1 // parse.cc -- Go frontend parser.
2
3 // Copyright 2009 The Go Authors. All rights reserved.
4 // Use of this source code is governed by a BSD-style
5 // license that can be found in the LICENSE file.
6
7 #include "go-system.h"
8
9 #include "lex.h"
10 #include "gogo.h"
11 #include "go-diagnostics.h"
12 #include "types.h"
13 #include "statements.h"
14 #include "expressions.h"
15 #include "parse.h"
16
17 // Struct Parse::Enclosing_var_comparison.
18
19 // Return true if v1 should be considered to be less than v2.
20
21 bool
operator ()(const Enclosing_var & v1,const Enclosing_var & v2) const22 Parse::Enclosing_var_comparison::operator()(const Enclosing_var& v1,
23 const Enclosing_var& v2) const
24 {
25 if (v1.var() == v2.var())
26 return false;
27
28 const std::string& n1(v1.var()->name());
29 const std::string& n2(v2.var()->name());
30 int i = n1.compare(n2);
31 if (i < 0)
32 return true;
33 else if (i > 0)
34 return false;
35
36 // If we get here it means that a single nested function refers to
37 // two different variables defined in enclosing functions, and both
38 // variables have the same name. I think this is impossible.
39 go_unreachable();
40 }
41
42 // Class Parse.
43
Parse(Lex * lex,Gogo * gogo)44 Parse::Parse(Lex* lex, Gogo* gogo)
45 : lex_(lex),
46 token_(Token::make_invalid_token(Linemap::unknown_location())),
47 unget_token_(Token::make_invalid_token(Linemap::unknown_location())),
48 unget_token_valid_(false),
49 is_erroneous_function_(false),
50 gogo_(gogo),
51 break_stack_(NULL),
52 continue_stack_(NULL),
53 enclosing_vars_()
54 {
55 }
56
57 // Return the current token.
58
59 const Token*
peek_token()60 Parse::peek_token()
61 {
62 if (this->unget_token_valid_)
63 return &this->unget_token_;
64 if (this->token_.is_invalid())
65 this->token_ = this->lex_->next_token();
66 return &this->token_;
67 }
68
69 // Advance to the next token and return it.
70
71 const Token*
advance_token()72 Parse::advance_token()
73 {
74 if (this->unget_token_valid_)
75 {
76 this->unget_token_valid_ = false;
77 if (!this->token_.is_invalid())
78 return &this->token_;
79 }
80 this->token_ = this->lex_->next_token();
81 return &this->token_;
82 }
83
84 // Push a token back on the input stream.
85
86 void
unget_token(const Token & token)87 Parse::unget_token(const Token& token)
88 {
89 go_assert(!this->unget_token_valid_);
90 this->unget_token_ = token;
91 this->unget_token_valid_ = true;
92 }
93
94 // The location of the current token.
95
96 Location
location()97 Parse::location()
98 {
99 return this->peek_token()->location();
100 }
101
102 // IdentifierList = identifier { "," identifier } .
103
104 void
identifier_list(Typed_identifier_list * til)105 Parse::identifier_list(Typed_identifier_list* til)
106 {
107 const Token* token = this->peek_token();
108 while (true)
109 {
110 if (!token->is_identifier())
111 {
112 go_error_at(this->location(), "expected identifier");
113 return;
114 }
115 std::string name =
116 this->gogo_->pack_hidden_name(token->identifier(),
117 token->is_identifier_exported());
118 til->push_back(Typed_identifier(name, NULL, token->location()));
119 token = this->advance_token();
120 if (!token->is_op(OPERATOR_COMMA))
121 return;
122 token = this->advance_token();
123 }
124 }
125
126 // ExpressionList = Expression { "," Expression } .
127
128 // If MAY_BE_COMPOSITE_LIT is true, an expression may be a composite
129 // literal.
130
131 // If MAY_BE_SINK is true, the expressions in the list may be "_".
132
133 Expression_list*
expression_list(Expression * first,bool may_be_sink,bool may_be_composite_lit)134 Parse::expression_list(Expression* first, bool may_be_sink,
135 bool may_be_composite_lit)
136 {
137 Expression_list* ret = new Expression_list();
138 if (first != NULL)
139 ret->push_back(first);
140 while (true)
141 {
142 ret->push_back(this->expression(PRECEDENCE_NORMAL, may_be_sink,
143 may_be_composite_lit, NULL, NULL));
144
145 const Token* token = this->peek_token();
146 if (!token->is_op(OPERATOR_COMMA))
147 return ret;
148
149 // Most expression lists permit a trailing comma.
150 Location location = token->location();
151 this->advance_token();
152 if (!this->expression_may_start_here())
153 {
154 this->unget_token(Token::make_operator_token(OPERATOR_COMMA,
155 location));
156 return ret;
157 }
158 }
159 }
160
161 // QualifiedIdent = [ PackageName "." ] identifier .
162 // PackageName = identifier .
163
164 // This sets *PNAME to the identifier and sets *PPACKAGE to the
165 // package or NULL if there isn't one. This returns true on success,
166 // false on failure in which case it will have emitted an error
167 // message.
168
169 bool
qualified_ident(std::string * pname,Named_object ** ppackage)170 Parse::qualified_ident(std::string* pname, Named_object** ppackage)
171 {
172 const Token* token = this->peek_token();
173 if (!token->is_identifier())
174 {
175 go_error_at(this->location(), "expected identifier");
176 return false;
177 }
178
179 std::string name = token->identifier();
180 bool is_exported = token->is_identifier_exported();
181 name = this->gogo_->pack_hidden_name(name, is_exported);
182
183 token = this->advance_token();
184 if (!token->is_op(OPERATOR_DOT))
185 {
186 *pname = name;
187 *ppackage = NULL;
188 return true;
189 }
190
191 Named_object* package = this->gogo_->lookup(name, NULL);
192 if (package == NULL || !package->is_package())
193 {
194 go_error_at(this->location(), "expected package");
195 // We expect . IDENTIFIER; skip both.
196 if (this->advance_token()->is_identifier())
197 this->advance_token();
198 return false;
199 }
200
201 package->package_value()->note_usage(Gogo::unpack_hidden_name(name));
202
203 token = this->advance_token();
204 if (!token->is_identifier())
205 {
206 go_error_at(this->location(), "expected identifier");
207 return false;
208 }
209
210 name = token->identifier();
211
212 if (name == "_")
213 {
214 go_error_at(this->location(), "invalid use of %<_%>");
215 name = Gogo::erroneous_name();
216 }
217
218 if (package->name() == this->gogo_->package_name())
219 name = this->gogo_->pack_hidden_name(name,
220 token->is_identifier_exported());
221
222 *pname = name;
223 *ppackage = package;
224
225 this->advance_token();
226
227 return true;
228 }
229
230 // Type = TypeName | TypeLit | "(" Type ")" .
231 // TypeLit =
232 // ArrayType | StructType | PointerType | FunctionType | InterfaceType |
233 // SliceType | MapType | ChannelType .
234
235 Type*
type()236 Parse::type()
237 {
238 const Token* token = this->peek_token();
239 if (token->is_identifier())
240 return this->type_name(true);
241 else if (token->is_op(OPERATOR_LSQUARE))
242 return this->array_type(false);
243 else if (token->is_keyword(KEYWORD_CHAN)
244 || token->is_op(OPERATOR_CHANOP))
245 return this->channel_type();
246 else if (token->is_keyword(KEYWORD_INTERFACE))
247 return this->interface_type(true);
248 else if (token->is_keyword(KEYWORD_FUNC))
249 {
250 Location location = token->location();
251 this->advance_token();
252 Type* type = this->signature(NULL, location);
253 if (type == NULL)
254 return Type::make_error_type();
255 return type;
256 }
257 else if (token->is_keyword(KEYWORD_MAP))
258 return this->map_type();
259 else if (token->is_keyword(KEYWORD_STRUCT))
260 return this->struct_type();
261 else if (token->is_op(OPERATOR_MULT))
262 return this->pointer_type();
263 else if (token->is_op(OPERATOR_LPAREN))
264 {
265 this->advance_token();
266 Type* ret = this->type();
267 if (this->peek_token()->is_op(OPERATOR_RPAREN))
268 this->advance_token();
269 else
270 {
271 if (!ret->is_error_type())
272 go_error_at(this->location(), "expected %<)%>");
273 }
274 return ret;
275 }
276 else
277 {
278 go_error_at(token->location(), "expected type");
279 return Type::make_error_type();
280 }
281 }
282
283 bool
type_may_start_here()284 Parse::type_may_start_here()
285 {
286 const Token* token = this->peek_token();
287 return (token->is_identifier()
288 || token->is_op(OPERATOR_LSQUARE)
289 || token->is_op(OPERATOR_CHANOP)
290 || token->is_keyword(KEYWORD_CHAN)
291 || token->is_keyword(KEYWORD_INTERFACE)
292 || token->is_keyword(KEYWORD_FUNC)
293 || token->is_keyword(KEYWORD_MAP)
294 || token->is_keyword(KEYWORD_STRUCT)
295 || token->is_op(OPERATOR_MULT)
296 || token->is_op(OPERATOR_LPAREN));
297 }
298
299 // TypeName = QualifiedIdent .
300
301 // If MAY_BE_NIL is true, then an identifier with the value of the
302 // predefined constant nil is accepted, returning the nil type.
303
304 Type*
type_name(bool issue_error)305 Parse::type_name(bool issue_error)
306 {
307 Location location = this->location();
308
309 std::string name;
310 Named_object* package;
311 if (!this->qualified_ident(&name, &package))
312 return Type::make_error_type();
313
314 Named_object* named_object;
315 if (package == NULL)
316 named_object = this->gogo_->lookup(name, NULL);
317 else
318 {
319 named_object = package->package_value()->lookup(name);
320 if (named_object == NULL
321 && issue_error
322 && package->name() != this->gogo_->package_name())
323 {
324 // Check whether the name is there but hidden.
325 std::string s = ('.' + package->package_value()->pkgpath()
326 + '.' + name);
327 named_object = package->package_value()->lookup(s);
328 if (named_object != NULL)
329 {
330 Package* p = package->package_value();
331 const std::string& packname(p->package_name());
332 go_error_at(location,
333 "invalid reference to hidden type %<%s.%s%>",
334 Gogo::message_name(packname).c_str(),
335 Gogo::message_name(name).c_str());
336 issue_error = false;
337 }
338 }
339 }
340
341 bool ok = true;
342 if (named_object == NULL)
343 {
344 if (package == NULL)
345 named_object = this->gogo_->add_unknown_name(name, location);
346 else
347 {
348 const std::string& packname(package->package_value()->package_name());
349 go_error_at(location, "reference to undefined identifier %<%s.%s%>",
350 Gogo::message_name(packname).c_str(),
351 Gogo::message_name(name).c_str());
352 issue_error = false;
353 ok = false;
354 }
355 }
356 else if (named_object->is_type())
357 {
358 if (!named_object->type_value()->is_visible())
359 ok = false;
360 }
361 else if (named_object->is_unknown() || named_object->is_type_declaration())
362 ;
363 else
364 ok = false;
365
366 if (!ok)
367 {
368 if (issue_error)
369 go_error_at(location, "expected type");
370 return Type::make_error_type();
371 }
372
373 if (named_object->is_type())
374 return named_object->type_value();
375 else if (named_object->is_unknown() || named_object->is_type_declaration())
376 return Type::make_forward_declaration(named_object);
377 else
378 go_unreachable();
379 }
380
381 // ArrayType = "[" [ ArrayLength ] "]" ElementType .
382 // ArrayLength = Expression .
383 // ElementType = CompleteType .
384
385 Type*
array_type(bool may_use_ellipsis)386 Parse::array_type(bool may_use_ellipsis)
387 {
388 go_assert(this->peek_token()->is_op(OPERATOR_LSQUARE));
389 const Token* token = this->advance_token();
390
391 Expression* length = NULL;
392 if (token->is_op(OPERATOR_RSQUARE))
393 this->advance_token();
394 else
395 {
396 if (!token->is_op(OPERATOR_ELLIPSIS))
397 length = this->expression(PRECEDENCE_NORMAL, false, true, NULL, NULL);
398 else if (may_use_ellipsis)
399 {
400 // An ellipsis is used in composite literals to represent a
401 // fixed array of the size of the number of elements. We
402 // use a length of nil to represent this, and change the
403 // length when parsing the composite literal.
404 length = Expression::make_nil(this->location());
405 this->advance_token();
406 }
407 else
408 {
409 go_error_at(this->location(),
410 "use of %<[...]%> outside of array literal");
411 length = Expression::make_error(this->location());
412 this->advance_token();
413 }
414 if (!this->peek_token()->is_op(OPERATOR_RSQUARE))
415 {
416 go_error_at(this->location(), "expected %<]%>");
417 return Type::make_error_type();
418 }
419 this->advance_token();
420 }
421
422 Type* element_type = this->type();
423 if (element_type->is_error_type())
424 return Type::make_error_type();
425
426 return Type::make_array_type(element_type, length);
427 }
428
429 // MapType = "map" "[" KeyType "]" ValueType .
430 // KeyType = CompleteType .
431 // ValueType = CompleteType .
432
433 Type*
map_type()434 Parse::map_type()
435 {
436 Location location = this->location();
437 go_assert(this->peek_token()->is_keyword(KEYWORD_MAP));
438 if (!this->advance_token()->is_op(OPERATOR_LSQUARE))
439 {
440 go_error_at(this->location(), "expected %<[%>");
441 return Type::make_error_type();
442 }
443 this->advance_token();
444
445 Type* key_type = this->type();
446
447 if (!this->peek_token()->is_op(OPERATOR_RSQUARE))
448 {
449 go_error_at(this->location(), "expected %<]%>");
450 return Type::make_error_type();
451 }
452 this->advance_token();
453
454 Type* value_type = this->type();
455
456 if (key_type->is_error_type() || value_type->is_error_type())
457 return Type::make_error_type();
458
459 return Type::make_map_type(key_type, value_type, location);
460 }
461
462 // StructType = "struct" "{" { FieldDecl ";" } "}" .
463
464 Type*
struct_type()465 Parse::struct_type()
466 {
467 go_assert(this->peek_token()->is_keyword(KEYWORD_STRUCT));
468 Location location = this->location();
469 if (!this->advance_token()->is_op(OPERATOR_LCURLY))
470 {
471 Location token_loc = this->location();
472 if (this->peek_token()->is_op(OPERATOR_SEMICOLON)
473 && this->advance_token()->is_op(OPERATOR_LCURLY))
474 go_error_at(token_loc, "unexpected semicolon or newline before %<{%>");
475 else
476 {
477 go_error_at(this->location(), "expected %<{%>");
478 return Type::make_error_type();
479 }
480 }
481 this->advance_token();
482
483 Struct_field_list* sfl = new Struct_field_list;
484 while (!this->peek_token()->is_op(OPERATOR_RCURLY))
485 {
486 this->field_decl(sfl);
487 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
488 this->advance_token();
489 else if (!this->peek_token()->is_op(OPERATOR_RCURLY))
490 {
491 go_error_at(this->location(), "expected %<;%> or %<}%> or newline");
492 if (!this->skip_past_error(OPERATOR_RCURLY))
493 return Type::make_error_type();
494 }
495 }
496 this->advance_token();
497
498 for (Struct_field_list::const_iterator pi = sfl->begin();
499 pi != sfl->end();
500 ++pi)
501 {
502 if (pi->type()->is_error_type())
503 return pi->type();
504 for (Struct_field_list::const_iterator pj = pi + 1;
505 pj != sfl->end();
506 ++pj)
507 {
508 if (pi->field_name() == pj->field_name()
509 && !Gogo::is_sink_name(pi->field_name()))
510 go_error_at(pi->location(), "duplicate field name %<%s%>",
511 Gogo::message_name(pi->field_name()).c_str());
512 }
513 }
514
515 return Type::make_struct_type(sfl, location);
516 }
517
518 // FieldDecl = (IdentifierList CompleteType | TypeName) [ Tag ] .
519 // Tag = string_lit .
520
521 void
field_decl(Struct_field_list * sfl)522 Parse::field_decl(Struct_field_list* sfl)
523 {
524 const Token* token = this->peek_token();
525 Location location = token->location();
526 bool is_anonymous;
527 bool is_anonymous_pointer;
528 if (token->is_op(OPERATOR_MULT))
529 {
530 is_anonymous = true;
531 is_anonymous_pointer = true;
532 }
533 else if (token->is_identifier())
534 {
535 std::string id = token->identifier();
536 bool is_id_exported = token->is_identifier_exported();
537 Location id_location = token->location();
538 token = this->advance_token();
539 is_anonymous = (token->is_op(OPERATOR_SEMICOLON)
540 || token->is_op(OPERATOR_RCURLY)
541 || token->is_op(OPERATOR_DOT)
542 || token->is_string());
543 is_anonymous_pointer = false;
544 this->unget_token(Token::make_identifier_token(id, is_id_exported,
545 id_location));
546 }
547 else
548 {
549 go_error_at(this->location(), "expected field name");
550 this->gogo_->mark_locals_used();
551 while (!token->is_op(OPERATOR_SEMICOLON)
552 && !token->is_op(OPERATOR_RCURLY)
553 && !token->is_eof())
554 token = this->advance_token();
555 return;
556 }
557
558 if (is_anonymous)
559 {
560 if (is_anonymous_pointer)
561 {
562 this->advance_token();
563 if (!this->peek_token()->is_identifier())
564 {
565 go_error_at(this->location(), "expected field name");
566 this->gogo_->mark_locals_used();
567 while (!token->is_op(OPERATOR_SEMICOLON)
568 && !token->is_op(OPERATOR_RCURLY)
569 && !token->is_eof())
570 token = this->advance_token();
571 return;
572 }
573 }
574 Type* type = this->type_name(true);
575
576 std::string tag;
577 if (this->peek_token()->is_string())
578 {
579 tag = this->peek_token()->string_value();
580 this->advance_token();
581 }
582
583 if (!type->is_error_type())
584 {
585 if (is_anonymous_pointer)
586 type = Type::make_pointer_type(type);
587 sfl->push_back(Struct_field(Typed_identifier("", type, location)));
588 if (!tag.empty())
589 sfl->back().set_tag(tag);
590 }
591 }
592 else
593 {
594 Typed_identifier_list til;
595 while (true)
596 {
597 token = this->peek_token();
598 if (!token->is_identifier())
599 {
600 go_error_at(this->location(), "expected identifier");
601 return;
602 }
603 std::string name =
604 this->gogo_->pack_hidden_name(token->identifier(),
605 token->is_identifier_exported());
606 til.push_back(Typed_identifier(name, NULL, token->location()));
607 if (!this->advance_token()->is_op(OPERATOR_COMMA))
608 break;
609 this->advance_token();
610 }
611
612 Type* type = this->type();
613
614 std::string tag;
615 if (this->peek_token()->is_string())
616 {
617 tag = this->peek_token()->string_value();
618 this->advance_token();
619 }
620
621 for (Typed_identifier_list::iterator p = til.begin();
622 p != til.end();
623 ++p)
624 {
625 p->set_type(type);
626 sfl->push_back(Struct_field(*p));
627 if (!tag.empty())
628 sfl->back().set_tag(tag);
629 }
630 }
631 }
632
633 // PointerType = "*" Type .
634
635 Type*
pointer_type()636 Parse::pointer_type()
637 {
638 go_assert(this->peek_token()->is_op(OPERATOR_MULT));
639 this->advance_token();
640 Type* type = this->type();
641 if (type->is_error_type())
642 return type;
643 return Type::make_pointer_type(type);
644 }
645
646 // ChannelType = Channel | SendChannel | RecvChannel .
647 // Channel = "chan" ElementType .
648 // SendChannel = "chan" "<-" ElementType .
649 // RecvChannel = "<-" "chan" ElementType .
650
651 Type*
channel_type()652 Parse::channel_type()
653 {
654 const Token* token = this->peek_token();
655 bool send = true;
656 bool receive = true;
657 if (token->is_op(OPERATOR_CHANOP))
658 {
659 if (!this->advance_token()->is_keyword(KEYWORD_CHAN))
660 {
661 go_error_at(this->location(), "expected %<chan%>");
662 return Type::make_error_type();
663 }
664 send = false;
665 this->advance_token();
666 }
667 else
668 {
669 go_assert(token->is_keyword(KEYWORD_CHAN));
670 if (this->advance_token()->is_op(OPERATOR_CHANOP))
671 {
672 receive = false;
673 this->advance_token();
674 }
675 }
676
677 // Better error messages for the common error of omitting the
678 // channel element type.
