL_TREE);
9989
9990 /* Check on accessibility here */
9991 if (not_accessible_p (current_class, field_decl,
9992 DECL_CONTEXT (field_decl), from_super))
9993 return not_accessible_field_error (qual_wfl,field_decl);
9994 check_deprecation (qual_wfl, field_decl);
9995
9996 /* There are things to check when fields are accessed
9997 from type. There are no restrictions on a static
9998 declaration of the field when it is accessed from an
9999 interface */
10000 is_static = FIELD_STATIC (field_decl);
10001 if (!from_super && from_type
10002 && !TYPE_INTERFACE_P (type)
10003 && !is_static
10004 && (current_function_decl
10005 && METHOD_STATIC (current_function_decl)))
10006 {
10007 static_ref_err (qual_wfl, EXPR_WFL_NODE (qual_wfl), type);
10008 return 1;
10009 }
10010 from_cast = from_super = 0;
10011
10012 /* It's an access from a type but it isn't static, we
10013 make it relative to `this'. */
10014 if (!is_static && from_type)
10015 decl = current_this;
10016
10017 /* If we need to generate something to get a proper
10018 handle on what this field is accessed from, do it
10019 now. */
10020 if (!is_static)
10021 {
10022 decl = maybe_access_field (decl, *where_found, *type_found);
10023 if (decl == error_mark_node)
10024 return 1;
10025 }
10026
10027 /* We want to keep the location were found it, and the type
10028 we found. */
10029 *where_found = decl;
10030 *type_found = type;
10031
10032 /* Generate the correct expression for field access from
10033 qualified this */
10034 if (from_qualified_this)
10035 {
10036 field_decl = build_outer_field_access (qual_wfl, field_decl);
10037 from_qualified_this = 0;
10038 }
10039
10040 /* This is the decl found and eventually the next one to
10041 search from */
10042 decl = field_decl;
10043 }
10044 from_type = 0;
10045 type = QUAL_DECL_TYPE (decl);
10046
10047 /* Sneak preview. If decl is qualified by a `new', report
10048 the error here to be accurate on the peculiar construct */
10049 if (TREE_CHAIN (q)
10050 && TREE_CODE (TREE_PURPOSE (TREE_CHAIN (q))) == NEW_CLASS_EXPR
10051 && !JREFERENCE_TYPE_P (type))
10052 {
10053 parse_error_context (qual_wfl, "Attempt to reference field `new' in a `%s'",
10054 lang_printable_name (type, 0));
10055 return 1;
10056 }
10057 }
10058 /* `q' might have changed due to a after package resolution
10059 re-qualification */
10060 if (!q)
10061 break;
10062 }
10063 *found_decl = decl;
10064 return 0;
10065 }
10066
10067 /* 6.6 Qualified name and access control. Returns 1 if MEMBER (a decl)
10068 can't be accessed from REFERENCE (a record type). If MEMBER
10069 features a protected access, we then use WHERE which, if non null,
10070 holds the type of MEMBER's access that is checked against
10071 6.6.2.1. This function should be used when decl is a field or a
10072 method. */
10073
10074 static int
not_accessible_p(tree reference,tree member,tree where,int from_super)10075 not_accessible_p (tree reference, tree member, tree where, int from_super)
10076 {
10077 int access_flag = get_access_flags_from_decl (member);
10078
10079 /* Inner classes are processed by check_inner_class_access */
10080 if (INNER_CLASS_TYPE_P (reference))
10081 return 0;
10082
10083 /* Access always granted for members declared public */
10084 if (access_flag & ACC_PUBLIC)
10085 return 0;
10086
10087 /* Check access on protected members */
10088 if (access_flag & ACC_PROTECTED)
10089 {
10090 /* Access granted if it occurs from within the package
10091 containing the class in which the protected member is
10092 declared */
10093 if (class_in_current_package (DECL_CONTEXT (member)))
10094 return 0;
10095
10096 /* If accessed with the form `super.member', then access is granted */
10097 if (from_super)
10098 return 0;
10099
10100 /* If where is active, access was made through a
10101 qualifier. Access is granted if the type of the qualifier is
10102 or is a sublass of the type the access made from (6.6.2.1.) */
10103 if (where && !inherits_from_p (reference, where))
10104 return 1;
10105
10106 /* Otherwise, access is granted if occurring from the class where
10107 member is declared or a subclass of it. Find the right
10108 context to perform the check */
10109 if (PURE_INNER_CLASS_TYPE_P (reference))
10110 {
10111 while (INNER_CLASS_TYPE_P (reference))
10112 {
10113 if (inherits_from_p (reference, DECL_CONTEXT (member)))
10114 return 0;
10115 reference = TREE_TYPE (DECL_CONTEXT (TYPE_NAME (reference)));
10116 }
10117 }
10118 if (inherits_from_p (reference, DECL_CONTEXT (member)))
10119 return 0;
10120 return 1;
10121 }
10122
10123 /* Check access on private members. Access is granted only if it
10124 occurs from within the class in which it is declared -- that does
10125 it for innerclasses too. */
10126 if (access_flag & ACC_PRIVATE)
10127 {
10128 if (reference == DECL_CONTEXT (member))
10129 return 0;
10130 if (enclosing_context_p (reference, DECL_CONTEXT (member)))
10131 return 0;
10132 return 1;
10133 }
10134
10135 /* Default access are permitted only when occurring within the
10136 package in which the type (REFERENCE) is declared. In other words,
10137 REFERENCE is defined in the current package */
10138 if (ctxp->package)
10139 return !class_in_current_package (reference);
10140
10141 /* Otherwise, access is granted */
10142 return 0;
10143 }
10144
10145 /* Test deprecated decl access. */
10146 static void
check_deprecation(tree wfl,tree decl)10147 check_deprecation (tree wfl, tree decl)
10148 {
10149 const char *file;
10150 tree elt;
10151
10152 if (! flag_deprecated)
10153 return;
10154
10155 /* We want to look at the element type of arrays here, so we strip
10156 all surrounding array types. */
10157 if (TYPE_ARRAY_P (TREE_TYPE (decl)))
10158 {
10159 elt = TREE_TYPE (decl);
10160 while (TYPE_ARRAY_P (elt))
10161 elt = TYPE_ARRAY_ELEMENT (elt);
10162 /* We'll end up with a pointer type, so we use TREE_TYPE to go
10163 to the record. */
10164 decl = TYPE_NAME (TREE_TYPE (elt));
10165 }
10166 file = DECL_SOURCE_FILE (decl);
10167
10168 /* Complain if the field is deprecated and the file it was defined
10169 in isn't compiled at the same time the file which contains its
10170 use is */
10171 if (DECL_DEPRECATED (decl)
10172 && !IS_A_COMMAND_LINE_FILENAME_P (get_identifier (file)))
10173 {
10174 const char *the;
10175 switch (TREE_CODE (decl))
10176 {
10177 case FUNCTION_DECL:
10178 the = "method";
10179 break;
10180 case FIELD_DECL:
10181 case VAR_DECL:
10182 the = "field";
10183 break;
10184 case TYPE_DECL:
10185 parse_warning_context (wfl, "The class `%s' has been deprecated",
10186 IDENTIFIER_POINTER (DECL_NAME (decl)));
10187 return;
10188 default:
10189 abort ();
10190 }
10191 /* Don't issue a message if the context as been deprecated as a
10192 whole. */
10193 if (! CLASS_DEPRECATED (TYPE_NAME (DECL_CONTEXT (decl))))
10194 parse_warning_context
10195 (wfl, "The %s `%s' in class `%s' has been deprecated",
10196 the, lang_printable_name (decl, 0),
10197 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (DECL_CONTEXT (decl)))));
10198 }
10199 }
10200
10201 /* Returns 1 if class was declared in the current package, 0 otherwise */
10202
10203 static GTY(()) tree cicp_cache;
10204 static int
class_in_current_package(tree class)10205 class_in_current_package (tree class)
10206 {
10207 int qualified_flag;
10208 tree left;
10209
10210 if (cicp_cache == class)
10211 return 1;
10212
10213 qualified_flag = QUALIFIED_P (DECL_NAME (TYPE_NAME (class)));
10214
10215 /* If the current package is empty and the name of CLASS is
10216 qualified, class isn't in the current package. If there is a
10217 current package and the name of the CLASS is not qualified, class
10218 isn't in the current package */
10219 if ((!ctxp->package && qualified_flag) || (ctxp->package && !qualified_flag))
10220 return 0;
10221
10222 /* If there is not package and the name of CLASS isn't qualified,
10223 they belong to the same unnamed package */
10224 if (!ctxp->package && !qualified_flag)
10225 return 1;
10226
10227 /* Compare the left part of the name of CLASS with the package name */
10228 breakdown_qualified (&left, NULL, DECL_NAME (TYPE_NAME (class)));
10229 if (ctxp->package == left)
10230 {
10231 cicp_cache = class;
10232 return 1;
10233 }
10234 return 0;
10235 }
10236
10237 /* This function may generate code to access DECL from WHERE. This is
10238 done only if certain conditions meet. */
10239
10240 static tree
maybe_access_field(tree decl,tree where,tree type)10241 maybe_access_field (tree decl, tree where, tree type)
10242 {
10243 if (TREE_CODE (decl) == FIELD_DECL && decl != current_this
10244 && !FIELD_STATIC (decl))
10245 decl = build_field_ref (where ? where : current_this,
10246 (type ? type : DECL_CONTEXT (decl)),
10247 DECL_NAME (decl));
10248 return decl;
10249 }
10250
10251 /* Build a method invocation, by patching PATCH. If non NULL
10252 and according to the situation, PRIMARY and WHERE may be
10253 used. IS_STATIC is set to 1 if the invoked function is static. */
10254
10255 static tree
patch_method_invocation(tree patch,tree primary,tree where,int from_super,int * is_static,tree * ret_decl)10256 patch_method_invocation (tree patch, tree primary, tree where, int from_super,
10257 int *is_static, tree *ret_decl)
10258 {
10259 tree wfl = TREE_OPERAND (patch, 0);
10260 tree args = TREE_OPERAND (patch, 1);
10261 tree name = EXPR_WFL_NODE (wfl);
10262 tree list;
10263 int is_static_flag = 0;
10264 int is_super_init = 0;
10265 tree this_arg = NULL_TREE;
10266 int is_array_clone_call = 0;
10267
10268 /* Should be overridden if everything goes well. Otherwise, if
10269 something fails, it should keep this value. It stop the
10270 evaluation of a bogus assignment. See java_complete_tree,
10271 MODIFY_EXPR: for the reasons why we sometimes want to keep on
10272 evaluating an assignment */
10273 TREE_TYPE (patch) = error_mark_node;
10274
10275 /* Since lookup functions are messing with line numbers, save the
10276 context now. */
10277 java_parser_context_save_global ();
10278
10279 /* 15.11.1: Compile-Time Step 1: Determine Class or Interface to Search */
10280
10281 /* Resolution of qualified name, excluding constructors */
10282 if (QUALIFIED_P (name) && !CALL_CONSTRUCTOR_P (patch))
10283 {
10284 tree identifier, identifier_wfl, type, resolved;
10285 /* Extract the last IDENTIFIER of the qualified
10286 expression. This is a wfl and we will use it's location
10287 data during error report. */
10288 identifier_wfl = cut_identifier_in_qualified (wfl);
10289 identifier = EXPR_WFL_NODE (identifier_wfl);
10290
10291 /* Given the context, IDENTIFIER is syntactically qualified
10292 as a MethodName. We need to qualify what's before */
10293 qualify_ambiguous_name (wfl);
10294 resolved = resolve_field_access (wfl, NULL, NULL);
10295
10296 if (TREE_CODE (resolved) == VAR_DECL && FIELD_STATIC (resolved)
10297 && FIELD_FINAL (resolved)
10298 && !inherits_from_p (DECL_CONTEXT (resolved), current_class)
10299 && !flag_emit_class_files && !flag_emit_xref)
10300 resolved = build_class_init (DECL_CONTEXT (resolved), resolved);
10301
10302 if (resolved == error_mark_node)
10303 PATCH_METHOD_RETURN_ERROR ();
10304
10305 type = GET_SKIP_TYPE (resolved);
10306 resolve_and_layout (type, NULL_TREE);
10307
10308 if (JPRIMITIVE_TYPE_P (type))
10309 {
10310 parse_error_context
10311 (identifier_wfl,
10312 "Can't invoke a method on primitive type `%s'",
10313 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (type))));
10314 PATCH_METHOD_RETURN_ERROR ();
10315 }
10316
10317 list = lookup_method_invoke (0, identifier_wfl, type, identifier, args);
10318 args = nreverse (args);
10319
10320 /* We're resolving a call from a type */
10321 if (TREE_CODE (resolved) == TYPE_DECL)
10322 {
10323 if (CLASS_INTERFACE (resolved))
10324 {
10325 parse_error_context
10326 (identifier_wfl,
10327 "Can't make static reference to method `%s' in interface `%s'",
10328 IDENTIFIER_POINTER (identifier),
10329 IDENTIFIER_POINTER (name));
10330 PATCH_METHOD_RETURN_ERROR ();
10331 }
10332 if (list && !METHOD_STATIC (list))
10333 {
10334 char *fct_name = xstrdup (lang_printable_name (list, 0));
10335 parse_error_context
10336 (identifier_wfl,
10337 "Can't make static reference to method `%s %s' in class `%s'",
10338 lang_printable_name (TREE_TYPE (TREE_TYPE (list)), 0),
10339 fct_name, IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (type))));
10340 free (fct_name);
10341 PATCH_METHOD_RETURN_ERROR ();
10342 }
10343 }
10344 else
10345 this_arg = primary = resolved;
10346
10347 if (TYPE_ARRAY_P (type) && identifier == get_identifier ("clone"))
10348 is_array_clone_call = 1;
10349
10350 /* IDENTIFIER_WFL will be used to report any problem further */
10351 wfl = identifier_wfl;
10352 }
10353 /* Resolution of simple names, names generated after a primary: or
10354 constructors */
10355 else
10356 {
10357 tree class_to_search = NULL_TREE;
10358 int lc; /* Looking for Constructor */
10359
10360 /* We search constructor in their target class */
10361 if (CALL_CONSTRUCTOR_P (patch))
10362 {
10363 if (TREE_CODE (patch) == NEW_CLASS_EXPR)
10364 class_to_search = EXPR_WFL_NODE (wfl);
10365 else if (EXPR_WFL_NODE (TREE_OPERAND (patch, 0)) ==
10366 this_identifier_node)
10367 class_to_search = NULL_TREE;
10368 else if (EXPR_WFL_NODE (TREE_OPERAND (patch, 0)) ==
10369 super_identifier_node)
10370 {
10371 is_super_init = 1;
10372 if (CLASSTYPE_SUPER (current_class))
10373 class_to_search =
10374 DECL_NAME (TYPE_NAME (CLASSTYPE_SUPER (current_class)));
10375 else
10376 {
10377 parse_error_context (wfl, "Can't invoke super constructor on java.lang.Object");
10378 PATCH_METHOD_RETURN_ERROR ();
10379 }
10380 }
10381
10382 /* Class to search is NULL if we're searching the current one */
10383 if (class_to_search)
10384 {
10385 class_to_search = resolve_and_layout (class_to_search, wfl);
10386
10387 if (!class_to_search)
10388 {
10389 parse_error_context
10390 (wfl, "Class `%s' not found in type declaration",
10391 IDENTIFIER_POINTER (EXPR_WFL_NODE (wfl)));
10392 PATCH_METHOD_RETURN_ERROR ();
10393 }
10394
10395 /* Can't instantiate an abstract class, but we can
10396 invoke it's constructor. It's use within the `new'
10397 context is denied here. */
10398 if (CLASS_ABSTRACT (class_to_search)
10399 && TREE_CODE (patch) == NEW_CLASS_EXPR)
10400 {
10401 parse_error_context
10402 (wfl, "Class `%s' is an abstract class. It can't be instantiated",
10403 IDENTIFIER_POINTER (EXPR_WFL_NODE (wfl)));
10404 PATCH_METHOD_RETURN_ERROR ();
10405 }
10406
10407 class_to_search = TREE_TYPE (class_to_search);
10408 }
10409 else
10410 class_to_search = current_class;
10411 lc = 1;
10412 }
10413 /* This is a regular search in the local class, unless an
10414 alternate class is specified. */
10415 else
10416 {
10417 if (where != NULL_TREE)
10418 class_to_search = where;
10419 else if (QUALIFIED_P (name))
10420 class_to_search = current_class;
10421 else
10422 {
10423 class_to_search = current_class;
10424
10425 for (;;)
10426 {
10427 if (has_method (class_to_search, name))
10428 break;
10429 if (! INNER_CLASS_TYPE_P (class_to_search))
10430 {
10431 parse_error_context (wfl,
10432 "No method named `%s' in scope",
10433 IDENTIFIER_POINTER (name));
10434 PATCH_METHOD_RETURN_ERROR ();
10435 }
10436 class_to_search
10437 = TREE_TYPE (DECL_CONTEXT (TYPE_NAME (class_to_search)));
10438 }
10439 }
10440 lc = 0;
10441 }
10442
10443 /* NAME is a simple identifier or comes from a primary. Search
10444 in the class whose declaration contain the method being
10445 invoked. */
10446 resolve_and_layout (class_to_search, NULL_TREE);
10447
10448 list = lookup_method_invoke (lc, wfl, class_to_search, name, args);
10449 /* Don't continue if no method were found, as the next statement
10450 can't be executed then. */
10451 if (!list)
10452 PATCH_METHOD_RETURN_ERROR ();
10453
10454 if (TYPE_ARRAY_P (class_to_search)
10455 && DECL_NAME (list) == get_identifier ("clone"))
10456 is_array_clone_call = 1;
10457
10458 /* Check for static reference if non static methods */
10459 if (check_for_static_method_reference (wfl, patch, list,
10460 class_to_search, primary))
10461 PATCH_METHOD_RETURN_ERROR ();
10462
10463 /* Check for inner classes creation from illegal contexts */
10464 if (lc && (INNER_CLASS_TYPE_P (class_to_search)
10465 && !CLASS_STATIC (TYPE_NAME (class_to_search)))
10466 && INNER_ENCLOSING_SCOPE_CHECK (class_to_search)
10467 && !DECL_INIT_P (current_function_decl))
10468 {
10469 parse_error_context
10470 (wfl, "No enclosing instance for inner class `%s' is in scope%s",
10471 lang_printable_name (class_to_search, 0),
10472 (!current_this ? "" :
10473 "; an explicit one must be provided when creating this inner class"));
10474 PATCH_METHOD_RETURN_ERROR ();
10475 }
10476
10477 /* Non static methods are called with the current object extra
10478 argument. If patch a `new TYPE()', the argument is the value
10479 returned by the object allocator. If method is resolved as a
10480 primary, use the primary otherwise use the current THIS. */
10481 args = nreverse (args);
10482 if (TREE_CODE (patch) != NEW_CLASS_EXPR)
10483 {
10484 this_arg = primary ? primary : current_this;
10485
10486 /* If we're using an access method, things are different.
10487 There are two family of cases:
10488
10489 1) We're not generating bytecodes:
10490
10491 - LIST is non static. It's invocation is transformed from
10492 x(a1,...,an) into this$<n>.x(a1,....an).
10493 - LIST is static. It's invocation is transformed from
10494 x(a1,...,an) into TYPE_OF(this$<n>).x(a1,....an)
10495
10496 2) We're generating bytecodes:
10497
10498 - LIST is non static. It's invocation is transformed from
10499 x(a1,....,an) into access$<n>(this$<n>,a1,...,an).
10500 - LIST is static. It's invocation is transformed from
10501 x(a1,....,an) into TYPE_OF(this$<n>).x(a1,....an).
10502
10503 Of course, this$<n> can be arbitrarily complex, ranging from
10504 this$0 (the immediate outer context) to
10505 access$0(access$0(...(this$0))).
10506
10507 maybe_use_access_method returns a nonzero value if the
10508 this_arg has to be moved into the (then generated) stub
10509 argument list. In the meantime, the selected function
10510 might have be replaced by a generated stub. */
10511 if (!primary &&
10512 maybe_use_access_method (is_super_init, &list, &this_arg))
10513 {
10514 args = tree_cons (NULL_TREE, this_arg, args);
10515 this_arg = NULL_TREE; /* So it doesn't get chained twice */
10516 }
10517 }
10518 }
10519
10520 /* Merge point of all resolution schemes. If we have nothing, this
10521 is an error, already signaled */
10522 if (!list)
10523 PATCH_METHOD_RETURN_ERROR ();
10524
10525 /* Check accessibility, position the is_static flag, build and
10526 return the call */
10527 if (not_accessible_p (DECL_CONTEXT (current_function_decl), list,
10528 (primary ? TREE_TYPE (TREE_TYPE (primary)) :
10529 NULL_TREE), from_super)
10530 /* Calls to clone() on array types are permitted as a special-case. */
10531 && !is_array_clone_call)
10532 {
10533 const char *const fct_name = IDENTIFIER_POINTER (DECL_NAME (list));
10534 const char *const access =
10535 java_accstring_lookup (get_access_flags_from_decl (list));
10536 const char *const klass =
10537 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (DECL_CONTEXT (list))));
10538 const char *const refklass =
10539 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (current_class)));
10540 const char *const what = (DECL_CONSTRUCTOR_P (list)
10541 ? "constructor" : "method");
10542 /* FIXME: WFL yields the wrong message here but I don't know
10543 what else to use. */
10544 parse_error_context (wfl,
10545 "Can't access %s %s `%s.%s' from `%s'",
10546 access, what, klass, fct_name, refklass);
10547 PATCH_METHOD_RETURN_ERROR ();
10548 }
10549
10550 /* Deprecation check: check whether the method being invoked or the
10551 instance-being-created's type are deprecated. */
10552 if (TREE_CODE (patch) == NEW_CLASS_EXPR)
10553 check_deprecation (wfl, TYPE_NAME (DECL_CONTEXT (list)));
10554 check_deprecation (wfl, list);
10555
10556 /* If invoking a innerclass constructor, there are hidden parameters
10557 to pass */
10558 if (TREE_CODE (patch) == NEW_CLASS_EXPR
10559 && PURE_INNER_CLASS_TYPE_P (DECL_CONTEXT (list)))
10560 {
10561 /* And make sure we add the accessed local variables to be saved
10562 in field aliases. */
10563 args = build_alias_initializer_parameter_list
10564 (AIPL_FUNCTION_CTOR_INVOCATION, DECL_CONTEXT (list), args, NULL);
10565
10566 /* Secretly pass the current_this/primary as a second argument */
10567 if (primary || current_this)
10568 {
10569 tree extra_arg;
10570 tree this_type = (current_this ?
10571 TREE_TYPE (TREE_TYPE (current_this)) : NULL_TREE);
10572 /* Method's (list) enclosing context */
10573 tree mec = DECL_CONTEXT (TYPE_NAME (DECL_CONTEXT (list)));
10574 /* If we have a primary, use it. */
10575 if (primary)
10576 extra_arg = primary;
10577 /* The current `this' is an inner class but isn't a direct
10578 enclosing context for the inner class we're trying to
10579 create. Build an access to the proper enclosing context
10580 and use it. */
10581 else if (current_this && PURE_INNER_CLASS_TYPE_P (this_type)
10582 && this_type != TREE_TYPE (mec))
10583 {
10584
10585 extra_arg = build_access_to_thisn (current_class,
10586 TREE_TYPE (mec), 0);
10587 extra_arg = java_complete_tree (extra_arg);
10588 }
10589 /* Otherwise, just use the current `this' as an enclosing
10590 context. */
10591 else
10592 extra_arg = current_this;
10593 args = tree_cons (NULL_TREE, extra_arg, args);
10594 }
10595 else
10596 args = tree_cons (NULL_TREE, integer_zero_node, args);
10597 }
10598
10599 /* This handles the situation where a constructor invocation needs
10600 to have an enclosing context passed as a second parameter (the
10601 constructor is one of an inner class). */
10602 if ((is_super_init ||
10603 (TREE_CODE (patch) == CALL_EXPR && name == this_identifier_node))
10604 && PURE_INNER_CLASS_TYPE_P (DECL_CONTEXT (list)))
10605 {
10606 tree dest = TYPE_NAME (DECL_CONTEXT (list));
10607 tree extra_arg =
10608 build_access_to_thisn (current_class, DECL_CONTEXT (dest), 0);
10609 extra_arg = java_complete_tree (extra_arg);
10610 args = tree_cons (NULL_TREE, extra_arg, args);
10611 }
10612
10613 is_static_flag = METHOD_STATIC (list);
10614 if (! is_static_flag && this_arg != NULL_TREE)
10615 args = tree_cons (NULL_TREE, this_arg, args);
10616
10617 /* In the context of an explicit constructor invocation, we can't
10618 invoke any method relying on `this'. Exceptions are: we're
10619 invoking a static function, primary exists and is not the current
10620 this, we're creating a new object. */
10621 if (ctxp->explicit_constructor_p
10622 && !is_static_flag
10623 && (!primary || primary == current_this)
10624 && (TREE_CODE (patch) != NEW_CLASS_EXPR))
10625 {
10626 parse_error_context (wfl, "Can't reference `this' before the superclass constructor has been called");
10627 PATCH_METHOD_RETURN_ERROR ();
10628 }
10629 java_parser_context_restore_global ();
10630 if (is_static)
10631 *is_static = is_static_flag;
10632 /* Sometimes, we want the decl of the selected method. Such as for
10633 EH checking */
10634 if (ret_decl)
10635 *ret_decl = list;
10636 patch = patch_invoke (patch, list, args);
10637
10638 /* Now is a good time to insert the call to finit$ */
10639 if (is_super_init && CLASS_HAS_FINIT_P (current_class))
10640 {
10641 tree finit_parms, finit_call;
10642
10643 /* Prepare to pass hidden parameters to finit$, if any. */
10644 finit_parms = build_alias_initializer_parameter_list
10645 (AIPL_FUNCTION_FINIT_INVOCATION, current_class, NULL_TREE, NULL);
10646
10647 finit_call =
10648 build_method_invocation (build_wfl_node (finit_identifier_node),
10649 finit_parms);
10650
10651 /* Generate the code used to initialize fields declared with an
10652 initialization statement and build a compound statement along
10653 with the super constructor invocation. */
10654 CAN_COMPLETE_NORMALLY (patch) = 1;
10655 patch = build (COMPOUND_EXPR, void_type_node, patch,
10656 java_complete_tree (finit_call));
10657 }
10658 return patch;
10659 }
10660
10661 /* Check that we're not trying to do a static reference to a method in
10662 non static method. Return 1 if it's the case, 0 otherwise. */
10663
10664 static int
check_for_static_method_reference(tree wfl,tree node,tree method,tree where,tree primary)10665 check_for_static_method_reference (tree wfl, tree node, tree method,
10666 tree where, tree primary)
10667 {
10668 if (METHOD_STATIC (current_function_decl)
10669 && !METHOD_STATIC (method) && !primary && !CALL_CONSTRUCTOR_P (node))
10670 {
10671 char *fct_name = xstrdup (lang_printable_name (method, 0));
10672 parse_error_context
10673 (wfl, "Can't make static reference to method `%s %s' in class `%s'",
10674 lang_printable_name (TREE_TYPE (TREE_TYPE (method)), 0), fct_name,
10675 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (where))));
10676 free (fct_name);
10677 return 1;
10678 }
10679 return 0;
10680 }
10681
10682 /* Fix the invocation of *MDECL if necessary in the case of a
10683 invocation from an inner class. *THIS_ARG might be modified
10684 appropriately and an alternative access to *MDECL might be
10685 returned. */
10686
10687 static int
maybe_use_access_method(int is_super_init,tree * mdecl,tree * this_arg)10688 maybe_use_access_method (int is_super_init, tree *mdecl, tree *this_arg)
10689 {
10690 tree ctx;
10691 tree md = *mdecl, ta = *this_arg;
10692 int to_return = 0;
10693 int non_static_context = !METHOD_STATIC (md);
10694
10695 if (is_super_init
10696 || DECL_CONTEXT (md) == current_class
10697 || !PURE_INNER_CLASS_TYPE_P (current_class)
10698 || DECL_FINIT_P (md)
10699 || DECL_INSTINIT_P (md))
10700 return 0;
10701
10702 /* If we're calling a method found in an enclosing class, generate
10703 what it takes to retrieve the right this. Don't do that if we're
10704 invoking a static method. Note that if MD's type is unrelated to
10705 CURRENT_CLASS, then the current this can be used. */
10706
10707 if (non_static_context && DECL_CONTEXT (md) != object_type_node)
10708 {
10709 ctx = TREE_TYPE (DECL_CONTEXT (TYPE_NAME (current_class)));
10710 if (inherits_from_p (ctx, DECL_CONTEXT (md)))
10711 {
10712 ta = build_current_thisn (current_class);
10713 ta = build_wfl_node (ta);
10714 }
10715 else
10716 {
10717 tree type = ctx;
10718 while (type)
10719 {
10720 maybe_build_thisn_access_method (type);
10721 if (inherits_from_p (type, DECL_CONTEXT (md)))
10722 {
10723 ta = build_access_to_thisn (ctx, type, 0);
10724 break;
10725 }
10726 type = (DECL_CONTEXT (TYPE_NAME (type)) ?