679 if (!this->type_may_start_here())
680 {
681 token = this->peek_token();
682 if (token->is_op(OPERATOR_RCURLY))
683 go_error_at(this->location(), "unexpected %<}%> in channel type");
684 else if (token->is_op(OPERATOR_RPAREN))
685 go_error_at(this->location(), "unexpected %<)%> in channel type");
686 else if (token->is_op(OPERATOR_COMMA))
687 go_error_at(this->location(), "unexpected comma in channel type");
688 else
689 go_error_at(this->location(), "expected channel element type");
690 return Type::make_error_type();
691 }
692
693 Type* element_type = this->type();
694 return Type::make_channel_type(send, receive, element_type);
695 }
696
697 // Give an error for a duplicate parameter or receiver name.
698
699 void
check_signature_names(const Typed_identifier_list * params,Parse::Names * names)700 Parse::check_signature_names(const Typed_identifier_list* params,
701 Parse::Names* names)
702 {
703 for (Typed_identifier_list::const_iterator p = params->begin();
704 p != params->end();
705 ++p)
706 {
707 if (p->name().empty() || Gogo::is_sink_name(p->name()))
708 continue;
709 std::pair<std::string, const Typed_identifier*> val =
710 std::make_pair(p->name(), &*p);
711 std::pair<Parse::Names::iterator, bool> ins = names->insert(val);
712 if (!ins.second)
713 {
714 go_error_at(p->location(), "redefinition of %qs",
715 Gogo::message_name(p->name()).c_str());
716 go_inform(ins.first->second->location(),
717 "previous definition of %qs was here",
718 Gogo::message_name(p->name()).c_str());
719 }
720 }
721 }
722
723 // Signature = Parameters [ Result ] .
724
725 // RECEIVER is the receiver if there is one, or NULL. LOCATION is the
726 // location of the start of the type.
727
728 // This returns NULL on a parse error.
729
730 Function_type*
signature(Typed_identifier * receiver,Location location)731 Parse::signature(Typed_identifier* receiver, Location location)
732 {
733 bool is_varargs = false;
734 Typed_identifier_list* params;
735 bool params_ok = this->parameters(¶ms, &is_varargs);
736
737 Typed_identifier_list* results = NULL;
738 if (this->peek_token()->is_op(OPERATOR_LPAREN)
739 || this->type_may_start_here())
740 {
741 if (!this->result(&results))
742 return NULL;
743 }
744
745 if (!params_ok)
746 return NULL;
747
748 Parse::Names names;
749 if (receiver != NULL)
750 names[receiver->name()] = receiver;
751 if (params != NULL)
752 this->check_signature_names(params, &names);
753 if (results != NULL)
754 this->check_signature_names(results, &names);
755
756 Function_type* ret = Type::make_function_type(receiver, params, results,
757 location);
758 if (is_varargs)
759 ret->set_is_varargs();
760 return ret;
761 }
762
763 // Parameters = "(" [ ParameterList [ "," ] ] ")" .
764
765 // This returns false on a parse error.
766
767 bool
parameters(Typed_identifier_list ** pparams,bool * is_varargs)768 Parse::parameters(Typed_identifier_list** pparams, bool* is_varargs)
769 {
770 *pparams = NULL;
771
772 if (!this->peek_token()->is_op(OPERATOR_LPAREN))
773 {
774 go_error_at(this->location(), "expected %<(%>");
775 return false;
776 }
777
778 Typed_identifier_list* params = NULL;
779 bool saw_error = false;
780
781 const Token* token = this->advance_token();
782 if (!token->is_op(OPERATOR_RPAREN))
783 {
784 params = this->parameter_list(is_varargs);
785 if (params == NULL)
786 saw_error = true;
787 token = this->peek_token();
788 }
789
790 // The optional trailing comma is picked up in parameter_list.
791
792 if (!token->is_op(OPERATOR_RPAREN))
793 {
794 go_error_at(this->location(), "expected %<)%>");
795 return false;
796 }
797 this->advance_token();
798
799 if (saw_error)
800 return false;
801
802 *pparams = params;
803 return true;
804 }
805
806 // ParameterList = ParameterDecl { "," ParameterDecl } .
807
808 // This sets *IS_VARARGS if the list ends with an ellipsis.
809 // IS_VARARGS will be NULL if varargs are not permitted.
810
811 // We pick up an optional trailing comma.
812
813 // This returns NULL if some error is seen.
814
815 Typed_identifier_list*
parameter_list(bool * is_varargs)816 Parse::parameter_list(bool* is_varargs)
817 {
818 Location location = this->location();
819 Typed_identifier_list* ret = new Typed_identifier_list();
820
821 bool saw_error = false;
822
823 // If we see an identifier and then a comma, then we don't know
824 // whether we are looking at a list of identifiers followed by a
825 // type, or a list of types given by name. We have to do an
826 // arbitrary lookahead to figure it out.
827
828 bool parameters_have_names;
829 const Token* token = this->peek_token();
830 if (!token->is_identifier())
831 {
832 // This must be a type which starts with something like '*'.
833 parameters_have_names = false;
834 }
835 else
836 {
837 std::string name = token->identifier();
838 bool is_exported = token->is_identifier_exported();
839 Location id_location = token->location();
840 token = this->advance_token();
841 if (!token->is_op(OPERATOR_COMMA))
842 {
843 if (token->is_op(OPERATOR_DOT))
844 {
845 // This is a qualified identifier, which must turn out
846 // to be a type.
847 parameters_have_names = false;
848 }
849 else if (token->is_op(OPERATOR_RPAREN))
850 {
851 // A single identifier followed by a parenthesis must be
852 // a type name.
853 parameters_have_names = false;
854 }
855 else
856 {
857 // An identifier followed by something other than a
858 // comma or a dot or a right parenthesis must be a
859 // parameter name followed by a type.
860 parameters_have_names = true;
861 }
862
863 this->unget_token(Token::make_identifier_token(name, is_exported,
864 id_location));
865 }
866 else
867 {
868 // An identifier followed by a comma may be the first in a
869 // list of parameter names followed by a type, or it may be
870 // the first in a list of types without parameter names. To
871 // find out we gather as many identifiers separated by
872 // commas as we can.
873 std::string id_name = this->gogo_->pack_hidden_name(name,
874 is_exported);
875 ret->push_back(Typed_identifier(id_name, NULL, id_location));
876 bool just_saw_comma = true;
877 while (this->advance_token()->is_identifier())
878 {
879 name = this->peek_token()->identifier();
880 is_exported = this->peek_token()->is_identifier_exported();
881 id_location = this->peek_token()->location();
882 id_name = this->gogo_->pack_hidden_name(name, is_exported);
883 ret->push_back(Typed_identifier(id_name, NULL, id_location));
884 if (!this->advance_token()->is_op(OPERATOR_COMMA))
885 {
886 just_saw_comma = false;
887 break;
888 }
889 }
890
891 if (just_saw_comma)
892 {
893 // We saw ID1 "," ID2 "," followed by something which
894 // was not an identifier. We must be seeing the start
895 // of a type, and ID1 and ID2 must be types, and the
896 // parameters don't have names.
897 parameters_have_names = false;
898 }
899 else if (this->peek_token()->is_op(OPERATOR_RPAREN))
900 {
901 // We saw ID1 "," ID2 ")". ID1 and ID2 must be types,
902 // and the parameters don't have names.
903 parameters_have_names = false;
904 }
905 else if (this->peek_token()->is_op(OPERATOR_DOT))
906 {
907 // We saw ID1 "," ID2 ".". ID2 must be a package name,
908 // ID1 must be a type, and the parameters don't have
909 // names.
910 parameters_have_names = false;
911 this->unget_token(Token::make_identifier_token(name, is_exported,
912 id_location));
913 ret->pop_back();
914 just_saw_comma = true;
915 }
916 else
917 {
918 // We saw ID1 "," ID2 followed by something other than
919 // ",", ".", or ")". We must be looking at the start of
920 // a type, and ID1 and ID2 must be parameter names.
921 parameters_have_names = true;
922 }
923
924 if (parameters_have_names)
925 {
926 go_assert(!just_saw_comma);
927 // We have just seen ID1, ID2 xxx.
928 Type* type;
929 if (!this->peek_token()->is_op(OPERATOR_ELLIPSIS))
930 type = this->type();
931 else
932 {
933 go_error_at(this->location(),
934 "%<...%> only permits one name");
935 saw_error = true;
936 this->advance_token();
937 type = this->type();
938 }
939 for (size_t i = 0; i < ret->size(); ++i)
940 ret->set_type(i, type);
941 if (!this->peek_token()->is_op(OPERATOR_COMMA))
942 return saw_error ? NULL : ret;
943 if (this->advance_token()->is_op(OPERATOR_RPAREN))
944 return saw_error ? NULL : ret;
945 }
946 else
947 {
948 Typed_identifier_list* tret = new Typed_identifier_list();
949 for (Typed_identifier_list::const_iterator p = ret->begin();
950 p != ret->end();
951 ++p)
952 {
953 Named_object* no = this->gogo_->lookup(p->name(), NULL);
954 Type* type;
955 if (no == NULL)
956 no = this->gogo_->add_unknown_name(p->name(),
957 p->location());
958
959 if (no->is_type())
960 type = no->type_value();
961 else if (no->is_unknown() || no->is_type_declaration())
962 type = Type::make_forward_declaration(no);
963 else
964 {
965 go_error_at(p->location(), "expected %<%s%> to be a type",
966 Gogo::message_name(p->name()).c_str());
967 saw_error = true;
968 type = Type::make_error_type();
969 }
970 tret->push_back(Typed_identifier("", type, p->location()));
971 }
972 delete ret;
973 ret = tret;
974 if (!just_saw_comma
975 || this->peek_token()->is_op(OPERATOR_RPAREN))
976 return saw_error ? NULL : ret;
977 }
978 }
979 }
980
981 bool mix_error = false;
982 this->parameter_decl(parameters_have_names, ret, is_varargs, &mix_error,
983 &saw_error);
984 while (this->peek_token()->is_op(OPERATOR_COMMA))
985 {
986 if (this->advance_token()->is_op(OPERATOR_RPAREN))
987 break;
988 if (is_varargs != NULL && *is_varargs)
989 {
990 go_error_at(this->location(), "%<...%> must be last parameter");
991 saw_error = true;
992 }
993 this->parameter_decl(parameters_have_names, ret, is_varargs, &mix_error,
994 &saw_error);
995 }
996 if (mix_error)
997 {
998 go_error_at(location, "invalid named/anonymous mix");
999 saw_error = true;
1000 }
1001 if (saw_error)
1002 {
1003 delete ret;
1004 return NULL;
1005 }
1006 return ret;
1007 }
1008
1009 // ParameterDecl = [ IdentifierList ] [ "..." ] Type .
1010
1011 void
parameter_decl(bool parameters_have_names,Typed_identifier_list * til,bool * is_varargs,bool * mix_error,bool * saw_error)1012 Parse::parameter_decl(bool parameters_have_names,
1013 Typed_identifier_list* til,
1014 bool* is_varargs,
1015 bool* mix_error,
1016 bool* saw_error)
1017 {
1018 if (!parameters_have_names)
1019 {
1020 Type* type;
1021 Location location = this->location();
1022 if (!this->peek_token()->is_identifier())
1023 {
1024 if (!this->peek_token()->is_op(OPERATOR_ELLIPSIS))
1025 type = this->type();
1026 else
1027 {
1028 if (is_varargs == NULL)
1029 go_error_at(this->location(), "invalid use of %<...%>");
1030 else
1031 *is_varargs = true;
1032 this->advance_token();
1033 if (is_varargs == NULL
1034 && this->peek_token()->is_op(OPERATOR_RPAREN))
1035 type = Type::make_error_type();
1036 else
1037 {
1038 Type* element_type = this->type();
1039 type = Type::make_array_type(element_type, NULL);
1040 }
1041 }
1042 }
1043 else
1044 {
1045 type = this->type_name(false);
1046 if (type->is_error_type()
1047 || (!this->peek_token()->is_op(OPERATOR_COMMA)
1048 && !this->peek_token()->is_op(OPERATOR_RPAREN)))
1049 {
1050 *mix_error = true;
1051 while (!this->peek_token()->is_op(OPERATOR_COMMA)
1052 && !this->peek_token()->is_op(OPERATOR_RPAREN)
1053 && !this->peek_token()->is_eof())
1054 this->advance_token();
1055 }
1056 }
1057 if (!type->is_error_type())
1058 til->push_back(Typed_identifier("", type, location));
1059 else
1060 *saw_error = true;
1061 }
1062 else
1063 {
1064 size_t orig_count = til->size();
1065 if (this->peek_token()->is_identifier())
1066 this->identifier_list(til);
1067 else
1068 *mix_error = true;
1069 size_t new_count = til->size();
1070
1071 Type* type;
1072 if (!this->peek_token()->is_op(OPERATOR_ELLIPSIS))
1073 type = this->type();
1074 else
1075 {
1076 if (is_varargs == NULL)
1077 {
1078 go_error_at(this->location(), "invalid use of %<...%>");
1079 *saw_error = true;
1080 }
1081 else if (new_count > orig_count + 1)
1082 {
1083 go_error_at(this->location(), "%<...%> only permits one name");
1084 *saw_error = true;
1085 }
1086 else
1087 *is_varargs = true;
1088 this->advance_token();
1089 Type* element_type = this->type();
1090 type = Type::make_array_type(element_type, NULL);
1091 }
1092 for (size_t i = orig_count; i < new_count; ++i)
1093 til->set_type(i, type);
1094 }
1095 }
1096
1097 // Result = Parameters | Type .
1098
1099 // This returns false on a parse error.
1100
1101 bool
result(Typed_identifier_list ** presults)1102 Parse::result(Typed_identifier_list** presults)
1103 {
1104 if (this->peek_token()->is_op(OPERATOR_LPAREN))
1105 return this->parameters(presults, NULL);
1106 else
1107 {
1108 Location location = this->location();
1109 Type* type = this->type();
1110 if (type->is_error_type())
1111 {
1112 *presults = NULL;
1113 return false;
1114 }
1115 Typed_identifier_list* til = new Typed_identifier_list();
1116 til->push_back(Typed_identifier("", type, location));
1117 *presults = til;
1118 return true;
1119 }
1120 }
1121
1122 // Block = "{" [ StatementList ] "}" .
1123
1124 // Returns the location of the closing brace.
1125
1126 Location
block()1127 Parse::block()
1128 {
1129 if (!this->peek_token()->is_op(OPERATOR_LCURLY))
1130 {
1131 Location loc = this->location();
1132 if (this->peek_token()->is_op(OPERATOR_SEMICOLON)
1133 && this->advance_token()->is_op(OPERATOR_LCURLY))
1134 go_error_at(loc, "unexpected semicolon or newline before %<{%>");
1135 else
1136 {
1137 go_error_at(this->location(), "expected %<{%>");
1138 return Linemap::unknown_location();
1139 }
1140 }
1141
1142 const Token* token = this->advance_token();
1143
1144 if (!token->is_op(OPERATOR_RCURLY))
1145 {
1146 this->statement_list();
1147 token = this->peek_token();
1148 if (!token->is_op(OPERATOR_RCURLY))
1149 {
1150 if (!token->is_eof() || !saw_errors())
1151 go_error_at(this->location(), "expected %<}%>");
1152
1153 this->gogo_->mark_locals_used();
1154
1155 // Skip ahead to the end of the block, in hopes of avoiding
1156 // lots of meaningless errors.
1157 Location ret = token->location();
1158 int nest = 0;
1159 while (!token->is_eof())
1160 {
1161 if (token->is_op(OPERATOR_LCURLY))
1162 ++nest;
1163 else if (token->is_op(OPERATOR_RCURLY))
1164 {
1165 --nest;
1166 if (nest < 0)
1167 {
1168 this->advance_token();
1169 break;
1170 }
1171 }
1172 token = this->advance_token();
1173 ret = token->location();
1174 }
1175 return ret;
1176 }
1177 }
1178
1179 Location ret = token->location();
1180 this->advance_token();
1181 return ret;
1182 }
1183
1184 // InterfaceType = "interface" "{" [ MethodSpecList ] "}" .
1185 // MethodSpecList = MethodSpec { ";" MethodSpec } [ ";" ] .
1186
1187 Type*
interface_type(bool record)1188 Parse::interface_type(bool record)
1189 {
1190 go_assert(this->peek_token()->is_keyword(KEYWORD_INTERFACE));
1191 Location location = this->location();
1192
1193 if (!this->advance_token()->is_op(OPERATOR_LCURLY))
1194 {
1195 Location token_loc = this->location();
1196 if (this->peek_token()->is_op(OPERATOR_SEMICOLON)
1197 && this->advance_token()->is_op(OPERATOR_LCURLY))
1198 go_error_at(token_loc, "unexpected semicolon or newline before %<{%>");
1199 else
1200 {
1201 go_error_at(this->location(), "expected %<{%>");
1202 return Type::make_error_type();
1203 }
1204 }
1205 this->advance_token();
1206
1207 Typed_identifier_list* methods = new Typed_identifier_list();
1208 if (!this->peek_token()->is_op(OPERATOR_RCURLY))
1209 {
1210 this->method_spec(methods);
1211 while (this->peek_token()->is_op(OPERATOR_SEMICOLON))
1212 {
1213 if (this->advance_token()->is_op(OPERATOR_RCURLY))
1214 break;
1215 this->method_spec(methods);
1216 }
1217 if (!this->peek_token()->is_op(OPERATOR_RCURLY))
1218 {
1219 go_error_at(this->location(), "expected %<}%>");
1220 while (!this->advance_token()->is_op(OPERATOR_RCURLY))
1221 {
1222 if (this->peek_token()->is_eof())
1223 return Type::make_error_type();
1224 }
1225 }
1226 }
1227 this->advance_token();
1228
1229 if (methods->empty())
1230 {
1231 delete methods;
1232 methods = NULL;
1233 }
1234
1235 Interface_type* ret;
1236 if (methods == NULL)
1237 ret = Type::make_empty_interface_type(location);
1238 else
1239 ret = Type::make_interface_type(methods, location);
1240 if (record)
1241 this->gogo_->record_interface_type(ret);
1242 return ret;
1243 }
1244
1245 // MethodSpec = MethodName Signature | InterfaceTypeName .
1246 // MethodName = identifier .
1247 // InterfaceTypeName = TypeName .
1248
1249 void
method_spec(Typed_identifier_list * methods)1250 Parse::method_spec(Typed_identifier_list* methods)
1251 {
1252 const Token* token = this->peek_token();
1253 if (!token->is_identifier())
1254 {
1255 go_error_at(this->location(), "expected identifier");
1256 return;
1257 }
1258
1259 std::string name = token->identifier();
1260 bool is_exported = token->is_identifier_exported();
1261 Location location = token->location();
1262
1263 if (this->advance_token()->is_op(OPERATOR_LPAREN))
1264 {
1265 // This is a MethodName.
1266 if (name == "_")
1267 go_error_at(this->location(),
1268 "methods must have a unique non-blank name");
1269 name = this->gogo_->pack_hidden_name(name, is_exported);
1270 Type* type = this->signature(NULL, location);
1271 if (type == NULL)
1272 return;
1273 methods->push_back(Typed_identifier(name, type, location));
1274 }
1275 else
1276 {
1277 this->unget_token(Token::make_identifier_token(name, is_exported,
1278 location));
1279 Type* type = this->type_name(false);
1280 if (type->is_error_type()
1281 || (!this->peek_token()->is_op(OPERATOR_SEMICOLON)
1282 && !this->peek_token()->is_op(OPERATOR_RCURLY)))
1283 {
1284 if (this->peek_token()->is_op(OPERATOR_COMMA))
1285 go_error_at(this->location(),
1286 "name list not allowed in interface type");
1287 else
1288 go_error_at(location, "expected signature or type name");
1289 this->gogo_->mark_locals_used();
1290 token = this->peek_token();
1291 while (!token->is_eof()
1292 && !token->is_op(OPERATOR_SEMICOLON)
1293 && !token->is_op(OPERATOR_RCURLY))
1294 token = this->advance_token();
1295 return;
1296 }
1297 // This must be an interface type, but we can't check that now.
1298 // We check it and pull out the methods in
1299 // Interface_type::do_verify.
1300 methods->push_back(Typed_identifier("", type, location));
1301 }
1302 }
1303
1304 // Declaration = ConstDecl | TypeDecl | VarDecl | FunctionDecl | MethodDecl .
1305
1306 void
declaration()1307 Parse::declaration()
1308 {
1309 const Token* token = this->peek_token();
1310
1311 unsigned int pragmas = this->lex_->get_and_clear_pragmas();
1312 if (pragmas != 0
1313 && !token->is_keyword(KEYWORD_FUNC)
1314 && !token->is_keyword(KEYWORD_TYPE))
1315 go_warning_at(token->location(), 0,
1316 "ignoring magic comment before non-function");
1317
1318 if (token->is_keyword(KEYWORD_CONST))
1319 this->const_decl();
1320 else if (token->is_keyword(KEYWORD_TYPE))
1321 this->type_decl(pragmas);
1322 else if (token->is_keyword(KEYWORD_VAR))
1323 this->var_decl();
1324 else if (token->is_keyword(KEYWORD_FUNC))
1325 this->function_decl(pragmas);
1326 else
1327 {
1328 go_error_at(this->location(), "expected declaration");
1329 this->advance_token();
1330 }
1331 }
1332
1333 bool
declaration_may_start_here()1334 Parse::declaration_may_start_here()
1335 {
1336 const Token* token = this->peek_token();
1337 return (token->is_keyword(KEYWORD_CONST)
1338 || token->is_keyword(KEYWORD_TYPE)
1339 || token->is_keyword(KEYWORD_VAR)
1340 || token->is_keyword(KEYWORD_FUNC));
1341 }
1342
1343 // Decl<P> = P | "(" [ List<P> ] ")" .
1344
1345 void
decl(void (Parse::* pfn)(void *,unsigned int),void * varg,unsigned int pragmas)1346 Parse::decl(void (Parse::*pfn)(void*, unsigned int), void* varg,
1347 unsigned int pragmas)
1348 {
1349 if (this->peek_token()->is_eof())
1350 {
1351 if (!saw_errors())
1352 go_error_at(this->location(), "unexpected end of file");
1353 return;
1354 }
1355
1356 if (!this->peek_token()->is_op(OPERATOR_LPAREN))
1357 (this->*pfn)(varg, pragmas);
1358 else
1359 {
1360 if (pragmas != 0)
1361 go_warning_at(this->location(), 0,
1362 "ignoring magic %<//go:...%> comment before group");
1363 if (!this->advance_token()->is_op(OPERATOR_RPAREN))
1364 {
1365 this->list(pfn, varg, true);
1366 if (!this->peek_token()->is_op(OPERATOR_RPAREN))
1367 {
1368 go_error_at(this->location(), "missing %<)%>");
1369 while (!this->advance_token()->is_op(OPERATOR_RPAREN))
1370 {
1371 if (this->peek_token()->is_eof())
1372 return;
1373 }
1374 }
1375 }
1376 this->advance_token();
1377 }
1378 }
1379
1380 // List<P> = P { ";" P } [ ";" ] .
1381
1382 // In order to pick up the trailing semicolon we need to know what
1383 // might follow. This is either a '}' or a ')'.
1384
1385 void
list(void (Parse::* pfn)(void *,unsigned int),void * varg,bool follow_is_paren)1386 Parse::list(void (Parse::*pfn)(void*, unsigned int), void* varg,
1387 bool follow_is_paren)
1388 {
1389 (this->*pfn)(varg, 0);
1390 Operator follow = follow_is_paren ? OPERATOR_RPAREN : OPERATOR_RCURLY;
1391 while (this->peek_token()->is_op(OPERATOR_SEMICOLON)
1392 || this->peek_token()->is_op(OPERATOR_COMMA))
1393 {
1394 if (this->peek_token()->is_op(OPERATOR_COMMA))
1395 go_error_at(this->location(), "unexpected comma");
1396 if (this->advance_token()->is_op(follow))
1397 break;
1398 (this->*pfn)(varg, 0);
1399 }
1400 }
1401
1402 // ConstDecl = "const" ( ConstSpec | "(" { ConstSpec ";" } ")" ) .
1403
1404 void
const_decl()1405 Parse::const_decl()
1406 {
1407 go_assert(this->peek_token()->is_keyword(KEYWORD_CONST));
1408 this->advance_token();
1409
1410 int iota = 0;
1411 Type* last_type = NULL;
1412 Expression_list* last_expr_list = NULL;
1413
1414 if (!this->peek_token()->is_op(OPERATOR_LPAREN))
1415 this->const_spec(iota, &last_type, &last_expr_list);
1416 else
1417 {
1418 this->advance_token();
1419 while (!this->peek_token()->is_op(OPERATOR_RPAREN))
1420 {
1421 this->const_spec(iota, &last_type, &last_expr_list);
1422 ++iota;
1423 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
1424 this->advance_token();
1425 else if (!this->peek_token()->is_op(OPERATOR_RPAREN))
1426 {
1427 go_error_at(this->location(),
1428 "expected %<;%> or %<)%> or newline");
1429 if (!this->skip_past_error(OPERATOR_RPAREN))
1430 return;
1431 }
1432 }
1433 this->advance_token();
1434 }
1435
1436 if (last_expr_list != NULL)
1437 delete last_expr_list;
1438 }
1439
1440 // ConstSpec = IdentifierList [ [ CompleteType ] "=" ExpressionList ] .
1441
1442 void
const_spec(int iota,Type ** last_type,Expression_list ** last_expr_list)1443 Parse::const_spec(int iota, Type** last_type, Expression_list** last_expr_list)
1444 {
1445 Typed_identifier_list til;
1446 this->identifier_list(&til);
1447
1448 Type* type = NULL;
1449 if (this->type_may_start_here())
1450 {
1451 type = this->type();
1452 *last_type = NULL;
1453 *last_expr_list = NULL;
1454 }
1455
1456 Expression_list *expr_list;
1457 if (!this->peek_token()->is_op(OPERATOR_EQ))
1458 {
1459 if (*last_expr_list == NULL)
1460 {
1461 go_error_at(this->location(), "expected %<=%>");
1462 return;
1463 }
1464 type = *last_type;
1465 expr_list = new Expression_list;
1466 for (Expression_list::const_iterator p = (*last_expr_list)->begin();
1467 p != (*last_expr_list)->end();
1468 ++p)
1469 expr_list->push_back((*p)->copy());
1470 }
1471 else
1472 {
1473 this->advance_token();
1474 expr_list = this->expression_list(NULL, false, true);
1475 *last_type = type;
1476 if (*last_expr_list != NULL)
1477 delete *last_expr_list;
1478 *last_expr_list = expr_list;
1479 }
1480
1481 Expression_list::const_iterator pe = expr_list->begin();
1482 for (Typed_identifier_list::iterator pi = til.begin();
1483 pi != til.end();
1484 ++pi, ++pe)
1485 {
1486 if (pe == expr_list->end())
1487 {
1488 go_error_at(this->location(), "not enough initializers");
1489 return;
1490 }
1491 if (type != NULL)
1492 pi->set_type(type);
1493
1494 if (!Gogo::is_sink_name(pi->name()))
1495 this->gogo_->add_constant(*pi, *pe, iota);
1496 else
1497 {
1498 static int count;
1499 char buf[30];
1500 snprintf(buf, sizeof buf, ".$sinkconst%d", count);
1501 ++count;
1502 Typed_identifier ti(std::string(buf), type, pi->location());
1503 Named_object* no = this->gogo_->add_constant(ti, *pe, iota);
1504 no->const_value()->set_is_sink();
1505 }
1506 }
1507 if (pe != expr_list->end())
1508 go_error_at(this->location(), "too many initializers");
1509
1510 return;
1511 }
1512
1513 // TypeDecl = "type" Decl<TypeSpec> .
1514
1515 void
type_decl(unsigned int pragmas)1516 Parse::type_decl(unsigned int pragmas)
1517 {
1518 go_assert(this->peek_token()->is_keyword(KEYWORD_TYPE));
1519 this->advance_token();
1520 this->decl(&Parse::type_spec, NULL, pragmas);
1521 }
1522
1523 // TypeSpec = identifier ["="] Type .
1524
1525 void
type_spec(void *,unsigned int pragmas)1526 Parse::type_spec(void*, unsigned int pragmas)
1527 {
1528 const Token* token = this->peek_token();
1529 if (!token->is_identifier())
1530 {
1531 go_error_at(this->location(), "expected identifier");
1532 return;
1533 }
1534 std::string name = token->identifier();
1535 bool is_exported = token->is_identifier_exported();
1536 Location location = token->location();
1537 token = this->advance_token();
1538
1539 bool is_alias = false;
1540 if (token->is_op(OPERATOR_EQ))
1541 {
1542 is_alias = true;
1543 token = this->advance_token();
1544 }
1545
1546 // The scope of the type name starts at the point where the
1547 // identifier appears in the source code. We implement this by
1548 // declaring the type before we read the type definition.
1549 Named_object* named_type = NULL;
1550 if (name != "_")
1551 {
1552 name = this->gogo_->pack_hidden_name(name, is_exported);
1553 named_type = this->gogo_->declare_type(name, location);
1554 }
1555
1556 Type* type;
1557 if (name == "_" && token->is_keyword(KEYWORD_INTERFACE))
1558 {
1559 // We call Parse::interface_type explicity here because we do not want
1560 // to record an interface with a blank type name.
1561 type = this->interface_type(false);
1562 }
1563 else if (!token->is_op(OPERATOR_SEMICOLON))
1564 type = this->type();
1565 else
1566 {
1567 go_error_at(this->location(),
1568 "unexpected semicolon or newline in type declaration");
1569 type = Type::make_error_type();
1570 this->advance_token();
1571 }
1572
1573 if (type->is_error_type())
1574 {
1575 this->gogo_->mark_locals_used();
1576 while (!this->peek_token()->is_op(OPERATOR_SEMICOLON)
1577 && !this->peek_token()->is_eof())
1578 this->advance_token();
1579 }
1580
1581 if (name != "_")
1582 {
1583 if (named_type->is_type_declaration())
1584 {
1585 Type* ftype = type->forwarded();
1586 if (ftype->forward_declaration_type() != NULL
1587 && (ftype->forward_declaration_type()->named_object()
1588 == named_type))
1589 {
1590 go_error_at(location, "invalid recursive type");
1591 type = Type::make_error_type();
1592 }
1593
1594 Named_type* nt = Type::make_named_type(named_type, type, location);
1595 if (is_alias)
1596 nt->set_is_alias();
1597
1598 this->gogo_->define_type(named_type, nt);
1599 go_assert(named_type->package() == NULL);
1600
1601 if ((pragmas & GOPRAGMA_NOTINHEAP) != 0)
1602 {
1603 nt->set_not_in_heap();
1604 pragmas &= ~GOPRAGMA_NOTINHEAP;
1605 }
1606 if (pragmas != 0)
1607 go_warning_at(location, 0,
1608 "ignoring magic %<//go:...%> comment before type");
1609 }
1610 else
1611 {
1612 // This will probably give a redefinition error.
1613 this->gogo_->add_type(name, type, location);
1614 }
1615 }
1616 }
1617
1618 // VarDecl = "var" Decl<VarSpec> .
1619
1620 void
var_decl()1621 Parse::var_decl()
1622 {
1623 go_assert(this->peek_token()->is_keyword(KEYWORD_VAR));
1624 this->advance_token();
1625 this->decl(&Parse::var_spec, NULL, 0);
1626 }
1627
1628 // VarSpec = IdentifierList
1629 // ( CompleteType [ "=" ExpressionList ] | "=" ExpressionList ) .
1630
1631 void
var_spec(void *,unsigned int pragmas)1632 Parse::var_spec(void*, unsigned int pragmas)
1633 {
1634 if (pragmas != 0)
1635 go_warning_at(this->location(), 0,
1636 "ignoring magic %<//go:...%> comment before var");
1637
1638 // Get the variable names.
1639 Typed_identifier_list til;
1640 this->identifier_list(&til);
1641
1642 Location location = this->location();
1643
1644 Type* type = NULL;
1645 Expression_list* init = NULL;
1646 if (!this->peek_token()->is_op(OPERATOR_EQ))
1647 {
1648 type = this->type();
1649 if (type->is_error_type())
1650 {
1651 this->gogo_->mark_locals_used();
1652 while (!this->peek_token()->is_op(OPERATOR_EQ)
1653 && !this->peek_token()->is_op(OPERATOR_SEMICOLON)
1654 && !this->peek_token()->is_eof())
1655 this->advance_token();
1656 }
1657 if (this->peek_token()->is_op(OPERATOR_EQ))
1658 {
1659 this->advance_token();
1660 init = this->expression_list(NULL, false, true);
1661 }
1662 }
1663 else
1664 {
1665 this->advance_token();
1666 init = this->expression_list(NULL, false, true);
1667 }
1668
1669 this->init_vars(&til, type, init, false, location);
1670
1671 if (init != NULL)
1672 delete init;
1673 }
1674
1675 // Create variables. TIL is a list of variable names. If TYPE is not
1676 // NULL, it is the type of all the variables. If INIT is not NULL, it
1677 // is an initializer list for the variables.
1678
1679 void
init_vars(const Typed_identifier_list * til,Type * type,Expression_list * init,bool is_coloneq,Location location)1680 Parse::init_vars(const Typed_identifier_list* til, Type* type,
1681 Expression_list* init, bool is_coloneq,
1682 Location location)
1683 {
1684 // Check for an initialization which can yield multiple values.
1685 if (init != NULL && init->size() == 1 && til->size() > 1)
1686 {
1687 if (this->init_vars_from_call(til, type, *init->begin(), is_coloneq,
1688 location))
1689 return;
1690 if (this->init_vars_from_map(til, type, *init->begin(), is_coloneq,
1691 location))
1692 return;
1693 if (this->init_vars_from_receive(til, type, *init->begin(), is_coloneq,
1694 location))
1695 return;
1696 if (this->init_vars_from_type_guard(til, type, *init->begin(),
1697 is_coloneq, location))
1698 return;
1699 }
1700
1701 if (init != NULL && init->size() != til->size())
1702 {
1703 if (init->empty() || !init->front()->is_error_expression())
1704 go_error_at(location, "wrong number of initializations");
1705 init = NULL;
1706 if (type == NULL)
1707 type = Type::make_error_type();
1708 }
1709
1710 // Note that INIT was already parsed with the old name bindings, so
1711 // we don't have to worry that it will accidentally refer to the
1712 // newly declared variables. But we do have to worry about a mix of
1713 // newly declared variables and old variables if the old variables
1714 // appear in the initializations.
1715
1716 Expression_list::const_iterator pexpr;
1717 if (init != NULL)
1718 pexpr = init->begin();
1719 bool any_new = false;
1720 Expression_list* vars = new Expression_list();
1721 Expression_list* vals = new Expression_list();
1722 for (Typed_identifier_list::const_iterator p = til->begin();
1723 p != til->end();
1724 ++p)
1725 {
1726 if (init != NULL)
1727 go_assert(pexpr != init->end());
1728 this->init_var(*p, type, init == NULL ? NULL : *pexpr, is_coloneq,
1729 false, &any_new, vars, vals);
1730 if (init != NULL)
1731 ++pexpr;
1732 }
1733 if (init != NULL)
1734 go_assert(pexpr == init->end());
1735 if (is_coloneq && !any_new)
1736 go_error_at(location, "variables redeclared but no variable is new");
1737 this->finish_init_vars(vars, vals, location);
1738 }
1739
1740 // See if we need to initialize a list of variables from a function
1741 // call. This returns true if we have set up the variables and the
1742 // initialization.
1743
1744 bool
init_vars_from_call(const Typed_identifier_list * vars,Type * type,Expression * expr,bool is_coloneq,Location location)1745 Parse::init_vars_from_call(const Typed_identifier_list* vars, Type* type,
1746 Expression* expr, bool is_coloneq,
1747 Location location)
1748 {
1749 Call_expression* call = expr->call_expression();
1750 if (call == NULL)
1751 return false;
1752
1753 // This is a function call. We can't check here whether it returns
1754 // the right number of values, but it might. Declare the variables,
1755 // and then assign the results of the call to them.
1756
1757 call->set_expected_result_count(vars->size());
1758
1759 Named_object* first_var = NULL;
1760 unsigned int index = 0;
1761 bool any_new = false;
1762 Expression_list* ivars = new Expression_list();
1763 Expression_list* ivals = new Expression_list();
1764 for (Typed_identifier_list::const_iterator pv = vars->begin();
1765 pv != vars->end();
1766 ++pv, ++index)
1767 {
1768 Expression* init = Expression::make_call_result(call, index);
1769 Named_object* no = this->init_var(*pv, type, init, is_coloneq, false,
1770 &any_new, ivars, ivals);
1771
1772 if (this->gogo_->in_global_scope() && no->is_variable())
1773 {
1774 if (first_var == NULL)
1775 first_var = no;
1776 else
1777 {
1778 // If the current object is a redefinition of another object, we
1779 // might have already recorded the dependency relationship between
1780 // it and the first variable. Either way, an error will be
1781 // reported for the redefinition and we don't need to properly
1782 // record dependency information for an invalid program.
1783 if (no->is_redefinition())
1784 continue;
1785
1786 // The subsequent vars have an implicit dependency on
1787 // the first one, so that everything gets initialized in
1788 // the right order and so that we detect cycles
1789 // correctly.
1790 this->gogo_->record_var_depends_on(no->var_value(), first_var);
1791 }
1792 }
1793 }
1794
1795 if (is_coloneq && !any_new)
1796 go_error_at(location, "variables redeclared but no variable is new");
1797
1798 this->finish_init_vars(ivars, ivals, location);
1799
1800 return true;
1801 }
1802
1803 // See if we need to initialize a pair of values from a map index
1804 // expression. This returns true if we have set up the variables and
1805 // the initialization.
1806
1807 bool
init_vars_from_map(const Typed_identifier_list * vars,Type * type,Expression * expr,bool is_coloneq,Location location)1808 Parse::init_vars_from_map(const Typed_identifier_list* vars, Type* type,
1809 Expression* expr, bool is_coloneq,
1810 Location location)
1811 {
1812 Index_expression* index = expr->index_expression();
1813 if (index == NULL)
1814 return false;
1815 if (vars->size() != 2)
1816 return false;
1817
1818 // This is an index which is being assigned to two variables. It
1819 // must be a map index. Declare the variables, and then assign the
1820 // results of the map index.
1821 bool any_new = false;
1822 Typed_identifier_list::const_iterator p = vars->begin();
1823 Expression* init = type == NULL ? index : NULL;
1824 Named_object* val_no = this->init_var(*p, type, init, is_coloneq,
1825 type == NULL, &any_new, NULL, NULL);
1826 if (type == NULL && any_new && val_no->is_variable())
1827 val_no->var_value()->set_type_from_init_tuple();
1828 Expression* val_var = Expression::make_var_reference(val_no, location);
1829
1830 ++p;
1831 Type* var_type = type;
1832 if (var_type == NULL)
1833 var_type = Type::lookup_bool_type();
1834 Named_object* no = this->init_var(*p, var_type, NULL, is_coloneq, false,
1835 &any_new, NULL, NULL);
1836 Expression* present_var = Expression::make_var_reference(no, location);
1837
1838 if (is_coloneq && !any_new)
1839 go_error_at(location, "variables redeclared but no variable is new");
1840
1841 Statement* s = Statement::make_tuple_map_assignment(val_var, present_var,
1842 index, location);
1843
1844 if (!this->gogo_->in_global_scope())
1845 this->gogo_->add_statement(s);
1846 else if (!val_no->is_sink())
1847 {
1848 if (val_no->is_variable())
1849 val_no->var_value()->add_preinit_statement(this->gogo_, s);
1850 }
1851 else if (!no->is_sink())
1852 {
1853 if (no->is_variable())
1854 no->var_value()->add_preinit_statement(this->gogo_, s);
1855 }
1856 else
1857 {
1858 // Execute the map index expression just so that we can fail if
1859 // the map is nil.