10727 TREE_TYPE (DECL_CONTEXT (TYPE_NAME (type))) : NULL_TREE);
10728 }
10729 }
10730 ta = java_complete_tree (ta);
10731 }
10732
10733 /* We might have to use an access method to get to MD. We can
10734 break the method access rule as far as we're not generating
10735 bytecode */
10736 if (METHOD_PRIVATE (md) && flag_emit_class_files)
10737 {
10738 md = build_outer_method_access_method (md);
10739 to_return = 1;
10740 }
10741
10742 *mdecl = md;
10743 *this_arg = ta;
10744
10745 /* Returning a nonzero value indicates we were doing a non static
10746 method invocation that is now a static invocation. It will have
10747 callee displace `this' to insert it in the regular argument
10748 list. */
10749 return (non_static_context && to_return);
10750 }
10751
10752 /* Patch an invoke expression METHOD and ARGS, based on its invocation
10753 mode. */
10754
10755 static tree
patch_invoke(tree patch,tree method,tree args)10756 patch_invoke (tree patch, tree method, tree args)
10757 {
10758 tree dtable, func;
10759 tree original_call, t, ta;
10760 tree check = NULL_TREE;
10761
10762 /* Last step for args: convert build-in types. If we're dealing with
10763 a new TYPE() type call, the first argument to the constructor
10764 isn't found in the incoming argument list, but delivered by
10765 `new' */
10766 t = TYPE_ARG_TYPES (TREE_TYPE (method));
10767 if (TREE_CODE (patch) == NEW_CLASS_EXPR)
10768 t = TREE_CHAIN (t);
10769 for (ta = args; t != end_params_node && ta;
10770 t = TREE_CHAIN (t), ta = TREE_CHAIN (ta))
10771 if (JPRIMITIVE_TYPE_P (TREE_TYPE (TREE_VALUE (ta))) &&
10772 TREE_TYPE (TREE_VALUE (ta)) != TREE_VALUE (t))
10773 TREE_VALUE (ta) = convert (TREE_VALUE (t), TREE_VALUE (ta));
10774
10775 /* Resolve unresolved returned type issues */
10776 t = TREE_TYPE (TREE_TYPE (method));
10777 if (TREE_CODE (t) == POINTER_TYPE && !CLASS_LOADED_P (TREE_TYPE (t)))
10778 resolve_and_layout (TREE_TYPE (t), NULL);
10779
10780 if (flag_emit_class_files || flag_emit_xref)
10781 func = method;
10782 else
10783 {
10784 switch (invocation_mode (method, CALL_USING_SUPER (patch)))
10785 {
10786 case INVOKE_VIRTUAL:
10787 dtable = invoke_build_dtable (0, args);
10788 func = build_invokevirtual (dtable, method);
10789 break;
10790
10791 case INVOKE_NONVIRTUAL:
10792 /* If the object for the method call is null, we throw an
10793 exception. We don't do this if the object is the current
10794 method's `this'. In other cases we just rely on an
10795 optimization pass to eliminate redundant checks. */
10796 if (TREE_VALUE (args) != current_this)
10797 {
10798 /* We use a save_expr here to make sure we only evaluate
10799 the new `self' expression once. */
10800 tree save_arg = save_expr (TREE_VALUE (args));
10801 TREE_VALUE (args) = save_arg;
10802 check = java_check_reference (save_arg, 1);
10803 }
10804 /* Fall through. */
10805
10806 case INVOKE_SUPER:
10807 case INVOKE_STATIC:
10808 {
10809 tree signature = build_java_signature (TREE_TYPE (method));
10810 func = build_known_method_ref (method, TREE_TYPE (method),
10811 DECL_CONTEXT (method),
10812 signature, args);
10813 }
10814 break;
10815
10816 case INVOKE_INTERFACE:
10817 dtable = invoke_build_dtable (1, args);
10818 func = build_invokeinterface (dtable, method);
10819 break;
10820
10821 default:
10822 abort ();
10823 }
10824
10825 /* Ensure self_type is initialized, (invokestatic). FIXME */
10826 func = build1 (NOP_EXPR, build_pointer_type (TREE_TYPE (method)), func);
10827 }
10828
10829 TREE_TYPE (patch) = TREE_TYPE (TREE_TYPE (method));
10830 TREE_OPERAND (patch, 0) = func;
10831 TREE_OPERAND (patch, 1) = args;
10832 patch = check_for_builtin (method, patch);
10833 original_call = patch;
10834
10835 /* We're processing a `new TYPE ()' form. New is called and its
10836 returned value is the first argument to the constructor. We build
10837 a COMPOUND_EXPR and use saved expression so that the overall NEW
10838 expression value is a pointer to a newly created and initialized
10839 class. */
10840 if (TREE_CODE (original_call) == NEW_CLASS_EXPR)
10841 {
10842 tree class = DECL_CONTEXT (method);
10843 tree c1, saved_new, size, new;
10844 tree alloc_node;
10845
10846 if (flag_emit_class_files || flag_emit_xref)
10847 {
10848 TREE_TYPE (patch) = build_pointer_type (class);
10849 return patch;
10850 }
10851 if (!TYPE_SIZE (class))
10852 safe_layout_class (class);
10853 size = size_in_bytes (class);
10854 alloc_node =
10855 (class_has_finalize_method (class) ? alloc_object_node
10856 : alloc_no_finalizer_node);
10857 new = build (CALL_EXPR, promote_type (class),
10858 build_address_of (alloc_node),
10859 tree_cons (NULL_TREE, build_class_ref (class),
10860 build_tree_list (NULL_TREE,
10861 size_in_bytes (class))),
10862 NULL_TREE);
10863 saved_new = save_expr (new);
10864 c1 = build_tree_list (NULL_TREE, saved_new);
10865 TREE_CHAIN (c1) = TREE_OPERAND (original_call, 1);
10866 TREE_OPERAND (original_call, 1) = c1;
10867 TREE_SET_CODE (original_call, CALL_EXPR);
10868 patch = build (COMPOUND_EXPR, TREE_TYPE (new), patch, saved_new);
10869 }
10870
10871 /* If CHECK is set, then we are building a check to see if the object
10872 is NULL. */
10873 if (check != NULL_TREE)
10874 {
10875 /* We have to call force_evaluation_order now because creating a
10876 COMPOUND_EXPR wraps the arg list in a way that makes it
10877 unrecognizable by force_evaluation_order later. Yuk. */
10878 patch = build (COMPOUND_EXPR, TREE_TYPE (patch), check,
10879 force_evaluation_order (patch));
10880 TREE_SIDE_EFFECTS (patch) = 1;
10881 }
10882
10883 /* In order to be able to modify PATCH later, we SAVE_EXPR it and
10884 put it as the first expression of a COMPOUND_EXPR. The second
10885 expression being an empty statement to be later patched if
10886 necessary. We remember a TREE_LIST (the PURPOSE is the method,
10887 the VALUE is the compound) in a hashtable and return a
10888 COMPOUND_EXPR built so that the result of the evaluation of the
10889 original PATCH node is returned. */
10890 if (STATIC_CLASS_INIT_OPT_P ()
10891 && current_function_decl && METHOD_STATIC (method))
10892 {
10893 tree list;
10894 tree fndecl = current_function_decl;
10895 /* We have to call force_evaluation_order now because creating a
10896 COMPOUND_EXPR wraps the arg list in a way that makes it
10897 unrecognizable by force_evaluation_order later. Yuk. */
10898 tree save = save_expr (force_evaluation_order (patch));
10899 tree type = TREE_TYPE (patch);
10900
10901 patch = build (COMPOUND_EXPR, type, save, empty_stmt_node);
10902 list = tree_cons (method, patch,
10903 DECL_FUNCTION_STATIC_METHOD_INVOCATION_COMPOUND (fndecl));
10904
10905 DECL_FUNCTION_STATIC_METHOD_INVOCATION_COMPOUND (fndecl) = list;
10906
10907 patch = build (COMPOUND_EXPR, type, patch, save);
10908 }
10909
10910 return patch;
10911 }
10912
10913 static int
invocation_mode(tree method,int super)10914 invocation_mode (tree method, int super)
10915 {
10916 int access = get_access_flags_from_decl (method);
10917
10918 if (super)
10919 return INVOKE_SUPER;
10920
10921 if (access & ACC_STATIC)
10922 return INVOKE_STATIC;
10923
10924 /* We have to look for a constructor before we handle nonvirtual
10925 calls; otherwise the constructor will look nonvirtual. */
10926 if (DECL_CONSTRUCTOR_P (method))
10927 return INVOKE_STATIC;
10928
10929 if (access & ACC_FINAL || access & ACC_PRIVATE)
10930 return INVOKE_NONVIRTUAL;
10931
10932 if (CLASS_FINAL (TYPE_NAME (DECL_CONTEXT (method))))
10933 return INVOKE_NONVIRTUAL;
10934
10935 if (CLASS_INTERFACE (TYPE_NAME (DECL_CONTEXT (method))))
10936 return INVOKE_INTERFACE;
10937
10938 return INVOKE_VIRTUAL;
10939 }
10940
10941 /* Retrieve a refined list of matching methods. It covers the step
10942 15.11.2 (Compile-Time Step 2) */
10943
10944 static tree
lookup_method_invoke(int lc,tree cl,tree class,tree name,tree arg_list)10945 lookup_method_invoke (int lc, tree cl, tree class, tree name, tree arg_list)
10946 {
10947 tree atl = end_params_node; /* Arg Type List */
10948 tree method, signature, list, node;
10949 const char *candidates; /* Used for error report */
10950 char *dup;
10951
10952 /* Fix the arguments */
10953 for (node = arg_list; node; node = TREE_CHAIN (node))
10954 {
10955 tree current_arg = TREE_TYPE (TREE_VALUE (node));
10956 /* Non primitive type may have to be resolved */
10957 if (!JPRIMITIVE_TYPE_P (current_arg))
10958 resolve_and_layout (current_arg, NULL_TREE);
10959 /* And promoted */
10960 if (TREE_CODE (current_arg) == RECORD_TYPE)
10961 current_arg = promote_type (current_arg);
10962 atl = tree_cons (NULL_TREE, current_arg, atl);
10963 }
10964
10965 /* Presto. If we're dealing with an anonymous class and a
10966 constructor call, generate the right constructor now, since we
10967 know the arguments' types. */
10968
10969 if (lc && ANONYMOUS_CLASS_P (class))
10970 {
10971 tree saved_current_class;
10972 tree mdecl = craft_constructor (TYPE_NAME (class), atl);
10973 saved_current_class = current_class;
10974 current_class = class;
10975 fix_constructors (mdecl);
10976 current_class = saved_current_class;
10977 }
10978
10979 /* Find all candidates and then refine the list, searching for the
10980 most specific method. */
10981 list = find_applicable_accessible_methods_list (lc, class, name, atl);
10982 list = find_most_specific_methods_list (list);
10983 if (list && !TREE_CHAIN (list))
10984 return TREE_VALUE (list);
10985
10986 /* Issue an error. List candidates if any. Candidates are listed
10987 only if accessible (non accessible methods may end-up here for
10988 the sake of a better error report). */
10989 candidates = NULL;
10990 if (list)
10991 {
10992 tree current;
10993 obstack_grow (&temporary_obstack, ". Candidates are:\n", 18);
10994 for (current = list; current; current = TREE_CHAIN (current))
10995 {
10996 tree cm = TREE_VALUE (current);
10997 char string [4096];
10998 if (!cm || not_accessible_p (class, cm, NULL_TREE, 0))
10999 continue;
11000 sprintf
11001 (string, " `%s' in `%s'%s",
11002 get_printable_method_name (cm),
11003 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (DECL_CONTEXT (cm)))),
11004 (TREE_CHAIN (current) ? "\n" : ""));
11005 obstack_grow (&temporary_obstack, string, strlen (string));
11006 }
11007 obstack_1grow (&temporary_obstack, '\0');
11008 candidates = obstack_finish (&temporary_obstack);
11009 }
11010 /* Issue the error message */
11011 method = make_node (FUNCTION_TYPE);
11012 TYPE_ARG_TYPES (method) = atl;
11013 signature = build_java_argument_signature (method);
11014 dup = xstrdup (lang_printable_name (class, 0));
11015 parse_error_context (cl, "Can't find %s `%s(%s)' in type `%s'%s",
11016 (lc ? "constructor" : "method"),
11017 (lc ? dup : IDENTIFIER_POINTER (name)),
11018 IDENTIFIER_POINTER (signature), dup,
11019 (candidates ? candidates : ""));
11020 free (dup);
11021 return NULL_TREE;
11022 }
11023
11024 /* 15.11.2.1: Find Methods that are Applicable and Accessible. LC is 1
11025 when we're looking for a constructor. */
11026
11027 static tree
find_applicable_accessible_methods_list(int lc,tree class,tree name,tree arglist)11028 find_applicable_accessible_methods_list (int lc, tree class, tree name,
11029 tree arglist)
11030 {
11031 static htab_t searched_classes;
11032 static int search_not_done = 0;
11033 tree list = NULL_TREE, all_list = NULL_TREE;
11034
11035 /* Check the hash table to determine if this class has been searched
11036 already. */
11037 if (searched_classes)
11038 {
11039 if (htab_find (searched_classes, class) != NULL)
11040 return NULL;
11041 }
11042 else
11043 {
11044 searched_classes = htab_create (10, htab_hash_pointer,
11045 htab_eq_pointer, NULL);
11046 }
11047
11048 search_not_done++;
11049 *htab_find_slot (searched_classes, class, INSERT) = class;
11050
11051 if (!CLASS_LOADED_P (class) && !CLASS_FROM_SOURCE_P (class))
11052 {
11053 load_class (class, 1);
11054 safe_layout_class (class);
11055 }
11056
11057 /* Search interfaces */
11058 if (TREE_CODE (TYPE_NAME (class)) == TYPE_DECL
11059 && CLASS_INTERFACE (TYPE_NAME (class)))
11060 {
11061 int i, n;
11062 tree basetype_vec = TYPE_BINFO_BASETYPES (class);
11063 search_applicable_methods_list (lc, TYPE_METHODS (class),
11064 name, arglist, &list, &all_list);
11065 n = TREE_VEC_LENGTH (basetype_vec);
11066 for (i = 1; i < n; i++)
11067 {
11068 tree t = BINFO_TYPE (TREE_VEC_ELT (basetype_vec, i));
11069 tree rlist;
11070
11071 rlist = find_applicable_accessible_methods_list (lc, t, name,
11072 arglist);
11073 list = chainon (rlist, list);
11074 }
11075 }
11076 /* Search classes */
11077 else
11078 {
11079 search_applicable_methods_list (lc, TYPE_METHODS (class),
11080 name, arglist, &list, &all_list);
11081
11082 /* When looking finit$, class$ or instinit$, we turn LC to 1 so
11083 that we only search in class. Note that we should have found
11084 something at this point. */
11085 if (ID_FINIT_P (name) || ID_CLASSDOLLAR_P (name) || ID_INSTINIT_P (name))
11086 {
11087 lc = 1;
11088 if (!list)
11089 abort ();
11090 }
11091
11092 /* We must search all interfaces of this class */
11093 if (!lc)
11094 {
11095 tree basetype_vec = TYPE_BINFO_BASETYPES (class);
11096 int n = TREE_VEC_LENGTH (basetype_vec), i;
11097 for (i = 1; i < n; i++)
11098 {
11099 tree t = BINFO_TYPE (TREE_VEC_ELT (basetype_vec, i));
11100 if (t != object_type_node)
11101 {
11102 tree rlist
11103 = find_applicable_accessible_methods_list (lc, t,
11104 name, arglist);
11105 list = chainon (rlist, list);
11106 }
11107 }
11108 }
11109
11110 /* Search superclass */
11111 if (!lc && CLASSTYPE_SUPER (class) != NULL_TREE)
11112 {
11113 tree rlist;
11114 class = CLASSTYPE_SUPER (class);
11115 rlist = find_applicable_accessible_methods_list (lc, class,
11116 name, arglist);
11117 list = chainon (rlist, list);
11118 }
11119 }
11120
11121 search_not_done--;
11122
11123 /* We're done. Reset the searched classes list and finally search
11124 java.lang.Object if it wasn't searched already. */
11125 if (!search_not_done)
11126 {
11127 if (!lc
11128 && TYPE_METHODS (object_type_node)
11129 && htab_find (searched_classes, object_type_node) == NULL)
11130 {
11131 search_applicable_methods_list (lc,
11132 TYPE_METHODS (object_type_node),
11133 name, arglist, &list, &all_list);
11134 }
11135 htab_delete (searched_classes);
11136 searched_classes = NULL;
11137 }
11138
11139 /* Either return the list obtained or all selected (but
11140 inaccessible) methods for better error report. */
11141 return (!list ? all_list : list);
11142 }
11143
11144 /* Effectively search for the appropriate method in method */
11145
11146 static void
search_applicable_methods_list(int lc,tree method,tree name,tree arglist,tree * list,tree * all_list)11147 search_applicable_methods_list (int lc, tree method, tree name, tree arglist,
11148 tree *list, tree *all_list)
11149 {
11150 for (; method; method = TREE_CHAIN (method))
11151 {
11152 /* When dealing with constructor, stop here, otherwise search
11153 other classes */
11154 if (lc && !DECL_CONSTRUCTOR_P (method))
11155 continue;
11156 else if (!lc && (DECL_CONSTRUCTOR_P (method)
11157 || (DECL_NAME (method) != name)))
11158 continue;
11159
11160 if (argument_types_convertible (method, arglist))
11161 {
11162 /* Retain accessible methods only */
11163 if (!not_accessible_p (DECL_CONTEXT (current_function_decl),
11164 method, NULL_TREE, 0))
11165 *list = tree_cons (NULL_TREE, method, *list);
11166 else
11167 /* Also retain all selected method here */
11168 *all_list = tree_cons (NULL_TREE, method, *list);
11169 }
11170 }
11171 }
11172
11173 /* 15.11.2.2 Choose the Most Specific Method */
11174
11175 static tree
find_most_specific_methods_list(tree list)11176 find_most_specific_methods_list (tree list)
11177 {
11178 int max = 0;
11179 int abstract, candidates;
11180 tree current, new_list = NULL_TREE;
11181 for (current = list; current; current = TREE_CHAIN (current))
11182 {
11183 tree method;
11184 DECL_SPECIFIC_COUNT (TREE_VALUE (current)) = 0;
11185
11186 for (method = list; method; method = TREE_CHAIN (method))
11187 {
11188 tree method_v, current_v;
11189 /* Don't test a method against itself */
11190 if (method == current)
11191 continue;
11192
11193 method_v = TREE_VALUE (method);
11194 current_v = TREE_VALUE (current);
11195
11196 /* Compare arguments and location where methods where declared */
11197 if (argument_types_convertible (method_v, current_v))
11198 {
11199 if (valid_method_invocation_conversion_p
11200 (DECL_CONTEXT (method_v), DECL_CONTEXT (current_v))
11201 || (INNER_CLASS_TYPE_P (DECL_CONTEXT (current_v))
11202 && enclosing_context_p (DECL_CONTEXT (method_v),
11203 DECL_CONTEXT (current_v))))
11204 {
11205 int v = (DECL_SPECIFIC_COUNT (current_v) +=
11206 (INNER_CLASS_TYPE_P (DECL_CONTEXT (current_v)) ? 2 : 1));
11207 max = (v > max ? v : max);
11208 }
11209 }
11210 }
11211 }
11212
11213 /* Review the list and select the maximally specific methods */
11214 for (current = list, abstract = -1, candidates = -1;
11215 current; current = TREE_CHAIN (current))
11216 if (DECL_SPECIFIC_COUNT (TREE_VALUE (current)) == max)
11217 {
11218 new_list = tree_cons (NULL_TREE, TREE_VALUE (current), new_list);
11219 abstract += (METHOD_ABSTRACT (TREE_VALUE (current)) ? 1 : 0);
11220 candidates++;
11221 }
11222
11223 /* If we have several and they're all abstract, just pick the
11224 closest one. */
11225 if (candidates > 0 && candidates == abstract)
11226 {
11227 /* FIXME: merge the throws clauses. There is no convenient way
11228 to do this in gcj right now, since ideally we'd like to
11229 introduce a new METHOD_DECL here, but that is really not
11230 possible. */
11231 new_list = nreverse (new_list);
11232 TREE_CHAIN (new_list) = NULL_TREE;
11233 return new_list;
11234 }
11235
11236 /* We have several (we couldn't find a most specific), all but one
11237 are abstract, we pick the only non abstract one. */
11238 if (candidates > 0 && (candidates == abstract+1))
11239 {
11240 for (current = new_list; current; current = TREE_CHAIN (current))
11241 if (!METHOD_ABSTRACT (TREE_VALUE (current)))
11242 {
11243 TREE_CHAIN (current) = NULL_TREE;
11244 new_list = current;
11245 }
11246 }
11247
11248 /* If we can't find one, lower expectations and try to gather multiple
11249 maximally specific methods */
11250 while (!new_list && max)
11251 {
11252 while (--max > 0)
11253 {
11254 if (DECL_SPECIFIC_COUNT (TREE_VALUE (current)) == max)
11255 new_list = tree_cons (NULL_TREE, TREE_VALUE (current), new_list);
11256 }
11257 }
11258
11259 return new_list;
11260 }
11261
11262 /* Make sure that the type of each M2_OR_ARGLIST arguments can be
11263 converted by method invocation conversion (5.3) to the type of the
11264 corresponding parameter of M1. Implementation expects M2_OR_ARGLIST
11265 to change less often than M1. */
11266
11267 static GTY(()) tree m2_arg_value;
11268 static GTY(()) tree m2_arg_cache;
11269
11270 static int
argument_types_convertible(tree m1,tree m2_or_arglist)11271 argument_types_convertible (tree m1, tree m2_or_arglist)
11272 {
11273 tree m1_arg, m2_arg;
11274
11275 SKIP_THIS_AND_ARTIFICIAL_PARMS (m1_arg, m1)
11276
11277 if (m2_arg_value == m2_or_arglist)
11278 m2_arg = m2_arg_cache;
11279 else
11280 {
11281 /* M2_OR_ARGLIST can be a function DECL or a raw list of
11282 argument types */
11283 if (m2_or_arglist && TREE_CODE (m2_or_arglist) == FUNCTION_DECL)
11284 {
11285 m2_arg = TYPE_ARG_TYPES (TREE_TYPE (m2_or_arglist));
11286 if (!METHOD_STATIC (m2_or_arglist))
11287 m2_arg = TREE_CHAIN (m2_arg);
11288 }
11289 else
11290 m2_arg = m2_or_arglist;
11291
11292 m2_arg_value = m2_or_arglist;
11293 m2_arg_cache = m2_arg;
11294 }
11295
11296 while (m1_arg != end_params_node && m2_arg != end_params_node)
11297 {
11298 resolve_and_layout (TREE_VALUE (m1_arg), NULL_TREE);
11299 if (!valid_method_invocation_conversion_p (TREE_VALUE (m1_arg),
11300 TREE_VALUE (m2_arg)))
11301 break;
11302 m1_arg = TREE_CHAIN (m1_arg);
11303 m2_arg = TREE_CHAIN (m2_arg);
11304 }
11305 return m1_arg == end_params_node && m2_arg == end_params_node;
11306 }
11307
11308 /* Qualification routines */
11309
11310 /* Given a name x.y.z, look up x locally. If it's found, save the
11311 decl. If it's not found, mark the name as RESOLVE_PACKAGE_NAME_P,
11312 so that we later try and load the appropriate classes. */
11313 static void
qualify_ambiguous_name(tree id)11314 qualify_ambiguous_name (tree id)
11315 {
11316 tree name, decl;
11317
11318 /* We inspect the first item of the qualification list. As a sanity
11319 check, make sure that it is an identfier node. */
11320 tree qual = EXPR_WFL_QUALIFICATION (id);
11321 tree qual_wfl = QUAL_WFL (qual);
11322
11323 if (TREE_CODE (qual_wfl) != EXPR_WITH_FILE_LOCATION)
11324 return;
11325
11326 name = EXPR_WFL_NODE (qual_wfl);
11327
11328 /* If we don't have an identifier, or we have a 'this' or 'super',
11329 then field access processing is all we need : there is nothing
11330 for us to do. */
11331 if (!name || TREE_CODE (name) != IDENTIFIER_NODE ||
11332 name == this_identifier_node ||
11333 name == super_identifier_node)
11334 return;
11335
11336 /* If name appears within the scope of a local variable declaration
11337 or parameter declaration, or is a field within an enclosing
11338 class, then it is an expression name. Save the decl and let
11339 resolve_field_access do it's work. */
11340 if ((decl = IDENTIFIER_LOCAL_VALUE (name)) ||
11341 (decl = lookup_field_wrapper (current_class, name)))
11342 {
11343 QUAL_RESOLUTION (qual) = decl;
11344 return;
11345 }
11346
11347 /* If name is a known class name (either declared or imported), mark
11348 us as a type name. */
11349 if ((decl = resolve_and_layout (name, NULL_TREE)))
11350 {
11351 RESOLVE_TYPE_NAME_P (qual_wfl) = 1;
11352 QUAL_RESOLUTION (qual) = decl;
11353 }
11354
11355 /* Check here that NAME isn't declared by more than one
11356 type-import-on-demand declaration of the compilation unit
11357 containing NAME. FIXME */
11358
11359 /* We couldn't find a declaration for the name. Assume for now that
11360 we have a qualified class name that needs to be loaded from an
11361 external class file. */
11362 else
11363 RESOLVE_PACKAGE_NAME_P (qual_wfl) = 1;
11364
11365 /* Propagate the qualification across other components of the
11366 qualified name */
11367 for (qual = TREE_CHAIN (qual); qual;
11368 qual_wfl = QUAL_WFL (qual), qual = TREE_CHAIN (qual))
11369 {
11370 if (RESOLVE_PACKAGE_NAME_P (qual_wfl))
11371 RESOLVE_PACKAGE_NAME_P (QUAL_WFL (qual)) = 1;
11372 }
11373
11374 /* Store the global qualification for the ambiguous part of ID back
11375 into ID fields */
11376 if (RESOLVE_TYPE_NAME_P (qual_wfl))
11377 RESOLVE_TYPE_NAME_P (id) = 1;
11378 else if (RESOLVE_PACKAGE_NAME_P (qual_wfl))
11379 RESOLVE_PACKAGE_NAME_P (id) = 1;
11380 }
11381
11382 static int
breakdown_qualified(tree * left,tree * right,tree source)11383 breakdown_qualified (tree *left, tree *right, tree source)
11384 {
11385 char *p, *base;
11386 int l = IDENTIFIER_LENGTH (source);
11387
11388 base = alloca (l + 1);
11389 memcpy (base, IDENTIFIER_POINTER (source), l + 1);
11390
11391 /* Breakdown NAME into REMAINDER . IDENTIFIER. */
11392 p = base + l - 1;
11393 while (*p != '.' && p != base)
11394 p--;
11395
11396 /* We didn't find a '.'. Return an error. */
11397 if (p == base)
11398 return 1;
11399
11400 *p = '\0';
11401 if (right)
11402 *right = get_identifier (p+1);
11403 *left = get_identifier (base);
11404
11405 return 0;
11406 }
11407
11408 /* Return TRUE if two classes are from the same package. */
11409
11410 static int
in_same_package(tree name1,tree name2)11411 in_same_package (tree name1, tree name2)
11412 {
11413 tree tmp;
11414 tree pkg1;
11415 tree pkg2;
11416
11417 if (TREE_CODE (name1) == TYPE_DECL)
11418 name1 = DECL_NAME (name1);
11419 if (TREE_CODE (name2) == TYPE_DECL)
11420 name2 = DECL_NAME (name2);
11421
11422 if (QUALIFIED_P (name1) != QUALIFIED_P (name2))
11423 /* One in empty package. */
11424 return 0;
11425
11426 if (QUALIFIED_P (name1) == 0 && QUALIFIED_P (name2) == 0)
11427 /* Both in empty package. */
11428 return 1;
11429
11430 breakdown_qualified (&pkg1, &tmp, name1);
11431 breakdown_qualified (&pkg2, &tmp, name2);
11432
11433 return (pkg1 == pkg2);
11434 }
11435
11436 /* Patch tree nodes in a function body. When a BLOCK is found, push
11437 local variable decls if present.
11438 Same as java_complete_lhs, but does resolve static finals to values. */
11439
11440 static tree
java_complete_tree(tree node)11441 java_complete_tree (tree node)
11442 {
11443 node = java_complete_lhs (node);
11444 if (JDECL_P (node) && CLASS_FINAL_VARIABLE_P (node)
11445 && DECL_INITIAL (node) != NULL_TREE
11446 && !flag_emit_xref)
11447 {
11448 tree value = fold_constant_for_init (node, node);
11449 if (value != NULL_TREE)
11450 return value;
11451 }
11452 return node;
11453 }
11454
11455 static tree
java_stabilize_reference(tree node)11456 java_stabilize_reference (tree node)
11457 {
11458 if (TREE_CODE (node) == COMPOUND_EXPR)
11459 {
11460 tree op0 = TREE_OPERAND (node, 0);
11461 tree op1 = TREE_OPERAND (node, 1);
11462 TREE_OPERAND (node, 0) = save_expr (op0);
11463 TREE_OPERAND (node, 1) = java_stabilize_reference (op1);
11464 return node;
11465 }
11466 return stabilize_reference (node);
11467 }
11468
11469 /* Patch tree nodes in a function body. When a BLOCK is found, push
11470 local variable decls if present.
11471 Same as java_complete_tree, but does not resolve static finals to values. */
11472
11473 static tree
java_complete_lhs(tree node)11474 java_complete_lhs (tree node)
11475 {
11476 tree nn, cn, wfl_op1, wfl_op2, wfl_op3;
11477 int flag;
11478
11479 /* CONVERT_EXPR always has its type set, even though it needs to be
11480 worked out. */
11481 if (TREE_TYPE (node) && TREE_CODE (node) != CONVERT_EXPR)
11482 return node;
11483
11484 /* The switch block implements cases processing container nodes
11485 first. Contained nodes are always written back. Leaves come
11486 next and return a value. */
11487 switch (TREE_CODE (node))
11488 {
11489 case BLOCK:
11490
11491 /* 1- Block section.
11492 Set the local values on decl names so we can identify them
11493 faster when they're referenced. At that stage, identifiers
11494 are legal so we don't check for declaration errors. */
11495 for (cn = BLOCK_EXPR_DECLS (node); cn; cn = TREE_CHAIN (cn))
11496 {
11497 DECL_CONTEXT (cn) = current_function_decl;
11498 IDENTIFIER_LOCAL_VALUE (DECL_NAME (cn)) = cn;
11499 }
11500 if (BLOCK_EXPR_BODY (node) == NULL_TREE)
11501 CAN_COMPLETE_NORMALLY (node) = 1;
11502 else
11503 {
11504 tree stmt = BLOCK_EXPR_BODY (node);
11505 tree *ptr;
11506 int error_seen = 0;
11507 if (TREE_CODE (stmt) == COMPOUND_EXPR)
11508 {
11509 /* Re-order from (((A; B); C); ...; Z) to
11510 (A; (B; (C ; (...; Z)))).
11511 This makes it easier to scan the statements left-to-right
11512 without using recursion (which might overflow the stack
11513 if the block has many statements. */
11514 for (;;)
11515 {
11516 tree left = TREE_OPERAND (stmt, 0);
11517 if (TREE_CODE (left) != COMPOUND_EXPR)
11518 break;
11519 TREE_OPERAND (stmt, 0) = TREE_OPERAND (left, 1);
11520 TREE_OPERAND (left, 1) = stmt;
11521 stmt = left;
11522 }
11523 BLOCK_EXPR_BODY (node) = stmt;
11524 }
11525
11526 /* Now do the actual complete, without deep recursion for
11527 long blocks. */
11528 ptr = &BLOCK_EXPR_BODY (node);
11529 while (TREE_CODE (*ptr) == COMPOUND_EXPR
11530 && TREE_OPERAND (*ptr, 1) != empty_stmt_node)
11531 {
11532 tree cur = java_complete_tree (TREE_OPERAND (*ptr, 0));
11533 tree *next = &TREE_OPERAND (*ptr, 1);
11534 TREE_OPERAND (*ptr, 0) = cur;
11535 if (cur == empty_stmt_node)
11536 {
11537 /* Optimization; makes it easier to detect empty bodies.