1860 Named_object* dummy = this->create_dummy_global(Type::lookup_bool_type(),
1861 NULL, location);
1862 dummy->var_value()->add_preinit_statement(this->gogo_, s);
1863 }
1864
1865 return true;
1866 }
1867
1868 // See if we need to initialize a pair of values from a receive
1869 // expression. This returns true if we have set up the variables and
1870 // the initialization.
1871
1872 bool
init_vars_from_receive(const Typed_identifier_list * vars,Type * type,Expression * expr,bool is_coloneq,Location location)1873 Parse::init_vars_from_receive(const Typed_identifier_list* vars, Type* type,
1874 Expression* expr, bool is_coloneq,
1875 Location location)
1876 {
1877 Receive_expression* receive = expr->receive_expression();
1878 if (receive == NULL)
1879 return false;
1880 if (vars->size() != 2)
1881 return false;
1882
1883 // This is a receive expression which is being assigned to two
1884 // variables. Declare the variables, and then assign the results of
1885 // the receive.
1886 bool any_new = false;
1887 Typed_identifier_list::const_iterator p = vars->begin();
1888 Expression* init = type == NULL ? receive : NULL;
1889 Named_object* val_no = this->init_var(*p, type, init, is_coloneq,
1890 type == NULL, &any_new, NULL, NULL);
1891 if (type == NULL && any_new && val_no->is_variable())
1892 val_no->var_value()->set_type_from_init_tuple();
1893 Expression* val_var = Expression::make_var_reference(val_no, location);
1894
1895 ++p;
1896 Type* var_type = type;
1897 if (var_type == NULL)
1898 var_type = Type::lookup_bool_type();
1899 Named_object* no = this->init_var(*p, var_type, NULL, is_coloneq, false,
1900 &any_new, NULL, NULL);
1901 Expression* received_var = Expression::make_var_reference(no, location);
1902
1903 if (is_coloneq && !any_new)
1904 go_error_at(location, "variables redeclared but no variable is new");
1905
1906 Statement* s = Statement::make_tuple_receive_assignment(val_var,
1907 received_var,
1908 receive->channel(),
1909 location);
1910
1911 if (!this->gogo_->in_global_scope())
1912 this->gogo_->add_statement(s);
1913 else if (!val_no->is_sink())
1914 {
1915 if (val_no->is_variable())
1916 val_no->var_value()->add_preinit_statement(this->gogo_, s);
1917 }
1918 else if (!no->is_sink())
1919 {
1920 if (no->is_variable())
1921 no->var_value()->add_preinit_statement(this->gogo_, s);
1922 }
1923 else
1924 {
1925 Named_object* dummy = this->create_dummy_global(Type::lookup_bool_type(),
1926 NULL, location);
1927 dummy->var_value()->add_preinit_statement(this->gogo_, s);
1928 }
1929
1930 return true;
1931 }
1932
1933 // See if we need to initialize a pair of values from a type guard
1934 // expression. This returns true if we have set up the variables and
1935 // the initialization.
1936
1937 bool
init_vars_from_type_guard(const Typed_identifier_list * vars,Type * type,Expression * expr,bool is_coloneq,Location location)1938 Parse::init_vars_from_type_guard(const Typed_identifier_list* vars,
1939 Type* type, Expression* expr,
1940 bool is_coloneq, Location location)
1941 {
1942 Type_guard_expression* type_guard = expr->type_guard_expression();
1943 if (type_guard == NULL)
1944 return false;
1945 if (vars->size() != 2)
1946 return false;
1947
1948 // This is a type guard expression which is being assigned to two
1949 // variables. Declare the variables, and then assign the results of
1950 // the type guard.
1951 bool any_new = false;
1952 Typed_identifier_list::const_iterator p = vars->begin();
1953 Type* var_type = type;
1954 if (var_type == NULL)
1955 var_type = type_guard->type();
1956 Named_object* val_no = this->init_var(*p, var_type, NULL, is_coloneq, false,
1957 &any_new, NULL, NULL);
1958 Expression* val_var = Expression::make_var_reference(val_no, location);
1959
1960 ++p;
1961 var_type = type;
1962 if (var_type == NULL)
1963 var_type = Type::lookup_bool_type();
1964 Named_object* no = this->init_var(*p, var_type, NULL, is_coloneq, false,
1965 &any_new, NULL, NULL);
1966 Expression* ok_var = Expression::make_var_reference(no, location);
1967
1968 Expression* texpr = type_guard->expr();
1969 Type* t = type_guard->type();
1970 Statement* s = Statement::make_tuple_type_guard_assignment(val_var, ok_var,
1971 texpr, t,
1972 location);
1973
1974 if (is_coloneq && !any_new)
1975 go_error_at(location, "variables redeclared but no variable is new");
1976
1977 if (!this->gogo_->in_global_scope())
1978 this->gogo_->add_statement(s);
1979 else if (!val_no->is_sink())
1980 {
1981 if (val_no->is_variable())
1982 val_no->var_value()->add_preinit_statement(this->gogo_, s);
1983 }
1984 else if (!no->is_sink())
1985 {
1986 if (no->is_variable())
1987 no->var_value()->add_preinit_statement(this->gogo_, s);
1988 }
1989 else
1990 {
1991 Named_object* dummy = this->create_dummy_global(type, NULL, location);
1992 dummy->var_value()->add_preinit_statement(this->gogo_, s);
1993 }
1994
1995 return true;
1996 }
1997
1998 // Create a single variable. If IS_COLONEQ is true, we permit
1999 // redeclarations in the same block, and we set *IS_NEW when we find a
2000 // new variable which is not a redeclaration.
2001
2002 Named_object*
init_var(const Typed_identifier & tid,Type * type,Expression * init,bool is_coloneq,bool type_from_init,bool * is_new,Expression_list * vars,Expression_list * vals)2003 Parse::init_var(const Typed_identifier& tid, Type* type, Expression* init,
2004 bool is_coloneq, bool type_from_init, bool* is_new,
2005 Expression_list* vars, Expression_list* vals)
2006 {
2007 Location location = tid.location();
2008
2009 if (Gogo::is_sink_name(tid.name()))
2010 {
2011 if (!type_from_init && init != NULL)
2012 {
2013 if (this->gogo_->in_global_scope())
2014 return this->create_dummy_global(type, init, location);
2015 else
2016 {
2017 // Create a dummy variable so that we will check whether the
2018 // initializer can be assigned to the type.
2019 Variable* var = new Variable(type, init, false, false, false,
2020 location);
2021 var->set_is_used();
2022 static int count;
2023 char buf[30];
2024 snprintf(buf, sizeof buf, "sink$%d", count);
2025 ++count;
2026 return this->gogo_->add_variable(buf, var);
2027 }
2028 }
2029 if (type != NULL)
2030 this->gogo_->add_type_to_verify(type);
2031 return this->gogo_->add_sink();
2032 }
2033
2034 if (is_coloneq)
2035 {
2036 Named_object* no = this->gogo_->lookup_in_block(tid.name());
2037 if (no != NULL
2038 && (no->is_variable() || no->is_result_variable()))
2039 {
2040 // INIT may be NULL even when IS_COLONEQ is true for cases
2041 // like v, ok := x.(int).
2042 if (!type_from_init && init != NULL)
2043 {
2044 go_assert(vars != NULL && vals != NULL);
2045 vars->push_back(Expression::make_var_reference(no, location));
2046 vals->push_back(init);
2047 }
2048 return no;
2049 }
2050 }
2051 *is_new = true;
2052 Variable* var = new Variable(type, init, this->gogo_->in_global_scope(),
2053 false, false, location);
2054 Named_object* no = this->gogo_->add_variable(tid.name(), var);
2055 if (!no->is_variable())
2056 {
2057 // The name is already defined, so we just gave an error.
2058 return this->gogo_->add_sink();
2059 }
2060 return no;
2061 }
2062
2063 // Create a dummy global variable to force an initializer to be run in
2064 // the right place. This is used when a sink variable is initialized
2065 // at global scope.
2066
2067 Named_object*
create_dummy_global(Type * type,Expression * init,Location location)2068 Parse::create_dummy_global(Type* type, Expression* init,
2069 Location location)
2070 {
2071 if (type == NULL && init == NULL)
2072 type = Type::lookup_bool_type();
2073 Variable* var = new Variable(type, init, true, false, false, location);
2074 static int count;
2075 char buf[30];
2076 snprintf(buf, sizeof buf, "_.%d", count);
2077 ++count;
2078 return this->gogo_->add_variable(buf, var);
2079 }
2080
2081 // Finish the variable initialization by executing any assignments to
2082 // existing variables when using :=. These must be done as a tuple
2083 // assignment in case of something like n, a, b := 1, b, a.
2084
2085 void
finish_init_vars(Expression_list * vars,Expression_list * vals,Location location)2086 Parse::finish_init_vars(Expression_list* vars, Expression_list* vals,
2087 Location location)
2088 {
2089 if (vars->empty())
2090 {
2091 delete vars;
2092 delete vals;
2093 }
2094 else if (vars->size() == 1)
2095 {
2096 go_assert(!this->gogo_->in_global_scope());
2097 this->gogo_->add_statement(Statement::make_assignment(vars->front(),
2098 vals->front(),
2099 location));
2100 delete vars;
2101 delete vals;
2102 }
2103 else
2104 {
2105 go_assert(!this->gogo_->in_global_scope());
2106 this->gogo_->add_statement(Statement::make_tuple_assignment(vars, vals,
2107 location));
2108 }
2109 }
2110
2111 // SimpleVarDecl = identifier ":=" Expression .
2112
2113 // We've already seen the identifier.
2114
2115 // FIXME: We also have to implement
2116 // IdentifierList ":=" ExpressionList
2117 // In order to support both "a, b := 1, 0" and "a, b = 1, 0" we accept
2118 // tuple assignments here as well.
2119
2120 // If MAY_BE_COMPOSITE_LIT is true, the expression on the right hand
2121 // side may be a composite literal.
2122
2123 // If P_RANGE_CLAUSE is not NULL, then this will recognize a
2124 // RangeClause.
2125
2126 // If P_TYPE_SWITCH is not NULL, this will recognize a type switch
2127 // guard (var := expr.("type") using the literal keyword "type").
2128
2129 void
simple_var_decl_or_assignment(const std::string & name,Location location,bool may_be_composite_lit,Range_clause * p_range_clause,Type_switch * p_type_switch)2130 Parse::simple_var_decl_or_assignment(const std::string& name,
2131 Location location,
2132 bool may_be_composite_lit,
2133 Range_clause* p_range_clause,
2134 Type_switch* p_type_switch)
2135 {
2136 Typed_identifier_list til;
2137 til.push_back(Typed_identifier(name, NULL, location));
2138
2139 std::set<std::string> uniq_idents;
2140 uniq_idents.insert(name);
2141 std::string dup_name;
2142 Location dup_loc;
2143
2144 // We've seen one identifier. If we see a comma now, this could be
2145 // "a, *p = 1, 2".
2146 if (this->peek_token()->is_op(OPERATOR_COMMA))
2147 {
2148 go_assert(p_type_switch == NULL);
2149 while (true)
2150 {
2151 const Token* token = this->advance_token();
2152 if (!token->is_identifier())
2153 break;
2154
2155 std::string id = token->identifier();
2156 bool is_id_exported = token->is_identifier_exported();
2157 Location id_location = token->location();
2158 std::pair<std::set<std::string>::iterator, bool> ins;
2159
2160 token = this->advance_token();
2161 if (!token->is_op(OPERATOR_COMMA))
2162 {
2163 if (token->is_op(OPERATOR_COLONEQ))
2164 {
2165 id = this->gogo_->pack_hidden_name(id, is_id_exported);
2166 ins = uniq_idents.insert(id);
2167 if (!ins.second && !Gogo::is_sink_name(id))
2168 go_error_at(id_location, "multiple assignments to %s",
2169 Gogo::message_name(id).c_str());
2170 til.push_back(Typed_identifier(id, NULL, location));
2171 }
2172 else
2173 this->unget_token(Token::make_identifier_token(id,
2174 is_id_exported,
2175 id_location));
2176 break;
2177 }
2178
2179 id = this->gogo_->pack_hidden_name(id, is_id_exported);
2180 ins = uniq_idents.insert(id);
2181 if (!ins.second && !Gogo::is_sink_name(id))
2182 {
2183 dup_name = Gogo::message_name(id);
2184 dup_loc = id_location;
2185 }
2186 til.push_back(Typed_identifier(id, NULL, location));
2187 }
2188
2189 // We have a comma separated list of identifiers in TIL. If the
2190 // next token is COLONEQ, then this is a simple var decl, and we
2191 // have the complete list of identifiers. If the next token is
2192 // not COLONEQ, then the only valid parse is a tuple assignment.
2193 // The list of identifiers we have so far is really a list of
2194 // expressions. There are more expressions following.
2195
2196 if (!this->peek_token()->is_op(OPERATOR_COLONEQ))
2197 {
2198 Expression_list* exprs = new Expression_list;
2199 for (Typed_identifier_list::const_iterator p = til.begin();
2200 p != til.end();
2201 ++p)
2202 exprs->push_back(this->id_to_expression(p->name(), p->location(),
2203 true, false));
2204
2205 Expression_list* more_exprs =
2206 this->expression_list(NULL, true, may_be_composite_lit);
2207 for (Expression_list::const_iterator p = more_exprs->begin();
2208 p != more_exprs->end();
2209 ++p)
2210 exprs->push_back(*p);
2211 delete more_exprs;
2212
2213 this->tuple_assignment(exprs, may_be_composite_lit, p_range_clause);
2214 return;
2215 }
2216 }
2217
2218 go_assert(this->peek_token()->is_op(OPERATOR_COLONEQ));
2219 const Token* token = this->advance_token();
2220
2221 if (!dup_name.empty())
2222 go_error_at(dup_loc, "multiple assignments to %s", dup_name.c_str());
2223
2224 if (p_range_clause != NULL && token->is_keyword(KEYWORD_RANGE))
2225 {
2226 this->range_clause_decl(&til, p_range_clause);
2227 return;
2228 }
2229
2230 Expression_list* init;
2231 if (p_type_switch == NULL)
2232 init = this->expression_list(NULL, false, may_be_composite_lit);
2233 else
2234 {
2235 bool is_type_switch = false;
2236 Expression* expr = this->expression(PRECEDENCE_NORMAL, false,
2237 may_be_composite_lit,
2238 &is_type_switch, NULL);
2239 if (is_type_switch)
2240 {
2241 p_type_switch->found = true;
2242 p_type_switch->name = name;
2243 p_type_switch->location = location;
2244 p_type_switch->expr = expr;
2245 return;
2246 }
2247
2248 if (!this->peek_token()->is_op(OPERATOR_COMMA))
2249 {
2250 init = new Expression_list();
2251 init->push_back(expr);
2252 }
2253 else
2254 {
2255 this->advance_token();
2256 init = this->expression_list(expr, false, may_be_composite_lit);
2257 }
2258 }
2259
2260 this->init_vars(&til, NULL, init, true, location);
2261 }
2262
2263 // FunctionDecl = "func" identifier Signature [ Block ] .
2264 // MethodDecl = "func" Receiver identifier Signature [ Block ] .
2265
2266 // Deprecated gcc extension:
2267 // FunctionDecl = "func" identifier Signature
2268 // __asm__ "(" string_lit ")" .
2269 // This extension means a function whose real name is the identifier
2270 // inside the asm. This extension will be removed at some future
2271 // date. It has been replaced with //extern or //go:linkname comments.
2272 //
2273 // PRAGMAS is a bitset of magic comments.
2274
2275 void
function_decl(unsigned int pragmas)2276 Parse::function_decl(unsigned int pragmas)
2277 {
2278 go_assert(this->peek_token()->is_keyword(KEYWORD_FUNC));
2279 Location location = this->location();
2280 std::string extern_name = this->lex_->extern_name();
2281 const Token* token = this->advance_token();
2282
2283 bool expected_receiver = false;
2284 Typed_identifier* rec = NULL;
2285 if (token->is_op(OPERATOR_LPAREN))
2286 {
2287 expected_receiver = true;
2288 rec = this->receiver();
2289 token = this->peek_token();
2290 }
2291
2292 if (!token->is_identifier())
2293 {
2294 go_error_at(this->location(), "expected function name");
2295 return;
2296 }
2297
2298 std::string name =
2299 this->gogo_->pack_hidden_name(token->identifier(),
2300 token->is_identifier_exported());
2301
2302 this->advance_token();
2303
2304 Function_type* fntype = this->signature(rec, this->location());
2305
2306 Named_object* named_object = NULL;
2307
2308 if (this->peek_token()->is_keyword(KEYWORD_ASM))
2309 {
2310 if (!this->advance_token()->is_op(OPERATOR_LPAREN))
2311 {
2312 go_error_at(this->location(), "expected %<(%>");
2313 return;
2314 }
2315 token = this->advance_token();
2316 if (!token->is_string())
2317 {
2318 go_error_at(this->location(), "expected string");
2319 return;
2320 }
2321 std::string asm_name = token->string_value();
2322 if (!this->advance_token()->is_op(OPERATOR_RPAREN))
2323 {
2324 go_error_at(this->location(), "expected %<)%>");
2325 return;
2326 }
2327 this->advance_token();
2328 if (!Gogo::is_sink_name(name))
2329 {
2330 named_object = this->gogo_->declare_function(name, fntype, location);
2331 if (named_object->is_function_declaration())
2332 named_object->func_declaration_value()->set_asm_name(asm_name);
2333 }
2334 }
2335
2336 // Check for the easy error of a newline before the opening brace.
2337 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
2338 {
2339 Location semi_loc = this->location();
2340 if (this->advance_token()->is_op(OPERATOR_LCURLY))
2341 go_error_at(this->location(),
2342 "unexpected semicolon or newline before %<{%>");
2343 else
2344 this->unget_token(Token::make_operator_token(OPERATOR_SEMICOLON,
2345 semi_loc));
2346 }
2347
2348 static struct {
2349 unsigned int bit;
2350 const char* name;
2351 bool decl_ok;
2352 bool func_ok;
2353 bool method_ok;
2354 } pragma_check[] =
2355 {
2356 { GOPRAGMA_NOINTERFACE, "nointerface", false, false, true },
2357 { GOPRAGMA_NOESCAPE, "noescape", true, false, false },
2358 { GOPRAGMA_NORACE, "norace", false, true, true },
2359 { GOPRAGMA_NOSPLIT, "nosplit", false, true, true },
2360 { GOPRAGMA_NOINLINE, "noinline", false, true, true },
2361 { GOPRAGMA_SYSTEMSTACK, "systemstack", false, true, true },
2362 { GOPRAGMA_NOWRITEBARRIER, "nowritebarrier", false, true, true },
2363 { GOPRAGMA_NOWRITEBARRIERREC, "nowritebarrierrec", false, true,
2364 true },
2365 { GOPRAGMA_YESWRITEBARRIERREC, "yeswritebarrierrec", false, true,
2366 true },
2367 { GOPRAGMA_CGOUNSAFEARGS, "cgo_unsafe_args", false, true, true },
2368 { GOPRAGMA_UINTPTRESCAPES, "uintptrescapes", true, true, true },
2369 };
2370
2371 bool is_decl = !this->peek_token()->is_op(OPERATOR_LCURLY);
2372 if (pragmas != 0)
2373 {
2374 for (size_t i = 0;
2375 i < sizeof(pragma_check) / sizeof(pragma_check[0]);
2376 ++i)
2377 {
2378 if ((pragmas & pragma_check[i].bit) == 0)
2379 continue;
2380
2381 if (is_decl)
2382 {
2383 if (pragma_check[i].decl_ok)
2384 continue;
2385 go_warning_at(location, 0,
2386 ("ignoring magic %<//go:%s%> comment "
2387 "before declaration"),
2388 pragma_check[i].name);
2389 }
2390 else if (rec == NULL)
2391 {
2392 if (pragma_check[i].func_ok)
2393 continue;
2394 go_warning_at(location, 0,
2395 ("ignoring magic %<//go:%s%> comment "
2396 "before function definition"),
2397 pragma_check[i].name);
2398 }
2399 else
2400 {
2401 if (pragma_check[i].method_ok)
2402 continue;
2403 go_warning_at(location, 0,
2404 ("ignoring magic %<//go:%s%> comment "
2405 "before method definition"),
2406 pragma_check[i].name);
2407 }
2408
2409 pragmas &= ~ pragma_check[i].bit;
2410 }
2411 }
2412
2413 if (is_decl)
2414 {
2415 if (named_object == NULL)
2416 {
2417 // Function declarations with the blank identifier as a name are
2418 // mostly ignored since they cannot be called. We make an object
2419 // for this declaration for type-checking purposes.
2420 if (Gogo::is_sink_name(name))
2421 {
2422 static int count;
2423 char buf[30];
2424 snprintf(buf, sizeof buf, ".$sinkfndecl%d", count);
2425 ++count;
2426 name = std::string(buf);
2427 }
2428
2429 if (fntype == NULL
2430 || (expected_receiver && rec == NULL))
2431 this->gogo_->add_erroneous_name(name);
2432 else
2433 {
2434 named_object = this->gogo_->declare_function(name, fntype,
2435 location);
2436 if (!extern_name.empty()
2437 && named_object->is_function_declaration())
2438 {
2439 Function_declaration* fd =
2440 named_object->func_declaration_value();
2441 fd->set_asm_name(extern_name);
2442 }
2443 }
2444 }
2445
2446 if (pragmas != 0 && named_object->is_function_declaration())
2447 named_object->func_declaration_value()->set_pragmas(pragmas);
2448 }
2449 else
2450 {
2451 bool hold_is_erroneous_function = this->is_erroneous_function_;
2452 if (fntype == NULL)
2453 {
2454 fntype = Type::make_function_type(NULL, NULL, NULL, location);
2455 this->is_erroneous_function_ = true;
2456 if (!Gogo::is_sink_name(name))
2457 this->gogo_->add_erroneous_name(name);
2458 name = this->gogo_->pack_hidden_name("_", false);
2459 }
2460 named_object = this->gogo_->start_function(name, fntype, true, location);
2461 Location end_loc = this->block();
2462 this->gogo_->finish_function(end_loc);
2463
2464 if (pragmas != 0
2465 && !this->is_erroneous_function_
2466 && named_object->is_function())
2467 named_object->func_value()->set_pragmas(pragmas);
2468 this->is_erroneous_function_ = hold_is_erroneous_function;
2469 }
2470 }
2471
2472 // Receiver = Parameters .
2473
2474 Typed_identifier*
receiver()2475 Parse::receiver()
2476 {
2477 Location location = this->location();
2478 Typed_identifier_list* til;
2479 if (!this->parameters(&til, NULL))
2480 return NULL;
2481 else if (til == NULL || til->empty())
2482 {
2483 go_error_at(location, "method has no receiver");
2484 return NULL;
2485 }
2486 else if (til->size() > 1)
2487 {
2488 go_error_at(location, "method has multiple receivers");
2489 return NULL;
2490 }
2491 else
2492 return &til->front();
2493 }
2494
2495 // Operand = Literal | QualifiedIdent | MethodExpr | "(" Expression ")" .
2496 // Literal = BasicLit | CompositeLit | FunctionLit .
2497 // BasicLit = int_lit | float_lit | imaginary_lit | char_lit | string_lit .
2498
2499 // If MAY_BE_SINK is true, this operand may be "_".
2500
2501 // If IS_PARENTHESIZED is not NULL, *IS_PARENTHESIZED is set to true
2502 // if the entire expression is in parentheses.
2503
2504 Expression*
operand(bool may_be_sink,bool * is_parenthesized)2505 Parse::operand(bool may_be_sink, bool* is_parenthesized)
2506 {
2507 const Token* token = this->peek_token();
2508 Expression* ret;
2509 switch (token->classification())
2510 {
2511 case Token::TOKEN_IDENTIFIER:
2512 {
2513 Location location = token->location();
2514 std::string id = token->identifier();
2515 bool is_exported = token->is_identifier_exported();
2516 std::string packed = this->gogo_->pack_hidden_name(id, is_exported);
2517
2518 Named_object* in_function;
2519 Named_object* named_object = this->gogo_->lookup(packed, &in_function);
2520
2521 Package* package = NULL;
2522 if (named_object != NULL && named_object->is_package())
2523 {
2524 if (!this->advance_token()->is_op(OPERATOR_DOT)
2525 || !this->advance_token()->is_identifier())
2526 {
2527 go_error_at(location, "unexpected reference to package");
2528 return Expression::make_error(location);
2529 }
2530 package = named_object->package_value();
2531 package->note_usage(id);
2532 id = this->peek_token()->identifier();
2533 is_exported = this->peek_token()->is_identifier_exported();
2534 packed = this->gogo_->pack_hidden_name(id, is_exported);
2535 named_object = package->lookup(packed);
2536 location = this->location();
2537 go_assert(in_function == NULL);
2538 }
2539
2540 this->advance_token();
2541
2542 if (named_object != NULL
2543 && named_object->is_type()
2544 && !named_object->type_value()->is_visible())
2545 {
2546 go_assert(package != NULL);
2547 go_error_at(location, "invalid reference to hidden type %<%s.%s%>",
2548 Gogo::message_name(package->package_name()).c_str(),
2549 Gogo::message_name(id).c_str());
2550 return Expression::make_error(location);
2551 }
2552
2553
2554 if (named_object == NULL)
2555 {
2556 if (package != NULL)
2557 {
2558 std::string n1 = Gogo::message_name(package->package_name());
2559 std::string n2 = Gogo::message_name(id);
2560 if (!is_exported)
2561 go_error_at(location,
2562 ("invalid reference to unexported identifier "
2563 "%<%s.%s%>"),
2564 n1.c_str(), n2.c_str());
2565 else
2566 go_error_at(location,
2567 "reference to undefined identifier %<%s.%s%>",
2568 n1.c_str(), n2.c_str());
2569 return Expression::make_error(location);
2570 }
2571
2572 named_object = this->gogo_->add_unknown_name(packed, location);
2573 }
2574
2575 if (in_function != NULL
2576 && in_function != this->gogo_->current_function()
2577 && (named_object->is_variable()
2578 || named_object->is_result_variable()))
2579 return this->enclosing_var_reference(in_function, named_object,
2580 may_be_sink, location);
2581
2582 switch (named_object->classification())
2583 {
2584 case Named_object::NAMED_OBJECT_CONST:
2585 return Expression::make_const_reference(named_object, location);
2586 case Named_object::NAMED_OBJECT_TYPE:
2587 return Expression::make_type(named_object->type_value(), location);
2588 case Named_object::NAMED_OBJECT_TYPE_DECLARATION:
2589 {
2590 Type* t = Type::make_forward_declaration(named_object);
2591 return Expression::make_type(t, location);
2592 }
2593 case Named_object::NAMED_OBJECT_VAR:
2594 case Named_object::NAMED_OBJECT_RESULT_VAR:
2595 // Any left-hand-side can be a sink, so if this can not be
2596 // a sink, then it must be a use of the variable.
2597 if (!may_be_sink)
2598 this->mark_var_used(named_object);
2599 return Expression::make_var_reference(named_object, location);
2600 case Named_object::NAMED_OBJECT_SINK:
2601 if (may_be_sink)
2602 return Expression::make_sink(location);
2603 else
2604 {
2605 go_error_at(location, "cannot use %<_%> as value");
2606 return Expression::make_error(location);
2607 }
2608 case Named_object::NAMED_OBJECT_FUNC:
2609 case Named_object::NAMED_OBJECT_FUNC_DECLARATION:
2610 return Expression::make_func_reference(named_object, NULL,
2611 location);
2612 case Named_object::NAMED_OBJECT_UNKNOWN:
2613 {
2614 Unknown_expression* ue =
2615 Expression::make_unknown_reference(named_object, location);
2616 if (this->is_erroneous_function_)
2617 ue->set_no_error_message();
2618 return ue;
2619 }
2620 case Named_object::NAMED_OBJECT_ERRONEOUS:
2621 return Expression::make_error(location);
2622 default:
2623 go_unreachable();
2624 }
2625 }
2626 go_unreachable();
2627
2628 case Token::TOKEN_STRING:
2629 ret = Expression::make_string(token->string_value(), token->location());
2630 this->advance_token();
2631 return ret;
2632
2633 case Token::TOKEN_CHARACTER:
2634 ret = Expression::make_character(token->character_value(), NULL,
2635 token->location());
2636 this->advance_token();
2637 return ret;
2638
2639 case Token::TOKEN_INTEGER:
2640 ret = Expression::make_integer_z(token->integer_value(), NULL,
2641 token->location());
2642 this->advance_token();
2643 return ret;
2644
2645 case Token::TOKEN_FLOAT:
2646 ret = Expression::make_float(token->float_value(), NULL,
2647 token->location());
2648 this->advance_token();
2649 return ret;
2650
2651 case Token::TOKEN_IMAGINARY:
2652 {
2653 mpfr_t zero;
2654 mpfr_init_set_ui(zero, 0, MPFR_RNDN);
2655 mpc_t val;
2656 mpc_init2(val, mpc_precision);
2657 mpc_set_fr_fr(val, zero, *token->imaginary_value(), MPC_RNDNN);
2658 mpfr_clear(zero);
2659 ret = Expression::make_complex(&val, NULL, token->location());
2660 mpc_clear(val);
2661 this->advance_token();
2662 return ret;
2663 }
2664
2665 case Token::TOKEN_KEYWORD:
2666 switch (token->keyword())
2667 {
2668 case KEYWORD_FUNC:
2669 return this->function_lit();
2670 case KEYWORD_CHAN:
2671 case KEYWORD_INTERFACE:
2672 case KEYWORD_MAP:
2673 case KEYWORD_STRUCT:
2674 {
2675 Location location = token->location();
2676 return Expression::make_type(this->type(), location);
2677 }
2678 default:
2679 break;
2680 }
2681 break;
2682
2683 case Token::TOKEN_OPERATOR:
2684 if (token->is_op(OPERATOR_LPAREN))
2685 {
2686 this->advance_token();
2687 ret = this->expression(PRECEDENCE_NORMAL, may_be_sink, true, NULL,
2688 NULL);
2689 if (!this->peek_token()->is_op(OPERATOR_RPAREN))
2690 go_error_at(this->location(), "missing %<)%>");
2691 else
2692 this->advance_token();
2693 if (is_parenthesized != NULL)
2694 *is_parenthesized = true;
2695 return ret;
2696 }
2697 else if (token->is_op(OPERATOR_LSQUARE))
2698 {
2699 // Here we call array_type directly, as this is the only
2700 // case where an ellipsis is permitted for an array type.
2701 Location location = token->location();
2702 return Expression::make_type(this->array_type(true), location);
2703 }
2704 break;
2705
2706 default:
2707 break;
2708 }
2709
2710 go_error_at(this->location(), "expected operand");
2711 return Expression::make_error(this->location());
2712 }
2713
2714 // Handle a reference to a variable in an enclosing function. We add
2715 // it to a list of such variables. We return a reference to a field
2716 // in a struct which will be passed on the static chain when calling
2717 // the current function.
2718
2719 Expression*
enclosing_var_reference(Named_object * in_function,Named_object * var,bool may_be_sink,Location location)2720 Parse::enclosing_var_reference(Named_object* in_function, Named_object* var,
2721 bool may_be_sink, Location location)
2722 {
2723 go_assert(var->is_variable() || var->is_result_variable());
2724
2725 // Any left-hand-side can be a sink, so if this can not be
2726 // a sink, then it must be a use of the variable.
2727 if (!may_be_sink)
2728 this->mark_var_used(var);
2729
2730 Named_object* this_function = this->gogo_->current_function();
2731 Named_object* closure = this_function->func_value()->closure_var();
2732
2733 // The last argument to the Enclosing_var constructor is the index
2734 // of this variable in the closure. We add 1 to the current number
2735 // of enclosed variables, because the first field in the closure
2736 // points to the function code.
2737 Enclosing_var ev(var, in_function, this->enclosing_vars_.size() + 1);
2738 std::pair<Enclosing_vars::iterator, bool> ins =
2739 this->enclosing_vars_.insert(ev);
2740 if (ins.second)
2741 {
2742 // This is a variable we have not seen before. Add a new field
2743 // to the closure type.
2744 this_function->func_value()->add_closure_field(var, location);
2745 }
2746
2747 Expression* closure_ref = Expression::make_var_reference(closure,
2748 location);
2749 closure_ref =
2750 Expression::make_dereference(closure_ref,
2751 Expression::NIL_CHECK_NOT_NEEDED,
2752 location);
2753
2754 // The closure structure holds pointers to the variables, so we need
2755 // to introduce an indirection.
2756 Expression* e = Expression::make_field_reference(closure_ref,
2757 ins.first->index(),
2758 location);
2759 e = Expression::make_dereference(e, Expression::NIL_CHECK_NOT_NEEDED,
2760 location);
2761 return Expression::make_enclosing_var_reference(e, var, location);
2762 }
2763
2764 // CompositeLit = LiteralType LiteralValue .
2765 // LiteralType = StructType | ArrayType | "[" "..." "]" ElementType |
2766 // SliceType | MapType | TypeName .
2767 // LiteralValue = "{" [ ElementList [ "," ] ] "}" .
2768 // ElementList = Element { "," Element } .
2769 // Element = [ Key ":" ] Value .
2770 // Key = FieldName | ElementIndex .
2771 // FieldName = identifier .
2772 // ElementIndex = Expression .
2773 // Value = Expression | LiteralValue .
2774
2775 // We have already seen the type if there is one, and we are now
2776 // looking at the LiteralValue. The case "[" "..." "]" ElementType
2777 // will be seen here as an array type whose length is "nil". The
2778 // DEPTH parameter is non-zero if this is an embedded composite
2779 // literal and the type was omitted. It gives the number of steps up
2780 // to the type which was provided. E.g., in [][]int{{1}} it will be
2781 // 1. In [][][]int{{{1}}} it will be 2.
2782
2783 Expression*
composite_lit(Type * type,int depth,Location location)2784 Parse::composite_lit(Type* type, int depth, Location location)
2785 {
2786 go_assert(this->peek_token()->is_op(OPERATOR_LCURLY));
2787 this->advance_token();
2788
2789 if (this->peek_token()->is_op(OPERATOR_RCURLY))
2790 {
2791 this->advance_token();
2792 return Expression::make_composite_literal(type, depth, false, NULL,
2793 false, location);
2794 }
2795
2796 bool has_keys = false;
2797 bool all_are_names = true;
2798 Expression_list* vals = new Expression_list;
2799 while (true)
2800 {
2801 Expression* val;
2802 bool is_type_omitted = false;
2803 bool is_name = false;
2804
2805 const Token* token = this->peek_token();
2806
2807 if (token->is_identifier())
2808 {
2809 std::string identifier = token->identifier();
2810 bool is_exported = token->is_identifier_exported();
2811 Location id_location = token->location();
2812
2813 if (this->advance_token()->is_op(OPERATOR_COLON))
2814 {
2815 // This may be a field name. We don't know for sure--it
2816 // could also be an expression for an array index. We
2817 // don't want to parse it as an expression because may
2818 // trigger various errors, e.g., if this identifier
2819 // happens to be the name of a package.
2820 Gogo* gogo = this->gogo_;
2821 val = this->id_to_expression(gogo->pack_hidden_name(identifier,
2822 is_exported),
2823 id_location, false, true);
2824 is_name = true;
2825 }
2826 else
2827 {
2828 this->unget_token(Token::make_identifier_token(identifier,
2829 is_exported,
2830 id_location));
2831 val = this->expression(PRECEDENCE_NORMAL, false, true, NULL,
2832 NULL);
2833 }
2834 }
2835 else if (!token->is_op(OPERATOR_LCURLY))
2836 val = this->expression(PRECEDENCE_NORMAL, false, true, NULL, NULL);
2837 else
2838 {
2839 // This must be a composite literal inside another composite
2840 // literal, with the type omitted for the inner one.
2841 val = this->composite_lit(type, depth + 1, token->location());
2842 is_type_omitted = true;
2843 }
2844
2845 token = this->peek_token();
2846 if (!token->is_op(OPERATOR_COLON))
2847 {
2848 if (has_keys)
2849 vals->push_back(NULL);
2850 is_name = false;
2851 }
2852 else
2853 {
2854 if (is_type_omitted)
2855 {
2856 // VAL is a nested composite literal with an omitted type being
2857 // used a key. Record this information in VAL so that the correct
2858 // type is associated with the literal value if VAL is a
2859 // map literal.
2860 val->complit()->update_key_path(depth);
2861 }
2862
2863 this->advance_token();
2864
2865 if (!has_keys && !vals->empty())
2866 {
2867 Expression_list* newvals = new Expression_list;
2868 for (Expression_list::const_iterator p = vals->begin();
2869 p != vals->end();
2870 ++p)
2871 {
2872 newvals->push_back(NULL);
2873 newvals->push_back(*p);
2874 }
2875 delete vals;
2876 vals = newvals;
2877 }
2878 has_keys = true;
2879
2880 vals->push_back(val);
2881
2882 if (!token->is_op(OPERATOR_LCURLY))
2883 val = this->expression(PRECEDENCE_NORMAL, false, true, NULL, NULL);
2884 else
2885 {
2886 // This must be a composite literal inside another
2887 // composite literal, with the type omitted for the
2888 // inner one.
2889 val = this->composite_lit(type, depth + 1, token->location());
2890 }
2891
2892 token = this->peek_token();
2893 }
2894
2895 vals->push_back(val);
2896
2897 if (!is_name)
2898 all_are_names = false;
2899
2900 if (token->is_op(OPERATOR_COMMA))
2901 {
2902 if (this->advance_token()->is_op(OPERATOR_RCURLY))
2903 {
2904 this->advance_token();
2905 break;
2906 }
2907 }
2908 else if (token->is_op(OPERATOR_RCURLY))
2909 {
2910 this->advance_token();
2911 break;
2912 }
2913 else
2914 {
2915 if (token->is_op(OPERATOR_SEMICOLON))
2916 go_error_at(this->location(),
2917 ("need trailing comma before newline "
2918 "in composite literal"));
2919 else
2920 go_error_at(this->location(), "expected %<,%> or %<}%>");
2921
2922 this->gogo_->mark_locals_used();
2923 int edepth = 0;
2924 while (!token->is_eof()
2925 && (edepth > 0 || !token->is_op(OPERATOR_RCURLY)))
2926 {
2927 if (token->is_op(OPERATOR_LCURLY))
2928 ++edepth;
2929 else if (token->is_op(OPERATOR_RCURLY))
2930 --edepth;
2931 token = this->advance_token();
2932 }
2933 if (token->is_op(OPERATOR_RCURLY))
2934 this->advance_token();
2935
2936 return Expression::make_error(location);
2937 }
2938 }
2939
2940 return Expression::make_composite_literal(type, depth, has_keys, vals,
2941 all_are_names, location);
2942 }
2943
2944 // FunctionLit = "func" Signature Block .
2945
2946 Expression*
function_lit()2947 Parse::function_lit()
2948 {
2949 Location location = this->location();
2950 go_assert(this->peek_token()->is_keyword(KEYWORD_FUNC));
2951 this->advance_token();
2952
2953 Enclosing_vars hold_enclosing_vars;
2954 hold_enclosing_vars.swap(this->enclosing_vars_);
2955
2956 Function_type* type = this->signature(NULL, location);
2957 bool fntype_is_error = false;
2958 if (type == NULL)
2959 {
2960 type = Type::make_function_type(NULL, NULL, NULL, location);
2961 fntype_is_error = true;
2962 }
2963
2964 // For a function literal, the next token must be a '{'. If we
2965 // don't see that, then we may have a type expression.
2966 if (!this->peek_token()->is_op(OPERATOR_LCURLY))
2967 {
2968 hold_enclosing_vars.swap(this->enclosing_vars_);
2969 return Expression::make_type(type, location);
2970 }
2971
2972 bool hold_is_erroneous_function = this->is_erroneous_function_;
2973 if (fntype_is_error)
2974 this->is_erroneous_function_ = true;
2975
2976 Bc_stack* hold_break_stack = this->break_stack_;
2977 Bc_stack* hold_continue_stack = this->continue_stack_;
2978 this->break_stack_ = NULL;
2979 this->continue_stack_ = NULL;
2980
2981 Named_object* no = this->gogo_->start_function("", type, true, location);
2982
2983 Location end_loc = this->block();
2984
2985 this->gogo_->finish_function(end_loc);
2986
2987 if (this->break_stack_ != NULL)
2988 delete this->break_stack_;
2989 if (this->continue_stack_ != NULL)
2990 delete this->continue_stack_;
2991 this->break_stack_ = hold_break_stack;
2992 this->continue_stack_ = hold_continue_stack;
2993
2994 this->is_erroneous_function_ = hold_is_erroneous_function;
2995
2996 hold_enclosing_vars.swap(this->enclosing_vars_);
2997
2998 Expression* closure = this->create_closure(no, &hold_enclosing_vars,
2999 location);
3000
3001 return Expression::make_func_reference(no, closure, location);
3002 }
3003
3004 // Create a closure for the nested function FUNCTION. This is based
3005 // on ENCLOSING_VARS, which is a list of all variables defined in
3006 // enclosing functions and referenced from FUNCTION. A closure is the
3007 // address of a struct which point to the real function code and
3008 // contains the addresses of all the referenced variables. This
3009 // returns NULL if no closure is required.