11538 Most useful for <clinit> with all-constant initializer. */
11539 *ptr = *next;
11540 continue;
11541 }
11542 if (TREE_CODE (cur) == ERROR_MARK)
11543 error_seen++;
11544 else if (! CAN_COMPLETE_NORMALLY (cur))
11545 {
11546 wfl_op2 = *next;
11547 for (;;)
11548 {
11549 if (TREE_CODE (wfl_op2) == BLOCK)
11550 wfl_op2 = BLOCK_EXPR_BODY (wfl_op2);
11551 else if (TREE_CODE (wfl_op2) == COMPOUND_EXPR)
11552 wfl_op2 = TREE_OPERAND (wfl_op2, 0);
11553 else
11554 break;
11555 }
11556 if (TREE_CODE (wfl_op2) != CASE_EXPR
11557 && TREE_CODE (wfl_op2) != DEFAULT_EXPR)
11558 unreachable_stmt_error (*ptr);
11559 }
11560 if (TREE_TYPE (*ptr) == NULL_TREE)
11561 TREE_TYPE (*ptr) = void_type_node;
11562 ptr = next;
11563 }
11564 *ptr = java_complete_tree (*ptr);
11565
11566 if (TREE_CODE (*ptr) == ERROR_MARK || error_seen > 0)
11567 return error_mark_node;
11568 CAN_COMPLETE_NORMALLY (node) = CAN_COMPLETE_NORMALLY (*ptr);
11569 }
11570 /* Turn local bindings to null */
11571 for (cn = BLOCK_EXPR_DECLS (node); cn; cn = TREE_CHAIN (cn))
11572 IDENTIFIER_LOCAL_VALUE (DECL_NAME (cn)) = NULL_TREE;
11573
11574 TREE_TYPE (node) = void_type_node;
11575 break;
11576
11577 /* 2- They are expressions but ultimately deal with statements */
11578
11579 case THROW_EXPR:
11580 wfl_op1 = TREE_OPERAND (node, 0);
11581 COMPLETE_CHECK_OP_0 (node);
11582 /* 14.19 A throw statement cannot complete normally. */
11583 CAN_COMPLETE_NORMALLY (node) = 0;
11584 return patch_throw_statement (node, wfl_op1);
11585
11586 case SYNCHRONIZED_EXPR:
11587 wfl_op1 = TREE_OPERAND (node, 0);
11588 return patch_synchronized_statement (node, wfl_op1);
11589
11590 case TRY_EXPR:
11591 return patch_try_statement (node);
11592
11593 case TRY_FINALLY_EXPR:
11594 COMPLETE_CHECK_OP_0 (node);
11595 COMPLETE_CHECK_OP_1 (node);
11596 /* Reduce try/finally nodes with an empty try block. */
11597 if (TREE_OPERAND (node, 0) == empty_stmt_node
11598 || BLOCK_EMPTY_P (TREE_OPERAND (node, 0)))
11599 return TREE_OPERAND (node, 1);
11600 /* Likewise for an empty finally block. */
11601 if (TREE_OPERAND (node, 1) == empty_stmt_node
11602 || BLOCK_EMPTY_P (TREE_OPERAND (node, 1)))
11603 return TREE_OPERAND (node, 0);
11604 CAN_COMPLETE_NORMALLY (node)
11605 = (CAN_COMPLETE_NORMALLY (TREE_OPERAND (node, 0))
11606 && CAN_COMPLETE_NORMALLY (TREE_OPERAND (node, 1)));
11607 TREE_TYPE (node) = TREE_TYPE (TREE_OPERAND (node, 0));
11608 return node;
11609
11610 case LABELED_BLOCK_EXPR:
11611 PUSH_LABELED_BLOCK (node);
11612 if (LABELED_BLOCK_BODY (node))
11613 COMPLETE_CHECK_OP_1 (node);
11614 TREE_TYPE (node) = void_type_node;
11615 POP_LABELED_BLOCK ();
11616
11617 if (LABELED_BLOCK_BODY (node) == empty_stmt_node)
11618 {
11619 LABELED_BLOCK_BODY (node) = NULL_TREE;
11620 CAN_COMPLETE_NORMALLY (node) = 1;
11621 }
11622 else if (CAN_COMPLETE_NORMALLY (LABELED_BLOCK_BODY (node)))
11623 CAN_COMPLETE_NORMALLY (node) = 1;
11624 return node;
11625
11626 case EXIT_BLOCK_EXPR:
11627 /* We don't complete operand 1, because it's the return value of
11628 the EXIT_BLOCK_EXPR which doesn't exist it Java */
11629 return patch_bc_statement (node);
11630
11631 case CASE_EXPR:
11632 cn = java_complete_tree (TREE_OPERAND (node, 0));
11633 if (cn == error_mark_node)
11634 return cn;
11635
11636 /* First, the case expression must be constant. Values of final
11637 fields are accepted. */
11638 cn = fold (cn);
11639 if ((TREE_CODE (cn) == COMPOUND_EXPR || TREE_CODE (cn) == COMPONENT_REF)
11640 && JDECL_P (TREE_OPERAND (cn, 1))
11641 && FIELD_FINAL (TREE_OPERAND (cn, 1))
11642 && DECL_INITIAL (TREE_OPERAND (cn, 1)))
11643 {
11644 cn = fold_constant_for_init (DECL_INITIAL (TREE_OPERAND (cn, 1)),
11645 TREE_OPERAND (cn, 1));
11646 }
11647 /* Accept final locals too. */
11648 else if (TREE_CODE (cn) == VAR_DECL && DECL_FINAL (cn))
11649 cn = fold_constant_for_init (DECL_INITIAL (cn), cn);
11650
11651 if (!TREE_CONSTANT (cn) && !flag_emit_xref)
11652 {
11653 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
11654 parse_error_context (node, "Constant expression required");
11655 return error_mark_node;
11656 }
11657
11658 nn = ctxp->current_loop;
11659
11660 /* It must be assignable to the type of the switch expression. */
11661 if (!try_builtin_assignconv (NULL_TREE,
11662 TREE_TYPE (TREE_OPERAND (nn, 0)), cn))
11663 {
11664 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
11665 parse_error_context
11666 (wfl_operator,
11667 "Incompatible type for case. Can't convert `%s' to `int'",
11668 lang_printable_name (TREE_TYPE (cn), 0));
11669 return error_mark_node;
11670 }
11671
11672 cn = fold (convert (int_type_node, cn));
11673 TREE_CONSTANT_OVERFLOW (cn) = 0;
11674 CAN_COMPLETE_NORMALLY (cn) = 1;
11675
11676 /* Save the label on a list so that we can later check for
11677 duplicates. */
11678 case_label_list = tree_cons (node, cn, case_label_list);
11679
11680 /* Multiple instance of a case label bearing the same value is
11681 checked later. The case expression is all right so far. */
11682 if (TREE_CODE (cn) == VAR_DECL)
11683 cn = DECL_INITIAL (cn);
11684 TREE_OPERAND (node, 0) = cn;
11685 TREE_TYPE (node) = void_type_node;
11686 CAN_COMPLETE_NORMALLY (node) = 1;
11687 TREE_SIDE_EFFECTS (node) = 1;
11688 break;
11689
11690 case DEFAULT_EXPR:
11691 nn = ctxp->current_loop;
11692 /* Only one default label is allowed per switch statement */
11693 if (SWITCH_HAS_DEFAULT (nn))
11694 {
11695 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
11696 parse_error_context (wfl_operator,
11697 "Duplicate case label: `default'");
11698 return error_mark_node;
11699 }
11700 else
11701 SWITCH_HAS_DEFAULT (nn) = 1;
11702 TREE_TYPE (node) = void_type_node;
11703 TREE_SIDE_EFFECTS (node) = 1;
11704 CAN_COMPLETE_NORMALLY (node) = 1;
11705 break;
11706
11707 case SWITCH_EXPR:
11708 case LOOP_EXPR:
11709 PUSH_LOOP (node);
11710 /* Check whether the loop was enclosed in a labeled
11711 statement. If not, create one, insert the loop in it and
11712 return the node */
11713 nn = patch_loop_statement (node);
11714
11715 /* Anyways, walk the body of the loop */
11716 if (TREE_CODE (node) == LOOP_EXPR)
11717 TREE_OPERAND (node, 0) = java_complete_tree (TREE_OPERAND (node, 0));
11718 /* Switch statement: walk the switch expression and the cases */
11719 else
11720 node = patch_switch_statement (node);
11721
11722 if (node == error_mark_node || TREE_OPERAND (node, 0) == error_mark_node)
11723 nn = error_mark_node;
11724 else
11725 {
11726 TREE_TYPE (nn) = TREE_TYPE (node) = void_type_node;
11727 /* If we returned something different, that's because we
11728 inserted a label. Pop the label too. */
11729 if (nn != node)
11730 {
11731 if (CAN_COMPLETE_NORMALLY (node))
11732 CAN_COMPLETE_NORMALLY (nn) = 1;
11733 POP_LABELED_BLOCK ();
11734 }
11735 }
11736 POP_LOOP ();
11737 return nn;
11738
11739 case EXIT_EXPR:
11740 TREE_OPERAND (node, 0) = java_complete_tree (TREE_OPERAND (node, 0));
11741 return patch_exit_expr (node);
11742
11743 case COND_EXPR:
11744 /* Condition */
11745 TREE_OPERAND (node, 0) = java_complete_tree (TREE_OPERAND (node, 0));
11746 if (TREE_OPERAND (node, 0) == error_mark_node)
11747 return error_mark_node;
11748 /* then-else branches */
11749 TREE_OPERAND (node, 1) = java_complete_tree (TREE_OPERAND (node, 1));
11750 if (TREE_OPERAND (node, 1) == error_mark_node)
11751 return error_mark_node;
11752 TREE_OPERAND (node, 2) = java_complete_tree (TREE_OPERAND (node, 2));
11753 if (TREE_OPERAND (node, 2) == error_mark_node)
11754 return error_mark_node;
11755 return patch_if_else_statement (node);
11756 break;
11757
11758 case CONDITIONAL_EXPR:
11759 /* Condition */
11760 wfl_op1 = TREE_OPERAND (node, 0);
11761 COMPLETE_CHECK_OP_0 (node);
11762 wfl_op2 = TREE_OPERAND (node, 1);
11763 COMPLETE_CHECK_OP_1 (node);
11764 wfl_op3 = TREE_OPERAND (node, 2);
11765 COMPLETE_CHECK_OP_2 (node);
11766 return patch_conditional_expr (node, wfl_op1, wfl_op2);
11767
11768 /* 3- Expression section */
11769 case COMPOUND_EXPR:
11770 wfl_op2 = TREE_OPERAND (node, 1);
11771 TREE_OPERAND (node, 0) = nn =
11772 java_complete_tree (TREE_OPERAND (node, 0));
11773 if (wfl_op2 == empty_stmt_node)
11774 CAN_COMPLETE_NORMALLY (node) = CAN_COMPLETE_NORMALLY (nn);
11775 else
11776 {
11777 if (! CAN_COMPLETE_NORMALLY (nn) && TREE_CODE (nn) != ERROR_MARK)
11778 {
11779 /* An unreachable condition in a do-while statement
11780 is *not* (technically) an unreachable statement. */
11781 nn = wfl_op2;
11782 if (TREE_CODE (nn) == EXPR_WITH_FILE_LOCATION)
11783 nn = EXPR_WFL_NODE (nn);
11784 /* NN can be NULL_TREE exactly when UPDATE is, in
11785 finish_for_loop. */
11786 if (nn != NULL_TREE && TREE_CODE (nn) != EXIT_EXPR)
11787 {
11788 SET_WFL_OPERATOR (wfl_operator, node, wfl_op2);
11789 if (SUPPRESS_UNREACHABLE_ERROR (nn))
11790 {
11791 /* Perhaps this warning should have an
11792 associated flag. The code being compiled is
11793 pedantically correct, but useless. */
11794 parse_warning_context (wfl_operator,
11795 "Unreachable statement");
11796 }
11797 else
11798 parse_error_context (wfl_operator,
11799 "Unreachable statement");
11800 }
11801 }
11802 TREE_OPERAND (node, 1) = java_complete_tree (TREE_OPERAND (node, 1));
11803 if (TREE_OPERAND (node, 1) == error_mark_node)
11804 return error_mark_node;
11805 /* Even though we might allow the case where the first
11806 operand doesn't return normally, we still should compute
11807 CAN_COMPLETE_NORMALLY correctly. */
11808 CAN_COMPLETE_NORMALLY (node)
11809 = (CAN_COMPLETE_NORMALLY (TREE_OPERAND (node, 0))
11810 && CAN_COMPLETE_NORMALLY (TREE_OPERAND (node, 1)));
11811 }
11812 TREE_TYPE (node) = TREE_TYPE (TREE_OPERAND (node, 1));
11813 break;
11814
11815 case RETURN_EXPR:
11816 /* CAN_COMPLETE_NORMALLY (node) = 0; */
11817 return patch_return (node);
11818
11819 case EXPR_WITH_FILE_LOCATION:
11820 if (!EXPR_WFL_NODE (node) /* Or a PRIMARY flag ? */
11821 || TREE_CODE (EXPR_WFL_NODE (node)) == IDENTIFIER_NODE)
11822 {
11823 tree wfl = node;
11824 node = resolve_expression_name (node, NULL);
11825 if (node == error_mark_node)
11826 return node;
11827 /* Keep line number information somewhere were it doesn't
11828 disrupt the completion process. */
11829 if (flag_emit_xref && TREE_CODE (node) != CALL_EXPR)
11830 {
11831 EXPR_WFL_NODE (wfl) = TREE_OPERAND (node, 1);
11832 TREE_OPERAND (node, 1) = wfl;
11833 }
11834 CAN_COMPLETE_NORMALLY (node) = 1;
11835 }
11836 else
11837 {
11838 tree body;
11839 int save_lineno = input_line;
11840 input_line = EXPR_WFL_LINENO (node);
11841 body = java_complete_tree (EXPR_WFL_NODE (node));
11842 input_line = save_lineno;
11843 EXPR_WFL_NODE (node) = body;
11844 TREE_SIDE_EFFECTS (node) = TREE_SIDE_EFFECTS (body);
11845 CAN_COMPLETE_NORMALLY (node) = CAN_COMPLETE_NORMALLY (body);
11846 if (body == empty_stmt_node || TREE_CONSTANT (body))
11847 {
11848 /* Makes it easier to constant fold, detect empty bodies. */
11849 return body;
11850 }
11851 if (body == error_mark_node)
11852 {
11853 /* Its important for the evaluation of assignment that
11854 this mark on the TREE_TYPE is propagated. */
11855 TREE_TYPE (node) = error_mark_node;
11856 return error_mark_node;
11857 }
11858 else
11859 TREE_TYPE (node) = TREE_TYPE (EXPR_WFL_NODE (node));
11860
11861 }
11862 break;
11863
11864 case NEW_ARRAY_EXPR:
11865 /* Patch all the dimensions */
11866 flag = 0;
11867 for (cn = TREE_OPERAND (node, 1); cn; cn = TREE_CHAIN (cn))
11868 {
11869 int location = EXPR_WFL_LINECOL (TREE_VALUE (cn));
11870 tree dim = convert (int_type_node,
11871 java_complete_tree (TREE_VALUE (cn)));
11872 if (dim == error_mark_node)
11873 {
11874 flag = 1;
11875 continue;
11876 }
11877 else
11878 {
11879 TREE_VALUE (cn) = dim;
11880 /* Setup the location of the current dimension, for
11881 later error report. */
11882 TREE_PURPOSE (cn) =
11883 build_expr_wfl (NULL_TREE, input_filename, 0, 0);
11884 EXPR_WFL_LINECOL (TREE_PURPOSE (cn)) = location;
11885 }
11886 }
11887 /* They complete the array creation expression, if no errors
11888 were found. */
11889 CAN_COMPLETE_NORMALLY (node) = 1;
11890 return (flag ? error_mark_node
11891 : force_evaluation_order (patch_newarray (node)));
11892
11893 case NEW_ANONYMOUS_ARRAY_EXPR:
11894 /* Create the array type if necessary. */
11895 if (ANONYMOUS_ARRAY_DIMS_SIG (node))
11896 {
11897 tree type = ANONYMOUS_ARRAY_BASE_TYPE (node);
11898 if (!(type = resolve_type_during_patch (type)))
11899 return error_mark_node;
11900 type = build_array_from_name (type, NULL_TREE,
11901 ANONYMOUS_ARRAY_DIMS_SIG (node), NULL);
11902 ANONYMOUS_ARRAY_BASE_TYPE (node) = build_pointer_type (type);
11903 }
11904 node = patch_new_array_init (ANONYMOUS_ARRAY_BASE_TYPE (node),
11905 ANONYMOUS_ARRAY_INITIALIZER (node));
11906 if (node == error_mark_node)
11907 return error_mark_node;
11908 CAN_COMPLETE_NORMALLY (node) = 1;
11909 return node;
11910
11911 case NEW_CLASS_EXPR:
11912 case CALL_EXPR:
11913 /* Complete function's argument(s) first */
11914 if (complete_function_arguments (node))
11915 return error_mark_node;
11916 else
11917 {
11918 tree decl, wfl = TREE_OPERAND (node, 0);
11919 int in_this = CALL_THIS_CONSTRUCTOR_P (node);
11920 int from_super = (EXPR_WFL_NODE (TREE_OPERAND (node, 0)) ==
11921 super_identifier_node);
11922 tree arguments;
11923 int location = EXPR_WFL_LINECOL (node);
11924
11925 node = patch_method_invocation (node, NULL_TREE, NULL_TREE,
11926 from_super, 0, &decl);
11927 if (node == error_mark_node)
11928 return error_mark_node;
11929
11930 if (TREE_CODE (node) == CALL_EXPR
11931 && TREE_OPERAND (node, 1) != NULL_TREE)
11932 arguments = TREE_VALUE (TREE_OPERAND (node, 1));
11933 else
11934 arguments = NULL_TREE;
11935 check_thrown_exceptions (location, decl, arguments);
11936 /* If we call this(...), register signature and positions */
11937 if (in_this)
11938 DECL_CONSTRUCTOR_CALLS (current_function_decl) =
11939 tree_cons (wfl, decl,
11940 DECL_CONSTRUCTOR_CALLS (current_function_decl));
11941 CAN_COMPLETE_NORMALLY (node) = 1;
11942 return force_evaluation_order (node);
11943 }
11944
11945 case MODIFY_EXPR:
11946 /* Save potential wfls */
11947 wfl_op1 = TREE_OPERAND (node, 0);
11948 TREE_OPERAND (node, 0) = nn = java_complete_lhs (wfl_op1);
11949
11950 if (MODIFY_EXPR_FROM_INITIALIZATION_P (node)
11951 && TREE_CODE (nn) == VAR_DECL && TREE_STATIC (nn)
11952 && DECL_INITIAL (nn) != NULL_TREE)
11953 {
11954 tree value;
11955
11956 value = fold_constant_for_init (nn, nn);
11957
11958 /* When we have a primitype type, or a string and we're not
11959 emitting a class file, we actually don't want to generate
11960 anything for the assignment. */
11961 if (value != NULL_TREE &&
11962 (JPRIMITIVE_TYPE_P (TREE_TYPE (value)) ||
11963 (TREE_TYPE (value) == string_ptr_type_node &&
11964 ! flag_emit_class_files)))
11965 {
11966 /* Prepare node for patch_assignment */
11967 TREE_OPERAND (node, 1) = value;
11968 /* Call patch assignment to verify the assignment */
11969 if (patch_assignment (node, wfl_op1) == error_mark_node)
11970 return error_mark_node;
11971 /* Set DECL_INITIAL properly (a conversion might have
11972 been decided by patch_assignment) and return the
11973 empty statement. */
11974 else
11975 {
11976 tree patched = patch_string (TREE_OPERAND (node, 1));
11977 if (patched)
11978 DECL_INITIAL (nn) = patched;
11979 else
11980 DECL_INITIAL (nn) = TREE_OPERAND (node, 1);
11981 DECL_FIELD_FINAL_IUD (nn) = 1;
11982 return empty_stmt_node;
11983 }
11984 }
11985 if (! flag_emit_class_files)
11986 DECL_INITIAL (nn) = NULL_TREE;
11987 }
11988 wfl_op2 = TREE_OPERAND (node, 1);
11989
11990 if (TREE_OPERAND (node, 0) == error_mark_node)
11991 return error_mark_node;
11992
11993 flag = COMPOUND_ASSIGN_P (wfl_op2);
11994 if (flag)
11995 {
11996 /* This might break when accessing outer field from inner
11997 class. TESTME, FIXME */
11998 tree lvalue = java_stabilize_reference (TREE_OPERAND (node, 0));
11999
12000 /* Hand stabilize the lhs on both places */
12001 TREE_OPERAND (node, 0) = lvalue;
12002 TREE_OPERAND (TREE_OPERAND (node, 1), 0) =
12003 (flag_emit_class_files ? lvalue : save_expr (lvalue));
12004
12005 /* 15.25.2.a: Left hand is not an array access. FIXME */
12006 /* Now complete the RHS. We write it back later on. */
12007 nn = java_complete_tree (TREE_OPERAND (node, 1));
12008
12009 if ((cn = patch_string (nn)))
12010 nn = cn;
12011
12012 /* The last part of the rewrite for E1 op= E2 is to have
12013 E1 = (T)(E1 op E2), with T being the type of E1. */
12014 nn = java_complete_tree (build_cast (EXPR_WFL_LINECOL (wfl_op2),
12015 TREE_TYPE (lvalue), nn));
12016
12017 /* If the assignment is compound and has reference type,
12018 then ensure the LHS has type String and nothing else. */
12019 if (JREFERENCE_TYPE_P (TREE_TYPE (lvalue))
12020 && ! JSTRING_TYPE_P (TREE_TYPE (lvalue)))
12021 parse_error_context (wfl_op2,
12022 "Incompatible type for `+='. Can't convert `%s' to `java.lang.String'",
12023 lang_printable_name (TREE_TYPE (lvalue), 0));
12024
12025 /* 15.25.2.b: Left hand is an array access. FIXME */
12026 }
12027
12028 /* If we're about to patch a NEW_ARRAY_INIT, we call a special
12029 function to complete this RHS. Note that a NEW_ARRAY_INIT
12030 might have been already fully expanded if created as a result
12031 of processing an anonymous array initializer. We avoid doing
12032 the operation twice by testing whether the node already bears
12033 a type. */
12034 else if (TREE_CODE (wfl_op2) == NEW_ARRAY_INIT && !TREE_TYPE (wfl_op2))
12035 nn = patch_new_array_init (TREE_TYPE (TREE_OPERAND (node, 0)),
12036 TREE_OPERAND (node, 1));
12037 /* Otherwise we simply complete the RHS */
12038 else
12039 nn = java_complete_tree (TREE_OPERAND (node, 1));
12040
12041 if (nn == error_mark_node)
12042 return error_mark_node;
12043
12044 /* Write back the RHS as we evaluated it. */
12045 TREE_OPERAND (node, 1) = nn;
12046
12047 /* In case we're handling = with a String as a RHS, we need to
12048 produce a String out of the RHS (it might still be a
12049 STRING_CST or a StringBuffer at this stage */
12050 if ((nn = patch_string (TREE_OPERAND (node, 1))))
12051 TREE_OPERAND (node, 1) = nn;
12052
12053 if ((nn = outer_field_access_fix (wfl_op1, TREE_OPERAND (node, 0),
12054 TREE_OPERAND (node, 1))))
12055 {
12056 /* We return error_mark_node if outer_field_access_fix
12057 detects we write into a final. */
12058 if (nn == error_mark_node)
12059 return error_mark_node;
12060 node = nn;
12061 }
12062 else
12063 {
12064 node = patch_assignment (node, wfl_op1);
12065 if (node == error_mark_node)
12066 return error_mark_node;
12067 /* Reorganize the tree if necessary. */
12068 if (flag && (!JREFERENCE_TYPE_P (TREE_TYPE (node))
12069 || JSTRING_P (TREE_TYPE (node))))
12070 node = java_refold (node);
12071 }
12072
12073 /* Seek to set DECL_INITIAL to a proper value, since it might have
12074 undergone a conversion in patch_assignment. We do that only when
12075 it's necessary to have DECL_INITIAL properly set. */
12076 nn = TREE_OPERAND (node, 0);
12077 if (TREE_CODE (nn) == VAR_DECL
12078 && DECL_INITIAL (nn) && CONSTANT_VALUE_P (DECL_INITIAL (nn))
12079 && FIELD_STATIC (nn) && FIELD_FINAL (nn)
12080 && (JPRIMITIVE_TYPE_P (TREE_TYPE (nn))
12081 || TREE_TYPE (nn) == string_ptr_type_node))
12082 DECL_INITIAL (nn) = TREE_OPERAND (node, 1);
12083
12084 CAN_COMPLETE_NORMALLY (node) = 1;
12085 return node;
12086
12087 case MULT_EXPR:
12088 case PLUS_EXPR:
12089 case MINUS_EXPR:
12090 case LSHIFT_EXPR:
12091 case RSHIFT_EXPR:
12092 case URSHIFT_EXPR:
12093 case BIT_AND_EXPR:
12094 case BIT_XOR_EXPR:
12095 case BIT_IOR_EXPR:
12096 case TRUNC_MOD_EXPR:
12097 case TRUNC_DIV_EXPR:
12098 case RDIV_EXPR:
12099 case TRUTH_ANDIF_EXPR:
12100 case TRUTH_ORIF_EXPR:
12101 case EQ_EXPR:
12102 case NE_EXPR:
12103 case GT_EXPR:
12104 case GE_EXPR:
12105 case LT_EXPR:
12106 case LE_EXPR:
12107 /* Operands 0 and 1 are WFL in certain cases only. patch_binop
12108 knows how to handle those cases. */
12109 wfl_op1 = TREE_OPERAND (node, 0);
12110 wfl_op2 = TREE_OPERAND (node, 1);
12111
12112 CAN_COMPLETE_NORMALLY (node) = 1;
12113 /* Don't complete string nodes if dealing with the PLUS operand. */
12114 if (TREE_CODE (node) != PLUS_EXPR || !JSTRING_P (wfl_op1))
12115 {
12116 nn = java_complete_tree (wfl_op1);
12117 if (nn == error_mark_node)
12118 return error_mark_node;
12119
12120 TREE_OPERAND (node, 0) = nn;
12121 }
12122 if (TREE_CODE (node) != PLUS_EXPR || !JSTRING_P (wfl_op2))
12123 {
12124 nn = java_complete_tree (wfl_op2);
12125 if (nn == error_mark_node)
12126 return error_mark_node;
12127
12128 TREE_OPERAND (node, 1) = nn;
12129 }
12130 return patch_binop (node, wfl_op1, wfl_op2);
12131
12132 case INSTANCEOF_EXPR:
12133 wfl_op1 = TREE_OPERAND (node, 0);
12134 COMPLETE_CHECK_OP_0 (node);
12135 if (flag_emit_xref)
12136 {
12137 TREE_TYPE (node) = boolean_type_node;
12138 return node;
12139 }
12140 return patch_binop (node, wfl_op1, TREE_OPERAND (node, 1));
12141
12142 case UNARY_PLUS_EXPR:
12143 case NEGATE_EXPR:
12144 case TRUTH_NOT_EXPR:
12145 case BIT_NOT_EXPR:
12146 case PREDECREMENT_EXPR:
12147 case PREINCREMENT_EXPR:
12148 case POSTDECREMENT_EXPR:
12149 case POSTINCREMENT_EXPR:
12150 case CONVERT_EXPR:
12151 /* There are cases were wfl_op1 is a WFL. patch_unaryop knows
12152 how to handle those cases. */
12153 wfl_op1 = TREE_OPERAND (node, 0);
12154 CAN_COMPLETE_NORMALLY (node) = 1;
12155 TREE_OPERAND (node, 0) = java_complete_tree (wfl_op1);
12156 if (TREE_OPERAND (node, 0) == error_mark_node)
12157 return error_mark_node;
12158 node = patch_unaryop (node, wfl_op1);
12159 CAN_COMPLETE_NORMALLY (node) = 1;
12160 break;
12161
12162 case ARRAY_REF:
12163 /* There are cases were wfl_op1 is a WFL. patch_array_ref knows
12164 how to handle those cases. */
12165 wfl_op1 = TREE_OPERAND (node, 0);
12166 TREE_OPERAND (node, 0) = java_complete_tree (wfl_op1);
12167 if (TREE_OPERAND (node, 0) == error_mark_node)
12168 return error_mark_node;
12169 if (!flag_emit_class_files && !flag_emit_xref)
12170 TREE_OPERAND (node, 0) = save_expr (TREE_OPERAND (node, 0));
12171 /* The same applies to wfl_op2 */
12172 wfl_op2 = TREE_OPERAND (node, 1);
12173 TREE_OPERAND (node, 1) = java_complete_tree (wfl_op2);
12174 if (TREE_OPERAND (node, 1) == error_mark_node)
12175 return error_mark_node;
12176 if (!flag_emit_class_files && !flag_emit_xref)
12177 TREE_OPERAND (node, 1) = save_expr (TREE_OPERAND (node, 1));
12178 return patch_array_ref (node);
12179
12180 case RECORD_TYPE:
12181 return node;;
12182
12183 case COMPONENT_REF:
12184 /* The first step in the re-write of qualified name handling. FIXME.
12185 So far, this is only to support PRIMTYPE.class -> PRIMCLASS.TYPE. */
12186 TREE_OPERAND (node, 0) = java_complete_tree (TREE_OPERAND (node, 0));
12187 if (TREE_CODE (TREE_OPERAND (node, 0)) == RECORD_TYPE)
12188 {
12189 tree name = TREE_OPERAND (node, 1);
12190 tree field = lookup_field_wrapper (TREE_OPERAND (node, 0), name);
12191 if (field == NULL_TREE)
12192 {
12193 error ("missing static field `%s'", IDENTIFIER_POINTER (name));
12194 return error_mark_node;
12195 }
12196 if (! FIELD_STATIC (field))
12197 {
12198 error ("not a static field `%s'", IDENTIFIER_POINTER (name));
12199 return error_mark_node;
12200 }
12201 return field;
12202 }
12203 else
12204 abort ();
12205 break;
12206
12207 case THIS_EXPR:
12208 /* Can't use THIS in a static environment */
12209 if (!current_this)
12210 {
12211 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
12212 parse_error_context (wfl_operator,
12213 "Keyword `this' used outside allowed context");
12214 TREE_TYPE (node) = error_mark_node;
12215 return error_mark_node;
12216 }
12217 if (ctxp->explicit_constructor_p)
12218 {
12219 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
12220 parse_error_context
12221 (wfl_operator, "Can't reference `this' or `super' before the superclass constructor has been called");
12222 TREE_TYPE (node) = error_mark_node;
12223 return error_mark_node;
12224 }
12225 return current_this;
12226
12227 case CLASS_LITERAL:
12228 CAN_COMPLETE_NORMALLY (node) = 1;
12229 node = patch_incomplete_class_ref (node);
12230 if (node == error_mark_node)
12231 return error_mark_node;
12232 break;
12233
12234 default:
12235 CAN_COMPLETE_NORMALLY (node) = 1;
12236 /* Ok: may be we have a STRING_CST or a crafted `StringBuffer'
12237 and it's time to turn it into the appropriate String object */
12238 if ((nn = patch_string (node)))
12239 node = nn;
12240 else
12241 internal_error ("No case for %s", tree_code_name [TREE_CODE (node)]);
12242 }
12243 return node;
12244 }
12245
12246 /* Complete function call's argument. Return a nonzero value is an
12247 error was found. */
12248
12249 static int
complete_function_arguments(tree node)12250 complete_function_arguments (tree node)
12251 {
12252 int flag = 0;
12253 tree cn;
12254
12255 ctxp->explicit_constructor_p += (CALL_EXPLICIT_CONSTRUCTOR_P (node) ? 1 : 0);
12256 for (cn = TREE_OPERAND (node, 1); cn; cn = TREE_CHAIN (cn))
12257 {
12258 tree wfl = TREE_VALUE (cn), parm, temp;
12259 parm = java_complete_tree (wfl);
12260
12261 if (parm == error_mark_node)
12262 {
12263 flag = 1;
12264 continue;
12265 }
12266 /* If have a string literal that we haven't transformed yet or a
12267 crafted string buffer, as a result of use of the the String
12268 `+' operator. Build `parm.toString()' and expand it. */
12269 if ((temp = patch_string (parm)))
12270 parm = temp;
12271
12272 TREE_VALUE (cn) = parm;
12273 }
12274 ctxp->explicit_constructor_p -= (CALL_EXPLICIT_CONSTRUCTOR_P (node) ? 1 : 0);
12275 return flag;
12276 }
12277
12278 /* Sometimes (for loops and variable initialized during their
12279 declaration), we want to wrap a statement around a WFL and turn it
12280 debugable. */
12281
12282 static tree
build_debugable_stmt(int location,tree stmt)12283 build_debugable_stmt (int location, tree stmt)
12284 {
12285 if (TREE_CODE (stmt) != EXPR_WITH_FILE_LOCATION)
12286 {
12287 stmt = build_expr_wfl (stmt, input_filename, 0, 0);
12288 EXPR_WFL_LINECOL (stmt) = location;
12289 }
12290 JAVA_MAYBE_GENERATE_DEBUG_INFO (stmt);
12291 return stmt;
12292 }
12293
12294 static tree
build_expr_block(tree body,tree decls)12295 build_expr_block (tree body, tree decls)
12296
12297 {
12298 tree node = make_node (BLOCK);
12299 BLOCK_EXPR_DECLS (node) = decls;
12300 BLOCK_EXPR_BODY (node) = body;
12301 if (body)
12302 TREE_TYPE (node) = TREE_TYPE (body);
12303 TREE_SIDE_EFFECTS (node) = 1;
12304 return node;
12305 }
12306
12307 /* Create a new function block and link it appropriately to current
12308 function block chain */
12309
12310 static tree
enter_block(void)12311 enter_block (void)
12312 {
12313 tree b = build_expr_block (NULL_TREE, NULL_TREE);
12314
12315 /* Link block B supercontext to the previous block. The current
12316 function DECL is used as supercontext when enter_a_block is called
12317 for the first time for a given function. The current function body
12318 (DECL_FUNCTION_BODY) is set to be block B. */
12319
12320 tree fndecl = current_function_decl;
12321
12322 if (!fndecl) {
12323 BLOCK_SUPERCONTEXT (b) = current_static_block;
12324 current_static_block = b;
12325 }
12326
12327 else if (!DECL_FUNCTION_BODY (fndecl))
12328 {
12329 BLOCK_SUPERCONTEXT (b) = fndecl;
12330 DECL_FUNCTION_BODY (fndecl) = b;
12331 }
12332 else
12333 {
12334 BLOCK_SUPERCONTEXT (b) = DECL_FUNCTION_BODY (fndecl);
12335 DECL_FUNCTION_BODY (fndecl) = b;
12336 }
12337 return b;
12338 }
12339
12340 /* Exit a block by changing the current function body
12341 (DECL_FUNCTION_BODY) to the current block super context, only if
12342 the block being exited isn't the method's top level one. */
12343
12344 static tree
exit_block(void)12345 exit_block (void)
12346 {
12347 tree b;
12348 if (current_function_decl)
12349 {
12350 b = DECL_FUNCTION_BODY (current_function_decl);
12351 if (BLOCK_SUPERCONTEXT (b) != current_function_decl)
12352 DECL_FUNCTION_BODY (current_function_decl) = BLOCK_SUPERCONTEXT (b);
12353 }
12354 else
12355 {
12356 b = current_static_block;
12357
12358 if (BLOCK_SUPERCONTEXT (b))
12359 current_static_block = BLOCK_SUPERCONTEXT (b);
12360 }
12361 return b;
12362 }
12363
12364 /* Lookup for NAME in the nested function's blocks, all the way up to
12365 the current toplevel one. It complies with Java's local variable
12366 scoping rules. */
12367
12368 static tree
lookup_name_in_blocks(tree name)12369 lookup_name_in_blocks (tree name)
12370 {
12371 tree b = GET_CURRENT_BLOCK (current_function_decl);
12372
12373 while (b != current_function_decl)
12374 {
12375 tree current;
12376
12377 /* Paranoid sanity check. To be removed */
12378 if (TREE_CODE (b) != BLOCK)
12379 abort ();
12380
12381 for (current = BLOCK_EXPR_DECLS (b); current;
12382 current = TREE_CHAIN (current))
12383 if (DECL_NAME (current) == name)
12384 return current;
12385 b = BLOCK_SUPERCONTEXT (b);
12386 }
12387 return NULL_TREE;
12388 }
12389
12390 static void
maybe_absorb_scoping_blocks(void)12391 maybe_absorb_scoping_blocks (void)
12392 {
12393 while (BLOCK_IS_IMPLICIT (GET_CURRENT_BLOCK (current_function_decl)))
12394 {
12395 tree b = exit_block ();
12396 java_method_add_stmt (current_function_decl, b);
12397 SOURCE_FRONTEND_DEBUG (("Absorbing scoping block at line %d", input_line));
12398 }
12399 }
12400
12401
12402 /* This section of the source is reserved to build_* functions that
12403 are building incomplete tree nodes and the patch_* functions that
12404 are completing them. */
12405
12406 /* Wrap a non WFL node around a WFL. */
12407
12408 static tree
build_wfl_wrap(tree node,int location)12409 build_wfl_wrap (tree node, int location)
12410 {
12411 tree wfl, node_to_insert = node;
12412
12413 /* We want to process THIS . xxx symbolically, to keep it consistent
12414 with the way we're processing SUPER. A THIS from a primary as a
12415 different form than a SUPER. Turn THIS into something symbolic */
12416 if (TREE_CODE (node) == THIS_EXPR)
12417 node_to_insert = wfl = build_wfl_node (this_identifier_node);
12418 else
12419 wfl = build_expr_wfl (NULL_TREE, ctxp->filename, 0, 0);
12420
12421 EXPR_WFL_LINECOL (wfl) = location;
12422 EXPR_WFL_QUALIFICATION (wfl) = build_tree_list (node_to_insert, NULL_TREE);
12423 return wfl;
12424 }
12425
12426 /* Build a super() constructor invocation. Returns empty_stmt_node if
12427 we're currently dealing with the class java.lang.Object. */
12428
12429 static tree
build_super_invocation(tree mdecl)12430 build_super_invocation (tree mdecl)
12431 {
12432 if (DECL_CONTEXT (mdecl) == object_type_node)
12433 return empty_stmt_node;
12434 else
12435 {
12436 tree super_wfl = build_wfl_node (super_identifier_node);
12437 tree a = NULL_TREE, t;
12438 /* If we're dealing with an anonymous class, pass the arguments
12439 of the crafted constructor along. */
12440 if (ANONYMOUS_CLASS_P (DECL_CONTEXT (mdecl)))
12441 {
12442 SKIP_THIS_AND_ARTIFICIAL_PARMS (t, mdecl);
12443 for (; t != end_params_node; t = TREE_CHAIN (t))
12444 a = tree_cons (NULL_TREE, build_wfl_node (TREE_PURPOSE (t)), a);
12445 }
12446 return build_method_invocation (super_wfl, a);
12447 }
12448 }
12449
12450 /* Build a SUPER/THIS qualified method invocation. */
12451
12452 static tree
build_this_super_qualified_invocation(int use_this,tree name,tree args,int lloc,int rloc)12453 build_this_super_qualified_invocation (int use_this, tree name, tree args,
12454 int lloc, int rloc)
12455 {
12456 tree invok;
12457 tree wfl =
12458 build_wfl_node (use_this ? this_identifier_node : super_identifier_node);
12459 EXPR_WFL_LINECOL (wfl) = lloc;
12460 invok = build_method_invocation (name, args);
12461 return make_qualified_primary (wfl, invok, rloc);
12462 }
12463
12464 /* Build an incomplete CALL_EXPR node. */
12465
12466 static tree
build_method_invocation(tree name,tree args)12467 build_method_invocation (tree name, tree args)
12468 {
12469 tree call = build (CALL_EXPR, NULL_TREE, name, args, NULL_TREE);
12470 TREE_SIDE_EFFECTS (call) = 1;
12471 EXPR_WFL_LINECOL (call) = EXPR_WFL_LINECOL (name);
12472 return call;
12473 }
12474
12475 /* Build an incomplete new xxx(...) node. */
12476
12477 static tree
build_new_invocation(tree name,tree args)12478 build_new_invocation (tree name, tree args)
12479 {
12480 tree call = build (NEW_CLASS_EXPR, NULL_TREE, name, args, NULL_TREE);
12481 TREE_SIDE_EFFECTS (call) = 1;
12482 EXPR_WFL_LINECOL (call) = EXPR_WFL_LINECOL (name);
12483 return call;
12484 }
12485
12486 /* Build an incomplete assignment expression. */
12487
12488 static tree
build_assignment(int op,int op_location,tree lhs,tree rhs)12489 build_assignment (int op, int op_location, tree lhs, tree rhs)
12490 {
12491 tree assignment;
12492 /* Build the corresponding binop if we deal with a Compound
12493 Assignment operator. Mark the binop sub-tree as part of a
12494 Compound Assignment expression */
12495 if (op != ASSIGN_TK)
12496 {
12497 rhs = build_binop (BINOP_LOOKUP (op), op_location, lhs, rhs);
12498 COMPOUND_ASSIGN_P (rhs) = 1;
12499 }
12500 assignment = build (MODIFY_EXPR, NULL_TREE, lhs, rhs);
12501 TREE_SIDE_EFFECTS (assignment) = 1;
12502 EXPR_WFL_LINECOL (assignment) = op_location;
12503 return assignment;
12504 }
12505
12506 /* Print an INTEGER_CST node as decimal in a static buffer, and return
12507 the buffer. This is used only for string conversion. */
12508 static char *
string_convert_int_cst(tree node)12509 string_convert_int_cst (tree node)
12510 {
12511 /* Long.MIN_VALUE is -9223372036854775808, 20 characters. */
12512 static char buffer[21];
12513
12514 unsigned HOST_WIDE_INT lo = TREE_INT_CST_LOW (node);
12515 unsigned HOST_WIDE_INT hi = TREE_INT_CST_HIGH (node);
12516 char *p = buffer + sizeof (buffer);
12517 int neg = 0;
12518
12519 unsigned HOST_WIDE_INT hibit = (((unsigned HOST_WIDE_INT) 1)
12520 << (HOST_BITS_PER_WIDE_INT - 1));
12521
12522 *--p = '\0';
12523
12524 /* If negative, note the fact and negate the value. */
12525 if ((hi & hibit))
12526 {
12527 lo = ~lo;
12528 hi = ~hi;
12529 if (++lo == 0)
12530 ++hi;
12531 neg = 1;
12532 }
12533
12534 /* Divide by 10 until there are no bits left. */
12535 do
12536 {
12537 unsigned HOST_WIDE_INT acc = 0;
12538 unsigned HOST_WIDE_INT outhi = 0, outlo = 0;
12539 unsigned int i;
12540
12541 /* Use long division to compute the result and the remainder. */
12542 for (i = 0; i < 2 * HOST_BITS_PER_WIDE_INT; ++i)
12543 {
12544 /* Shift a bit into accumulator. */
12545 acc <<= 1;
12546 if ((hi & hibit))
12547 acc |= 1;
12548
12549 /* Shift the value. */
12550 hi <<= 1;
12551 if ((lo & hibit))
12552 hi |= 1;
12553 lo <<= 1;
12554
12555 /* Shift the correct bit into the result. */
12556 outhi <<= 1;
12557 if ((outlo & hibit))
12558 outhi |= 1;
12559 outlo <<= 1;
12560 if (acc >= 10)
12561 {
12562 acc -= 10;
12563 outlo |= 1;
12564 }
12565 }
12566
12567 /* '0' == 060 in Java, but might not be here (think EBCDIC). */
12568 *--p = '\060' + acc;
12569
12570 hi = outhi;
12571 lo = outlo;
12572 }
12573 while (hi || lo);
12574
12575 if (neg)
12576 *--p = '\055'; /* '-' == 055 in Java, but might not be here. */
12577
12578 return p;
12579 }
12580
12581 /* Print an INTEGER_CST node in a static buffer, and return the
12582 buffer. This is used only for error handling. */
12583 char *
print_int_node(tree node)12584 print_int_node (tree node)
12585 {
12586 static char buffer [80];
12587 if (TREE_CONSTANT_OVERFLOW (node))
12588 sprintf (buffer, "<overflow>");
12589
12590 if (TREE_INT_CST_HIGH (node) == 0)
12591 sprintf (buffer, HOST_WIDE_INT_PRINT_UNSIGNED,
12592 TREE_INT_CST_LOW (node));
12593 else if (TREE_INT_CST_HIGH (node) == -1
12594 && TREE_INT_CST_LOW (node) != 0)
12595 sprintf (buffer, "-" HOST_WIDE_INT_PRINT_UNSIGNED,
12596 -TREE_INT_CST_LOW (node));
12597 else
12598 sprintf (buffer, HOST_WIDE_INT_PRINT_DOUBLE_HEX,
12599 TREE_INT_CST_HIGH (node), TREE_INT_CST_LOW (node));
12600
12601 return buffer;
12602 }
12603
12604
12605 /* Return 1 if an assignment to a FINAL is attempted in a non suitable
12606 context. */
12607
12608 /* 15.25 Assignment operators. */
12609
12610 static tree
patch_assignment(tree node,tree wfl_op1)12611 patch_assignment (tree node, tree wfl_op1)
12612 {
12613 tree rhs = TREE_OPERAND (node, 1);
12614 tree lvalue = TREE_OPERAND (node, 0), llvalue;
12615 tree lhs_type = NULL_TREE, rhs_type, new_rhs = NULL_TREE;
12616 int error_found = 0;
12617 int lvalue_from_array = 0;
12618 int is_return = 0;
12619
12620 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
12621
12622 /* Lhs can be a named variable */
12623 if (JDECL_P (lvalue))
12624 {
12625 lhs_type = TREE_TYPE (lvalue);
12626 }
12627 /* Or Lhs can be an array access. */
12628 else if (TREE_CODE (lvalue) == ARRAY_REF)
12629 {
12630 lhs_type = TREE_TYPE (lvalue);
12631 lvalue_from_array = 1;
12632 }
12633 /* Or a field access */
12634 else if (TREE_CODE (lvalue) == COMPONENT_REF)
12635 lhs_type = TREE_TYPE (lvalue);
12636 /* Or a function return slot */
12637 else if (TREE_CODE (lvalue) == RESULT_DECL)
12638 {
12639 /* If the return type is an integral type, then we create the
12640 RESULT_DECL with a promoted type, but we need to do these
12641 checks against the unpromoted type to ensure type safety. So
12642 here we look at the real type, not the type of the decl we
12643 are modifying. */
12644 lhs_type = TREE_TYPE (TREE_TYPE (current_function_decl));
12645 is_return = 1;
12646 }
12647 /* Otherwise, we might want to try to write into an optimized static
12648 final, this is an of a different nature, reported further on. */
12649 else if (TREE_CODE (wfl_op1) == EXPR_WITH_FILE_LOCATION
12650 && resolve_expression_name (wfl_op1, &llvalue))
12651 {
12652 lhs_type = TREE_TYPE (lvalue);
12653 }
12654 else
12655 {
12656 parse_error_context (wfl_op1, "Invalid left hand side of assignment");
12657 error_found = 1;
12658 }
12659
12660 rhs_type = TREE_TYPE (rhs);
12661
12662 /* 5.1 Try the assignment conversion for builtin type. */
12663 new_rhs = try_builtin_assignconv (wfl_op1, lhs_type, rhs);
12664
12665 /* 5.2 If it failed, try a reference conversion */
12666 if (!new_rhs && (new_rhs = try_reference_assignconv (lhs_type, rhs)))
12667 lhs_type = promote_type (rhs_type);
12668
12669 /* 15.25.2 If we have a compound assignment, convert RHS into the
12670 type of the LHS */
12671 else if (COMPOUND_ASSIGN_P (TREE_OPERAND (node, 1)))
12672 new_rhs = convert (lhs_type, rhs);
12673
12674 /* Explicit cast required. This is an error */
12675 if (!new_rhs)
12676 {
12677 char *t1 = xstrdup (lang_printable_name (TREE_TYPE (rhs), 0));
12678 char *t2 = xstrdup (lang_printable_name (lhs_type, 0));
12679 tree wfl;
12680 char operation [32]; /* Max size known */
12681
12682 /* If the assignment is part of a declaration, we use the WFL of
12683 the declared variable to point out the error and call it a
12684 declaration problem. If the assignment is a genuine =
12685 operator, we call is a operator `=' problem, otherwise we
12686 call it an assignment problem. In both of these last cases,
12687 we use the WFL of the operator to indicate the error. */
12688
12689 if (MODIFY_EXPR_FROM_INITIALIZATION_P (node))
12690 {
12691 wfl = wfl_op1;
12692 strcpy (operation, "declaration");
12693 }
12694 else
12695 {
12696 wfl = wfl_operator;
12697 if (COMPOUND_ASSIGN_P (TREE_OPERAND (node, 1)))
12698 strcpy (operation, "assignment");
12699 else if (is_return)
12700 strcpy (operation, "`return'");
12701 else
12702 strcpy (operation, "`='");
12703 }
12704
12705 if (!valid_cast_to_p (rhs_type, lhs_type))
12706 parse_error_context
12707 (wfl, "Incompatible type for %s. Can't convert `%s' to `%s'",
12708 operation, t1, t2);
12709 else
12710 parse_error_context (wfl, "Incompatible type for %s. Explicit cast needed to convert `%s' to `%s'",
12711 operation, t1, t2);
12712 free (t1); free (t2);
12713 error_found = 1;
12714 }
12715
12716 if (error_found)
12717 return error_mark_node;
12718
12719 /* If we're processing a `return' statement, promote the actual type
12720 to the promoted type. */
12721 if (is_return)
12722 new_rhs = convert (TREE_TYPE (lvalue), new_rhs);
12723
12724 /* 10.10: Array Store Exception runtime check */
12725 if (!flag_emit_class_files
12726 && !flag_emit_xref
12727 && lvalue_from_array
12728 && JREFERENCE_TYPE_P (TYPE_ARRAY_ELEMENT (lhs_type)))
12729 {
12730 tree array, store_check, base, index_expr;
12731
12732 /* Save RHS so that it doesn't get re-evaluated by the store check. */
12733 new_rhs = save_expr (new_rhs);
12734
12735 /* Get the INDIRECT_REF. */
12736 array = TREE_OPERAND (TREE_OPERAND (lvalue, 0), 0);
12737 /* Get the array pointer expr. */
12738 array = TREE_OPERAND (array, 0);
12739 store_check = build_java_arraystore_check (array, new_rhs);
12740
12741 index_expr = TREE_OPERAND (lvalue, 1);
12742
12743 if (TREE_CODE (index_expr) == COMPOUND_EXPR)
12744 {
12745 /* A COMPOUND_EXPR here is a bounds check. The bounds check must
12746 happen before the store check, so prepare to insert the store
12747 check within the second operand of the existing COMPOUND_EXPR. */
12748 base = index_expr;
12749 }
12750 else
12751 base = lvalue;
12752
12753 index_expr = TREE_OPERAND (base, 1);
12754 TREE_OPERAND (base, 1) = build (COMPOUND_EXPR, TREE_TYPE (index_expr),
12755 store_check, index_expr);
12756 }
12757
12758 /* Final locals can be used as case values in switch
12759 statement. Prepare them for this eventuality. */
12760 if (TREE_CODE (lvalue) == VAR_DECL
12761 && DECL_FINAL (lvalue)
12762 && TREE_CONSTANT (new_rhs)
12763 && IDENTIFIER_LOCAL_VALUE (DECL_NAME (lvalue))
12764 && JINTEGRAL_TYPE_P (TREE_TYPE (lvalue))
12765 )
12766 {
12767 TREE_CONSTANT (lvalue) = 1;
12768 DECL_INITIAL (lvalue) = new_rhs;
12769 }
12770
12771 /* Copy the rhs if it's a reference. */
12772 if (! flag_check_references && ! flag_emit_class_files && optimize > 0)
12773 {
12774 switch (TREE_CODE (new_rhs))
12775 {
12776 case ARRAY_REF:
12777 case INDIRECT_REF:
12778 case COMPONENT_REF:
12779 /* Transform a = foo.bar
12780 into a = { int tmp; tmp = foo.bar; tmp; ).
12781 We need to ensure that if a read from memory fails
12782 because of a NullPointerException, a destination variable
12783 will remain unchanged. An explicit temporary does what
12784 we need.
12785
12786 If flag_check_references is set, this is unnecessary
12787 because we'll check each reference before doing any
12788 reads. If optimize is not set the result will never be
12789 written to a stack slot that contains the LHS. */
12790 {
12791 tree tmp = build_decl (VAR_DECL, get_identifier ("<tmp>"),
12792 TREE_TYPE (new_rhs));
12793 tree block = make_node (BLOCK);
12794 tree assignment
12795 = build (MODIFY_EXPR, TREE_TYPE (new_rhs), tmp, fold (new_rhs));
12796 DECL_CONTEXT (tmp) = current_function_decl;
12797 TREE_TYPE (block) = TREE_TYPE (new_rhs);
12798 BLOCK_VARS (block) = tmp;
12799 BLOCK_EXPR_BODY (block)
12800 = build (COMPOUND_EXPR, TREE_TYPE (new_rhs), assignment, tmp);
12801 TREE_SIDE_EFFECTS (block) = 1;
12802 new_rhs = block;
12803 }
12804 break;
12805 default:
12806 break;
12807 }
12808 }
12809
12810 TREE_OPERAND (node, 0) = lvalue;
12811 TREE_OPERAND (node, 1) = new_rhs;
12812 TREE_TYPE (node) = lhs_type;
12813 return node;
12814 }
12815
12816 /* Check that type SOURCE can be cast into type DEST. If the cast
12817 can't occur at all, return NULL; otherwise, return a possibly
12818 modified rhs. */
12819
12820 static tree
try_reference_assignconv(tree lhs_type,tree rhs)12821 try_reference_assignconv (tree lhs_type, tree rhs)
12822 {
12823 tree new_rhs = NULL_TREE;
12824 tree rhs_type = TREE_TYPE (rhs);
12825
12826 if (!JPRIMITIVE_TYPE_P (rhs_type) && JREFERENCE_TYPE_P (lhs_type))
12827 {
12828 /* `null' may be assigned to any reference type */
12829 if (rhs == null_pointer_node)
12830 new_rhs = null_pointer_node;
12831 /* Try the reference assignment conversion */
12832 else if (valid_ref_assignconv_cast_p (rhs_type, lhs_type, 0))
12833 new_rhs = rhs;
12834 /* This is a magic assignment that we process differently */
12835 else if (TREE_CODE (rhs) == JAVA_EXC_OBJ_EXPR)
12836 new_rhs = rhs;
12837 }
12838 return new_rhs;
12839 }
12840
12841 /* Check that RHS can be converted into LHS_TYPE by the assignment
12842 conversion (5.2), for the cases of RHS being a builtin type. Return
12843 NULL_TREE if the conversion fails or if because RHS isn't of a
12844 builtin type. Return a converted RHS if the conversion is possible. */
12845
12846 static tree
try_builtin_assignconv(tree wfl_op1,tree lhs_type,tree rhs)12847 try_builtin_assignconv (tree wfl_op1, tree lhs_type, tree rhs)
12848 {
12849 tree new_rhs = NULL_TREE;
12850 tree rhs_type = TREE_TYPE (rhs);
12851
12852 /* Handle boolean specially. */
12853 if (TREE_CODE (rhs_type) == BOOLEAN_TYPE
12854 || TREE_CODE (lhs_type) == BOOLEAN_TYPE)
12855 {
12856 if (TREE_CODE (rhs_type) == BOOLEAN_TYPE
12857 && TREE_CODE (lhs_type) == BOOLEAN_TYPE)
12858 new_rhs = rhs;
12859 }
12860
12861 /* 5.1.1 Try Identity Conversion,
12862 5.1.2 Try Widening Primitive Conversion */
12863 else if (valid_builtin_assignconv_identity_widening_p (lhs_type, rhs_type))
12864 new_rhs = convert (lhs_type, rhs);
12865
12866 /* Try a narrowing primitive conversion (5.1.3):
12867 - expression is a constant expression of type byte, short, char,
12868 or int, AND
12869 - variable is byte, short or char AND
12870 - The value of the expression is representable in the type of the
12871 variable */
12872 else if ((rhs_type == byte_type_node || rhs_type == short_type_node
12873 || rhs_type == char_type_node || rhs_type == int_type_node)
12874 && TREE_CONSTANT (rhs)
12875 && (lhs_type == byte_type_node || lhs_type == char_type_node
12876 || lhs_type == short_type_node))
12877 {
12878 if (int_fits_type_p (rhs, lhs_type))
12879 new_rhs = convert (lhs_type, rhs);
12880 else if (wfl_op1) /* Might be called with a NULL */
12881 parse_warning_context
12882 (wfl_op1, "Constant expression `%s' too wide for narrowing primitive conversion to `%s'",
12883 print_int_node (rhs), lang_printable_name (lhs_type, 0));
12884 /* Reported a warning that will turn into an error further
12885 down, so we don't return */
12886 }
12887
12888 return new_rhs;
12889 }
12890
12891 /* Return 1 if RHS_TYPE can be converted to LHS_TYPE by identity
12892 conversion (5.1.1) or widening primitive conversion (5.1.2). Return
12893 0 is the conversion test fails. This implements parts the method
12894 invocation conversion (5.3). */
12895
12896 static int
valid_builtin_assignconv_identity_widening_p(tree lhs_type,tree rhs_type)12897 valid_builtin_assignconv_identity_widening_p (tree lhs_type, tree rhs_type)
12898 {
12899 /* 5.1.1: This is the identity conversion part. */
12900 if (lhs_type == rhs_type)
12901 return 1;
12902
12903 /* Reject non primitive types and boolean conversions. */
12904 if (!JNUMERIC_TYPE_P (lhs_type) || !JNUMERIC_TYPE_P (rhs_type))
12905 return 0;
12906
12907 /* 5.1.2: widening primitive conversion. byte, even if it's smaller
12908 than a char can't be converted into a char. Short can't too, but
12909 the < test below takes care of that */
12910 if (lhs_type == char_type_node && rhs_type == byte_type_node)
12911 return 0;
12912
12913 /* Accept all promoted type here. Note, we can't use <= in the test
12914 below, because we still need to bounce out assignments of short
12915 to char and the likes */
12916 if (lhs_type == int_type_node
12917 && (rhs_type == promoted_byte_type_node
12918 || rhs_type == promoted_short_type_node
12919 || rhs_type == promoted_char_type_node
12920 || rhs_type == promoted_boolean_type_node))
12921 return 1;
12922
12923 /* From here, an integral is widened if its precision is smaller
12924 than the precision of the LHS or if the LHS is a floating point
12925 type, or the RHS is a float and the RHS a double. */
12926 if ((JINTEGRAL_TYPE_P (rhs_type) && JINTEGRAL_TYPE_P (lhs_type)
12927 && (TYPE_PRECISION (rhs_type) < TYPE_PRECISION (lhs_type)))
12928 || (JINTEGRAL_TYPE_P (rhs_type) && JFLOAT_TYPE_P (lhs_type))
12929 || (rhs_type == float_type_node && lhs_type == double_type_node))
12930 return 1;
12931
12932 return 0;
12933 }
12934
12935 /* Check that something of SOURCE type can be assigned or cast to
12936 something of DEST type at runtime. Return 1 if the operation is
12937 valid, 0 otherwise. If CAST is set to 1, we're treating the case
12938 were SOURCE is cast into DEST, which borrows a lot of the
12939 assignment check. */
12940
12941 static int
valid_ref_assignconv_cast_p(tree source,tree dest,int cast)12942 valid_ref_assignconv_cast_p (tree source, tree dest, int cast)
12943 {
12944 /* SOURCE or DEST might be null if not from a declared entity. */
12945 if (!source || !dest)
12946 return 0;
12947 if (JNULLP_TYPE_P (source))
12948 return 1;
12949 if (TREE_CODE (source) == POINTER_TYPE)
12950 source = TREE_TYPE (source);
12951 if (TREE_CODE (dest) == POINTER_TYPE)
12952 dest = TREE_TYPE (dest);
12953
12954 /* If source and dest are being compiled from bytecode, they may need to
12955 be loaded. */
12956 if (CLASS_P (source) && !CLASS_LOADED_P (source))
12957 {
12958 load_class (source, 1);
12959 safe_layout_class (source);
12960 }
12961 if (CLASS_P (dest) && !CLASS_LOADED_P (dest))
12962 {
12963 load_class (dest, 1);
12964 safe_layout_class (dest);
12965 }
12966
12967 /* Case where SOURCE is a class type */
12968 if (TYPE_CLASS_P (source))
12969 {
12970 if (TYPE_CLASS_P (dest))
12971 return (source == dest
12972 || inherits_from_p (source, dest)
12973 || (cast && inherits_from_p (dest, source)));
12974 if (TYPE_INTERFACE_P (dest))
12975 {
12976 /* If doing a cast and SOURCE is final, the operation is
12977 always correct a compile time (because even if SOURCE
12978 does not implement DEST, a subclass of SOURCE might). */
12979 if (cast && !CLASS_FINAL (TYPE_NAME (source)))
12980 return 1;
12981 /* Otherwise, SOURCE must implement DEST */
12982 return interface_of_p (dest, source);
12983 }
12984 /* DEST is an array, cast permitted if SOURCE is of Object type */
12985 return (cast && source == object_type_node ? 1 : 0);
12986 }
12987 if (TYPE_INTERFACE_P (source))
12988 {
12989 if (TYPE_CLASS_P (dest))
12990 {
12991 /* If not casting, DEST must be the Object type */
12992 if (!cast)
12993 return dest == object_type_node;
12994 /* We're doing a cast. The cast is always valid is class
12995 DEST is not final, otherwise, DEST must implement SOURCE */
12996 else if (!CLASS_FINAL (TYPE_NAME (dest)))
12997 return 1;
12998 else
12999 return interface_of_p (source, dest);
13000 }
13001 if (TYPE_INTERFACE_P (dest))