3010
3011 Expression*
create_closure(Named_object * function,Enclosing_vars * enclosing_vars,Location location)3012 Parse::create_closure(Named_object* function, Enclosing_vars* enclosing_vars,
3013 Location location)
3014 {
3015 if (enclosing_vars->empty())
3016 return NULL;
3017
3018 // Get the variables in order by their field index.
3019
3020 size_t enclosing_var_count = enclosing_vars->size();
3021 std::vector<Enclosing_var> ev(enclosing_var_count);
3022 for (Enclosing_vars::const_iterator p = enclosing_vars->begin();
3023 p != enclosing_vars->end();
3024 ++p)
3025 {
3026 // Subtract 1 because index 0 is the function code.
3027 ev[p->index() - 1] = *p;
3028 }
3029
3030 // Build an initializer for a composite literal of the closure's
3031 // type.
3032
3033 Named_object* enclosing_function = this->gogo_->current_function();
3034 Expression_list* initializer = new Expression_list;
3035
3036 initializer->push_back(Expression::make_func_code_reference(function,
3037 location));
3038
3039 for (size_t i = 0; i < enclosing_var_count; ++i)
3040 {
3041 // Add 1 to i because the first field in the closure is a
3042 // pointer to the function code.
3043 go_assert(ev[i].index() == i + 1);
3044 Named_object* var = ev[i].var();
3045 Expression* ref;
3046 if (ev[i].in_function() == enclosing_function)
3047 ref = Expression::make_var_reference(var, location);
3048 else
3049 ref = this->enclosing_var_reference(ev[i].in_function(), var,
3050 true, location);
3051 Expression* refaddr = Expression::make_unary(OPERATOR_AND, ref,
3052 location);
3053 initializer->push_back(refaddr);
3054 }
3055
3056 Named_object* closure_var = function->func_value()->closure_var();
3057 Struct_type* st = closure_var->var_value()->type()->deref()->struct_type();
3058 Expression* cv = Expression::make_struct_composite_literal(st, initializer,
3059 location);
3060 return Expression::make_heap_expression(cv, location);
3061 }
3062
3063 // PrimaryExpr = Operand { Selector | Index | Slice | TypeGuard | Call } .
3064
3065 // If MAY_BE_SINK is true, this expression may be "_".
3066
3067 // If MAY_BE_COMPOSITE_LIT is true, this expression may be a composite
3068 // literal.
3069
3070 // If IS_TYPE_SWITCH is not NULL, this will recognize a type switch
3071 // guard (var := expr.("type") using the literal keyword "type").
3072
3073 // If IS_PARENTHESIZED is not NULL, *IS_PARENTHESIZED is set to true
3074 // if the entire expression is in parentheses.
3075
3076 Expression*
primary_expr(bool may_be_sink,bool may_be_composite_lit,bool * is_type_switch,bool * is_parenthesized)3077 Parse::primary_expr(bool may_be_sink, bool may_be_composite_lit,
3078 bool* is_type_switch, bool* is_parenthesized)
3079 {
3080 Location start_loc = this->location();
3081 bool operand_is_parenthesized = false;
3082 bool whole_is_parenthesized = false;
3083
3084 Expression* ret = this->operand(may_be_sink, &operand_is_parenthesized);
3085
3086 whole_is_parenthesized = operand_is_parenthesized;
3087
3088 // An unknown name followed by a curly brace must be a composite
3089 // literal, and the unknown name must be a type.
3090 if (may_be_composite_lit
3091 && !operand_is_parenthesized
3092 && ret->unknown_expression() != NULL
3093 && this->peek_token()->is_op(OPERATOR_LCURLY))
3094 {
3095 Named_object* no = ret->unknown_expression()->named_object();
3096 Type* type = Type::make_forward_declaration(no);
3097 ret = Expression::make_type(type, ret->location());
3098 }
3099
3100 // We handle composite literals and type casts here, as it is the
3101 // easiest way to handle types which are in parentheses, as in
3102 // "((uint))(1)".
3103 if (ret->is_type_expression())
3104 {
3105 if (this->peek_token()->is_op(OPERATOR_LCURLY))
3106 {
3107 whole_is_parenthesized = false;
3108 if (!may_be_composite_lit)
3109 {
3110 Type* t = ret->type();
3111 if (t->named_type() != NULL
3112 || t->forward_declaration_type() != NULL)
3113 go_error_at(start_loc,
3114 _("parentheses required around this composite "
3115 "literal to avoid parsing ambiguity"));
3116 }
3117 else if (operand_is_parenthesized)
3118 go_error_at(start_loc,
3119 "cannot parenthesize type in composite literal");
3120 ret = this->composite_lit(ret->type(), 0, ret->location());
3121 }
3122 else if (this->peek_token()->is_op(OPERATOR_LPAREN))
3123 {
3124 whole_is_parenthesized = false;
3125 Location loc = this->location();
3126 this->advance_token();
3127 Expression* expr = this->expression(PRECEDENCE_NORMAL, false, true,
3128 NULL, NULL);
3129 if (this->peek_token()->is_op(OPERATOR_COMMA))
3130 this->advance_token();
3131 if (this->peek_token()->is_op(OPERATOR_ELLIPSIS))
3132 {
3133 go_error_at(this->location(),
3134 "invalid use of %<...%> in type conversion");
3135 this->advance_token();
3136 }
3137 if (!this->peek_token()->is_op(OPERATOR_RPAREN))
3138 go_error_at(this->location(), "expected %<)%>");
3139 else
3140 this->advance_token();
3141 if (expr->is_error_expression())
3142 ret = expr;
3143 else
3144 {
3145 Type* t = ret->type();
3146 if (t->classification() == Type::TYPE_ARRAY
3147 && t->array_type()->length() != NULL
3148 && t->array_type()->length()->is_nil_expression())
3149 {
3150 go_error_at(ret->location(),
3151 "use of %<[...]%> outside of array literal");
3152 ret = Expression::make_error(loc);
3153 }
3154 else
3155 ret = Expression::make_cast(t, expr, loc);
3156 }
3157 }
3158 }
3159
3160 while (true)
3161 {
3162 const Token* token = this->peek_token();
3163 if (token->is_op(OPERATOR_LPAREN))
3164 {
3165 whole_is_parenthesized = false;
3166 ret = this->call(this->verify_not_sink(ret));
3167 }
3168 else if (token->is_op(OPERATOR_DOT))
3169 {
3170 whole_is_parenthesized = false;
3171 ret = this->selector(this->verify_not_sink(ret), is_type_switch);
3172 if (is_type_switch != NULL && *is_type_switch)
3173 break;
3174 }
3175 else if (token->is_op(OPERATOR_LSQUARE))
3176 {
3177 whole_is_parenthesized = false;
3178 ret = this->index(this->verify_not_sink(ret));
3179 }
3180 else
3181 break;
3182 }
3183
3184 if (whole_is_parenthesized && is_parenthesized != NULL)
3185 *is_parenthesized = true;
3186
3187 return ret;
3188 }
3189
3190 // Selector = "." identifier .
3191 // TypeGuard = "." "(" QualifiedIdent ")" .
3192
3193 // Note that Operand can expand to QualifiedIdent, which contains a
3194 // ".". That is handled directly in operand when it sees a package
3195 // name.
3196
3197 // If IS_TYPE_SWITCH is not NULL, this will recognize a type switch
3198 // guard (var := expr.("type") using the literal keyword "type").
3199
3200 Expression*
selector(Expression * left,bool * is_type_switch)3201 Parse::selector(Expression* left, bool* is_type_switch)
3202 {
3203 go_assert(this->peek_token()->is_op(OPERATOR_DOT));
3204 Location location = this->location();
3205
3206 const Token* token = this->advance_token();
3207 if (token->is_identifier())
3208 {
3209 // This could be a field in a struct, or a method in an
3210 // interface, or a method associated with a type. We can't know
3211 // which until we have seen all the types.
3212 std::string name =
3213 this->gogo_->pack_hidden_name(token->identifier(),
3214 token->is_identifier_exported());
3215 if (token->identifier() == "_")
3216 {
3217 go_error_at(this->location(), "invalid use of %<_%>");
3218 name = Gogo::erroneous_name();
3219 }
3220 this->advance_token();
3221 return Expression::make_selector(left, name, location);
3222 }
3223 else if (token->is_op(OPERATOR_LPAREN))
3224 {
3225 this->advance_token();
3226 Type* type = NULL;
3227 if (!this->peek_token()->is_keyword(KEYWORD_TYPE))
3228 type = this->type();
3229 else
3230 {
3231 if (is_type_switch != NULL)
3232 *is_type_switch = true;
3233 else
3234 {
3235 go_error_at(this->location(),
3236 "use of %<.(type)%> outside type switch");
3237 type = Type::make_error_type();
3238 }
3239 this->advance_token();
3240 }
3241 if (!this->peek_token()->is_op(OPERATOR_RPAREN))
3242 go_error_at(this->location(), "missing %<)%>");
3243 else
3244 this->advance_token();
3245 if (is_type_switch != NULL && *is_type_switch)
3246 return left;
3247 return Expression::make_type_guard(left, type, location);
3248 }
3249 else
3250 {
3251 go_error_at(this->location(), "expected identifier or %<(%>");
3252 return left;
3253 }
3254 }
3255
3256 // Index = "[" Expression "]" .
3257 // Slice = "[" Expression ":" [ Expression ] [ ":" Expression ] "]" .
3258
3259 Expression*
index(Expression * expr)3260 Parse::index(Expression* expr)
3261 {
3262 Location location = this->location();
3263 go_assert(this->peek_token()->is_op(OPERATOR_LSQUARE));
3264 this->advance_token();
3265
3266 Expression* start;
3267 if (!this->peek_token()->is_op(OPERATOR_COLON))
3268 start = this->expression(PRECEDENCE_NORMAL, false, true, NULL, NULL);
3269 else
3270 start = Expression::make_integer_ul(0, NULL, location);
3271
3272 Expression* end = NULL;
3273 if (this->peek_token()->is_op(OPERATOR_COLON))
3274 {
3275 // We use nil to indicate a missing high expression.
3276 if (this->advance_token()->is_op(OPERATOR_RSQUARE))
3277 end = Expression::make_nil(this->location());
3278 else if (this->peek_token()->is_op(OPERATOR_COLON))
3279 {
3280 go_error_at(this->location(),
3281 "middle index required in 3-index slice");
3282 end = Expression::make_error(this->location());
3283 }
3284 else
3285 end = this->expression(PRECEDENCE_NORMAL, false, true, NULL, NULL);
3286 }
3287
3288 Expression* cap = NULL;
3289 if (this->peek_token()->is_op(OPERATOR_COLON))
3290 {
3291 if (this->advance_token()->is_op(OPERATOR_RSQUARE))
3292 {
3293 go_error_at(this->location(),
3294 "final index required in 3-index slice");
3295 cap = Expression::make_error(this->location());
3296 }
3297 else
3298 cap = this->expression(PRECEDENCE_NORMAL, false, true, NULL, NULL);
3299 }
3300 if (!this->peek_token()->is_op(OPERATOR_RSQUARE))
3301 go_error_at(this->location(), "missing %<]%>");
3302 else
3303 this->advance_token();
3304 return Expression::make_index(expr, start, end, cap, location);
3305 }
3306
3307 // Call = "(" [ ArgumentList [ "," ] ] ")" .
3308 // ArgumentList = ExpressionList [ "..." ] .
3309
3310 Expression*
call(Expression * func)3311 Parse::call(Expression* func)
3312 {
3313 go_assert(this->peek_token()->is_op(OPERATOR_LPAREN));
3314 Expression_list* args = NULL;
3315 bool is_varargs = false;
3316 const Token* token = this->advance_token();
3317 if (!token->is_op(OPERATOR_RPAREN))
3318 {
3319 args = this->expression_list(NULL, false, true);
3320 token = this->peek_token();
3321 if (token->is_op(OPERATOR_ELLIPSIS))
3322 {
3323 is_varargs = true;
3324 token = this->advance_token();
3325 }
3326 }
3327 if (token->is_op(OPERATOR_COMMA))
3328 token = this->advance_token();
3329 if (!token->is_op(OPERATOR_RPAREN))
3330 {
3331 go_error_at(this->location(), "missing %<)%>");
3332 if (!this->skip_past_error(OPERATOR_RPAREN))
3333 return Expression::make_error(this->location());
3334 }
3335 this->advance_token();
3336 if (func->is_error_expression())
3337 return func;
3338 return Expression::make_call(func, args, is_varargs, func->location());
3339 }
3340
3341 // Return an expression for a single unqualified identifier.
3342
3343 Expression*
id_to_expression(const std::string & name,Location location,bool is_lhs,bool is_composite_literal_key)3344 Parse::id_to_expression(const std::string& name, Location location,
3345 bool is_lhs, bool is_composite_literal_key)
3346 {
3347 Named_object* in_function;
3348 Named_object* named_object = this->gogo_->lookup(name, &in_function);
3349 if (named_object == NULL)
3350 {
3351 if (is_composite_literal_key)
3352 {
3353 // This is a composite literal key, which means that it
3354 // could just be a struct field name, so avoid confusiong by
3355 // not adding it to the bindings. We'll look up the name
3356 // later during the lowering phase if necessary.
3357 return Expression::make_composite_literal_key(name, location);
3358 }
3359 named_object = this->gogo_->add_unknown_name(name, location);
3360 }
3361
3362 if (in_function != NULL
3363 && in_function != this->gogo_->current_function()
3364 && (named_object->is_variable() || named_object->is_result_variable()))
3365 return this->enclosing_var_reference(in_function, named_object, is_lhs,
3366 location);
3367
3368 switch (named_object->classification())
3369 {
3370 case Named_object::NAMED_OBJECT_CONST:
3371 return Expression::make_const_reference(named_object, location);
3372 case Named_object::NAMED_OBJECT_VAR:
3373 case Named_object::NAMED_OBJECT_RESULT_VAR:
3374 if (!is_lhs)
3375 this->mark_var_used(named_object);
3376 return Expression::make_var_reference(named_object, location);
3377 case Named_object::NAMED_OBJECT_SINK:
3378 return Expression::make_sink(location);
3379 case Named_object::NAMED_OBJECT_FUNC:
3380 case Named_object::NAMED_OBJECT_FUNC_DECLARATION:
3381 return Expression::make_func_reference(named_object, NULL, location);
3382 case Named_object::NAMED_OBJECT_UNKNOWN:
3383 {
3384 Unknown_expression* ue =
3385 Expression::make_unknown_reference(named_object, location);
3386 if (this->is_erroneous_function_)
3387 ue->set_no_error_message();
3388 return ue;
3389 }
3390 case Named_object::NAMED_OBJECT_PACKAGE:
3391 case Named_object::NAMED_OBJECT_TYPE:
3392 case Named_object::NAMED_OBJECT_TYPE_DECLARATION:
3393 {
3394 // These cases can arise for a field name in a composite
3395 // literal. Keep track of these as they might be fake uses of
3396 // the related package.
3397 Unknown_expression* ue =
3398 Expression::make_unknown_reference(named_object, location);
3399 if (named_object->package() != NULL)
3400 named_object->package()->note_fake_usage(ue);
3401 if (this->is_erroneous_function_)
3402 ue->set_no_error_message();
3403 return ue;
3404 }
3405 case Named_object::NAMED_OBJECT_ERRONEOUS:
3406 return Expression::make_error(location);
3407 default:
3408 go_error_at(this->location(), "unexpected type of identifier");
3409 return Expression::make_error(location);
3410 }
3411 }
3412
3413 // Expression = UnaryExpr { binary_op Expression } .
3414
3415 // PRECEDENCE is the precedence of the current operator.
3416
3417 // If MAY_BE_SINK is true, this expression may be "_".
3418
3419 // If MAY_BE_COMPOSITE_LIT is true, this expression may be a composite
3420 // literal.
3421
3422 // If IS_TYPE_SWITCH is not NULL, this will recognize a type switch
3423 // guard (var := expr.("type") using the literal keyword "type").
3424
3425 // If IS_PARENTHESIZED is not NULL, *IS_PARENTHESIZED is set to true
3426 // if the entire expression is in parentheses.
3427
3428 Expression*
expression(Precedence precedence,bool may_be_sink,bool may_be_composite_lit,bool * is_type_switch,bool * is_parenthesized)3429 Parse::expression(Precedence precedence, bool may_be_sink,
3430 bool may_be_composite_lit, bool* is_type_switch,
3431 bool *is_parenthesized)
3432 {
3433 Expression* left = this->unary_expr(may_be_sink, may_be_composite_lit,
3434 is_type_switch, is_parenthesized);
3435
3436 while (true)
3437 {
3438 if (is_type_switch != NULL && *is_type_switch)
3439 return left;
3440
3441 const Token* token = this->peek_token();
3442 if (token->classification() != Token::TOKEN_OPERATOR)
3443 {
3444 // Not a binary_op.
3445 return left;
3446 }
3447
3448 Precedence right_precedence;
3449 switch (token->op())
3450 {
3451 case OPERATOR_OROR:
3452 right_precedence = PRECEDENCE_OROR;
3453 break;
3454 case OPERATOR_ANDAND:
3455 right_precedence = PRECEDENCE_ANDAND;
3456 break;
3457 case OPERATOR_EQEQ:
3458 case OPERATOR_NOTEQ:
3459 case OPERATOR_LT:
3460 case OPERATOR_LE:
3461 case OPERATOR_GT:
3462 case OPERATOR_GE:
3463 right_precedence = PRECEDENCE_RELOP;
3464 break;
3465 case OPERATOR_PLUS:
3466 case OPERATOR_MINUS:
3467 case OPERATOR_OR:
3468 case OPERATOR_XOR:
3469 right_precedence = PRECEDENCE_ADDOP;
3470 break;
3471 case OPERATOR_MULT:
3472 case OPERATOR_DIV:
3473 case OPERATOR_MOD:
3474 case OPERATOR_LSHIFT:
3475 case OPERATOR_RSHIFT:
3476 case OPERATOR_AND:
3477 case OPERATOR_BITCLEAR:
3478 right_precedence = PRECEDENCE_MULOP;
3479 break;
3480 default:
3481 right_precedence = PRECEDENCE_INVALID;
3482 break;
3483 }
3484
3485 if (right_precedence == PRECEDENCE_INVALID)
3486 {
3487 // Not a binary_op.
3488 return left;
3489 }
3490
3491 if (is_parenthesized != NULL)
3492 *is_parenthesized = false;
3493
3494 Operator op = token->op();
3495 Location binop_location = token->location();
3496
3497 if (precedence >= right_precedence)
3498 {
3499 // We've already seen A * B, and we see + C. We want to
3500 // return so that A * B becomes a group.