13002 {
13003 /* If doing a cast, then if SOURCE and DEST contain method
13004 with the same signature but different return type, then
13005 this is a (compile time) error */
13006 if (cast)
13007 {
13008 tree method_source, method_dest;
13009 tree source_type;
13010 tree source_sig;
13011 tree source_name;
13012 for (method_source = TYPE_METHODS (source); method_source;
13013 method_source = TREE_CHAIN (method_source))
13014 {
13015 source_sig =
13016 build_java_argument_signature (TREE_TYPE (method_source));
13017 source_type = TREE_TYPE (TREE_TYPE (method_source));
13018 source_name = DECL_NAME (method_source);
13019 for (method_dest = TYPE_METHODS (dest);
13020 method_dest; method_dest = TREE_CHAIN (method_dest))
13021 if (source_sig ==
13022 build_java_argument_signature (TREE_TYPE (method_dest))
13023 && source_name == DECL_NAME (method_dest)
13024 && source_type != TREE_TYPE (TREE_TYPE (method_dest)))
13025 return 0;
13026 }
13027 return 1;
13028 }
13029 else
13030 return source == dest || interface_of_p (dest, source);
13031 }
13032 else
13033 {
13034 /* Array */
13035 return (cast
13036 && (DECL_NAME (TYPE_NAME (source))
13037 == java_lang_cloneable_identifier_node
13038 || (DECL_NAME (TYPE_NAME (source))
13039 == java_io_serializable_identifier_node)));
13040 }
13041 }
13042 if (TYPE_ARRAY_P (source))
13043 {
13044 if (TYPE_CLASS_P (dest))
13045 return dest == object_type_node;
13046 /* Can't cast an array to an interface unless the interface is
13047 java.lang.Cloneable or java.io.Serializable. */
13048 if (TYPE_INTERFACE_P (dest))
13049 return (DECL_NAME (TYPE_NAME (dest))
13050 == java_lang_cloneable_identifier_node
13051 || (DECL_NAME (TYPE_NAME (dest))
13052 == java_io_serializable_identifier_node));
13053 else /* Arrays */
13054 {
13055 tree source_element_type = TYPE_ARRAY_ELEMENT (source);
13056 tree dest_element_type = TYPE_ARRAY_ELEMENT (dest);
13057
13058 /* In case of severe errors, they turn out null */
13059 if (!dest_element_type || !source_element_type)
13060 return 0;
13061 if (source_element_type == dest_element_type)
13062 return 1;
13063 return valid_ref_assignconv_cast_p (source_element_type,
13064 dest_element_type, cast);
13065 }
13066 return 0;
13067 }
13068 return 0;
13069 }
13070
13071 static int
valid_cast_to_p(tree source,tree dest)13072 valid_cast_to_p (tree source, tree dest)
13073 {
13074 if (TREE_CODE (source) == POINTER_TYPE)
13075 source = TREE_TYPE (source);
13076 if (TREE_CODE (dest) == POINTER_TYPE)
13077 dest = TREE_TYPE (dest);
13078
13079 if (TREE_CODE (source) == RECORD_TYPE && TREE_CODE (dest) == RECORD_TYPE)
13080 return valid_ref_assignconv_cast_p (source, dest, 1);
13081
13082 else if (JNUMERIC_TYPE_P (source) && JNUMERIC_TYPE_P (dest))
13083 return 1;
13084
13085 else if (TREE_CODE (source) == BOOLEAN_TYPE
13086 && TREE_CODE (dest) == BOOLEAN_TYPE)
13087 return 1;
13088
13089 return 0;
13090 }
13091
13092 static tree
do_unary_numeric_promotion(tree arg)13093 do_unary_numeric_promotion (tree arg)
13094 {
13095 tree type = TREE_TYPE (arg);
13096 if ((TREE_CODE (type) == INTEGER_TYPE && TYPE_PRECISION (type) < 32)
13097 || TREE_CODE (type) == CHAR_TYPE)
13098 arg = convert (int_type_node, arg);
13099 return arg;
13100 }
13101
13102 /* Return a nonzero value if SOURCE can be converted into DEST using
13103 the method invocation conversion rule (5.3). */
13104 static int
valid_method_invocation_conversion_p(tree dest,tree source)13105 valid_method_invocation_conversion_p (tree dest, tree source)
13106 {
13107 return ((JPRIMITIVE_TYPE_P (source) && JPRIMITIVE_TYPE_P (dest)
13108 && valid_builtin_assignconv_identity_widening_p (dest, source))
13109 || ((JREFERENCE_TYPE_P (source) || JNULLP_TYPE_P (source))
13110 && (JREFERENCE_TYPE_P (dest) || JNULLP_TYPE_P (dest))
13111 && valid_ref_assignconv_cast_p (source, dest, 0)));
13112 }
13113
13114 /* Build an incomplete binop expression. */
13115
13116 static tree
build_binop(enum tree_code op,int op_location,tree op1,tree op2)13117 build_binop (enum tree_code op, int op_location, tree op1, tree op2)
13118 {
13119 tree binop = build (op, NULL_TREE, op1, op2);
13120 TREE_SIDE_EFFECTS (binop) = 1;
13121 /* Store the location of the operator, for better error report. The
13122 string of the operator will be rebuild based on the OP value. */
13123 EXPR_WFL_LINECOL (binop) = op_location;
13124 return binop;
13125 }
13126
13127 /* Build the string of the operator retained by NODE. If NODE is part
13128 of a compound expression, add an '=' at the end of the string. This
13129 function is called when an error needs to be reported on an
13130 operator. The string is returned as a pointer to a static character
13131 buffer. */
13132
13133 static char *
operator_string(tree node)13134 operator_string (tree node)
13135 {
13136 #define BUILD_OPERATOR_STRING(S) \
13137 { \
13138 sprintf (buffer, "%s%s", S, (COMPOUND_ASSIGN_P (node) ? "=" : "")); \
13139 return buffer; \
13140 }
13141
13142 static char buffer [10];
13143 switch (TREE_CODE (node))
13144 {
13145 case MULT_EXPR: BUILD_OPERATOR_STRING ("*");
13146 case RDIV_EXPR: BUILD_OPERATOR_STRING ("/");
13147 case TRUNC_MOD_EXPR: BUILD_OPERATOR_STRING ("%");
13148 case PLUS_EXPR: BUILD_OPERATOR_STRING ("+");
13149 case MINUS_EXPR: BUILD_OPERATOR_STRING ("-");
13150 case LSHIFT_EXPR: BUILD_OPERATOR_STRING ("<<");
13151 case RSHIFT_EXPR: BUILD_OPERATOR_STRING (">>");
13152 case URSHIFT_EXPR: BUILD_OPERATOR_STRING (">>>");
13153 case BIT_AND_EXPR: BUILD_OPERATOR_STRING ("&");
13154 case BIT_XOR_EXPR: BUILD_OPERATOR_STRING ("^");
13155 case BIT_IOR_EXPR: BUILD_OPERATOR_STRING ("|");
13156 case TRUTH_ANDIF_EXPR: BUILD_OPERATOR_STRING ("&&");
13157 case TRUTH_ORIF_EXPR: BUILD_OPERATOR_STRING ("||");
13158 case EQ_EXPR: BUILD_OPERATOR_STRING ("==");
13159 case NE_EXPR: BUILD_OPERATOR_STRING ("!=");
13160 case GT_EXPR: BUILD_OPERATOR_STRING (">");
13161 case GE_EXPR: BUILD_OPERATOR_STRING (">=");
13162 case LT_EXPR: BUILD_OPERATOR_STRING ("<");
13163 case LE_EXPR: BUILD_OPERATOR_STRING ("<=");
13164 case UNARY_PLUS_EXPR: BUILD_OPERATOR_STRING ("+");
13165 case NEGATE_EXPR: BUILD_OPERATOR_STRING ("-");
13166 case TRUTH_NOT_EXPR: BUILD_OPERATOR_STRING ("!");
13167 case BIT_NOT_EXPR: BUILD_OPERATOR_STRING ("~");
13168 case PREINCREMENT_EXPR: /* Fall through */
13169 case POSTINCREMENT_EXPR: BUILD_OPERATOR_STRING ("++");
13170 case PREDECREMENT_EXPR: /* Fall through */
13171 case POSTDECREMENT_EXPR: BUILD_OPERATOR_STRING ("--");
13172 default:
13173 internal_error ("unregistered operator %s",
13174 tree_code_name [TREE_CODE (node)]);
13175 }
13176 return NULL;
13177 #undef BUILD_OPERATOR_STRING
13178 }
13179
13180 /* Return 1 if VAR_ACCESS1 is equivalent to VAR_ACCESS2. */
13181
13182 static int
java_decl_equiv(tree var_acc1,tree var_acc2)13183 java_decl_equiv (tree var_acc1, tree var_acc2)
13184 {
13185 if (JDECL_P (var_acc1))
13186 return (var_acc1 == var_acc2);
13187
13188 return (TREE_CODE (var_acc1) == COMPONENT_REF
13189 && TREE_CODE (var_acc2) == COMPONENT_REF
13190 && TREE_OPERAND (TREE_OPERAND (var_acc1, 0), 0)
13191 == TREE_OPERAND (TREE_OPERAND (var_acc2, 0), 0)
13192 && TREE_OPERAND (var_acc1, 1) == TREE_OPERAND (var_acc2, 1));
13193 }
13194
13195 /* Return a nonzero value if CODE is one of the operators that can be
13196 used in conjunction with the `=' operator in a compound assignment. */
13197
13198 static int
binop_compound_p(enum tree_code code)13199 binop_compound_p (enum tree_code code)
13200 {
13201 int i;
13202 for (i = 0; i < BINOP_COMPOUND_CANDIDATES; i++)
13203 if (binop_lookup [i] == code)
13204 break;
13205
13206 return i < BINOP_COMPOUND_CANDIDATES;
13207 }
13208
13209 /* Reorganize after a fold to get SAVE_EXPR to generate what we want. */
13210
13211 static tree
java_refold(tree t)13212 java_refold (tree t)
13213 {
13214 tree c, b, ns, decl;
13215
13216 if (TREE_CODE (t) != MODIFY_EXPR)
13217 return t;
13218
13219 c = TREE_OPERAND (t, 1);
13220 if (! (c && TREE_CODE (c) == COMPOUND_EXPR
13221 && TREE_CODE (TREE_OPERAND (c, 0)) == MODIFY_EXPR
13222 && binop_compound_p (TREE_CODE (TREE_OPERAND (c, 1)))))
13223 return t;
13224
13225 /* Now the left branch of the binary operator. */
13226 b = TREE_OPERAND (TREE_OPERAND (c, 1), 0);
13227 if (! (b && TREE_CODE (b) == NOP_EXPR
13228 && TREE_CODE (TREE_OPERAND (b, 0)) == SAVE_EXPR))
13229 return t;
13230
13231 ns = TREE_OPERAND (TREE_OPERAND (b, 0), 0);
13232 if (! (ns && TREE_CODE (ns) == NOP_EXPR
13233 && TREE_CODE (TREE_OPERAND (ns, 0)) == SAVE_EXPR))
13234 return t;
13235
13236 decl = TREE_OPERAND (TREE_OPERAND (ns, 0), 0);
13237 if ((JDECL_P (decl) || TREE_CODE (decl) == COMPONENT_REF)
13238 /* It's got to be the an equivalent decl */
13239 && java_decl_equiv (decl, TREE_OPERAND (TREE_OPERAND (c, 0), 0)))
13240 {
13241 /* Shorten the NOP_EXPR/SAVE_EXPR path. */
13242 TREE_OPERAND (TREE_OPERAND (c, 1), 0) = TREE_OPERAND (ns, 0);
13243 /* Substitute the COMPOUND_EXPR by the BINOP_EXPR */
13244 TREE_OPERAND (t, 1) = TREE_OPERAND (c, 1);
13245 /* Change the right part of the BINOP_EXPR */
13246 TREE_OPERAND (TREE_OPERAND (t, 1), 1) = TREE_OPERAND (c, 0);
13247 }
13248
13249 return t;
13250 }
13251
13252 /* Binary operators (15.16 up to 15.18). We return error_mark_node on
13253 errors but we modify NODE so that it contains the type computed
13254 according to the expression, when it's fixed. Otherwise, we write
13255 error_mark_node as the type. It allows us to further the analysis
13256 of remaining nodes and detects more errors in certain cases. */
13257
13258 static tree
patch_binop(tree node,tree wfl_op1,tree wfl_op2)13259 patch_binop (tree node, tree wfl_op1, tree wfl_op2)
13260 {
13261 tree op1 = TREE_OPERAND (node, 0);
13262 tree op2 = TREE_OPERAND (node, 1);
13263 tree op1_type = TREE_TYPE (op1);
13264 tree op2_type = TREE_TYPE (op2);
13265 tree prom_type = NULL_TREE, cn;
13266 enum tree_code code = TREE_CODE (node);
13267
13268 /* If 1, tell the routine that we have to return error_mark_node
13269 after checking for the initialization of the RHS */
13270 int error_found = 0;
13271
13272 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
13273
13274 /* If either op<n>_type are NULL, this might be early signs of an
13275 error situation, unless it's too early to tell (in case we're
13276 handling a `+', `==', `!=' or `instanceof'.) We want to set op<n>_type
13277 correctly so the error can be later on reported accurately. */
13278 if (! (code == PLUS_EXPR || code == NE_EXPR
13279 || code == EQ_EXPR || code == INSTANCEOF_EXPR))
13280 {
13281 tree n;
13282 if (! op1_type)
13283 {
13284 n = java_complete_tree (op1);
13285 op1_type = TREE_TYPE (n);
13286 }
13287 if (! op2_type)
13288 {
13289 n = java_complete_tree (op2);
13290 op2_type = TREE_TYPE (n);
13291 }
13292 }
13293
13294 switch (code)
13295 {
13296 /* 15.16 Multiplicative operators */
13297 case MULT_EXPR: /* 15.16.1 Multiplication Operator * */
13298 case RDIV_EXPR: /* 15.16.2 Division Operator / */
13299 case TRUNC_DIV_EXPR: /* 15.16.2 Integral type Division Operator / */
13300 case TRUNC_MOD_EXPR: /* 15.16.3 Remainder operator % */
13301 if (!JNUMERIC_TYPE_P (op1_type) || !JNUMERIC_TYPE_P (op2_type))
13302 {
13303 if (!JNUMERIC_TYPE_P (op1_type))
13304 ERROR_CANT_CONVERT_TO_NUMERIC (wfl_operator, node, op1_type);
13305 if (!JNUMERIC_TYPE_P (op2_type) && (op1_type != op2_type))
13306 ERROR_CANT_CONVERT_TO_NUMERIC (wfl_operator, node, op2_type);
13307 TREE_TYPE (node) = error_mark_node;
13308 error_found = 1;
13309 break;
13310 }
13311 prom_type = binary_numeric_promotion (op1_type, op2_type, &op1, &op2);
13312
13313 /* Detect integral division by zero */
13314 if ((code == RDIV_EXPR || code == TRUNC_MOD_EXPR)
13315 && TREE_CODE (prom_type) == INTEGER_TYPE
13316 && (op2 == integer_zero_node || op2 == long_zero_node ||
13317 (TREE_CODE (op2) == INTEGER_CST &&
13318 ! TREE_INT_CST_LOW (op2) && ! TREE_INT_CST_HIGH (op2))))
13319 {
13320 parse_warning_context (wfl_operator, "Evaluating this expression will result in an arithmetic exception being thrown");
13321 TREE_CONSTANT (node) = 0;
13322 }
13323
13324 /* Change the division operator if necessary */
13325 if (code == RDIV_EXPR && TREE_CODE (prom_type) == INTEGER_TYPE)
13326 TREE_SET_CODE (node, TRUNC_DIV_EXPR);
13327
13328 /* Before divisions as is disappear, try to simplify and bail if
13329 applicable, otherwise we won't perform even simple
13330 simplifications like (1-1)/3. We can't do that with floating
13331 point number, folds can't handle them at this stage. */
13332 if (code == RDIV_EXPR && TREE_CONSTANT (op1) && TREE_CONSTANT (op2)
13333 && JINTEGRAL_TYPE_P (op1) && JINTEGRAL_TYPE_P (op2))
13334 {
13335 TREE_TYPE (node) = prom_type;
13336 node = fold (node);
13337 if (TREE_CODE (node) != code)
13338 return node;
13339 }
13340
13341 if (TREE_CODE (prom_type) == INTEGER_TYPE
13342 && flag_use_divide_subroutine
13343 && ! flag_emit_class_files
13344 && (code == RDIV_EXPR || code == TRUNC_MOD_EXPR))
13345 return build_java_soft_divmod (TREE_CODE (node), prom_type, op1, op2);
13346
13347 /* This one is more complicated. FLOATs are processed by a
13348 function call to soft_fmod. Duplicate the value of the
13349 COMPOUND_ASSIGN_P flag. */
13350 if (code == TRUNC_MOD_EXPR)
13351 {
13352 tree mod = build_java_binop (TRUNC_MOD_EXPR, prom_type, op1, op2);
13353 COMPOUND_ASSIGN_P (mod) = COMPOUND_ASSIGN_P (node);
13354 TREE_SIDE_EFFECTS (mod)
13355 = TREE_SIDE_EFFECTS (op1) | TREE_SIDE_EFFECTS (op2);
13356 return mod;
13357 }
13358 break;
13359
13360 /* 15.17 Additive Operators */
13361 case PLUS_EXPR: /* 15.17.1 String Concatenation Operator + */
13362
13363 /* Operation is valid if either one argument is a string
13364 constant, a String object or a StringBuffer crafted for the
13365 purpose of the a previous usage of the String concatenation
13366 operator */
13367
13368 if (TREE_CODE (op1) == STRING_CST
13369 || TREE_CODE (op2) == STRING_CST
13370 || JSTRING_TYPE_P (op1_type)
13371 || JSTRING_TYPE_P (op2_type)
13372 || IS_CRAFTED_STRING_BUFFER_P (op1)
13373 || IS_CRAFTED_STRING_BUFFER_P (op2))
13374 return build_string_concatenation (op1, op2);
13375
13376 case MINUS_EXPR: /* 15.17.2 Additive Operators (+ and -) for
13377 Numeric Types */
13378 if (!JNUMERIC_TYPE_P (op1_type) || !JNUMERIC_TYPE_P (op2_type))
13379 {
13380 if (!JNUMERIC_TYPE_P (op1_type))
13381 ERROR_CANT_CONVERT_TO_NUMERIC (wfl_operator, node, op1_type);
13382 if (!JNUMERIC_TYPE_P (op2_type) && (op1_type != op2_type))
13383 ERROR_CANT_CONVERT_TO_NUMERIC (wfl_operator, node, op2_type);
13384 TREE_TYPE (node) = error_mark_node;
13385 error_found = 1;
13386 break;
13387 }
13388 prom_type = binary_numeric_promotion (op1_type, op2_type, &op1, &op2);
13389 break;
13390
13391 /* 15.18 Shift Operators */
13392 case LSHIFT_EXPR:
13393 case RSHIFT_EXPR:
13394 case URSHIFT_EXPR:
13395 if (!JINTEGRAL_TYPE_P (op1_type) || !JINTEGRAL_TYPE_P (op2_type))
13396 {
13397 if (!JINTEGRAL_TYPE_P (op1_type))
13398 ERROR_CAST_NEEDED_TO_INTEGRAL (wfl_operator, node, op1_type);
13399 else
13400 {
13401 if (JNUMERIC_TYPE_P (op2_type))
13402 parse_error_context (wfl_operator,
13403 "Incompatible type for `%s'. Explicit cast needed to convert shift distance from `%s' to integral",
13404 operator_string (node),
13405 lang_printable_name (op2_type, 0));
13406 else
13407 parse_error_context (wfl_operator,
13408 "Incompatible type for `%s'. Can't convert shift distance from `%s' to integral",
13409 operator_string (node),
13410 lang_printable_name (op2_type, 0));
13411 }
13412 TREE_TYPE (node) = error_mark_node;
13413 error_found = 1;
13414 break;
13415 }
13416
13417 /* Unary numeric promotion (5.6.1) is performed on each operand
13418 separately */
13419 op1 = do_unary_numeric_promotion (op1);
13420 op2 = do_unary_numeric_promotion (op2);
13421
13422 /* If the right hand side is of type `long', first cast it to
13423 `int'. */
13424 if (TREE_TYPE (op2) == long_type_node)
13425 op2 = build1 (CONVERT_EXPR, int_type_node, op2);
13426
13427 /* The type of the shift expression is the type of the promoted
13428 type of the left-hand operand */
13429 prom_type = TREE_TYPE (op1);
13430
13431 /* Shift int only up to 0x1f and long up to 0x3f */
13432 if (prom_type == int_type_node)
13433 op2 = fold (build (BIT_AND_EXPR, int_type_node, op2,
13434 build_int_2 (0x1f, 0)));
13435 else
13436 op2 = fold (build (BIT_AND_EXPR, int_type_node, op2,
13437 build_int_2 (0x3f, 0)));
13438
13439 /* The >>> operator is a >> operating on unsigned quantities */
13440 if (code == URSHIFT_EXPR && ! flag_emit_class_files)
13441 {
13442 tree to_return;
13443 tree utype = java_unsigned_type (prom_type);
13444 op1 = convert (utype, op1);
13445 TREE_SET_CODE (node, RSHIFT_EXPR);
13446 TREE_OPERAND (node, 0) = op1;
13447 TREE_OPERAND (node, 1) = op2;
13448 TREE_TYPE (node) = utype;
13449 to_return = convert (prom_type, node);
13450 /* Copy the original value of the COMPOUND_ASSIGN_P flag */
13451 COMPOUND_ASSIGN_P (to_return) = COMPOUND_ASSIGN_P (node);
13452 TREE_SIDE_EFFECTS (to_return)
13453 = TREE_SIDE_EFFECTS (op1) | TREE_SIDE_EFFECTS (op2);
13454 return to_return;
13455 }
13456 break;
13457
13458 /* 15.19.1 Type Comparison Operator instanceof */
13459 case INSTANCEOF_EXPR:
13460
13461 TREE_TYPE (node) = boolean_type_node;
13462
13463 /* OP1_TYPE might be NULL when OP1 is a string constant. */
13464 if ((cn = patch_string (op1)))
13465 {
13466 op1 = cn;
13467 op1_type = TREE_TYPE (op1);
13468 }
13469 if (op1_type == NULL_TREE)
13470 abort ();
13471
13472 if (!(op2_type = resolve_type_during_patch (op2)))
13473 return error_mark_node;
13474
13475 /* The first operand must be a reference type or the null type */
13476 if (!JREFERENCE_TYPE_P (op1_type) && op1 != null_pointer_node)
13477 error_found = 1; /* Error reported further below */
13478
13479 /* The second operand must be a reference type */
13480 if (!JREFERENCE_TYPE_P (op2_type))
13481 {
13482 SET_WFL_OPERATOR (wfl_operator, node, wfl_op2);
13483 parse_error_context
13484 (wfl_operator, "Invalid argument `%s' for `instanceof'",
13485 lang_printable_name (op2_type, 0));
13486 error_found = 1;
13487 }
13488
13489 if (!error_found && valid_ref_assignconv_cast_p (op1_type, op2_type, 1))
13490 {
13491 /* If the first operand is null, the result is always false */
13492 if (op1 == null_pointer_node)
13493 return boolean_false_node;
13494 else if (flag_emit_class_files)
13495 {
13496 TREE_OPERAND (node, 1) = op2_type;
13497 TREE_SIDE_EFFECTS (node) = TREE_SIDE_EFFECTS (op1);
13498 return node;
13499 }
13500 /* Otherwise we have to invoke instance of to figure it out */
13501 else
13502 return build_instanceof (op1, op2_type);
13503 }
13504 /* There is no way the expression operand can be an instance of
13505 the type operand. This is a compile time error. */
13506 else
13507 {
13508 char *t1 = xstrdup (lang_printable_name (op1_type, 0));
13509 SET_WFL_OPERATOR (wfl_operator, node, wfl_op1);
13510 parse_error_context
13511 (wfl_operator, "Impossible for `%s' to be instance of `%s'",
13512 t1, lang_printable_name (op2_type, 0));
13513 free (t1);
13514 error_found = 1;
13515 }
13516
13517 break;
13518
13519 /* 15.21 Bitwise and Logical Operators */
13520 case BIT_AND_EXPR:
13521 case BIT_XOR_EXPR:
13522 case BIT_IOR_EXPR:
13523 if (JINTEGRAL_TYPE_P (op1_type) && JINTEGRAL_TYPE_P (op2_type))
13524 /* Binary numeric promotion is performed on both operand and the
13525 expression retain that type */
13526 prom_type = binary_numeric_promotion (op1_type, op2_type, &op1, &op2);
13527
13528 else if (TREE_CODE (op1_type) == BOOLEAN_TYPE
13529 && TREE_CODE (op1_type) == BOOLEAN_TYPE)
13530 /* The type of the bitwise operator expression is BOOLEAN */
13531 prom_type = boolean_type_node;
13532 else
13533 {
13534 if (!JINTEGRAL_TYPE_P (op1_type))
13535 ERROR_CAST_NEEDED_TO_INTEGRAL (wfl_operator, node, op1_type);
13536 if (!JINTEGRAL_TYPE_P (op2_type) && (op1_type != op2_type))
13537 ERROR_CAST_NEEDED_TO_INTEGRAL (wfl_operator, node, op2_type);
13538 TREE_TYPE (node) = error_mark_node;
13539 error_found = 1;
13540 /* Insert a break here if adding thing before the switch's
13541 break for this case */
13542 }
13543 break;
13544
13545 /* 15.22 Conditional-And Operator */
13546 case TRUTH_ANDIF_EXPR:
13547 /* 15.23 Conditional-Or Operator */
13548 case TRUTH_ORIF_EXPR:
13549 /* Operands must be of BOOLEAN type */
13550 if (TREE_CODE (op1_type) != BOOLEAN_TYPE ||
13551 TREE_CODE (op2_type) != BOOLEAN_TYPE)
13552 {
13553 if (TREE_CODE (op1_type) != BOOLEAN_TYPE)
13554 ERROR_CANT_CONVERT_TO_BOOLEAN (wfl_operator, node, op1_type);
13555 if (TREE_CODE (op2_type) != BOOLEAN_TYPE && (op1_type != op2_type))
13556 ERROR_CANT_CONVERT_TO_BOOLEAN (wfl_operator, node, op2_type);
13557 TREE_TYPE (node) = boolean_type_node;
13558 error_found = 1;
13559 break;
13560 }
13561 else if (integer_zerop (op1))
13562 {
13563 return code == TRUTH_ANDIF_EXPR ? op1 : op2;
13564 }
13565 else if (integer_onep (op1))
13566 {
13567 return code == TRUTH_ANDIF_EXPR ? op2 : op1;
13568 }
13569 /* The type of the conditional operators is BOOLEAN */
13570 prom_type = boolean_type_node;
13571 break;
13572
13573 /* 15.19.1 Numerical Comparison Operators <, <=, >, >= */
13574 case LT_EXPR:
13575 case GT_EXPR:
13576 case LE_EXPR:
13577 case GE_EXPR:
13578 /* The type of each of the operands must be a primitive numeric
13579 type */
13580 if (!JNUMERIC_TYPE_P (op1_type) || ! JNUMERIC_TYPE_P (op2_type))
13581 {
13582 if (!JNUMERIC_TYPE_P (op1_type))
13583 ERROR_CANT_CONVERT_TO_NUMERIC (wfl_operator, node, op1_type);
13584 if (!JNUMERIC_TYPE_P (op2_type) && (op1_type != op2_type))
13585 ERROR_CANT_CONVERT_TO_NUMERIC (wfl_operator, node, op2_type);
13586 TREE_TYPE (node) = boolean_type_node;
13587 error_found = 1;
13588 break;
13589 }
13590 /* Binary numeric promotion is performed on the operands */
13591 binary_numeric_promotion (op1_type, op2_type, &op1, &op2);
13592 /* The type of the relation expression is always BOOLEAN */
13593 prom_type = boolean_type_node;
13594 break;
13595
13596 /* 15.20 Equality Operator */
13597 case EQ_EXPR:
13598 case NE_EXPR:
13599 /* It's time for us to patch the strings. */
13600 if ((cn = patch_string (op1)))
13601 {
13602 op1 = cn;
13603 op1_type = TREE_TYPE (op1);
13604 }
13605 if ((cn = patch_string (op2)))
13606 {
13607 op2 = cn;
13608 op2_type = TREE_TYPE (op2);
13609 }
13610
13611 /* 15.20.1 Numerical Equality Operators == and != */
13612 /* Binary numeric promotion is performed on the operands */
13613 if (JNUMERIC_TYPE_P (op1_type) && JNUMERIC_TYPE_P (op2_type))
13614 binary_numeric_promotion (op1_type, op2_type, &op1, &op2);
13615
13616 /* 15.20.2 Boolean Equality Operators == and != */
13617 else if (TREE_CODE (op1_type) == BOOLEAN_TYPE &&
13618 TREE_CODE (op2_type) == BOOLEAN_TYPE)
13619 ; /* Nothing to do here */
13620
13621 /* 15.20.3 Reference Equality Operators == and != */
13622 /* Types have to be either references or the null type. If
13623 they're references, it must be possible to convert either
13624 type to the other by casting conversion. */
13625 else if (op1 == null_pointer_node || op2 == null_pointer_node
13626 || (JREFERENCE_TYPE_P (op1_type) && JREFERENCE_TYPE_P (op2_type)
13627 && (valid_ref_assignconv_cast_p (op1_type, op2_type, 1)
13628 || valid_ref_assignconv_cast_p (op2_type,
13629 op1_type, 1))))
13630 ; /* Nothing to do here */
13631
13632 /* Else we have an error figure what can't be converted into
13633 what and report the error */
13634 else
13635 {
13636 char *t1;
13637 t1 = xstrdup (lang_printable_name (op1_type, 0));
13638 parse_error_context
13639 (wfl_operator,
13640 "Incompatible type for `%s'. Can't convert `%s' to `%s'",
13641 operator_string (node), t1,
13642 lang_printable_name (op2_type, 0));
13643 free (t1);
13644 TREE_TYPE (node) = boolean_type_node;
13645 error_found = 1;
13646 break;
13647 }
13648 prom_type = boolean_type_node;
13649 break;
13650 default:
13651 abort ();
13652 }
13653
13654 if (error_found)
13655 return error_mark_node;
13656
13657 TREE_OPERAND (node, 0) = op1;
13658 TREE_OPERAND (node, 1) = op2;
13659 TREE_TYPE (node) = prom_type;
13660 TREE_SIDE_EFFECTS (node) = TREE_SIDE_EFFECTS (op1) | TREE_SIDE_EFFECTS (op2);
13661
13662 if (flag_emit_xref)
13663 return node;
13664
13665 /* fold does not respect side-effect order as required for Java but not C.
13666 * Also, it sometimes create SAVE_EXPRs which are bad when emitting
13667 * bytecode.
13668 */
13669 if (flag_emit_class_files ? (TREE_CONSTANT (op1) && TREE_CONSTANT (op2))
13670 : ! TREE_SIDE_EFFECTS (node))
13671 node = fold (node);
13672 return node;
13673 }
13674
13675 /* Concatenate the STRING_CST CSTE and STRING. When AFTER is a non
13676 zero value, the value of CSTE comes after the valude of STRING */
13677
13678 static tree
do_merge_string_cste(tree cste,const char * string,int string_len,int after)13679 do_merge_string_cste (tree cste, const char *string, int string_len, int after)
13680 {
13681 const char *old = TREE_STRING_POINTER (cste);
13682 int old_len = TREE_STRING_LENGTH (cste);
13683 int len = old_len + string_len;
13684 char *new = alloca (len+1);
13685
13686 if (after)
13687 {
13688 memcpy (new, string, string_len);
13689 memcpy (&new [string_len], old, old_len);
13690 }
13691 else
13692 {
13693 memcpy (new, old, old_len);
13694 memcpy (&new [old_len], string, string_len);
13695 }
13696 new [len] = '\0';
13697 return build_string (len, new);
13698 }
13699
13700 /* Tries to merge OP1 (a STRING_CST) and OP2 (if suitable). Return a
13701 new STRING_CST on success, NULL_TREE on failure. */
13702
13703 static tree
merge_string_cste(tree op1,tree op2,int after)13704 merge_string_cste (tree op1, tree op2, int after)
13705 {
13706 /* Handle two string constants right away. */
13707 if (TREE_CODE (op2) == STRING_CST)
13708 return do_merge_string_cste (op1, TREE_STRING_POINTER (op2),
13709 TREE_STRING_LENGTH (op2), after);
13710
13711 /* Reasonable integer constant can be treated right away. */
13712 if (TREE_CODE (op2) == INTEGER_CST && !TREE_CONSTANT_OVERFLOW (op2))
13713 {
13714 static const char *const boolean_true = "true";
13715 static const char *const boolean_false = "false";
13716 static const char *const null_pointer = "null";
13717 char ch[4];
13718 const char *string;
13719
13720 if (op2 == boolean_true_node)
13721 string = boolean_true;
13722 else if (op2 == boolean_false_node)
13723 string = boolean_false;
13724 else if (op2 == null_pointer_node
13725 || (integer_zerop (op2)
13726 && TREE_CODE (TREE_TYPE (op2)) == POINTER_TYPE))
13727 /* FIXME: null is not a compile-time constant, so it is only safe to
13728 merge if the overall expression is non-constant. However, this
13729 code always merges without checking the overall expression. */
13730 string = null_pointer;
13731 else if (TREE_TYPE (op2) == char_type_node)
13732 {
13733 /* Convert the character into UTF-8. */
13734 unsigned int c = (unsigned int) TREE_INT_CST_LOW (op2);
13735 unsigned char *p = (unsigned char *) ch;
13736 if (0x01 <= c && c <= 0x7f)
13737 *p++ = (unsigned char) c;
13738 else if (c < 0x7ff)
13739 {
13740 *p++ = (unsigned char) (c >> 6 | 0xc0);
13741 *p++ = (unsigned char) ((c & 0x3f) | 0x80);
13742 }
13743 else
13744 {
13745 *p++ = (unsigned char) (c >> 12 | 0xe0);
13746 *p++ = (unsigned char) (((c >> 6) & 0x3f) | 0x80);
13747 *p++ = (unsigned char) ((c & 0x3f) | 0x80);
13748 }
13749 *p = '\0';
13750
13751 string = ch;
13752 }
13753 else
13754 string = string_convert_int_cst (op2);
13755
13756 return do_merge_string_cste (op1, string, strlen (string), after);
13757 }
13758 return NULL_TREE;
13759 }
13760
13761 /* Tries to statically concatenate OP1 and OP2 if possible. Either one
13762 has to be a STRING_CST and the other part must be a STRING_CST or a
13763 INTEGRAL constant. Return a new STRING_CST if the operation
13764 succeed, NULL_TREE otherwise.