3501 return left;
3502 }
3503
3504 this->advance_token();
3505
3506 left = this->verify_not_sink(left);
3507 Expression* right = this->expression(right_precedence, false,
3508 may_be_composite_lit,
3509 NULL, NULL);
3510 left = Expression::make_binary(op, left, right, binop_location);
3511 }
3512 }
3513
3514 bool
expression_may_start_here()3515 Parse::expression_may_start_here()
3516 {
3517 const Token* token = this->peek_token();
3518 switch (token->classification())
3519 {
3520 case Token::TOKEN_INVALID:
3521 case Token::TOKEN_EOF:
3522 return false;
3523 case Token::TOKEN_KEYWORD:
3524 switch (token->keyword())
3525 {
3526 case KEYWORD_CHAN:
3527 case KEYWORD_FUNC:
3528 case KEYWORD_MAP:
3529 case KEYWORD_STRUCT:
3530 case KEYWORD_INTERFACE:
3531 return true;
3532 default:
3533 return false;
3534 }
3535 case Token::TOKEN_IDENTIFIER:
3536 return true;
3537 case Token::TOKEN_STRING:
3538 return true;
3539 case Token::TOKEN_OPERATOR:
3540 switch (token->op())
3541 {
3542 case OPERATOR_PLUS:
3543 case OPERATOR_MINUS:
3544 case OPERATOR_NOT:
3545 case OPERATOR_XOR:
3546 case OPERATOR_MULT:
3547 case OPERATOR_CHANOP:
3548 case OPERATOR_AND:
3549 case OPERATOR_LPAREN:
3550 case OPERATOR_LSQUARE:
3551 return true;
3552 default:
3553 return false;
3554 }
3555 case Token::TOKEN_CHARACTER:
3556 case Token::TOKEN_INTEGER:
3557 case Token::TOKEN_FLOAT:
3558 case Token::TOKEN_IMAGINARY:
3559 return true;
3560 default:
3561 go_unreachable();
3562 }
3563 }
3564
3565 // UnaryExpr = unary_op UnaryExpr | PrimaryExpr .
3566
3567 // If MAY_BE_SINK is true, this expression may be "_".
3568
3569 // If MAY_BE_COMPOSITE_LIT is true, this expression may be a composite
3570 // literal.
3571
3572 // If IS_TYPE_SWITCH is not NULL, this will recognize a type switch
3573 // guard (var := expr.("type") using the literal keyword "type").
3574
3575 // If IS_PARENTHESIZED is not NULL, *IS_PARENTHESIZED is set to true
3576 // if the entire expression is in parentheses.
3577
3578 Expression*
unary_expr(bool may_be_sink,bool may_be_composite_lit,bool * is_type_switch,bool * is_parenthesized)3579 Parse::unary_expr(bool may_be_sink, bool may_be_composite_lit,
3580 bool* is_type_switch, bool* is_parenthesized)
3581 {
3582 const Token* token = this->peek_token();
3583
3584 // There is a complex parse for <- chan. The choices are
3585 // Convert x to type <- chan int:
3586 // (<- chan int)(x)
3587 // Receive from (x converted to type chan <- chan int):
3588 // (<- chan <- chan int (x))
3589 // Convert x to type <- chan (<- chan int).
3590 // (<- chan <- chan int)(x)
3591 if (token->is_op(OPERATOR_CHANOP))
3592 {
3593 Location location = token->location();
3594 if (this->advance_token()->is_keyword(KEYWORD_CHAN))
3595 {
3596 Expression* expr = this->primary_expr(false, may_be_composite_lit,
3597 NULL, NULL);
3598 if (expr->is_error_expression())
3599 return expr;
3600 else if (!expr->is_type_expression())
3601 return Expression::make_receive(expr, location);
3602 else
3603 {
3604 if (expr->type()->is_error_type())
3605 return expr;
3606
3607 // We picked up "chan TYPE", but it is not a type
3608 // conversion.
3609 Channel_type* ct = expr->type()->channel_type();
3610 if (ct == NULL)
3611 {
3612 // This is probably impossible.
3613 go_error_at(location, "expected channel type");
3614 return Expression::make_error(location);
3615 }
3616 else if (ct->may_receive())
3617 {
3618 // <- chan TYPE.
3619 Type* t = Type::make_channel_type(false, true,
3620 ct->element_type());
3621 return Expression::make_type(t, location);
3622 }
3623 else
3624 {
3625 // <- chan <- TYPE. Because we skipped the leading
3626 // <-, we parsed this as chan <- TYPE. With the
3627 // leading <-, we parse it as <- chan (<- TYPE).
3628 Type *t = this->reassociate_chan_direction(ct, location);
3629 return Expression::make_type(t, location);
3630 }
3631 }
3632 }
3633
3634 this->unget_token(Token::make_operator_token(OPERATOR_CHANOP, location));
3635 token = this->peek_token();
3636 }
3637
3638 if (token->is_op(OPERATOR_PLUS)
3639 || token->is_op(OPERATOR_MINUS)
3640 || token->is_op(OPERATOR_NOT)
3641 || token->is_op(OPERATOR_XOR)
3642 || token->is_op(OPERATOR_CHANOP)
3643 || token->is_op(OPERATOR_MULT)
3644 || token->is_op(OPERATOR_AND))
3645 {
3646 Location location = token->location();
3647 Operator op = token->op();
3648 this->advance_token();
3649
3650 Expression* expr = this->unary_expr(false, may_be_composite_lit, NULL,
3651 NULL);
3652 if (expr->is_error_expression())
3653 ;
3654 else if (op == OPERATOR_MULT && expr->is_type_expression())
3655 expr = Expression::make_type(Type::make_pointer_type(expr->type()),
3656 location);
3657 else if (op == OPERATOR_AND && expr->is_composite_literal())
3658 expr = Expression::make_heap_expression(expr, location);
3659 else if (op != OPERATOR_CHANOP)
3660 expr = Expression::make_unary(op, expr, location);
3661 else
3662 expr = Expression::make_receive(expr, location);
3663 return expr;
3664 }
3665 else
3666 return this->primary_expr(may_be_sink, may_be_composite_lit,
3667 is_type_switch, is_parenthesized);
3668 }
3669
3670 // This is called for the obscure case of
3671 // (<- chan <- chan int)(x)
3672 // In unary_expr we remove the leading <- and parse the remainder,
3673 // which gives us
3674 // chan <- (chan int)
3675 // When we add the leading <- back in, we really want
3676 // <- chan (<- chan int)
3677 // This means that we need to reassociate.
3678
3679 Type*
reassociate_chan_direction(Channel_type * ct,Location location)3680 Parse::reassociate_chan_direction(Channel_type *ct, Location location)
3681 {
3682 Channel_type* ele = ct->element_type()->channel_type();
3683 if (ele == NULL)
3684 {
3685 go_error_at(location, "parse error");
3686 return Type::make_error_type();
3687 }
3688 Type* sub = ele;
3689 if (ele->may_send())
3690 sub = Type::make_channel_type(false, true, ele->element_type());
3691 else
3692 sub = this->reassociate_chan_direction(ele, location);
3693 return Type::make_channel_type(false, true, sub);
3694 }
3695
3696 // Statement =
3697 // Declaration | LabeledStmt | SimpleStmt |
3698 // GoStmt | ReturnStmt | BreakStmt | ContinueStmt | GotoStmt |
3699 // FallthroughStmt | Block | IfStmt | SwitchStmt | SelectStmt | ForStmt |
3700 // DeferStmt .
3701
3702 // LABEL is the label of this statement if it has one.
3703
3704 void
statement(Label * label)3705 Parse::statement(Label* label)
3706 {
3707 const Token* token = this->peek_token();
3708 switch (token->classification())
3709 {
3710 case Token::TOKEN_KEYWORD:
3711 {
3712 switch (token->keyword())
3713 {
3714 case KEYWORD_CONST:
3715 case KEYWORD_TYPE:
3716 case KEYWORD_VAR:
3717 this->declaration();
3718 break;
3719 case KEYWORD_FUNC:
3720 case KEYWORD_MAP:
3721 case KEYWORD_STRUCT:
3722 case KEYWORD_INTERFACE:
3723 this->simple_stat(true, NULL, NULL, NULL);
3724 break;
3725 case KEYWORD_GO:
3726 case KEYWORD_DEFER:
3727 this->go_or_defer_stat();
3728 break;
3729 case KEYWORD_RETURN:
3730 this->return_stat();
3731 break;
3732 case KEYWORD_BREAK:
3733 this->break_stat();
3734 break;
3735 case KEYWORD_CONTINUE:
3736 this->continue_stat();
3737 break;
3738 case KEYWORD_GOTO:
3739 this->goto_stat();
3740 break;
3741 case KEYWORD_IF:
3742 this->if_stat();
3743 break;
3744 case KEYWORD_SWITCH:
3745 this->switch_stat(label);
3746 break;
3747 case KEYWORD_SELECT:
3748 this->select_stat(label);
3749 break;
3750 case KEYWORD_FOR:
3751 this->for_stat(label);
3752 break;
3753 default:
3754 go_error_at(this->location(), "expected statement");
3755 this->advance_token();
3756 break;
3757 }
3758 }
3759 break;
3760
3761 case Token::TOKEN_IDENTIFIER:
3762 {
3763 std::string identifier = token->identifier();
3764 bool is_exported = token->is_identifier_exported();
3765 Location location = token->location();
3766 if (this->advance_token()->is_op(OPERATOR_COLON))
3767 {
3768 this->advance_token();
3769 this->labeled_stmt(identifier, location);
3770 }
3771 else
3772 {
3773 this->unget_token(Token::make_identifier_token(identifier,
3774 is_exported,
3775 location));
3776 this->simple_stat(true, NULL, NULL, NULL);
3777 }
3778 }
3779 break;
3780
3781 case Token::TOKEN_OPERATOR:
3782 if (token->is_op(OPERATOR_LCURLY))
3783 {
3784 Location location = token->location();
3785 this->gogo_->start_block(location);
3786 Location end_loc = this->block();
3787 this->gogo_->add_block(this->gogo_->finish_block(end_loc),
3788 location);
3789 }
3790 else if (!token->is_op(OPERATOR_SEMICOLON))
3791 this->simple_stat(true, NULL, NULL, NULL);
3792 break;
3793
3794 case Token::TOKEN_STRING:
3795 case Token::TOKEN_CHARACTER:
3796 case Token::TOKEN_INTEGER:
3797 case Token::TOKEN_FLOAT:
3798 case Token::TOKEN_IMAGINARY:
3799 this->simple_stat(true, NULL, NULL, NULL);
3800 break;
3801
3802 default:
3803 go_error_at(this->location(), "expected statement");
3804 this->advance_token();
3805 break;
3806 }
3807 }
3808
3809 bool
statement_may_start_here()3810 Parse::statement_may_start_here()
3811 {
3812 const Token* token = this->peek_token();
3813 switch (token->classification())
3814 {
3815 case Token::TOKEN_KEYWORD:
3816 {
3817 switch (token->keyword())
3818 {
3819 case KEYWORD_CONST:
3820 case KEYWORD_TYPE:
3821 case KEYWORD_VAR:
3822 case KEYWORD_FUNC:
3823 case KEYWORD_MAP:
3824 case KEYWORD_STRUCT:
3825 case KEYWORD_INTERFACE:
3826 case KEYWORD_GO:
3827 case KEYWORD_DEFER:
3828 case KEYWORD_RETURN:
3829 case KEYWORD_BREAK:
3830 case KEYWORD_CONTINUE:
3831 case KEYWORD_GOTO:
3832 case KEYWORD_IF:
3833 case KEYWORD_SWITCH:
3834 case KEYWORD_SELECT:
3835 case KEYWORD_FOR:
3836 return true;
3837
3838 default:
3839 return false;
3840 }
3841 }
3842 break;
3843
3844 case Token::TOKEN_IDENTIFIER:
3845 return true;
3846
3847 case Token::TOKEN_OPERATOR:
3848 if (token->is_op(OPERATOR_LCURLY)
3849 || token->is_op(OPERATOR_SEMICOLON))
3850 return true;
3851 else
3852 return this->expression_may_start_here();
3853
3854 case Token::TOKEN_STRING:
3855 case Token::TOKEN_CHARACTER:
3856 case Token::TOKEN_INTEGER:
3857 case Token::TOKEN_FLOAT:
3858 case Token::TOKEN_IMAGINARY:
3859 return true;
3860
3861 default:
3862 return false;
3863 }
3864 }
3865
3866 // LabeledStmt = Label ":" Statement .
3867 // Label = identifier .
3868
3869 void
labeled_stmt(const std::string & label_name,Location location)3870 Parse::labeled_stmt(const std::string& label_name, Location location)
3871 {
3872 Label* label = this->gogo_->add_label_definition(label_name, location);
3873
3874 if (this->peek_token()->is_op(OPERATOR_RCURLY))
3875 {
3876 // This is a label at the end of a block. A program is
3877 // permitted to omit a semicolon here.
3878 return;
3879 }
3880
3881 if (!this->statement_may_start_here())
3882 {
3883 if (this->peek_token()->is_keyword(KEYWORD_FALLTHROUGH))
3884 {
3885 // We don't treat the fallthrough keyword as a statement,
3886 // because it can't appear most places where a statement is
3887 // permitted, but it may have a label. We introduce a
3888 // semicolon because the caller expects to see a statement.
3889 this->unget_token(Token::make_operator_token(OPERATOR_SEMICOLON,
3890 location));
3891 return;
3892 }
3893
3894 // Mark the label as used to avoid a useless error about an
3895 // unused label.
3896 if (label != NULL)
3897 label->set_is_used();
3898
3899 go_error_at(location, "missing statement after label");
3900 this->unget_token(Token::make_operator_token(OPERATOR_SEMICOLON,
3901 location));
3902 return;
3903 }
3904
3905 this->statement(label);
3906 }
3907
3908 // SimpleStmt = EmptyStmt | ExpressionStmt | SendStmt | IncDecStmt |
3909 // Assignment | ShortVarDecl .
3910
3911 // EmptyStmt was handled in Parse::statement.
3912
3913 // In order to make this work for if and switch statements, if
3914 // RETURN_EXP is not NULL, and we see an ExpressionStat, we return the
3915 // expression rather than adding an expression statement to the
3916 // current block. If we see something other than an ExpressionStat,
3917 // we add the statement, set *RETURN_EXP to true if we saw a send
3918 // statement, and return NULL. The handling of send statements is for
3919 // better error messages.
3920
3921 // If P_RANGE_CLAUSE is not NULL, then this will recognize a
3922 // RangeClause.
3923
3924 // If P_TYPE_SWITCH is not NULL, this will recognize a type switch
3925 // guard (var := expr.("type") using the literal keyword "type").
3926
3927 Expression*
simple_stat(bool may_be_composite_lit,bool * return_exp,Range_clause * p_range_clause,Type_switch * p_type_switch)3928 Parse::simple_stat(bool may_be_composite_lit, bool* return_exp,
3929 Range_clause* p_range_clause, Type_switch* p_type_switch)
3930 {
3931 const Token* token = this->peek_token();
3932
3933 // An identifier follow by := is a SimpleVarDecl.
3934 if (token->is_identifier())
3935 {
3936 std::string identifier = token->identifier();
3937 bool is_exported = token->is_identifier_exported();
3938 Location location = token->location();
3939
3940 token = this->advance_token();
3941 if (token->is_op(OPERATOR_COLONEQ)
3942 || token->is_op(OPERATOR_COMMA))
3943 {
3944 identifier = this->gogo_->pack_hidden_name(identifier, is_exported);
3945 this->simple_var_decl_or_assignment(identifier, location,
3946 may_be_composite_lit,
3947 p_range_clause,
3948 (token->is_op(OPERATOR_COLONEQ)
3949 ? p_type_switch
3950 : NULL));
3951 return NULL;
3952 }
3953
3954 this->unget_token(Token::make_identifier_token(identifier, is_exported,
3955 location));
3956 }
3957 else if (p_range_clause != NULL && token->is_keyword(KEYWORD_RANGE))
3958 {
3959 Typed_identifier_list til;
3960 this->range_clause_decl(&til, p_range_clause);
3961 return NULL;
3962 }
3963
3964 Expression* exp = this->expression(PRECEDENCE_NORMAL, true,
3965 may_be_composite_lit,
3966 (p_type_switch == NULL
3967 ? NULL
3968 : &p_type_switch->found),
3969 NULL);
3970 if (p_type_switch != NULL && p_type_switch->found)
3971 {
3972 p_type_switch->name.clear();
3973 p_type_switch->location = exp->location();
3974 p_type_switch->expr = this->verify_not_sink(exp);
3975 return NULL;
3976 }
3977 token = this->peek_token();
3978 if (token->is_op(OPERATOR_CHANOP))
3979 {
3980 this->send_stmt(this->verify_not_sink(exp), may_be_composite_lit);
3981 if (return_exp != NULL)
3982 *return_exp = true;
3983 }
3984 else if (token->is_op(OPERATOR_PLUSPLUS)
3985 || token->is_op(OPERATOR_MINUSMINUS))
3986 this->inc_dec_stat(this->verify_not_sink(exp));
3987 else if (token->is_op(OPERATOR_COMMA)
3988 || token->is_op(OPERATOR_EQ))
3989 this->assignment(exp, may_be_composite_lit, p_range_clause);
3990 else if (token->is_op(OPERATOR_PLUSEQ)
3991 || token->is_op(OPERATOR_MINUSEQ)
3992 || token->is_op(OPERATOR_OREQ)
3993 || token->is_op(OPERATOR_XOREQ)
3994 || token->is_op(OPERATOR_MULTEQ)
3995 || token->is_op(OPERATOR_DIVEQ)
3996 || token->is_op(OPERATOR_MODEQ)
3997 || token->is_op(OPERATOR_LSHIFTEQ)
3998 || token->is_op(OPERATOR_RSHIFTEQ)
3999 || token->is_op(OPERATOR_ANDEQ)
4000 || token->is_op(OPERATOR_BITCLEAREQ))
4001 this->assignment(this->verify_not_sink(exp), may_be_composite_lit,
4002 p_range_clause);
4003 else if (return_exp != NULL)
4004 return this->verify_not_sink(exp);
4005 else
4006 {
4007 exp = this->verify_not_sink(exp);
4008
4009 if (token->is_op(OPERATOR_COLONEQ))
4010 {
4011 if (!exp->is_error_expression())
4012 go_error_at(token->location(), "non-name on left side of %<:=%>");
4013 this->gogo_->mark_locals_used();
4014 while (!token->is_op(OPERATOR_SEMICOLON)
4015 && !token->is_eof())
4016 token = this->advance_token();
4017 return NULL;
4018 }
4019
4020 this->expression_stat(exp);
4021 }
4022
4023 return NULL;
4024 }
4025
4026 bool
simple_stat_may_start_here()4027 Parse::simple_stat_may_start_here()
4028 {
4029 return this->expression_may_start_here();
4030 }
4031
4032 // Parse { Statement ";" } which is used in a few places. The list of
4033 // statements may end with a right curly brace, in which case the
4034 // semicolon may be omitted.
4035
4036 void
statement_list()4037 Parse::statement_list()
4038 {
4039 while (this->statement_may_start_here())
4040 {
4041 this->statement(NULL);
4042 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
4043 this->advance_token();
4044 else if (this->peek_token()->is_op(OPERATOR_RCURLY))
4045 break;
4046 else
4047 {
4048 if (!this->peek_token()->is_eof() || !saw_errors())
4049 go_error_at(this->location(), "expected %<;%> or %<}%> or newline");
4050 if (!this->skip_past_error(OPERATOR_RCURLY))
4051 return;
4052 }
4053 }
4054 }
4055
4056 bool
statement_list_may_start_here()4057 Parse::statement_list_may_start_here()
4058 {
4059 return this->statement_may_start_here();
4060 }
4061
4062 // ExpressionStat = Expression .
4063
4064 void
expression_stat(Expression * exp)4065 Parse::expression_stat(Expression* exp)
4066 {
4067 this->gogo_->add_statement(Statement::make_statement(exp, false));
4068 }
4069
4070 // SendStmt = Channel "<-" Expression .
4071 // Channel = Expression .
4072
4073 void
send_stmt(Expression * channel,bool may_be_composite_lit)4074 Parse::send_stmt(Expression* channel, bool may_be_composite_lit)
4075 {
4076 go_assert(this->peek_token()->is_op(OPERATOR_CHANOP));
4077 Location loc = this->location();
4078 this->advance_token();
4079 Expression* val = this->expression(PRECEDENCE_NORMAL, false,
4080 may_be_composite_lit, NULL, NULL);
4081 Statement* s = Statement::make_send_statement(channel, val, loc);
4082 this->gogo_->add_statement(s);
4083 }
4084
4085 // IncDecStat = Expression ( "++" | "--" ) .
4086
4087 void
inc_dec_stat(Expression * exp)4088 Parse::inc_dec_stat(Expression* exp)
4089 {
4090 const Token* token = this->peek_token();
4091 if (token->is_op(OPERATOR_PLUSPLUS))
4092 this->gogo_->add_statement(Statement::make_inc_statement(exp));
4093 else if (token->is_op(OPERATOR_MINUSMINUS))
4094 this->gogo_->add_statement(Statement::make_dec_statement(exp));
4095 else
4096 go_unreachable();
4097 this->advance_token();
4098 }
4099
4100 // Assignment = ExpressionList assign_op ExpressionList .