13765
13766 If the case we want to optimize for space, we might want to return
13767 NULL_TREE for each invocation of this routine. FIXME */
13768
13769 static tree
string_constant_concatenation(tree op1,tree op2)13770 string_constant_concatenation (tree op1, tree op2)
13771 {
13772 if (TREE_CODE (op1) == STRING_CST || (TREE_CODE (op2) == STRING_CST))
13773 {
13774 tree string, rest;
13775 int invert;
13776
13777 string = (TREE_CODE (op1) == STRING_CST ? op1 : op2);
13778 rest = (string == op1 ? op2 : op1);
13779 invert = (string == op1 ? 0 : 1 );
13780
13781 /* Walk REST, only if it looks reasonable */
13782 if (TREE_CODE (rest) != STRING_CST
13783 && !IS_CRAFTED_STRING_BUFFER_P (rest)
13784 && !JSTRING_TYPE_P (TREE_TYPE (rest))
13785 && TREE_CODE (rest) == EXPR_WITH_FILE_LOCATION)
13786 {
13787 rest = java_complete_tree (rest);
13788 if (rest == error_mark_node)
13789 return error_mark_node;
13790 rest = fold (rest);
13791 }
13792 return merge_string_cste (string, rest, invert);
13793 }
13794 return NULL_TREE;
13795 }
13796
13797 /* Implement the `+' operator. Does static optimization if possible,
13798 otherwise create (if necessary) and append elements to a
13799 StringBuffer. The StringBuffer will be carried around until it is
13800 used for a function call or an assignment. Then toString() will be
13801 called on it to turn it into a String object. */
13802
13803 static tree
build_string_concatenation(tree op1,tree op2)13804 build_string_concatenation (tree op1, tree op2)
13805 {
13806 tree result;
13807 int side_effects = TREE_SIDE_EFFECTS (op1) | TREE_SIDE_EFFECTS (op2);
13808
13809 if (flag_emit_xref)
13810 return build (PLUS_EXPR, string_type_node, op1, op2);
13811
13812 /* Try to do some static optimization */
13813 if ((result = string_constant_concatenation (op1, op2)))
13814 return result;
13815
13816 /* Discard empty strings on either side of the expression */
13817 if (TREE_CODE (op1) == STRING_CST && TREE_STRING_LENGTH (op1) == 0)
13818 {
13819 op1 = op2;
13820 op2 = NULL_TREE;
13821 }
13822 else if (TREE_CODE (op2) == STRING_CST && TREE_STRING_LENGTH (op2) == 0)
13823 op2 = NULL_TREE;
13824
13825 /* If operands are string constant, turn then into object references */
13826 if (TREE_CODE (op1) == STRING_CST)
13827 op1 = patch_string_cst (op1);
13828 if (op2 && TREE_CODE (op2) == STRING_CST)
13829 op2 = patch_string_cst (op2);
13830
13831 /* If either one of the constant is null and the other non null
13832 operand is a String constant, return it. */
13833 if ((TREE_CODE (op1) == STRING_CST) && !op2)
13834 return op1;
13835
13836 /* If OP1 isn't already a StringBuffer, create and
13837 initialize a new one */
13838 if (!IS_CRAFTED_STRING_BUFFER_P (op1))
13839 {
13840 /* Two solutions here:
13841 1) OP1 is a constant string reference, we call new StringBuffer(OP1)
13842 2) OP1 is something else, we call new StringBuffer().append(OP1). */
13843 if (TREE_CONSTANT (op1) && JSTRING_TYPE_P (TREE_TYPE (op1)))
13844 op1 = BUILD_STRING_BUFFER (op1);
13845 else
13846 {
13847 tree aNew = BUILD_STRING_BUFFER (NULL_TREE);
13848 op1 = make_qualified_primary (aNew, BUILD_APPEND (op1), 0);
13849 }
13850 }
13851
13852 if (op2)
13853 {
13854 /* OP1 is no longer the last node holding a crafted StringBuffer */
13855 IS_CRAFTED_STRING_BUFFER_P (op1) = 0;
13856 /* Create a node for `{new...,xxx}.append (op2)' */
13857 if (op2)
13858 op1 = make_qualified_primary (op1, BUILD_APPEND (op2), 0);
13859 }
13860
13861 /* Mark the last node holding a crafted StringBuffer */
13862 IS_CRAFTED_STRING_BUFFER_P (op1) = 1;
13863
13864 TREE_SIDE_EFFECTS (op1) = side_effects;
13865 return op1;
13866 }
13867
13868 /* Patch the string node NODE. NODE can be a STRING_CST of a crafted
13869 StringBuffer. If no string were found to be patched, return
13870 NULL. */
13871
13872 static tree
patch_string(tree node)13873 patch_string (tree node)
13874 {
13875 if (node == error_mark_node)
13876 return error_mark_node;
13877 if (TREE_CODE (node) == STRING_CST)
13878 return patch_string_cst (node);
13879 else if (IS_CRAFTED_STRING_BUFFER_P (node))
13880 {
13881 int saved = ctxp->explicit_constructor_p;
13882 tree invoke = build_method_invocation (wfl_to_string, NULL_TREE);
13883 tree ret;
13884 /* Temporary disable forbid the use of `this'. */
13885 ctxp->explicit_constructor_p = 0;
13886 ret = java_complete_tree (make_qualified_primary (node, invoke, 0));
13887 /* String concatenation arguments must be evaluated in order too. */
13888 ret = force_evaluation_order (ret);
13889 /* Restore it at its previous value */
13890 ctxp->explicit_constructor_p = saved;
13891 return ret;
13892 }
13893 return NULL_TREE;
13894 }
13895
13896 /* Build the internal representation of a string constant. */
13897
13898 static tree
patch_string_cst(tree node)13899 patch_string_cst (tree node)
13900 {
13901 int location;
13902 if (! flag_emit_class_files)
13903 {
13904 node = get_identifier (TREE_STRING_POINTER (node));
13905 location = alloc_name_constant (CONSTANT_String, node);
13906 node = build_ref_from_constant_pool (location);
13907 }
13908 TREE_TYPE (node) = string_ptr_type_node;
13909 TREE_CONSTANT (node) = 1;
13910 return node;
13911 }
13912
13913 /* Build an incomplete unary operator expression. */
13914
13915 static tree
build_unaryop(int op_token,int op_location,tree op1)13916 build_unaryop (int op_token, int op_location, tree op1)
13917 {
13918 enum tree_code op;
13919 tree unaryop;
13920 switch (op_token)
13921 {
13922 case PLUS_TK: op = UNARY_PLUS_EXPR; break;
13923 case MINUS_TK: op = NEGATE_EXPR; break;
13924 case NEG_TK: op = TRUTH_NOT_EXPR; break;
13925 case NOT_TK: op = BIT_NOT_EXPR; break;
13926 default: abort ();
13927 }
13928
13929 unaryop = build1 (op, NULL_TREE, op1);
13930 TREE_SIDE_EFFECTS (unaryop) = 1;
13931 /* Store the location of the operator, for better error report. The
13932 string of the operator will be rebuild based on the OP value. */
13933 EXPR_WFL_LINECOL (unaryop) = op_location;
13934 return unaryop;
13935 }
13936
13937 /* Special case for the ++/-- operators, since they require an extra
13938 argument to build, which is set to NULL and patched
13939 later. IS_POST_P is 1 if the operator, 0 otherwise. */
13940
13941 static tree
build_incdec(int op_token,int op_location,tree op1,int is_post_p)13942 build_incdec (int op_token, int op_location, tree op1, int is_post_p)
13943 {
13944 static const enum tree_code lookup [2][2] =
13945 {
13946 { PREDECREMENT_EXPR, PREINCREMENT_EXPR, },
13947 { POSTDECREMENT_EXPR, POSTINCREMENT_EXPR, },
13948 };
13949 tree node = build (lookup [is_post_p][(op_token - DECR_TK)],
13950 NULL_TREE, op1, NULL_TREE);
13951 TREE_SIDE_EFFECTS (node) = 1;
13952 /* Store the location of the operator, for better error report. The
13953 string of the operator will be rebuild based on the OP value. */
13954 EXPR_WFL_LINECOL (node) = op_location;
13955 return node;
13956 }
13957
13958 /* Build an incomplete cast operator, based on the use of the
13959 CONVERT_EXPR. Note that TREE_TYPE of the constructed node is
13960 set. java_complete_tree is trained to walk a CONVERT_EXPR even
13961 though its type is already set. */
13962
13963 static tree
build_cast(int location,tree type,tree exp)13964 build_cast (int location, tree type, tree exp)
13965 {
13966 tree node = build1 (CONVERT_EXPR, type, exp);
13967 EXPR_WFL_LINECOL (node) = location;
13968 return node;
13969 }
13970
13971 /* Build an incomplete class reference operator. */
13972 static tree
build_incomplete_class_ref(int location,tree class_name)13973 build_incomplete_class_ref (int location, tree class_name)
13974 {
13975 tree node = build1 (CLASS_LITERAL, NULL_TREE, class_name);
13976 tree class_decl = GET_CPC ();
13977 tree this_class = TREE_TYPE (class_decl);
13978
13979 /* Generate the synthetic static method `class$'. (Previously we
13980 deferred this, causing different method tables to be emitted
13981 for native code and bytecode.) */
13982 if (!TYPE_DOT_CLASS (this_class)
13983 && !JPRIMITIVE_TYPE_P (class_name)
13984 && !(TREE_CODE (class_name) == VOID_TYPE))
13985 {
13986 tree target_class;
13987
13988 if (CLASS_INTERFACE (TYPE_NAME (this_class)))
13989 {
13990 /* For interfaces, adding a static 'class$' method directly
13991 is illegal. So create an inner class to contain the new
13992 method. Empirically this matches the behavior of javac. */
13993 tree t = build_wfl_node (DECL_NAME (TYPE_NAME (object_type_node)));
13994 tree inner = create_anonymous_class (0, t);
13995 target_class = TREE_TYPE (inner);
13996 end_class_declaration (1);
13997 }
13998 else
13999 {
14000 /* For inner classes, add a 'class$' method to their outermost
14001 context, creating it if necessary. */
14002 while (INNER_CLASS_DECL_P (class_decl))
14003 class_decl = DECL_CONTEXT (class_decl);
14004 target_class = TREE_TYPE (class_decl);
14005 }
14006
14007 if (TYPE_DOT_CLASS (target_class) == NULL_TREE)
14008 build_dot_class_method (target_class);
14009
14010 if (this_class != target_class)
14011 TYPE_DOT_CLASS (this_class) = TYPE_DOT_CLASS (target_class);
14012 }
14013
14014 EXPR_WFL_LINECOL (node) = location;
14015 return node;
14016 }
14017
14018 /* Complete an incomplete class reference operator. */
14019 static tree
patch_incomplete_class_ref(tree node)14020 patch_incomplete_class_ref (tree node)
14021 {
14022 tree type = TREE_OPERAND (node, 0);
14023 tree ref_type;
14024
14025 if (!(ref_type = resolve_type_during_patch (type)))
14026 return error_mark_node;
14027
14028 /* If we're not emitting class files and we know ref_type is a
14029 compiled class, build a direct reference. */
14030 if ((! flag_emit_class_files && is_compiled_class (ref_type))
14031 || JPRIMITIVE_TYPE_P (ref_type)
14032 || TREE_CODE (ref_type) == VOID_TYPE)
14033 {
14034 tree dot = build_class_ref (ref_type);
14035 /* A class referenced by `foo.class' is initialized. */
14036 if (!flag_emit_class_files)
14037 dot = build_class_init (ref_type, dot);
14038 return java_complete_tree (dot);
14039 }
14040
14041 /* If we're emitting class files and we have to deal with non
14042 primitive types, we invoke the synthetic static method `class$'. */
14043 ref_type = build_dot_class_method_invocation (current_class, ref_type);
14044 return java_complete_tree (ref_type);
14045 }
14046
14047 /* 15.14 Unary operators. We return error_mark_node in case of error,
14048 but preserve the type of NODE if the type is fixed. */
14049
14050 static tree
patch_unaryop(tree node,tree wfl_op)14051 patch_unaryop (tree node, tree wfl_op)
14052 {
14053 tree op = TREE_OPERAND (node, 0);
14054 tree op_type = TREE_TYPE (op);
14055 tree prom_type = NULL_TREE, value, decl;
14056 int outer_field_flag = 0;
14057 int code = TREE_CODE (node);
14058 int error_found = 0;
14059
14060 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
14061
14062 switch (code)
14063 {
14064 /* 15.13.2 Postfix Increment Operator ++ */
14065 case POSTINCREMENT_EXPR:
14066 /* 15.13.3 Postfix Increment Operator -- */
14067 case POSTDECREMENT_EXPR:
14068 /* 15.14.1 Prefix Increment Operator ++ */
14069 case PREINCREMENT_EXPR:
14070 /* 15.14.2 Prefix Decrement Operator -- */
14071 case PREDECREMENT_EXPR:
14072 op = decl = strip_out_static_field_access_decl (op);
14073 outer_field_flag = outer_field_expanded_access_p (op, NULL, NULL, NULL);
14074 /* We might be trying to change an outer field accessed using
14075 access method. */
14076 if (outer_field_flag)
14077 {
14078 /* Retrieve the decl of the field we're trying to access. We
14079 do that by first retrieving the function we would call to
14080 access the field. It has been already verified that this
14081 field isn't final */
14082 if (flag_emit_class_files)
14083 decl = TREE_OPERAND (op, 0);
14084 else
14085 decl = TREE_OPERAND (TREE_OPERAND (TREE_OPERAND (op, 0), 0), 0);
14086 decl = DECL_FUNCTION_ACCESS_DECL (decl);
14087 }
14088 /* We really should have a JAVA_ARRAY_EXPR to avoid this */
14089 else if (!JDECL_P (decl)
14090 && TREE_CODE (decl) != COMPONENT_REF
14091 && !(flag_emit_class_files && TREE_CODE (decl) == ARRAY_REF)
14092 && TREE_CODE (decl) != INDIRECT_REF
14093 && !(TREE_CODE (decl) == COMPOUND_EXPR
14094 && TREE_OPERAND (decl, 1)
14095 && (TREE_CODE (TREE_OPERAND (decl, 1)) == INDIRECT_REF)))
14096 {
14097 TREE_TYPE (node) = error_mark_node;
14098 error_found = 1;
14099 }
14100
14101 /* From now on, we know that op if a variable and that it has a
14102 valid wfl. We use wfl_op to locate errors related to the
14103 ++/-- operand. */
14104 if (!JNUMERIC_TYPE_P (op_type))
14105 {
14106 parse_error_context
14107 (wfl_op, "Invalid argument type `%s' to `%s'",
14108 lang_printable_name (op_type, 0), operator_string (node));
14109 TREE_TYPE (node) = error_mark_node;
14110 error_found = 1;
14111 }
14112 else
14113 {
14114 /* Before the addition, binary numeric promotion is performed on
14115 both operands, if really necessary */
14116 if (JINTEGRAL_TYPE_P (op_type))
14117 {
14118 value = build_int_2 (1, 0);
14119 TREE_TYPE (value) = TREE_TYPE (node) = op_type;
14120 }
14121 else
14122 {
14123 value = build_int_2 (1, 0);
14124 TREE_TYPE (node) =
14125 binary_numeric_promotion (op_type,
14126 TREE_TYPE (value), &op, &value);
14127 }
14128
14129 /* We remember we might be accessing an outer field */
14130 if (outer_field_flag)
14131 {
14132 /* We re-generate an access to the field */
14133 value = build (PLUS_EXPR, TREE_TYPE (op),
14134 build_outer_field_access (wfl_op, decl), value);
14135
14136 /* And we patch the original access$() into a write
14137 with plus_op as a rhs */
14138 return outer_field_access_fix (node, op, value);
14139 }
14140
14141 /* And write back into the node. */
14142 TREE_OPERAND (node, 0) = op;
14143 TREE_OPERAND (node, 1) = value;
14144 /* Convert the overall back into its original type, if
14145 necessary, and return */
14146 if (JINTEGRAL_TYPE_P (op_type))
14147 return fold (node);
14148 else
14149 return fold (convert (op_type, node));
14150 }
14151 break;
14152
14153 /* 15.14.3 Unary Plus Operator + */
14154 case UNARY_PLUS_EXPR:
14155 /* 15.14.4 Unary Minus Operator - */
14156 case NEGATE_EXPR:
14157 if (!JNUMERIC_TYPE_P (op_type))
14158 {
14159 ERROR_CANT_CONVERT_TO_NUMERIC (wfl_operator, node, op_type);
14160 TREE_TYPE (node) = error_mark_node;
14161 error_found = 1;
14162 }
14163 /* Unary numeric promotion is performed on operand */
14164 else
14165 {
14166 op = do_unary_numeric_promotion (op);
14167 prom_type = TREE_TYPE (op);
14168 if (code == UNARY_PLUS_EXPR)
14169 return fold (op);
14170 }
14171 break;
14172
14173 /* 15.14.5 Bitwise Complement Operator ~ */
14174 case BIT_NOT_EXPR:
14175 if (!JINTEGRAL_TYPE_P (op_type))
14176 {
14177 ERROR_CAST_NEEDED_TO_INTEGRAL (wfl_operator, node, op_type);
14178 TREE_TYPE (node) = error_mark_node;
14179 error_found = 1;
14180 }
14181 else
14182 {
14183 op = do_unary_numeric_promotion (op);
14184 prom_type = TREE_TYPE (op);
14185 }
14186 break;
14187
14188 /* 15.14.6 Logical Complement Operator ! */
14189 case TRUTH_NOT_EXPR:
14190 if (TREE_CODE (op_type) != BOOLEAN_TYPE)
14191 {
14192 ERROR_CANT_CONVERT_TO_BOOLEAN (wfl_operator, node, op_type);
14193 /* But the type is known. We will report an error if further
14194 attempt of a assignment is made with this rhs */
14195 TREE_TYPE (node) = boolean_type_node;
14196 error_found = 1;
14197 }
14198 else
14199 prom_type = boolean_type_node;
14200 break;
14201
14202 /* 15.15 Cast Expression */
14203 case CONVERT_EXPR:
14204 value = patch_cast (node, wfl_operator);
14205 if (value == error_mark_node)
14206 {
14207 /* If this cast is part of an assignment, we tell the code
14208 that deals with it not to complain about a mismatch,
14209 because things have been cast, anyways */
14210 TREE_TYPE (node) = error_mark_node;
14211 error_found = 1;
14212 }
14213 else
14214 {
14215 value = fold (value);
14216 TREE_SIDE_EFFECTS (value) = TREE_SIDE_EFFECTS (op);
14217 return value;
14218 }
14219 break;
14220 }
14221
14222 if (error_found)
14223 return error_mark_node;
14224
14225 /* There are cases where node has been replaced by something else
14226 and we don't end up returning here: UNARY_PLUS_EXPR,
14227 CONVERT_EXPR, {POST,PRE}{INCR,DECR}EMENT_EXPR. */
14228 TREE_OPERAND (node, 0) = fold (op);
14229 TREE_TYPE (node) = prom_type;
14230 TREE_SIDE_EFFECTS (node) = TREE_SIDE_EFFECTS (op);
14231 return fold (node);
14232 }
14233
14234 /* Generic type resolution that sometimes takes place during node
14235 patching. Returned the resolved type or generate an error
14236 message. Return the resolved type or NULL_TREE. */
14237
14238 static tree
resolve_type_during_patch(tree type)14239 resolve_type_during_patch (tree type)
14240 {
14241 if (unresolved_type_p (type, NULL))
14242 {
14243 tree type_decl = resolve_and_layout (EXPR_WFL_NODE (type), type);
14244 if (!type_decl)
14245 {
14246 parse_error_context (type,
14247 "Class `%s' not found in type declaration",
14248 IDENTIFIER_POINTER (EXPR_WFL_NODE (type)));
14249 return NULL_TREE;
14250 }
14251
14252 check_deprecation (type, type_decl);
14253
14254 return TREE_TYPE (type_decl);
14255 }
14256 return type;
14257 }
14258
14259 /* 5.5 Casting Conversion. error_mark_node is returned if an error is
14260 found. Otherwise NODE or something meant to replace it is returned. */
14261
14262 static tree
patch_cast(tree node,tree wfl_op)14263 patch_cast (tree node, tree wfl_op)
14264 {
14265 tree op = TREE_OPERAND (node, 0);
14266 tree cast_type = TREE_TYPE (node);
14267 tree patched, op_type;
14268 char *t1;
14269
14270 /* Some string patching might be necessary at this stage */
14271 if ((patched = patch_string (op)))
14272 TREE_OPERAND (node, 0) = op = patched;
14273 op_type = TREE_TYPE (op);
14274
14275 /* First resolve OP_TYPE if unresolved */
14276 if (!(cast_type = resolve_type_during_patch (cast_type)))
14277 return error_mark_node;
14278
14279 /* Check on cast that are proven correct at compile time */
14280 if (JNUMERIC_TYPE_P (cast_type) && JNUMERIC_TYPE_P (op_type))
14281 {
14282 /* Same type */
14283 if (cast_type == op_type)
14284 return node;
14285
14286 /* A narrowing conversion from a floating-point number to an
14287 integral type requires special handling (5.1.3). */
14288 if (JFLOAT_TYPE_P (op_type) && JINTEGRAL_TYPE_P (cast_type))
14289 if (cast_type != long_type_node)
14290 op = convert (integer_type_node, op);
14291
14292 /* Try widening/narrowing conversion. Potentially, things need
14293 to be worked out in gcc so we implement the extreme cases
14294 correctly. fold_convert() needs to be fixed. */
14295 return convert (cast_type, op);
14296 }
14297
14298 /* It's also valid to cast a boolean into a boolean */
14299 if (op_type == boolean_type_node && cast_type == boolean_type_node)
14300 return node;
14301
14302 /* null can be casted to references */
14303 if (op == null_pointer_node && JREFERENCE_TYPE_P (cast_type))
14304 return build_null_of_type (cast_type);
14305
14306 /* The remaining legal casts involve conversion between reference
14307 types. Check for their compile time correctness. */
14308 if (JREFERENCE_TYPE_P (op_type) && JREFERENCE_TYPE_P (cast_type)
14309 && valid_ref_assignconv_cast_p (op_type, cast_type, 1))
14310 {
14311 TREE_TYPE (node) = promote_type (cast_type);
14312 /* Now, the case can be determined correct at compile time if
14313 OP_TYPE can be converted into CAST_TYPE by assignment
14314 conversion (5.2) */
14315
14316 if (valid_ref_assignconv_cast_p (op_type, cast_type, 0))
14317 {
14318 TREE_SET_CODE (node, NOP_EXPR);
14319 return node;
14320 }
14321
14322 if (flag_emit_class_files)
14323 {
14324 TREE_SET_CODE (node, CONVERT_EXPR);
14325 return node;
14326 }
14327
14328 /* The cast requires a run-time check */
14329 return build (CALL_EXPR, promote_type (cast_type),
14330 build_address_of (soft_checkcast_node),
14331 tree_cons (NULL_TREE, build_class_ref (cast_type),
14332 build_tree_list (NULL_TREE, op)),
14333 NULL_TREE);
14334 }
14335
14336 /* Any other casts are proven incorrect at compile time */
14337 t1 = xstrdup (lang_printable_name (op_type, 0));
14338 parse_error_context (wfl_op, "Invalid cast from `%s' to `%s'",
14339 t1, lang_printable_name (cast_type, 0));
14340 free (t1);
14341 return error_mark_node;
14342 }
14343
14344 /* Build a null constant and give it the type TYPE. */
14345
14346 static tree
build_null_of_type(tree type)14347 build_null_of_type (tree type)
14348 {
14349 tree node = build_int_2 (0, 0);
14350 TREE_TYPE (node) = promote_type (type);
14351 return node;
14352 }
14353
14354 /* Build an ARRAY_REF incomplete tree node. Note that operand 1 isn't
14355 a list of indices. */
14356 static tree
build_array_ref(int location,tree array,tree index)14357 build_array_ref (int location, tree array, tree index)
14358 {
14359 tree node = build (ARRAY_REF, NULL_TREE, array, index);
14360 EXPR_WFL_LINECOL (node) = location;
14361 return node;
14362 }
14363
14364 /* 15.12 Array Access Expression */
14365
14366 static tree
patch_array_ref(tree node)14367 patch_array_ref (tree node)
14368 {
14369 tree array = TREE_OPERAND (node, 0);
14370 tree array_type = TREE_TYPE (array);
14371 tree index = TREE_OPERAND (node, 1);
14372 tree index_type = TREE_TYPE (index);
14373 int error_found = 0;
14374
14375 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
14376
14377 if (TREE_CODE (array_type) == POINTER_TYPE)
14378 array_type = TREE_TYPE (array_type);
14379
14380 /* The array reference must be an array */
14381 if (!TYPE_ARRAY_P (array_type))
14382 {
14383 parse_error_context
14384 (wfl_operator,
14385 "`[]' can only be applied to arrays. It can't be applied to `%s'",
14386 lang_printable_name (array_type, 0));
14387 TREE_TYPE (node) = error_mark_node;
14388 error_found = 1;
14389 }
14390
14391 /* The array index undergoes unary numeric promotion. The promoted
14392 type must be int */
14393 index = do_unary_numeric_promotion (index);
14394 if (TREE_TYPE (index) != int_type_node)
14395 {
14396 if (valid_cast_to_p (index_type, int_type_node))
14397 parse_error_context (wfl_operator,
14398 "Incompatible type for `[]'. Explicit cast needed to convert `%s' to `int'",
14399 lang_printable_name (index_type, 0));
14400 else
14401 parse_error_context (wfl_operator,
14402 "Incompatible type for `[]'. Can't convert `%s' to `int'",
14403 lang_printable_name (index_type, 0));
14404 TREE_TYPE (node) = error_mark_node;
14405 error_found = 1;
14406 }
14407
14408 if (error_found)
14409 return error_mark_node;
14410
14411 array_type = TYPE_ARRAY_ELEMENT (array_type);
14412
14413 if (flag_emit_class_files || flag_emit_xref)
14414 {
14415 TREE_OPERAND (node, 0) = array;
14416 TREE_OPERAND (node, 1) = index;
14417 }
14418 else
14419 node = build_java_arrayaccess (array, array_type, index);
14420 TREE_TYPE (node) = array_type;
14421 return node;
14422 }
14423
14424 /* 15.9 Array Creation Expressions */
14425
14426 static tree
build_newarray_node(tree type,tree dims,int extra_dims)14427 build_newarray_node (tree type, tree dims, int extra_dims)
14428 {
14429 tree node =
14430 build (NEW_ARRAY_EXPR, NULL_TREE, type, nreverse (dims),
14431 build_int_2 (extra_dims, 0));
14432 return node;
14433 }
14434
14435 static tree
patch_newarray(tree node)14436 patch_newarray (tree node)
14437 {
14438 tree type = TREE_OPERAND (node, 0);
14439 tree dims = TREE_OPERAND (node, 1);
14440 tree cdim, array_type;
14441 int error_found = 0;
14442 int ndims = 0;
14443 int xdims = TREE_INT_CST_LOW (TREE_OPERAND (node, 2));
14444
14445 /* Dimension types are verified. It's better for the types to be
14446 verified in order. */
14447 for (cdim = dims, ndims = 0; cdim; cdim = TREE_CHAIN (cdim), ndims++ )
14448 {
14449 int dim_error = 0;
14450 tree dim = TREE_VALUE (cdim);
14451
14452 /* Dim might have been saved during its evaluation */
14453 dim = (TREE_CODE (dim) == SAVE_EXPR ? TREE_OPERAND (dim, 0) : dim);
14454
14455 /* The type of each specified dimension must be an integral type. */
14456 if (!JINTEGRAL_TYPE_P (TREE_TYPE (dim)))
14457 dim_error = 1;
14458
14459 /* Each expression undergoes an unary numeric promotion (5.6.1) and the
14460 promoted type must be int. */
14461 else
14462 {
14463 dim = do_unary_numeric_promotion (dim);
14464 if (TREE_TYPE (dim) != int_type_node)
14465 dim_error = 1;
14466 }
14467
14468 /* Report errors on types here */
14469 if (dim_error)
14470 {
14471 parse_error_context
14472 (TREE_PURPOSE (cdim),
14473 "Incompatible type for dimension in array creation expression. %s convert `%s' to `int'",
14474 (valid_cast_to_p (TREE_TYPE (dim), int_type_node) ?
14475 "Explicit cast needed to" : "Can't"),
14476 lang_printable_name (TREE_TYPE (dim), 0));
14477 error_found = 1;
14478 }
14479
14480 TREE_PURPOSE (cdim) = NULL_TREE;
14481 }
14482
14483 /* Resolve array base type if unresolved */
14484 if (!(type = resolve_type_during_patch (type)))
14485 error_found = 1;
14486
14487 if (error_found)
14488 {
14489 /* We don't want further evaluation of this bogus array creation
14490 operation */
14491 TREE_TYPE (node) = error_mark_node;
14492 return error_mark_node;
14493 }
14494
14495 /* Set array_type to the actual (promoted) array type of the result. */
14496 if (TREE_CODE (type) == RECORD_TYPE)
14497 type = build_pointer_type (type);
14498 while (--xdims >= 0)
14499 {
14500 type = promote_type (build_java_array_type (type, -1));
14501 }
14502 dims = nreverse (dims);
14503 array_type = type;
14504 for (cdim = dims; cdim; cdim = TREE_CHAIN (cdim))
14505 {
14506 type = array_type;
14507 array_type
14508 = build_java_array_type (type,
14509 TREE_CODE (cdim) == INTEGER_CST
14510 ? (HOST_WIDE_INT) TREE_INT_CST_LOW (cdim)
14511 : -1);
14512 array_type = promote_type (array_type);
14513 }
14514 dims = nreverse (dims);
14515
14516 /* The node is transformed into a function call. Things are done
14517 differently according to the number of dimensions. If the number
14518 of dimension is equal to 1, then the nature of the base type
14519 (primitive or not) matters. */
14520 if (ndims == 1)
14521 return build_new_array (type, TREE_VALUE (dims));
14522
14523 /* Can't reuse what's already written in expr.c because it uses the
14524 JVM stack representation. Provide a build_multianewarray. FIXME */
14525 return build (CALL_EXPR, array_type,
14526 build_address_of (soft_multianewarray_node),
14527 tree_cons (NULL_TREE, build_class_ref (TREE_TYPE (array_type)),
14528 tree_cons (NULL_TREE,
14529 build_int_2 (ndims, 0), dims )),
14530 NULL_TREE);
14531 }
14532
14533 /* 10.6 Array initializer. */
14534
14535 /* Build a wfl for array element that don't have one, so we can
14536 pin-point errors. */
14537
14538 static tree
maybe_build_array_element_wfl(tree node)14539 maybe_build_array_element_wfl (tree node)
14540 {
14541 if (TREE_CODE (node) != EXPR_WITH_FILE_LOCATION)
14542 return build_expr_wfl (NULL_TREE, ctxp->filename,
14543 ctxp->elc.line, ctxp->elc.prev_col);
14544 else
14545 return NULL_TREE;
14546 }
14547
14548 /* Build a NEW_ARRAY_INIT that features a CONSTRUCTOR node. This makes
14549 identification of initialized arrays easier to detect during walk
14550 and expansion. */
14551
14552 static tree
build_new_array_init(int location,tree values)14553 build_new_array_init (int location, tree values)
14554 {
14555 tree constructor = build_constructor (NULL_TREE, values);
14556 tree to_return = build1 (NEW_ARRAY_INIT, NULL_TREE, constructor);
14557 EXPR_WFL_LINECOL (to_return) = location;
14558 return to_return;
14559 }
14560
14561 /* Expand a NEW_ARRAY_INIT node. Return error_mark_node if an error
14562 occurred. Otherwise return NODE after having set its type
14563 appropriately. */
14564
14565 static tree
patch_new_array_init(tree type,tree node)14566 patch_new_array_init (tree type, tree node)
14567 {
14568 int error_seen = 0;
14569 tree current, element_type;
14570 HOST_WIDE_INT length;
14571 int all_constant = 1;
14572 tree init = TREE_OPERAND (node, 0);
14573
14574 if (TREE_CODE (type) != POINTER_TYPE || ! TYPE_ARRAY_P (TREE_TYPE (type)))
14575 {
14576 parse_error_context (node,
14577 "Invalid array initializer for non-array type `%s'",
14578 lang_printable_name (type, 1));
14579 return error_mark_node;
14580 }
14581 type = TREE_TYPE (type);
14582 element_type = TYPE_ARRAY_ELEMENT (type);
14583
14584 CONSTRUCTOR_ELTS (init) = nreverse (CONSTRUCTOR_ELTS (init));
14585
14586 for (length = 0, current = CONSTRUCTOR_ELTS (init);
14587 current; length++, current = TREE_CHAIN (current))
14588 {
14589 tree elt = TREE_VALUE (current);
14590 if (elt == NULL_TREE || TREE_CODE (elt) != NEW_ARRAY_INIT)
14591 {
14592 error_seen |= array_constructor_check_entry (element_type, current);
14593 elt = TREE_VALUE (current);
14594 /* When compiling to native code, STRING_CST is converted to
14595 INDIRECT_REF, but still with a TREE_CONSTANT flag. */
14596 if (! TREE_CONSTANT (elt) || TREE_CODE (elt) == INDIRECT_REF)
14597 all_constant = 0;
14598 }
14599 else
14600 {
14601 TREE_VALUE (current) = patch_new_array_init (element_type, elt);
14602 TREE_PURPOSE (current) = NULL_TREE;
14603 all_constant = 0;
14604 }
14605 if (elt && TREE_CODE (elt) == TREE_LIST
14606 && TREE_VALUE (elt) == error_mark_node)
14607 error_seen = 1;
14608 }
14609
14610 if (error_seen)
14611 return error_mark_node;
14612
14613 /* Create a new type. We can't reuse the one we have here by
14614 patching its dimension because it originally is of dimension -1
14615 hence reused by gcc. This would prevent triangular arrays. */
14616 type = build_java_array_type (element_type, length);
14617 TREE_TYPE (init) = TREE_TYPE (TREE_CHAIN (TREE_CHAIN (TYPE_FIELDS (type))));
14618 TREE_TYPE (node) = promote_type (type);
14619 TREE_CONSTANT (init) = all_constant;
14620 TREE_CONSTANT (node) = all_constant;
14621 return node;
14622 }
14623
14624 /* Verify that one entry of the initializer element list can be
14625 assigned to the array base type. Report 1 if an error occurred, 0
14626 otherwise. */
14627
14628 static int
array_constructor_check_entry(tree type,tree entry)14629 array_constructor_check_entry (tree type, tree entry)
14630 {
14631 char *array_type_string = NULL; /* For error reports */
14632 tree value, type_value, new_value, wfl_value, patched;
14633 int error_seen = 0;
14634
14635 new_value = NULL_TREE;
14636 wfl_value = TREE_VALUE (entry);
14637
14638 value = java_complete_tree (TREE_VALUE (entry));
14639 /* patch_string return error_mark_node if arg is error_mark_node */
14640 if ((patched = patch_string (value)))
14641 value = patched;
14642 if (value == error_mark_node)
14643 return 1;
14644
14645 type_value = TREE_TYPE (value);
14646
14647 /* At anytime, try_builtin_assignconv can report a warning on
14648 constant overflow during narrowing. */
14649 SET_WFL_OPERATOR (wfl_operator, TREE_PURPOSE (entry), wfl_value);
14650 new_value = try_builtin_assignconv (wfl_operator, type, value);
14651 if (!new_value && (new_value = try_reference_assignconv (type, value)))
14652 type_value = promote_type (type);
14653
14654 /* Check and report errors */
14655 if (!new_value)
14656 {
14657 const char *const msg = (!valid_cast_to_p (type_value, type) ?
14658 "Can't" : "Explicit cast needed to");
14659 if (!array_type_string)
14660 array_type_string = xstrdup (lang_printable_name (type, 1));
14661 parse_error_context
14662 (wfl_operator, "Incompatible type for array. %s convert `%s' to `%s'",
14663 msg, lang_printable_name (type_value, 1), array_type_string);
14664 error_seen = 1;
14665 }
14666
14667 if (new_value)
14668 TREE_VALUE (entry) = new_value;
14669
14670 if (array_type_string)
14671 free (array_type_string);
14672
14673 TREE_PURPOSE (entry) = NULL_TREE;
14674 return error_seen;
14675 }
14676
14677 static tree
build_this(int location)14678 build_this (int location)
14679 {
14680 tree node = build_wfl_node (this_identifier_node);
14681 TREE_SET_CODE (node, THIS_EXPR);
14682 EXPR_WFL_LINECOL (node) = location;
14683 return node;
14684 }
14685
14686 /* 14.15 The return statement. It builds a modify expression that
14687 assigns the returned value to the RESULT_DECL that hold the value
14688 to be returned. */
14689
14690 static tree
build_return(int location,tree op)14691 build_return (int location, tree op)
14692 {
14693 tree node = build1 (RETURN_EXPR, NULL_TREE, op);
14694 EXPR_WFL_LINECOL (node) = location;
14695 node = build_debugable_stmt (location, node);
14696 return node;
14697 }
14698
14699 static tree
patch_return(tree node)14700 patch_return (tree node)
14701 {
14702 tree return_exp = TREE_OPERAND (node, 0);
14703 tree meth = current_function_decl;
14704 tree mtype = TREE_TYPE (TREE_TYPE (current_function_decl));
14705 int error_found = 0;
14706
14707 TREE_TYPE (node) = error_mark_node;
14708 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
14709
14710 /* It's invalid to have a return value within a function that is
14711 declared with the keyword void or that is a constructor */
14712 if (return_exp && (mtype == void_type_node || DECL_CONSTRUCTOR_P (meth)))
14713 error_found = 1;
14714
14715 /* It's invalid to use a return statement in a static block */
14716 if (DECL_CLINIT_P (current_function_decl))
14717 error_found = 1;
14718
14719 /* It's invalid to have a no return value within a function that
14720 isn't declared with the keyword `void' */
14721 if (!return_exp && (mtype != void_type_node && !DECL_CONSTRUCTOR_P (meth)))
14722 error_found = 2;
14723
14724 if (DECL_INSTINIT_P (current_function_decl))
14725 error_found = 1;
14726
14727 if (error_found)
14728 {
14729 if (DECL_INSTINIT_P (current_function_decl))
14730 parse_error_context (wfl_operator,
14731 "`return' inside instance initializer");
14732
14733 else if (DECL_CLINIT_P (current_function_decl))
14734 parse_error_context (wfl_operator,
14735 "`return' inside static initializer");
14736
14737 else if (!DECL_CONSTRUCTOR_P (meth))
14738 {
14739 char *t = xstrdup (lang_printable_name (mtype, 0));
14740 parse_error_context (wfl_operator,
14741 "`return' with%s value from `%s %s'",
14742 (error_found == 1 ? "" : "out"),
14743 t, lang_printable_name (meth, 0));
14744 free (t);
14745 }
14746 else
14747 parse_error_context (wfl_operator,
14748 "`return' with value from constructor `%s'",
14749 lang_printable_name (meth, 0));
14750 return error_mark_node;
14751 }
14752
14753 /* If we have a return_exp, build a modify expression and expand
14754 it. Note: at that point, the assignment is declared valid, but we
14755 may want to carry some more hacks */
14756 if (return_exp)
14757 {
14758 tree exp = java_complete_tree (return_exp);
14759 tree modify, patched;
14760
14761 if ((patched = patch_string (exp)))
14762 exp = patched;
14763
14764 modify = build (MODIFY_EXPR, NULL_TREE, DECL_RESULT (meth), exp);
14765 EXPR_WFL_LINECOL (modify) = EXPR_WFL_LINECOL (node);
14766 modify = java_complete_tree (modify);
14767
14768 if (modify != error_mark_node)
14769 {
14770 TREE_SIDE_EFFECTS (modify) = 1;
14771 TREE_OPERAND (node, 0) = modify;
14772 }
14773 else
14774 return error_mark_node;
14775 }
14776 TREE_TYPE (node) = void_type_node;
14777 TREE_SIDE_EFFECTS (node) = 1;
14778 return node;
14779 }
14780
14781 /* 14.8 The if Statement */
14782
14783 static tree
build_if_else_statement(int location,tree expression,tree if_body,tree else_body)14784 build_if_else_statement (int location, tree expression, tree if_body,
14785 tree else_body)
14786 {
14787 tree node;
14788 if (!else_body)
14789 else_body = empty_stmt_node;
14790 node = build (COND_EXPR, NULL_TREE, expression, if_body, else_body);
14791 EXPR_WFL_LINECOL (node) = location;
14792 node = build_debugable_stmt (location, node);
14793 return node;
14794 }
14795
14796 static tree
patch_if_else_statement(tree node)14797 patch_if_else_statement (tree node)
14798 {
14799 tree expression = TREE_OPERAND (node, 0);
14800 int can_complete_normally
14801 = (CAN_COMPLETE_NORMALLY (TREE_OPERAND (node, 1))
14802 | CAN_COMPLETE_NORMALLY (TREE_OPERAND (node, 2)));
14803
14804 TREE_TYPE (node) = error_mark_node;
14805 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
14806
14807 /* The type of expression must be boolean */
14808 if (TREE_TYPE (expression) != boolean_type_node
14809 && TREE_TYPE (expression) != promoted_boolean_type_node)
14810 {
14811 parse_error_context
14812 (wfl_operator,
14813 "Incompatible type for `if'. Can't convert `%s' to `boolean'",
14814 lang_printable_name (TREE_TYPE (expression), 0));
14815 return error_mark_node;
14816 }
14817
14818 if (TREE_CODE (expression) == INTEGER_CST)
14819 {
14820 if (integer_zerop (expression))
14821 node = TREE_OPERAND (node, 2);
14822 else
14823 node = TREE_OPERAND (node, 1);
14824 if (CAN_COMPLETE_NORMALLY (node) != can_complete_normally)
14825 {
14826 node = build (COMPOUND_EXPR, void_type_node, node, empty_stmt_node);
14827 CAN_COMPLETE_NORMALLY (node) = can_complete_normally;
14828 }
14829 return node;
14830 }
14831 TREE_TYPE (node) = void_type_node;
14832 TREE_SIDE_EFFECTS (node) = 1;
14833 CAN_COMPLETE_NORMALLY (node) = can_complete_normally;
14834 return node;
14835 }
14836
14837 /* 14.6 Labeled Statements */
14838
14839 /* Action taken when a labeled statement is parsed. a new
14840 LABELED_BLOCK_EXPR is created. No statement is attached to the
14841 label, yet. LABEL can be NULL_TREE for artificially-generated blocks. */
14842
14843 static tree
build_labeled_block(int location,tree label)14844 build_labeled_block (int location, tree label)
14845 {
14846 tree label_name ;
14847 tree label_decl, node;
14848 if (label == NULL_TREE || label == continue_identifier_node)
14849 label_name = label;
14850 else
14851 {
14852 label_name = merge_qualified_name (label_id, label);
14853 /* Issue an error if we try to reuse a label that was previously
14854 declared */
14855 if (IDENTIFIER_LOCAL_VALUE (label_name))
14856 {
14857 EXPR_WFL_LINECOL (wfl_operator) = location;
14858 parse_error_context (wfl_operator,
14859 "Declaration of `%s' shadows a previous label declaration",
14860 IDENTIFIER_POINTER (label));
14861 EXPR_WFL_LINECOL (wfl_operator) =
14862 EXPR_WFL_LINECOL (IDENTIFIER_LOCAL_VALUE (label_name));
14863 parse_error_context (wfl_operator,
14864 "This is the location of the previous declaration of label `%s'",
14865 IDENTIFIER_POINTER (label));
14866 java_error_count--;
14867 }
14868 }
14869
14870 label_decl = create_label_decl (label_name);
14871 node = build (LABELED_BLOCK_EXPR, NULL_TREE, label_decl, NULL_TREE);
14872 EXPR_WFL_LINECOL (node) = location;
14873 TREE_SIDE_EFFECTS (node) = 1;
14874 return node;
14875 }
14876
14877 /* A labeled statement LBE is attached a statement. */
14878
14879 static tree
finish_labeled_statement(tree lbe,tree statement)14880 finish_labeled_statement (tree lbe, /* Labeled block expr */
14881 tree statement)
14882 {
14883 /* In anyways, tie the loop to its statement */
14884 LABELED_BLOCK_BODY (lbe) = statement;
14885 pop_labeled_block ();
14886 POP_LABELED_BLOCK ();
14887 return lbe;
14888 }
14889
14890 /* 14.10, 14.11, 14.12 Loop Statements */
14891
14892 /* Create an empty LOOP_EXPR and make it the last in the nested loop
14893 list. */
14894
14895 static tree
build_new_loop(tree loop_body)14896 build_new_loop (tree loop_body)
14897 {
14898 tree loop = build (LOOP_EXPR, NULL_TREE, loop_body);
14899 TREE_SIDE_EFFECTS (loop) = 1;
14900 PUSH_LOOP (loop);
14901 return loop;
14902 }
14903
14904 /* Create a loop body according to the following structure:
14905 COMPOUND_EXPR
14906 COMPOUND_EXPR (loop main body)
14907 EXIT_EXPR (this order is for while/for loops.
14908 LABELED_BLOCK_EXPR the order is reversed for do loops)
14909 LABEL_DECL (a continue occurring here branches at the
14910 BODY end of this labeled block)
14911 INCREMENT (if any)
14912
14913 REVERSED, if nonzero, tells that the loop condition expr comes
14914 after the body, like in the do-while loop.
14915
14916 To obtain a loop, the loop body structure described above is
14917 encapsulated within a LOOP_EXPR surrounded by a LABELED_BLOCK_EXPR:
14918
14919 LABELED_BLOCK_EXPR
14920 LABEL_DECL (use this label to exit the loop)
14921 LOOP_EXPR
14922 <structure described above> */
14923
14924 static tree
build_loop_body(int location,tree condition,int reversed)14925 build_loop_body (int location, tree condition, int reversed)
14926 {
14927 tree first, second, body;
14928
14929 condition = build (EXIT_EXPR, NULL_TREE, condition); /* Force walk */
14930 EXPR_WFL_LINECOL (condition) = location; /* For accurate error report */
14931 condition = build_debugable_stmt (location, condition);
14932 TREE_SIDE_EFFECTS (condition) = 1;
14933
14934 body = build_labeled_block (0, continue_identifier_node);
14935 first = (reversed ? body : condition);
14936 second = (reversed ? condition : body);
14937 return
14938 build (COMPOUND_EXPR, NULL_TREE,
14939 build (COMPOUND_EXPR, NULL_TREE, first, second), empty_stmt_node);
14940 }
14941
14942 /* Install CONDITION (if any) and loop BODY (using REVERSED to tell
14943 their order) on the current loop. Unlink the current loop from the
14944 loop list. */
14945
14946 static tree
finish_loop_body(int location,tree condition,tree body,int reversed)14947 finish_loop_body (int location, tree condition, tree body, int reversed)
14948 {
14949 tree to_return = ctxp->current_loop;
14950 tree loop_body = LOOP_EXPR_BODY (to_return);
14951 if (condition)
14952 {
14953 tree cnode = LOOP_EXPR_BODY_CONDITION_EXPR (loop_body, reversed);
14954 /* We wrapped the EXIT_EXPR around a WFL so we can debug it.
14955 The real EXIT_EXPR is one operand further. */
14956 EXPR_WFL_LINECOL (cnode) = location;
14957 /* This one is for accurate error reports */
14958 EXPR_WFL_LINECOL (TREE_OPERAND (cnode, 0)) = location;
14959 TREE_OPERAND (TREE_OPERAND (cnode, 0), 0) = condition;
14960 }
14961 LOOP_EXPR_BODY_BODY_EXPR (loop_body, reversed) = body;
14962 POP_LOOP ();
14963 return to_return;
14964 }
14965
14966 /* Tailored version of finish_loop_body for FOR loops, when FOR
14967 loops feature the condition part */
14968
14969 static tree
finish_for_loop(int location,tree condition,tree update,tree body)14970 finish_for_loop (int location, tree condition, tree update, tree body)
14971 {
14972 /* Put the condition and the loop body in place */
14973 tree loop = finish_loop_body (location, condition, body, 0);
14974 /* LOOP is the current loop which has been now popped of the loop
14975 stack. Mark the update block as reachable and install it. We do
14976 this because the (current interpretation of the) JLS requires
14977 that the update expression be considered reachable even if the
14978 for loop's body doesn't complete normally. */
14979 if (update != NULL_TREE && update != empty_stmt_node)
14980 {
14981 tree up2 = update;
14982 if (TREE_CODE (up2) == EXPR_WITH_FILE_LOCATION)
14983 up2 = EXPR_WFL_NODE (up2);
14984 /* It is possible for the update expression to be an
14985 EXPR_WFL_NODE wrapping nothing. */
14986 if (up2 != NULL_TREE && up2 != empty_stmt_node)
14987 {
14988 /* Try to detect constraint violations. These would be
14989 programming errors somewhere. */
14990 if (! IS_EXPR_CODE_CLASS (TREE_CODE_CLASS (TREE_CODE (up2)))
14991 || TREE_CODE (up2) == LOOP_EXPR)
14992 abort ();
14993 SUPPRESS_UNREACHABLE_ERROR (up2) = 1;
14994 }
14995 }
14996 LOOP_EXPR_BODY_UPDATE_BLOCK (LOOP_EXPR_BODY (loop)) = update;
14997 return loop;
14998 }
14999
15000 /* Try to find the loop a block might be related to. This comprises
15001 the case where the LOOP_EXPR is found as the second operand of a
15002 COMPOUND_EXPR, because the loop happens to have an initialization
15003 part, then expressed as the first operand of the COMPOUND_EXPR. If
15004 the search finds something, 1 is returned. Otherwise, 0 is
15005 returned. The search is assumed to start from a
15006 LABELED_BLOCK_EXPR's block. */
15007
15008 static tree
search_loop(tree statement)15009 search_loop (tree statement)
15010 {
15011 if (TREE_CODE (statement) == LOOP_EXPR)
15012 return statement;
15013
15014 if (TREE_CODE (statement) == BLOCK)
15015 statement = BLOCK_SUBBLOCKS (statement);
15016 else
15017 return NULL_TREE;
15018
15019 if (statement && TREE_CODE (statement) == COMPOUND_EXPR)
15020 while (statement && TREE_CODE (statement) == COMPOUND_EXPR)
15021 statement = TREE_OPERAND (statement, 1);
15022
15023 return (TREE_CODE (statement) == LOOP_EXPR
15024 && FOR_LOOP_P (statement) ? statement : NULL_TREE);
15025 }
15026
15027 /* Return 1 if LOOP can be found in the labeled block BLOCK. 0 is
15028 returned otherwise. */
15029
15030 static int
labeled_block_contains_loop_p(tree block,tree loop)15031 labeled_block_contains_loop_p (tree block, tree loop)
15032 {
15033 if (!block)
15034 return 0;
15035
15036 if (LABELED_BLOCK_BODY (block) == loop)
15037 return 1;
15038
15039 if (FOR_LOOP_P (loop) && search_loop (LABELED_BLOCK_BODY (block)) == loop)
15040 return 1;
15041
15042 return 0;
15043 }
15044
15045 /* If the loop isn't surrounded by a labeled statement, create one and
15046 insert LOOP as its body. */
15047
15048 static tree
patch_loop_statement(tree loop)15049 patch_loop_statement (tree loop)
15050 {
15051 tree loop_label;
15052
15053 TREE_TYPE (loop) = void_type_node;
15054 if (labeled_block_contains_loop_p (ctxp->current_labeled_block, loop))
15055 return loop;
15056
15057 loop_label = build_labeled_block (0, NULL_TREE);
15058 /* LOOP is an EXPR node, so it should have a valid EXPR_WFL_LINECOL
15059 that LOOP_LABEL could enquire about, for a better accuracy. FIXME */
15060 LABELED_BLOCK_BODY (loop_label) = loop;
15061 PUSH_LABELED_BLOCK (loop_label);
15062 return loop_label;
15063 }
15064
15065 /* 14.13, 14.14: break and continue Statements */
15066
15067 /* Build a break or a continue statement. a null NAME indicates an
15068 unlabeled break/continue statement. */
15069
15070 static tree
build_bc_statement(int location,int is_break,tree name)15071 build_bc_statement (int location, int is_break, tree name)
15072 {
15073 tree break_continue, label_block_expr = NULL_TREE;
15074
15075 if (name)
15076 {
15077 if (!(label_block_expr = IDENTIFIER_LOCAL_VALUE
15078 (merge_qualified_name (label_id, EXPR_WFL_NODE (name)))))
15079 /* Null means that we don't have a target for this named
15080 break/continue. In this case, we make the target to be the
15081 label name, so that the error can be reported accurately in
15082 patch_bc_statement. */
15083 label_block_expr = EXPR_WFL_NODE (name);
15084 }
15085 /* Unlabeled break/continue will be handled during the
15086 break/continue patch operation */
15087 break_continue
15088 = build (EXIT_BLOCK_EXPR, NULL_TREE, label_block_expr, NULL_TREE);
15089
15090 IS_BREAK_STMT_P (break_continue) = is_break;
15091 TREE_SIDE_EFFECTS (break_continue) = 1;
15092 EXPR_WFL_LINECOL (break_continue) = location;
15093 break_continue = build_debugable_stmt (location, break_continue);
15094 return break_continue;
15095 }
15096
15097 /* Verification of a break/continue statement. */
15098
15099 static tree
patch_bc_statement(tree node)15100 patch_bc_statement (tree node)
15101 {
15102 tree bc_label = EXIT_BLOCK_LABELED_BLOCK (node), target_stmt;
15103 tree labeled_block = ctxp->current_labeled_block;
15104 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
15105
15106 /* Having an identifier here means that the target is unknown. */
15107 if (bc_label != NULL_TREE && TREE_CODE (bc_label) == IDENTIFIER_NODE)
15108 {
15109 parse_error_context (wfl_operator, "No label definition found for `%s'",
15110 IDENTIFIER_POINTER (bc_label));
15111 return error_mark_node;
15112 }
15113 if (! IS_BREAK_STMT_P (node))
15114 {
15115 /* It's a continue statement. */
15116 for (;; labeled_block = TREE_CHAIN (labeled_block))
15117 {
15118 if (labeled_block == NULL_TREE)
15119 {
15120 if (bc_label == NULL_TREE)
15121 parse_error_context (wfl_operator,
15122 "`continue' must be in loop");
15123 else
15124 parse_error_context
15125 (wfl_operator, "continue label `%s' does not name a loop",
15126 IDENTIFIER_POINTER (bc_label));
15127 return error_mark_node;
15128 }
15129 if ((DECL_NAME (LABELED_BLOCK_LABEL (labeled_block))
15130 == continue_identifier_node)
15131 && (bc_label == NULL_TREE
15132 || TREE_CHAIN (labeled_block) == bc_label))
15133 {
15134 bc_label = labeled_block;
15135 break;
15136 }
15137 }
15138 }
15139 else if (!bc_label)
15140 {
15141 for (;; labeled_block = TREE_CHAIN (labeled_block))
15142 {
15143 if (labeled_block == NULL_TREE)
15144 {
15145 parse_error_context (wfl_operator,
15146 "`break' must be in loop or switch");
15147 return error_mark_node;
15148 }
15149 target_stmt = LABELED_BLOCK_BODY (labeled_block);
15150 if (TREE_CODE (target_stmt) == SWITCH_EXPR
15151 || search_loop (target_stmt))
15152 {
15153 bc_label = labeled_block;
15154 break;
15155 }
15156 }
15157 }
15158
15159 EXIT_BLOCK_LABELED_BLOCK (node) = bc_label;
15160 CAN_COMPLETE_NORMALLY (bc_label) = 1;
15161
15162 /* Our break/continue don't return values. */
15163 TREE_TYPE (node) = void_type_node;
15164 /* Encapsulate the break within a compound statement so that it's
15165 expanded all the times by expand_expr (and not clobbered
15166 sometimes, like after a if statement) */
15167 node = add_stmt_to_compound (NULL_TREE, void_type_node, node);
15168 TREE_SIDE_EFFECTS (node) = 1;
15169 return node;
15170 }
15171
15172 /* Process the exit expression belonging to a loop. Its type must be
15173 boolean. */
15174
15175 static tree
patch_exit_expr(tree node)15176 patch_exit_expr (tree node)
15177 {
15178 tree expression = TREE_OPERAND (node, 0);
15179 TREE_TYPE (node) = error_mark_node;
15180 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
15181
15182 /* The type of expression must be boolean */
15183 if (TREE_TYPE (expression) != boolean_type_node)
15184 {
15185 parse_error_context
15186 (wfl_operator,
15187 "Incompatible type for loop conditional. Can't convert `%s' to `boolean'",
15188 lang_printable_name (TREE_TYPE (expression), 0));
15189 return error_mark_node;
15190 }
15191 /* Now we know things are allright, invert the condition, fold and
15192 return */
15193 TREE_OPERAND (node, 0) =
15194 fold (build1 (TRUTH_NOT_EXPR, boolean_type_node, expression));
15195
15196 if (! integer_zerop (TREE_OPERAND (node, 0))
15197 && ctxp->current_loop != NULL_TREE
15198 && TREE_CODE (ctxp->current_loop) == LOOP_EXPR)
15199 CAN_COMPLETE_NORMALLY (ctxp->current_loop) = 1;
15200 if (! integer_onep (TREE_OPERAND (node, 0)))
15201 CAN_COMPLETE_NORMALLY (node) = 1;
15202
15203
15204 TREE_TYPE (node) = void_type_node;
15205 return node;
15206 }
15207
15208 /* 14.9 Switch statement */
15209
15210 static tree
patch_switch_statement(tree node)15211 patch_switch_statement (tree node)
15212 {
15213 tree se = TREE_OPERAND (node, 0), se_type;
15214 tree save, iter;
15215
15216 /* Complete the switch expression */
15217 se = TREE_OPERAND (node, 0) = java_complete_tree (se);
15218 se_type = TREE_TYPE (se);
15219 /* The type of the switch expression must be char, byte, short or
15220 int */
15221 if (! JINTEGRAL_TYPE_P (se_type) || se_type == long_type_node)
15222 {
15223 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (node);
15224 parse_error_context (wfl_operator,
15225 "Incompatible type for `switch'. Can't convert `%s' to `int'",
15226 lang_printable_name (se_type, 0));
15227 /* This is what java_complete_tree will check */
15228 TREE_OPERAND (node, 0) = error_mark_node;
15229 return error_mark_node;
15230 }
15231
15232 /* Save and restore the outer case label list. */
15233 save = case_label_list;
15234 case_label_list = NULL_TREE;
15235
15236 TREE_OPERAND (node, 1) = java_complete_tree (TREE_OPERAND (node, 1));
15237
15238 /* See if we've found a duplicate label. We can't leave this until
15239 code generation, because in `--syntax-only' and `-C' modes we
15240 don't do ordinary code generation. */
15241 for (iter = case_label_list; iter != NULL_TREE; iter = TREE_CHAIN (iter))
15242 {
15243 HOST_WIDE_INT val = TREE_INT_CST_LOW (TREE_VALUE (iter));
15244 tree subiter;
15245 for (subiter = TREE_CHAIN (iter);
15246 subiter != NULL_TREE;
15247 subiter = TREE_CHAIN (subiter))
15248 {
15249 HOST_WIDE_INT subval = TREE_INT_CST_LOW (TREE_VALUE (subiter));
15250 if (val == subval)
15251 {
15252 EXPR_WFL_LINECOL (wfl_operator)
15253 = EXPR_WFL_LINECOL (TREE_PURPOSE (iter));
15254 /* The case_label_list is in reverse order, so print the
15255 outer label first. */
15256 parse_error_context (wfl_operator, "duplicate case label: `"
15257 HOST_WIDE_INT_PRINT_DEC "'", subval);
15258 EXPR_WFL_LINECOL (wfl_operator)
15259 = EXPR_WFL_LINECOL (TREE_PURPOSE (subiter));
15260 parse_error_context (wfl_operator, "original label is here");
15261
15262 break;
15263 }
15264 }
15265 }
15266
15267 case_label_list = save;
15268
15269 /* Ready to return */
15270 if (TREE_CODE (TREE_OPERAND (node, 1)) == ERROR_MARK)
15271 {
15272 TREE_TYPE (node) = error_mark_node;
15273 return error_mark_node;
15274 }
15275 TREE_TYPE (node) = void_type_node;
15276 TREE_SIDE_EFFECTS (node) = 1;
15277 CAN_COMPLETE_NORMALLY (node)
15278 = CAN_COMPLETE_NORMALLY (TREE_OPERAND (node, 1))
15279 || ! SWITCH_HAS_DEFAULT (node);
15280 return node;
15281 }
15282
15283 /* Assertions. */
15284
15285 /* Build an assertion expression for `assert CONDITION : VALUE'; VALUE
15286 might be NULL_TREE. */
15287 static tree
build_assertion(int location,tree condition,tree value)15288 build_assertion (int location, tree condition, tree value)
15289 {
15290 tree node;
15291 tree klass = GET_CPC ();
15292
15293 if (! CLASS_USES_ASSERTIONS (klass))
15294 {
15295 tree field, classdollar, id, call;
15296 tree class_type = TREE_TYPE (klass);
15297
15298 field = add_field (class_type,
15299 get_identifier ("$assertionsDisabled"),
15300 boolean_type_node,
15301 ACC_PRIVATE | ACC_STATIC | ACC_FINAL);
15302 MAYBE_CREATE_VAR_LANG_DECL_SPECIFIC (field);
15303 FIELD_SYNTHETIC (field) = 1;
15304
15305 if (!TYPE_DOT_CLASS (class_type))
15306 build_dot_class_method (class_type);
15307 classdollar = build_dot_class_method_invocation (class_type, class_type);
15308
15309 /* Call CLASS.desiredAssertionStatus(). */
15310 id = build_wfl_node (get_identifier ("desiredAssertionStatus"));
15311 call = build (CALL_EXPR, NULL_TREE, id, NULL_TREE, NULL_TREE);
15312 call = make_qualified_primary (classdollar, call, location);
15313 TREE_SIDE_EFFECTS (call) = 1;
15314
15315 /* Invert to obtain !CLASS.desiredAssertionStatus(). This may
15316 seem odd, but we do it to generate code identical to that of
15317 the JDK. */
15318 call = build1 (TRUTH_NOT_EXPR, NULL_TREE, call);
15319 TREE_SIDE_EFFECTS (call) = 1;
15320 DECL_INITIAL (field) = call;
15321
15322 /* Record the initializer in the initializer statement list. */
15323 call = build (MODIFY_EXPR, NULL_TREE, field, call);
15324 TREE_CHAIN (call) = CPC_STATIC_INITIALIZER_STMT (ctxp);
15325 SET_CPC_STATIC_INITIALIZER_STMT (ctxp, call);
15326 MODIFY_EXPR_FROM_INITIALIZATION_P (call) = 1;
15327
15328 CLASS_USES_ASSERTIONS (klass) = 1;
15329 }
15330
15331 if (value != NULL_TREE)
15332 value = tree_cons (NULL_TREE, value, NULL_TREE);
15333
15334 node = build_wfl_node (get_identifier ("java"));
15335 node = make_qualified_name (node, build_wfl_node (get_identifier ("lang")),
15336 location);
15337 node = make_qualified_name (node, build_wfl_node (get_identifier ("AssertionError")),
15338 location);
15339
15340 node = build (NEW_CLASS_EXPR, NULL_TREE, node, value, NULL_TREE);
15341 TREE_SIDE_EFFECTS (node) = 1;
15342 /* It is too early to use BUILD_THROW. */
15343 node = build1 (THROW_EXPR, NULL_TREE, node);
15344 TREE_SIDE_EFFECTS (node) = 1;
15345
15346 /* We invert the condition; if we just put NODE as the `else' part
15347 then we generate weird-looking bytecode. */
15348 condition = build1 (TRUTH_NOT_EXPR, NULL_TREE, condition);
15349 /* Check $assertionsDisabled. */
15350 condition
15351 = build (TRUTH_ANDIF_EXPR, NULL_TREE,
15352 build1 (TRUTH_NOT_EXPR, NULL_TREE,
15353 build_wfl_node (get_identifier ("$assertionsDisabled"))),
15354 condition);
15355 node = build_if_else_statement (location, condition, node, NULL_TREE);
15356 return node;
15357 }
15358
15359 /* 14.18 The try/catch statements */
15360
15361 /* Encapsulate TRY_STMTS' in a try catch sequence. The catch clause
15362 catches TYPE and executes CATCH_STMTS. */
15363
15364 static tree
encapsulate_with_try_catch(int location,tree type_or_name,tree try_stmts,tree catch_stmts)15365 encapsulate_with_try_catch (int location, tree type_or_name, tree try_stmts,
15366 tree catch_stmts)
15367 {
15368 tree try_block, catch_clause_param, catch_block, catch;
15369
15370 /* First build a try block */
15371 try_block = build_expr_block (try_stmts, NULL_TREE);
15372
15373 /* Build a catch block: we need a catch clause parameter */
15374 if (TREE_CODE (type_or_name) == EXPR_WITH_FILE_LOCATION)
15375 {
15376 tree catch_type = obtain_incomplete_type (type_or_name);
15377 jdep *dep;
15378 catch_clause_param = build_decl (VAR_DECL, wpv_id, catch_type);
15379 register_incomplete_type (JDEP_VARIABLE, type_or_name,
15380 catch_clause_param, catch_type);
15381 dep = CLASSD_LAST (ctxp->classd_list);
15382 JDEP_GET_PATCH (dep) = &TREE_TYPE (catch_clause_param);
15383 }
15384 else
15385 catch_clause_param = build_decl (VAR_DECL, wpv_id,
15386 build_pointer_type (type_or_name));
15387
15388 /* And a block */
15389 catch_block = build_expr_block (NULL_TREE, catch_clause_param);
15390
15391 /* Initialize the variable and store in the block */
15392 catch = build (MODIFY_EXPR, NULL_TREE, catch_clause_param,
15393 build (JAVA_EXC_OBJ_EXPR, ptr_type_node));
15394 add_stmt_to_block (catch_block, NULL_TREE, catch);
15395
15396 /* Add the catch statements */
15397 add_stmt_to_block (catch_block, NULL_TREE, catch_stmts);
15398
15399 /* Now we can build a CATCH_EXPR */
15400 catch_block = build1 (CATCH_EXPR, NULL_TREE, catch_block);
15401
15402 return build_try_statement (location, try_block, catch_block);
15403 }
15404
15405 static tree
build_try_statement(int location,tree try_block,tree catches)15406 build_try_statement (int location, tree try_block, tree catches)
15407 {
15408 tree node = build (TRY_EXPR, NULL_TREE, try_block, catches);
15409 EXPR_WFL_LINECOL (node) = location;
15410 return node;
15411 }
15412
15413 static tree
build_try_finally_statement(int location,tree try_block,tree finally)15414 build_try_finally_statement (int location, tree try_block, tree finally)
15415 {
15416 tree node = build (TRY_FINALLY_EXPR, NULL_TREE, try_block, finally);
15417 EXPR_WFL_LINECOL (node) = location;
15418 return node;
15419 }
15420
15421 static tree
patch_try_statement(tree node)15422 patch_try_statement (tree node)
15423 {
15424 int error_found = 0;
15425 tree try = TREE_OPERAND (node, 0);
15426 /* Exception handlers are considered in left to right order */
15427 tree catch = nreverse (TREE_OPERAND (node, 1));
15428 tree current, caught_type_list = NULL_TREE;
15429
15430 /* Check catch clauses, if any. Every time we find an error, we try
15431 to process the next catch clause. We process the catch clause before
15432 the try block so that when processing the try block we can check thrown
15433 exceptions againts the caught type list. */
15434 for (current = catch; current; current = TREE_CHAIN (current))
15435 {
15436 tree carg_decl, carg_type;
15437 tree sub_current, catch_block, catch_clause;
15438 int unreachable;
15439
15440 /* At this point, the structure of the catch clause is
15441 CATCH_EXPR (catch node)
15442 BLOCK (with the decl of the parameter)
15443 COMPOUND_EXPR
15444 MODIFY_EXPR (assignment of the catch parameter)
15445 BLOCK (catch clause block)
15446 */
15447 catch_clause = TREE_OPERAND (current, 0);
15448 carg_decl = BLOCK_EXPR_DECLS (catch_clause);
15449 carg_type = TREE_TYPE (TREE_TYPE (carg_decl));
15450
15451 /* Catch clauses can't have more than one parameter declared,
15452 but it's already enforced by the grammar. Make sure that the
15453 only parameter of the clause statement in of class Throwable
15454 or a subclass of Throwable, but that was done earlier. The
15455 catch clause parameter type has also been resolved. */
15456
15457 /* Just make sure that the catch clause parameter type inherits
15458 from java.lang.Throwable */
15459 if (!inherits_from_p (carg_type, throwable_type_node))
15460 {
15461 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (current);
15462 parse_error_context (wfl_operator,
15463 "Can't catch class `%s'. Catch clause parameter type must be a subclass of class `java.lang.Throwable'",
15464 lang_printable_name (carg_type, 0));
15465 error_found = 1;
15466 continue;
15467 }
15468
15469 /* Partial check for unreachable catch statement: The catch
15470 clause is reachable iff is no earlier catch block A in
15471 the try statement such that the type of the catch
15472 clause's parameter is the same as or a subclass of the
15473 type of A's parameter */
15474 unreachable = 0;
15475 for (sub_current = catch;
15476 sub_current != current; sub_current = TREE_CHAIN (sub_current))
15477 {
15478 tree sub_catch_clause, decl;
15479 sub_catch_clause = TREE_OPERAND (sub_current, 0);
15480 decl = BLOCK_EXPR_DECLS (sub_catch_clause);
15481
15482 if (inherits_from_p (carg_type, TREE_TYPE (TREE_TYPE (decl))))
15483 {
15484 EXPR_WFL_LINECOL (wfl_operator) = EXPR_WFL_LINECOL (current);
15485 parse_error_context
15486 (wfl_operator,
15487 "`catch' not reached because of the catch clause at line %d",
15488 EXPR_WFL_LINENO (sub_current));
15489 unreachable = error_found = 1;
15490 break;
15491 }
15492 }
15493 /* Complete the catch clause block */
15494 catch_block = java_complete_tree (TREE_OPERAND (current, 0));
15495 if (catch_block == error_mark_node)
15496 {
15497 error_found = 1;
15498 continue;
15499 }
15500 if (CAN_COMPLETE_NORMALLY (catch_block))
15501 CAN_COMPLETE_NORMALLY (node) = 1;
15502 TREE_OPERAND (current, 0) = catch_block;
15503
15504 if (unreachable)
15505 continue;
15506
15507 /* Things to do here: the exception must be thrown */
15508
15509 /* Link this type to the caught type list */
15510 caught_type_list = tree_cons (NULL_TREE, carg_type, caught_type_list);
15511 }
15512
15513 PUSH_EXCEPTIONS (caught_type_list);
15514 if ((try = java_complete_tree (try)) == error_mark_node)
15515 error_found = 1;
15516 if (CAN_COMPLETE_NORMALLY (try))
15517 CAN_COMPLETE_NORMALLY (node) = 1;
15518 POP_EXCEPTIONS ();
15519
15520 /* Verification ends here */
15521 if (error_found)
15522 return error_mark_node;
15523
15524 TREE_OPERAND (node, 0) = try;
15525 TREE_OPERAND (node, 1) = catch;
15526 TREE_TYPE (node) = void_type_node;
15527 return node;
15528 }
15529
15530 /* 14.17 The synchronized Statement */
15531
15532 static tree
patch_synchronized_statement(tree node,tree wfl_op1)15533 patch_synchronized_statement (tree node, tree wfl_op1)
15534 {
15535 tree expr = java_complete_tree (TREE_OPERAND (node, 0));
15536 tree block = TREE_OPERAND (node, 1);
15537
15538 tree tmp, enter, exit, expr_decl, assignment;
15539
15540 if (expr == error_mark_node)
15541 {
15542 block = java_complete_tree (block);
15543 return expr;
15544 }
15545
15546 /* We might be trying to synchronize on a STRING_CST */
15547 if ((tmp = patch_string (expr)))
15548 expr = tmp;
15549
15550 /* The TYPE of expr must be a reference type */
15551 if (!JREFERENCE_TYPE_P (TREE_TYPE (expr)))
15552 {
15553 SET_WFL_OPERATOR (wfl_operator, node, wfl_op1);
15554 parse_error_context (wfl_operator, "Incompatible type for `synchronized'. Can't convert `%s' to `java.lang.Object'",
15555 lang_printable_name (TREE_TYPE (expr), 0));
15556 return error_mark_node;
15557 }
15558
15559 if (flag_emit_xref)
15560 {
15561 TREE_OPERAND (node, 0) = expr;
15562 TREE_OPERAND (node, 1) = java_complete_tree (block);
15563 CAN_COMPLETE_NORMALLY (node) = 1;
15564 return node;
15565 }
15566
15567 /* Generate a try-finally for the synchronized statement, except
15568 that the handler that catches all throw exception calls
15569 _Jv_MonitorExit and then rethrow the exception.
15570 The synchronized statement is then implemented as:
15571 TRY
15572 {
15573 _Jv_MonitorEnter (expression)
15574 synchronized_block
15575 _Jv_MonitorExit (expression)
15576 }
15577 CATCH_ALL
15578 {
15579 e = _Jv_exception_info ();
15580 _Jv_MonitorExit (expression)
15581 Throw (e);
15582 } */
15583
15584 expr_decl = build_decl (VAR_DECL, generate_name (), TREE_TYPE (expr));
15585 BUILD_MONITOR_ENTER (enter, expr_decl);
15586 BUILD_MONITOR_EXIT (exit, expr_decl);
15587 CAN_COMPLETE_NORMALLY (enter) = 1;
15588 CAN_COMPLETE_NORMALLY (exit) = 1;
15589 assignment = build (MODIFY_EXPR, NULL_TREE, expr_decl, expr);
15590 TREE_SIDE_EFFECTS (assignment) = 1;
15591 node = build (COMPOUND_EXPR, NULL_TREE,
15592 build (COMPOUND_EXPR, NULL_TREE, assignment, enter),
15593 build (TRY_FINALLY_EXPR, NULL_TREE, block, exit));
15594 node = build_expr_block (node, expr_decl);
15595
15596 return java_complete_tree (node);
15597 }
15598
15599 /* 14.16 The throw Statement */
15600
15601 static tree
patch_throw_statement(tree node,tree wfl_op1)15602 patch_throw_statement (tree node, tree wfl_op1)
15603 {
15604 tree expr = TREE_OPERAND (node, 0);
15605 tree type = TREE_TYPE (expr);
15606 int unchecked_ok = 0, tryblock_throws_ok = 0;
15607
15608 /* Thrown expression must be assignable to java.lang.Throwable */
15609 if (!try_reference_assignconv (throwable_type_node, expr))
15610 {
15611 SET_WFL_OPERATOR (wfl_operator, node, wfl_op1);
15612 parse_error_context (wfl_operator,
15613 "Can't throw `%s'; it must be a subclass of class `java.lang.Throwable'",
15614 lang_printable_name (type, 0));
15615 /* If the thrown expression was a reference, we further the
15616 compile-time check. */
15617 if (!JREFERENCE_TYPE_P (type))
15618 return error_mark_node;
15619 }
15620
15621 /* At least one of the following must be true */
15622
15623 /* The type of the throw expression is a not checked exception,
15624 i.e. is a unchecked expression. */
15625 unchecked_ok = IS_UNCHECKED_EXCEPTION_P (TREE_TYPE (type));
15626
15627 SET_WFL_OPERATOR (wfl_operator, node, wfl_op1);
15628 /* An instance can't throw a checked exception unless that exception
15629 is explicitly declared in the `throws' clause of each
15630 constructor. This doesn't apply to anonymous classes, since they
15631 don't have declared constructors. */
15632 if (!unchecked_ok
15633 && DECL_INSTINIT_P (current_function_decl)
15634 && !ANONYMOUS_CLASS_P (current_class))
15635 {
15636 tree current;
15637 for (current = TYPE_METHODS (current_class); current;
15638 current = TREE_CHAIN (current))
15639 if (DECL_CONSTRUCTOR_P (current)
15640 && !check_thrown_exceptions_do (TREE_TYPE (expr)))
15641 {
15642 parse_error_context (wfl_operator, "Checked exception `%s' can't be thrown in instance initializer (not all declared constructor are declaring it in their `throws' clause)",
15643 lang_printable_name (TREE_TYPE (expr), 0));
15644 return error_mark_node;
15645 }
15646 }
15647
15648 /* Throw is contained in a try statement and at least one catch
15649 clause can receive the thrown expression or the current method is
15650 declared to throw such an exception. Or, the throw statement is
15651 contained in a method or constructor declaration and the type of
15652 the Expression is assignable to at least one type listed in the
15653 throws clause the declaration. */
15654 if (!unchecked_ok)
15655 tryblock_throws_ok = check_thrown_exceptions_do (TREE_TYPE (expr));
15656 if (!(unchecked_ok || tryblock_throws_ok))
15657 {
15658 /* If there is a surrounding try block that has no matching
15659 clatch clause, report it first. A surrounding try block exits
15660 only if there is something after the list of checked
15661 exception thrown by the current function (if any). */
15662 if (IN_TRY_BLOCK_P ())
15663 parse_error_context (wfl_operator, "Checked exception `%s' can't be caught by any of the catch clause(s) of the surrounding `try' block",
15664 lang_printable_name (type, 0));
15665 /* If we have no surrounding try statement and the method doesn't have
15666 any throws, report it now. FIXME */
15667
15668 /* We report that the exception can't be throw from a try block
15669 in all circumstances but when the `throw' is inside a static
15670 block. */
15671 else if (!EXCEPTIONS_P (currently_caught_type_list)
15672 && !tryblock_throws_ok)
15673 {
15674 if (DECL_CLINIT_P (current_function_decl))
15675 parse_error_context (wfl_operator,
15676 "Checked exception `%s' can't be thrown in initializer",
15677 lang_printable_name (type, 0));
15678 else
15679 parse_error_context (wfl_operator,
15680 "Checked exception `%s' isn't thrown from a `try' block",
15681 lang_printable_name (type, 0));
15682 }
15683 /* Otherwise, the current method doesn't have the appropriate
15684 throws declaration */
15685 else
15686 parse_error_context (wfl_operator, "Checked exception `%s' doesn't match any of current method's `throws' declaration(s)",
15687 lang_printable_name (type, 0));
15688 return error_mark_node;
15689 }
15690
15691 if (! flag_emit_class_files && ! flag_emit_xref)
15692 BUILD_THROW (node, expr);
15693
15694 /* If doing xrefs, keep the location where the `throw' was seen. */
15695 if (flag_emit_xref)
15696 EXPR_WFL_LINECOL (node) = EXPR_WFL_LINECOL (wfl_op1);
15697 return node;
15698 }
15699
15700 /* Check that exception said to be thrown by method DECL can be
15701 effectively caught from where DECL is invoked. THIS_EXPR is the
15702 expression that computes `this' for the method call. */
15703 static void
check_thrown_exceptions(int location,tree decl,tree this_expr)15704 check_thrown_exceptions (int location, tree decl, tree this_expr)
15705 {
15706 tree throws;
15707 int is_array_call = 0;
15708
15709 /* Skip check within generated methods, such as access$<n>. */
15710 if (OUTER_FIELD_ACCESS_IDENTIFIER_P (DECL_NAME (current_function_decl)))
15711 return;
15712
15713 if (this_expr != NULL_TREE
15714 && TREE_CODE (TREE_TYPE (this_expr)) == POINTER_TYPE
15715 && TYPE_ARRAY_P (TREE_TYPE (TREE_TYPE (this_expr))))
15716 is_array_call = 1;
15717
15718 /* For all the unchecked exceptions thrown by DECL. */
15719 for (throws = DECL_FUNCTION_THROWS (decl); throws;
15720 throws = TREE_CHAIN (throws))
15721 if (!check_thrown_exceptions_do (TREE_VALUE (throws)))
15722 {
15723 /* Suppress errors about cloning arrays. */
15724 if (is_array_call && DECL_NAME (decl) == get_identifier ("clone"))
15725 continue;
15726
15727 EXPR_WFL_LINECOL (wfl_operator) = location;
15728 if (DECL_FINIT_P (current_function_decl))
15729 parse_error_context
15730 (wfl_operator, "Exception `%s' can't be thrown in initializer",
15731 lang_printable_name (TREE_VALUE (throws), 0));
15732 else
15733 {
15734 parse_error_context
15735 (wfl_operator, "Exception `%s' must be caught, or it must be declared in the `throws' clause of `%s'",
15736 lang_printable_name (TREE_VALUE (throws), 0),
15737 (DECL_INIT_P (current_function_decl) ?
15738 IDENTIFIER_POINTER (DECL_NAME (TYPE_NAME (current_class))) :
15739 IDENTIFIER_POINTER (DECL_NAME (current_function_decl))));
15740 }
15741 }
15742 }
15743
15744 /* Return 1 if checked EXCEPTION is caught at the current nesting level of
15745 try-catch blocks, OR is listed in the `throws' clause of the
15746 current method. */
15747
15748 static int
check_thrown_exceptions_do(tree exception)15749 check_thrown_exceptions_do (tree exception)
15750 {
15751 tree list = currently_caught_type_list;
15752 resolve_and_layout (exception, NULL_TREE);
15753 /* First, all the nested try-catch-finally at that stage. The
15754 last element contains `throws' clause exceptions, if any. */
15755 if (IS_UNCHECKED_EXCEPTION_P (exception))
15756 return 1;
15757 while (list)
15758 {
15759 tree caught;
15760 for (caught = TREE_VALUE (list); caught; caught = TREE_CHAIN (caught))
15761 if (valid_ref_assignconv_cast_p (exception, TREE_VALUE (caught), 0))
15762 return 1;
15763 list = TREE_CHAIN (list);
15764 }
15765 return 0;
15766 }
15767
15768 static void
purge_unchecked_exceptions(tree mdecl)15769 purge_unchecked_exceptions (tree mdecl)
15770 {
15771 tree throws = DECL_FUNCTION_THROWS (mdecl);
15772 tree new = NULL_TREE;
15773
15774 while (throws)
15775 {
15776 tree next = TREE_CHAIN (throws);
15777 if (!IS_UNCHECKED_EXCEPTION_P (TREE_VALUE (throws)))
15778 {
15779 TREE_CHAIN (throws) = new;
15780 new = throws;
15781 }
15782 throws = next;
15783 }
15784 /* List is inverted here, but it doesn't matter */
15785 DECL_FUNCTION_THROWS (mdecl) = new;
15786 }
15787
15788 /* This function goes over all of CLASS_TYPE ctors and checks whether
15789 each of them features at least one unchecked exception in its
15790 `throws' clause. If it's the case, it returns `true', `false'
15791 otherwise. */
15792
15793 static bool
ctors_unchecked_throws_clause_p(tree class_type)15794 ctors_unchecked_throws_clause_p (tree class_type)
15795 {
15796 tree current;
15797
15798 for (current = TYPE_METHODS (class_type); current;
15799 current = TREE_CHAIN (current))
15800 {
15801 bool ctu = false; /* Ctor Throws Unchecked */
15802 if (DECL_CONSTRUCTOR_P (current))
15803 {
15804 tree throws;
15805 for (throws = DECL_FUNCTION_THROWS (current); throws && !ctu;
15806 throws = TREE_CHAIN (throws))
15807 if (inherits_from_p (TREE_VALUE (throws), exception_type_node))
15808 ctu = true;
15809 }
15810 /* We return false as we found one ctor that is unfit. */
15811 if (!ctu && DECL_CONSTRUCTOR_P (current))
15812 return false;
15813 }
15814 /* All ctors feature at least one unchecked exception in their
15815 `throws' clause. */
15816 return true;
15817 }
15818
15819 /* 15.24 Conditional Operator ?: */
15820
15821 static tree
patch_conditional_expr(tree node,tree wfl_cond,tree wfl_op1)15822 patch_conditional_expr (tree node, tree wfl_cond, tree wfl_op1)
15823 {
15824 tree cond = TREE_OPERAND (node, 0);
15825 tree op1 = TREE_OPERAND (node, 1);
15826 tree op2 = TREE_OPERAND (node, 2);
15827 tree resulting_type = NULL_TREE;
15828 tree t1, t2, patched;
15829 int error_found = 0;
15830
15831 /* Operands of ?: might be StringBuffers crafted as a result of a
15832 string concatenation. Obtain a descent operand here. */
15833 if ((patched = patch_string (op1)))
15834 TREE_OPERAND (node, 1) = op1 = patched;
15835 if ((patched = patch_string (op2)))
15836 TREE_OPERAND (node, 2) = op2 = patched;
15837
15838 t1 = TREE_TYPE (op1);
15839 t2 = TREE_TYPE (op2);
15840
15841 /* The first expression must be a boolean */
15842 if (TREE_TYPE (cond) != boolean_type_node)
15843 {
15844 SET_WFL_OPERATOR (wfl_operator, node, wfl_cond);
15845 parse_error_context (wfl_operator,
15846 "Incompatible type for `?:'. Can't convert `%s' to `boolean'",
15847 lang_printable_name (TREE_TYPE (cond), 0));
15848 error_found = 1;
15849 }
15850
15851 /* Second and third can be numeric, boolean (i.e. primitive),
15852 references or null. Anything else results in an error */
15853 if (!((JNUMERIC_TYPE_P (t1) && JNUMERIC_TYPE_P (t2))
15854 || ((JREFERENCE_TYPE_P (t1) || op1 == null_pointer_node)
15855 && (JREFERENCE_TYPE_P (t2) || op2 == null_pointer_node))
15856 || (t1 == boolean_type_node && t2 == boolean_type_node)))
15857 error_found = 1;
15858
15859 /* Determine the type of the conditional expression. Same types are
15860 easy to deal with */
15861 else if (t1 == t2)
15862 resulting_type = t1;
15863
15864 /* There are different rules for numeric types */
15865 else if (JNUMERIC_TYPE_P (t1))
15866 {
15867 /* if byte/short found, the resulting type is short */
15868 if ((t1 == byte_type_node && t2 == short_type_node)
15869 || (t1 == short_type_node && t2 == byte_type_node))
15870 resulting_type = short_type_node;
15871
15872 /* If t1 is a constant int and t2 is of type byte, short or char
15873 and t1's value fits in t2, then the resulting type is t2 */
15874 else if ((t1 == int_type_node && TREE_CONSTANT (TREE_OPERAND (node, 1)))
15875 && JBSC_TYPE_P (t2) && int_fits_type_p (TREE_OPERAND (node, 1), t2))
15876 resulting_type = t2;
15877
15878 /* If t2 is a constant int and t1 is of type byte, short or char
15879 and t2's value fits in t1, then the resulting type is t1 */
15880 else if ((t2 == int_type_node && TREE_CONSTANT (TREE_OPERAND (node, 2)))
15881 && JBSC_TYPE_P (t1) && int_fits_type_p (TREE_OPERAND (node, 2), t1))
15882 resulting_type = t1;
15883
15884 /* Otherwise, binary numeric promotion is applied and the
15885 resulting type is the promoted type of operand 1 and 2 */
15886 else
15887 resulting_type = binary_numeric_promotion (t1, t2,
15888 &TREE_OPERAND (node, 1),
15889 &TREE_OPERAND (node, 2));
15890 }
15891
15892 /* Cases of a reference and a null type */
15893 else if (JREFERENCE_TYPE_P (t1) && op2 == null_pointer_node)
15894 resulting_type = t1;
15895
15896 else if (JREFERENCE_TYPE_P (t2) && op1 == null_pointer_node)
15897 resulting_type = t2;
15898
15899 /* Last case: different reference types. If a type can be converted
15900 into the other one by assignment conversion, the latter
15901 determines the type of the expression */
15902 else if ((resulting_type = try_reference_assignconv (t1, op2)))
15903 resulting_type = promote_type (t1);
15904
15905 else if ((resulting_type = try_reference_assignconv (t2, op1)))
15906 resulting_type = promote_type (t2);
15907
15908 /* If we don't have any resulting type, we're in trouble */
15909 if (!resulting_type)
15910 {
15911 char *t = xstrdup (lang_printable_name (t1, 0));
15912 SET_WFL_OPERATOR (wfl_operator, node, wfl_op1);
15913 parse_error_context (wfl_operator,
15914 "Incompatible type for `?:'. Can't convert `%s' to `%s'",
15915 t, lang_printable_name (t2, 0));
15916 free (t);
15917 error_found = 1;
15918 }
15919
15920 if (error_found)
15921 {
15922 TREE_TYPE (node) = error_mark_node;
15923 return error_mark_node;
15924 }
15925
15926 TREE_TYPE (node) = resulting_type;
15927 TREE_SET_CODE (node, COND_EXPR);
15928 CAN_COMPLETE_NORMALLY (node) = 1;
15929 return node;
15930 }
15931
15932 /* Wrap EXPR with code to initialize DECL's class, if appropriate. */
15933
15934 static tree
maybe_build_class_init_for_field(tree decl,tree expr)15935 maybe_build_class_init_for_field (tree decl, tree expr)
15936 {
15937 tree clas = DECL_CONTEXT (decl);
15938 if (flag_emit_class_files || flag_emit_xref)
15939 return expr;
15940
15941 if (TREE_CODE (decl) == VAR_DECL && FIELD_STATIC (decl)
15942 && FIELD_FINAL (decl))
15943 {
15944 tree init = DECL_INITIAL (decl);
15945 if (init != NULL_TREE)
15946 init = fold_constant_for_init (init, decl);
15947 if (init != NULL_TREE && CONSTANT_VALUE_P (init))
15948 return expr;
15949 }
15950
15951 return build_class_init (clas, expr);
15952 }
15953
15954 /* Try to constant fold NODE.
15955 If NODE is not a constant expression, return NULL_EXPR.
15956 CONTEXT is a static final VAR_DECL whose initializer we are folding. */
15957
15958 static tree
fold_constant_for_init(tree node,tree context)15959 fold_constant_for_init (tree node, tree context)
15960 {
15961 tree op0, op1, val;
15962 enum tree_code code = TREE_CODE (node);
15963
15964 switch (code)
15965 {
15966 case INTEGER_CST:
15967 if (node == null_pointer_node)
15968 return NULL_TREE;
15969 case STRING_CST:
15970 case REAL_CST:
15971 return node;
15972
15973 case PLUS_EXPR:
15974 case MINUS_EXPR:
15975 case MULT_EXPR:
15976 case TRUNC_MOD_EXPR:
15977 case RDIV_EXPR:
15978 case LSHIFT_EXPR:
15979 case RSHIFT_EXPR:
15980 case URSHIFT_EXPR:
15981 case BIT_AND_EXPR:
15982 case BIT_XOR_EXPR:
15983 case BIT_IOR_EXPR:
15984 case TRUTH_ANDIF_EXPR:
15985 case TRUTH_ORIF_EXPR:
15986 case EQ_EXPR:
15987 case NE_EXPR:
15988 case GT_EXPR:
15989 case GE_EXPR:
15990 case LT_EXPR:
15991 case LE_EXPR:
15992 op0 = TREE_OPERAND (node, 0);
15993 op1 = TREE_OPERAND (node, 1);
15994 val = fold_constant_for_init (op0, context);
15995 if (val == NULL_TREE || ! TREE_CONSTANT (val))
15996 return NULL_TREE;
15997 TREE_OPERAND (node, 0) = val;
15998 val = fold_constant_for_init (op1, context);
15999 if (val == NULL_TREE || ! TREE_CONSTANT (val))
16000 return NULL_TREE;
16001 TREE_OPERAND (node, 1) = val;
16002 return patch_binop (node, op0, op1);
16003
16004 case UNARY_PLUS_EXPR:
16005 case NEGATE_EXPR:
16006 case TRUTH_NOT_EXPR:
16007 case BIT_NOT_EXPR:
16008 case CONVERT_EXPR:
16009 op0 = TREE_OPERAND (node, 0);
16010 val = fold_constant_for_init (op0, context);
16011 if (val == NULL_TREE || ! TREE_CONSTANT (val))
16012 return NULL_TREE;
16013 TREE_OPERAND (node, 0) = val;
16014 val = patch_unaryop (node, op0);
16015 if (! TREE_CONSTANT (val))
16016 return NULL_TREE;
16017 return val;
16018
16019 break;
16020
16021 case COND_EXPR:
16022 val = fold_constant_for_init (TREE_OPERAND (node, 0), context);
16023 if (val == NULL_TREE || ! TREE_CONSTANT (val))
16024 return NULL_TREE;
16025 TREE_OPERAND (node, 0) = val;
16026 val = fold_constant_for_init (TREE_OPERAND (node, 1), context);
16027 if (val == NULL_TREE || ! TREE_CONSTANT (val))
16028 return NULL_TREE;
16029 TREE_OPERAND (node, 1) = val;
16030 val = fold_constant_for_init (TREE_OPERAND (node, 2), context);
16031 if (val == NULL_TREE || ! TREE_CONSTANT (val))
16032 return NULL_TREE;
16033 TREE_OPERAND (node, 2) = val;
16034 return integer_zerop (TREE_OPERAND (node, 0)) ? TREE_OPERAND (node, 1)
16035 : TREE_OPERAND (node, 2);
16036
16037 case VAR_DECL:
16038 case FIELD_DECL:
16039 if (! FIELD_FINAL (node)
16040 || DECL_INITIAL (node) == NULL_TREE)
16041 return NULL_TREE;
16042 val = DECL_INITIAL (node);
16043 /* Guard against infinite recursion. */
16044 DECL_INITIAL (node) = NULL_TREE;
16045 val = fold_constant_for_init (val, node);
16046 if (val != NULL_TREE && TREE_CODE (val) != STRING_CST)
16047 val = try_builtin_assignconv (NULL_TREE, TREE_TYPE (node), val);
16048 DECL_INITIAL (node) = val;
16049 return val;
16050
16051 case EXPR_WITH_FILE_LOCATION:
16052 /* Compare java_complete_tree and resolve_expression_name. */
16053 if (!EXPR_WFL_NODE (node) /* Or a PRIMARY flag ? */
16054 || TREE_CODE (EXPR_WFL_NODE (node)) == IDENTIFIER_NODE)
16055 {
16056 tree name = EXPR_WFL_NODE (node);
16057 tree decl;
16058 if (PRIMARY_P (node))
16059 return NULL_TREE;
16060 else if (! QUALIFIED_P (name))
16061 {
16062 decl = lookup_field_wrapper (DECL_CONTEXT (context), name);
16063 if (decl == NULL_TREE
16064 || (! FIELD_STATIC (decl) && ! FIELD_FINAL (decl)))
16065 return NULL_TREE;
16066 return fold_constant_for_init (decl, decl);
16067 }
16068 else
16069 {
16070 /* Install the proper context for the field resolution.
16071 The prior context is restored once the name is
16072 properly qualified. */
16073 tree saved_current_class = current_class;
16074 /* Wait until the USE_COMPONENT_REF re-write. FIXME. */
16075 current_class = DECL_CONTEXT (context);
16076 qualify_ambiguous_name (node);
16077 current_class = saved_current_class;
16078 if (resolve_field_access (node, &decl, NULL)
16079 && decl != NULL_TREE)
16080 return fold_constant_for_init (decl, decl);
16081 return NULL_TREE;
16082 }
16083 }
16084 else
16085 {
16086 op0 = TREE_OPERAND (node, 0);
16087 val = fold_constant_for_init (op0, context);
16088 if (val == NULL_TREE || ! TREE_CONSTANT (val))
16089 return NULL_TREE;
16090 TREE_OPERAND (node, 0) = val;
16091 return val;
16092 }
16093
16094 #ifdef USE_COMPONENT_REF
16095 case IDENTIFIER:
16096 case COMPONENT_REF:
16097 ?;
16098 #endif
16099
16100 default:
16101 return NULL_TREE;
16102 }
16103 }
16104
16105 #ifdef USE_COMPONENT_REF
16106 /* Context is 'T' for TypeName, 'P' for PackageName,
16107 'M' for MethodName, 'E' for ExpressionName, and 'A' for AmbiguousName. */
16108
16109 tree
resolve_simple_name(tree name,int context)16110 resolve_simple_name (tree name, int context)
16111 {
16112 }
16113
16114 tree
resolve_qualified_name(tree name,int context)16115 resolve_qualified_name (tree name, int context)
16116 {
16117 }
16118 #endif
16119
16120 void
init_src_parse(void)16121 init_src_parse (void)
16122 {
16123 /* Sanity check; we've been bit by this before. */
16124 if (ARRAY_SIZE (ctxp->modifier_ctx) != MODIFIER_TK - PUBLIC_TK)
16125 abort ();
16126 }
16127
16128
16129
16130 /* This section deals with the functions that are called when tables
16131 recording class initialization information are traversed. */
16132
16133 /* Attach to PTR (a block) the declaration found in ENTRY. */
16134
16135 static int
attach_init_test_initialization_flags(void ** entry,void * ptr)16136 attach_init_test_initialization_flags (void **entry, void *ptr)
16137 {
16138 tree block = (tree)ptr;
16139 struct treetreehash_entry *ite = (struct treetreehash_entry *) *entry;
16140
16141 if (block != error_mark_node)
16142 {
16143 TREE_CHAIN (ite->value) = BLOCK_EXPR_DECLS (block);
16144 BLOCK_EXPR_DECLS (block) = ite->value;
16145 }
16146 return true;
16147 }
16148
16149 /* This function is called for each class that is known definitely
16150 initialized when a given static method was called. This function
16151 augments a compound expression (INFO) storing all assignment to
16152 initialized static class flags if a flag already existed, otherwise
16153 a new one is created. */
16154
16155 static int
emit_test_initialization(void ** entry_p,void * info)16156 emit_test_initialization (void **entry_p, void *info)
16157 {
16158 tree l = (tree) info;
16159 tree decl, init;
16160 tree key = (tree) *entry_p;
16161 tree *ite;
16162 htab_t cf_ht = DECL_FUNCTION_INIT_TEST_TABLE (current_function_decl);
16163
16164 /* If we haven't found a flag and we're dealing with self registered
16165 with current_function_decl, then don't do anything. Self is
16166 always added as definitely initialized but this information is
16167 valid only if used outside the current function. */
16168 if (current_function_decl == TREE_PURPOSE (l)
16169 && java_treetreehash_find (cf_ht, key) == NULL)
16170 return true;
16171
16172 ite = java_treetreehash_new (cf_ht, key);
16173
16174 /* If we don't have a variable, create one and install it. */
16175 if (*ite == NULL)
16176 {
16177 tree block;
16178
16179 decl = build_decl (VAR_DECL, NULL_TREE, boolean_type_node);
16180 MAYBE_CREATE_VAR_LANG_DECL_SPECIFIC (decl);
16181 LOCAL_CLASS_INITIALIZATION_FLAG (decl) = 1;
16182 DECL_CONTEXT (decl) = current_function_decl;
16183 DECL_INITIAL (decl) = boolean_true_node;
16184 /* Don't emit any symbolic debugging info for this decl. */
16185 DECL_IGNORED_P (decl) = 1;
16186
16187 /* The trick is to find the right context for it. */
16188 block = BLOCK_SUBBLOCKS (GET_CURRENT_BLOCK (current_function_decl));
16189 TREE_CHAIN (decl) = BLOCK_EXPR_DECLS (block);
16190 BLOCK_EXPR_DECLS (block) = decl;
16191 *ite = decl;
16192 }
16193 else
16194 decl = *ite;
16195
16196 /* Now simply augment the compound that holds all the assignments
16197 pertaining to this method invocation. */
16198 init = build (MODIFY_EXPR, boolean_type_node, decl, boolean_true_node);
16199 TREE_SIDE_EFFECTS (init) = 1;
16200 TREE_VALUE (l) = add_stmt_to_compound (TREE_VALUE (l), void_type_node, init);
16201 TREE_SIDE_EFFECTS (TREE_VALUE (l)) = 1;
16202
16203 return true;
16204 }
16205
16206 #include "gt-java-parse.h"
16207 #include "gtype-java.h"
16208