4101
4102 // EXP is an expression that we have already parsed.
4103
4104 // If MAY_BE_COMPOSITE_LIT is true, an expression on the right hand
4105 // side may be a composite literal.
4106
4107 // If RANGE_CLAUSE is not NULL, then this will recognize a
4108 // RangeClause.
4109
4110 void
assignment(Expression * expr,bool may_be_composite_lit,Range_clause * p_range_clause)4111 Parse::assignment(Expression* expr, bool may_be_composite_lit,
4112 Range_clause* p_range_clause)
4113 {
4114 Expression_list* vars;
4115 if (!this->peek_token()->is_op(OPERATOR_COMMA))
4116 {
4117 vars = new Expression_list();
4118 vars->push_back(expr);
4119 }
4120 else
4121 {
4122 this->advance_token();
4123 vars = this->expression_list(expr, true, may_be_composite_lit);
4124 }
4125
4126 this->tuple_assignment(vars, may_be_composite_lit, p_range_clause);
4127 }
4128
4129 // An assignment statement. LHS is the list of expressions which
4130 // appear on the left hand side.
4131
4132 // If MAY_BE_COMPOSITE_LIT is true, an expression on the right hand
4133 // side may be a composite literal.
4134
4135 // If RANGE_CLAUSE is not NULL, then this will recognize a
4136 // RangeClause.
4137
4138 void
tuple_assignment(Expression_list * lhs,bool may_be_composite_lit,Range_clause * p_range_clause)4139 Parse::tuple_assignment(Expression_list* lhs, bool may_be_composite_lit,
4140 Range_clause* p_range_clause)
4141 {
4142 const Token* token = this->peek_token();
4143 if (!token->is_op(OPERATOR_EQ)
4144 && !token->is_op(OPERATOR_PLUSEQ)
4145 && !token->is_op(OPERATOR_MINUSEQ)
4146 && !token->is_op(OPERATOR_OREQ)
4147 && !token->is_op(OPERATOR_XOREQ)
4148 && !token->is_op(OPERATOR_MULTEQ)
4149 && !token->is_op(OPERATOR_DIVEQ)
4150 && !token->is_op(OPERATOR_MODEQ)
4151 && !token->is_op(OPERATOR_LSHIFTEQ)
4152 && !token->is_op(OPERATOR_RSHIFTEQ)
4153 && !token->is_op(OPERATOR_ANDEQ)
4154 && !token->is_op(OPERATOR_BITCLEAREQ))
4155 {
4156 go_error_at(this->location(), "expected assignment operator");
4157 return;
4158 }
4159 Operator op = token->op();
4160 Location location = token->location();
4161
4162 token = this->advance_token();
4163
4164 if (lhs == NULL)
4165 return;
4166
4167 if (p_range_clause != NULL && token->is_keyword(KEYWORD_RANGE))
4168 {
4169 if (op != OPERATOR_EQ)
4170 go_error_at(this->location(), "range clause requires %<=%>");
4171 this->range_clause_expr(lhs, p_range_clause);
4172 return;
4173 }
4174
4175 Expression_list* vals = this->expression_list(NULL, false,
4176 may_be_composite_lit);
4177
4178 // We've parsed everything; check for errors.
4179 if (vals == NULL)
4180 return;
4181 for (Expression_list::const_iterator pe = lhs->begin();
4182 pe != lhs->end();
4183 ++pe)
4184 {
4185 if ((*pe)->is_error_expression())
4186 return;
4187 if (op != OPERATOR_EQ && (*pe)->is_sink_expression())
4188 go_error_at((*pe)->location(), "cannot use %<_%> as value");
4189 }
4190 for (Expression_list::const_iterator pe = vals->begin();
4191 pe != vals->end();
4192 ++pe)
4193 {
4194 if ((*pe)->is_error_expression())
4195 return;
4196 }
4197
4198 Call_expression* call;
4199 Index_expression* map_index;
4200 Receive_expression* receive;
4201 Type_guard_expression* type_guard;
4202 if (lhs->size() == vals->size())
4203 {
4204 Statement* s;
4205 if (lhs->size() > 1)
4206 {
4207 if (op != OPERATOR_EQ)
4208 go_error_at(location, "multiple values only permitted with %<=%>");
4209 s = Statement::make_tuple_assignment(lhs, vals, location);
4210 }
4211 else
4212 {
4213 if (op == OPERATOR_EQ)
4214 s = Statement::make_assignment(lhs->front(), vals->front(),
4215 location);
4216 else
4217 s = Statement::make_assignment_operation(op, lhs->front(),
4218 vals->front(), location);
4219 delete lhs;
4220 delete vals;
4221 }
4222 this->gogo_->add_statement(s);
4223 }
4224 else if (vals->size() == 1
4225 && (call = (*vals->begin())->call_expression()) != NULL)
4226 {
4227 if (op != OPERATOR_EQ)
4228 go_error_at(location, "multiple results only permitted with %<=%>");
4229 call->set_expected_result_count(lhs->size());
4230 delete vals;
4231 vals = new Expression_list;
4232 for (unsigned int i = 0; i < lhs->size(); ++i)
4233 vals->push_back(Expression::make_call_result(call, i));
4234 Statement* s = Statement::make_tuple_assignment(lhs, vals, location);
4235 this->gogo_->add_statement(s);
4236 }
4237 else if (lhs->size() == 2
4238 && vals->size() == 1
4239 && (map_index = (*vals->begin())->index_expression()) != NULL)
4240 {
4241 if (op != OPERATOR_EQ)
4242 go_error_at(location, "two values from map requires %<=%>");
4243 Expression* val = lhs->front();
4244 Expression* present = lhs->back();
4245 Statement* s = Statement::make_tuple_map_assignment(val, present,
4246 map_index, location);
4247 this->gogo_->add_statement(s);
4248 }
4249 else if (lhs->size() == 2
4250 && vals->size() == 1
4251 && (receive = (*vals->begin())->receive_expression()) != NULL)
4252 {
4253 if (op != OPERATOR_EQ)
4254 go_error_at(location, "two values from receive requires %<=%>");
4255 Expression* val = lhs->front();
4256 Expression* success = lhs->back();
4257 Expression* channel = receive->channel();
4258 Statement* s = Statement::make_tuple_receive_assignment(val, success,
4259 channel,
4260 location);
4261 this->gogo_->add_statement(s);
4262 }
4263 else if (lhs->size() == 2
4264 && vals->size() == 1
4265 && (type_guard = (*vals->begin())->type_guard_expression()) != NULL)
4266 {
4267 if (op != OPERATOR_EQ)
4268 go_error_at(location, "two values from type guard requires %<=%>");
4269 Expression* val = lhs->front();
4270 Expression* ok = lhs->back();
4271 Expression* expr = type_guard->expr();
4272 Type* type = type_guard->type();
4273 Statement* s = Statement::make_tuple_type_guard_assignment(val, ok,
4274 expr, type,
4275 location);
4276 this->gogo_->add_statement(s);
4277 }
4278 else
4279 {
4280 go_error_at(location, ("number of variables does not "
4281 "match number of values"));
4282 }
4283 }
4284
4285 // GoStat = "go" Expression .
4286 // DeferStat = "defer" Expression .
4287
4288 void
go_or_defer_stat()4289 Parse::go_or_defer_stat()
4290 {
4291 go_assert(this->peek_token()->is_keyword(KEYWORD_GO)
4292 || this->peek_token()->is_keyword(KEYWORD_DEFER));
4293 bool is_go = this->peek_token()->is_keyword(KEYWORD_GO);
4294 Location stat_location = this->location();
4295
4296 this->advance_token();
4297 Location expr_location = this->location();
4298
4299 bool is_parenthesized = false;
4300 Expression* expr = this->expression(PRECEDENCE_NORMAL, false, true, NULL,
4301 &is_parenthesized);
4302 Call_expression* call_expr = expr->call_expression();
4303 if (is_parenthesized || call_expr == NULL)
4304 {
4305 go_error_at(expr_location, "argument to go/defer must be function call");
4306 return;
4307 }
4308
4309 // Make it easier to simplify go/defer statements by putting every
4310 // statement in its own block.
4311 this->gogo_->start_block(stat_location);
4312 Statement* stat;
4313 if (is_go)
4314 {
4315 stat = Statement::make_go_statement(call_expr, stat_location);
4316 call_expr->set_is_concurrent();
4317 }
4318 else
4319 {
4320 stat = Statement::make_defer_statement(call_expr, stat_location);
4321 call_expr->set_is_deferred();
4322 }
4323 this->gogo_->add_statement(stat);
4324 this->gogo_->add_block(this->gogo_->finish_block(stat_location),
4325 stat_location);
4326 }
4327
4328 // ReturnStat = "return" [ ExpressionList ] .
4329
4330 void
return_stat()4331 Parse::return_stat()
4332 {
4333 go_assert(this->peek_token()->is_keyword(KEYWORD_RETURN));
4334 Location location = this->location();
4335 this->advance_token();
4336 Expression_list* vals = NULL;
4337 if (this->expression_may_start_here())
4338 vals = this->expression_list(NULL, false, true);
4339 this->gogo_->add_statement(Statement::make_return_statement(vals, location));
4340
4341 if (vals == NULL
4342 && this->gogo_->current_function()->func_value()->results_are_named())
4343 {
4344 Named_object* function = this->gogo_->current_function();
4345 Function::Results* results = function->func_value()->result_variables();
4346 for (Function::Results::const_iterator p = results->begin();
4347 p != results->end();
4348 ++p)
4349 {
4350 Named_object* no = this->gogo_->lookup((*p)->name(), NULL);
4351 if (no == NULL)
4352 go_assert(saw_errors());
4353 else if (!no->is_result_variable())
4354 go_error_at(location, "%qs is shadowed during return",
4355 (*p)->message_name().c_str());
4356 }
4357 }
4358 }
4359
4360 // IfStmt = "if" [ SimpleStmt ";" ] Expression Block
4361 // [ "else" ( IfStmt | Block ) ] .
4362
4363 void
if_stat()4364 Parse::if_stat()
4365 {
4366 go_assert(this->peek_token()->is_keyword(KEYWORD_IF));
4367 Location location = this->location();
4368 this->advance_token();
4369
4370 this->gogo_->start_block(location);
4371
4372 bool saw_simple_stat = false;
4373 Expression* cond = NULL;
4374 bool saw_send_stmt = false;
4375 if (this->simple_stat_may_start_here())
4376 {
4377 cond = this->simple_stat(false, &saw_send_stmt, NULL, NULL);
4378 saw_simple_stat = true;
4379 }
4380 if (cond != NULL && this->peek_token()->is_op(OPERATOR_SEMICOLON))
4381 {
4382 // The SimpleStat is an expression statement.
4383 this->expression_stat(cond);
4384 cond = NULL;
4385 }
4386 if (cond == NULL)
4387 {
4388 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
4389 this->advance_token();
4390 else if (saw_simple_stat)
4391 {
4392 if (saw_send_stmt)
4393 go_error_at(this->location(),
4394 ("send statement used as value; "
4395 "use select for non-blocking send"));
4396 else
4397 go_error_at(this->location(),
4398 "expected %<;%> after statement in if expression");
4399 if (!this->expression_may_start_here())
4400 cond = Expression::make_error(this->location());
4401 }
4402 if (cond == NULL && this->peek_token()->is_op(OPERATOR_LCURLY))
4403 {
4404 go_error_at(this->location(),
4405 "missing condition in if statement");
4406 cond = Expression::make_error(this->location());
4407 }
4408 if (cond == NULL)
4409 cond = this->expression(PRECEDENCE_NORMAL, false, false, NULL, NULL);
4410 }
4411
4412 // Check for the easy error of a newline before starting the block.
4413 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
4414 {
4415 Location semi_loc = this->location();
4416 if (this->advance_token()->is_op(OPERATOR_LCURLY))
4417 go_error_at(semi_loc, "missing %<{%> after if clause");
4418 // Otherwise we will get an error when we call this->block
4419 // below.
4420 }
4421
4422 this->gogo_->start_block(this->location());
4423 Location end_loc = this->block();
4424 Block* then_block = this->gogo_->finish_block(end_loc);
4425
4426 // Check for the easy error of a newline before "else".
4427 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
4428 {
4429 Location semi_loc = this->location();
4430 if (this->advance_token()->is_keyword(KEYWORD_ELSE))
4431 go_error_at(this->location(),
4432 "unexpected semicolon or newline before %<else%>");
4433 else
4434 this->unget_token(Token::make_operator_token(OPERATOR_SEMICOLON,
4435 semi_loc));
4436 }
4437
4438 Block* else_block = NULL;
4439 if (this->peek_token()->is_keyword(KEYWORD_ELSE))
4440 {
4441 this->gogo_->start_block(this->location());
4442 const Token* token = this->advance_token();
4443 if (token->is_keyword(KEYWORD_IF))
4444 this->if_stat();
4445 else if (token->is_op(OPERATOR_LCURLY))
4446 this->block();
4447 else
4448 {
4449 go_error_at(this->location(), "expected %<if%> or %<{%>");
4450 this->statement(NULL);
4451 }
4452 else_block = this->gogo_->finish_block(this->location());
4453 }
4454
4455 this->gogo_->add_statement(Statement::make_if_statement(cond, then_block,
4456 else_block,
4457 location));
4458
4459 this->gogo_->add_block(this->gogo_->finish_block(this->location()),
4460 location);
4461 }
4462
4463 // SwitchStmt = ExprSwitchStmt | TypeSwitchStmt .
4464 // ExprSwitchStmt = "switch" [ [ SimpleStat ] ";" ] [ Expression ]
4465 // "{" { ExprCaseClause } "}" .
4466 // TypeSwitchStmt = "switch" [ [ SimpleStat ] ";" ] TypeSwitchGuard
4467 // "{" { TypeCaseClause } "}" .
4468 // TypeSwitchGuard = [ identifier ":=" ] Expression "." "(" "type" ")" .
4469
4470 void
switch_stat(Label * label)4471 Parse::switch_stat(Label* label)
4472 {
4473 go_assert(this->peek_token()->is_keyword(KEYWORD_SWITCH));
4474 Location location = this->location();
4475 this->advance_token();
4476
4477 this->gogo_->start_block(location);
4478
4479 bool saw_simple_stat = false;
4480 Expression* switch_val = NULL;
4481 bool saw_send_stmt;
4482 Type_switch type_switch;
4483 bool have_type_switch_block = false;
4484 if (this->simple_stat_may_start_here())
4485 {
4486 switch_val = this->simple_stat(false, &saw_send_stmt, NULL,
4487 &type_switch);
4488 saw_simple_stat = true;
4489 }
4490 if (switch_val != NULL && this->peek_token()->is_op(OPERATOR_SEMICOLON))
4491 {
4492 // The SimpleStat is an expression statement.
4493 this->expression_stat(switch_val);
4494 switch_val = NULL;
4495 }
4496 if (switch_val == NULL && !type_switch.found)
4497 {
4498 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
4499 this->advance_token();
4500 else if (saw_simple_stat)
4501 {
4502 if (saw_send_stmt)
4503 go_error_at(this->location(),
4504 ("send statement used as value; "
4505 "use select for non-blocking send"));
4506 else
4507 go_error_at(this->location(),
4508 "expected %<;%> after statement in switch expression");
4509 }
4510 if (!this->peek_token()->is_op(OPERATOR_LCURLY))
4511 {
4512 if (this->peek_token()->is_identifier())
4513 {
4514 const Token* token = this->peek_token();
4515 std::string identifier = token->identifier();
4516 bool is_exported = token->is_identifier_exported();
4517 Location id_loc = token->location();
4518
4519 token = this->advance_token();
4520 bool is_coloneq = token->is_op(OPERATOR_COLONEQ);
4521 this->unget_token(Token::make_identifier_token(identifier,
4522 is_exported,
4523 id_loc));
4524 if (is_coloneq)
4525 {
4526 // This must be a TypeSwitchGuard. It is in a
4527 // different block from any initial SimpleStat.
4528 if (saw_simple_stat)
4529 {
4530 this->gogo_->start_block(id_loc);
4531 have_type_switch_block = true;
4532 }
4533
4534 switch_val = this->simple_stat(false, &saw_send_stmt, NULL,
4535 &type_switch);
4536 if (!type_switch.found)
4537 {
4538 if (switch_val == NULL
4539 || !switch_val->is_error_expression())
4540 {
4541 go_error_at(id_loc,
4542 "expected type switch assignment");
4543 switch_val = Expression::make_error(id_loc);
4544 }
4545 }
4546 }
4547 }
4548 if (switch_val == NULL && !type_switch.found)
4549 {
4550 switch_val = this->expression(PRECEDENCE_NORMAL, false, false,
4551 &type_switch.found, NULL);
4552 if (type_switch.found)
4553 {
4554 type_switch.name.clear();
4555 type_switch.expr = switch_val;
4556 type_switch.location = switch_val->location();
4557 }
4558 }
4559 }
4560 }
4561
4562 if (!this->peek_token()->is_op(OPERATOR_LCURLY))
4563 {
4564 Location token_loc = this->location();
4565 if (this->peek_token()->is_op(OPERATOR_SEMICOLON)
4566 && this->advance_token()->is_op(OPERATOR_LCURLY))
4567 go_error_at(token_loc, "missing %<{%> after switch clause");
4568 else if (this->peek_token()->is_op(OPERATOR_COLONEQ))
4569 {
4570 go_error_at(token_loc, "invalid variable name");
4571 this->advance_token();
4572 this->expression(PRECEDENCE_NORMAL, false, false,
4573 &type_switch.found, NULL);
4574 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
4575 this->advance_token();
4576 if (!this->peek_token()->is_op(OPERATOR_LCURLY))
4577 {
4578 if (have_type_switch_block)
4579 this->gogo_->add_block(this->gogo_->finish_block(location),
4580 location);
4581 this->gogo_->add_block(this->gogo_->finish_block(location),
4582 location);
4583 return;
4584 }
4585 if (type_switch.found)
4586 type_switch.expr = Expression::make_error(location);
4587 }
4588 else
4589 {
4590 go_error_at(this->location(), "expected %<{%>");
4591 if (have_type_switch_block)
4592 this->gogo_->add_block(this->gogo_->finish_block(this->location()),
4593 location);
4594 this->gogo_->add_block(this->gogo_->finish_block(this->location()),
4595 location);
4596 return;
4597 }
4598 }
4599 this->advance_token();
4600
4601 Statement* statement;
4602 if (type_switch.found)
4603 statement = this->type_switch_body(label, type_switch, location);
4604 else
4605 statement = this->expr_switch_body(label, switch_val, location);
4606
4607 if (statement != NULL)
4608 this->gogo_->add_statement(statement);
4609
4610 if (have_type_switch_block)
4611 this->gogo_->add_block(this->gogo_->finish_block(this->location()),
4612 location);
4613
4614 this->gogo_->add_block(this->gogo_->finish_block(this->location()),
4615 location);
4616 }
4617
4618 // The body of an expression switch.
4619 // "{" { ExprCaseClause } "}"
4620
4621 Statement*
expr_switch_body(Label * label,Expression * switch_val,Location location)4622 Parse::expr_switch_body(Label* label, Expression* switch_val,
4623 Location location)
4624 {
4625 Switch_statement* statement = Statement::make_switch_statement(switch_val,
4626 location);
4627
4628 this->push_break_statement(statement, label);
4629
4630 Case_clauses* case_clauses = new Case_clauses();
4631 bool saw_default = false;
4632 while (!this->peek_token()->is_op(OPERATOR_RCURLY))
4633 {
4634 if (this->peek_token()->is_eof())
4635 {
4636 if (!saw_errors())
4637 go_error_at(this->location(), "missing %<}%>");
4638 return NULL;
4639 }
4640 this->expr_case_clause(case_clauses, &saw_default);
4641 }
4642 this->advance_token();
4643
4644 statement->add_clauses(case_clauses);
4645
4646 this->pop_break_statement();
4647
4648 return statement;
4649 }
4650
4651 // ExprCaseClause = ExprSwitchCase ":" [ StatementList ] .
4652 // FallthroughStat = "fallthrough" .
4653
4654 void
expr_case_clause(Case_clauses * clauses,bool * saw_default)4655 Parse::expr_case_clause(Case_clauses* clauses, bool* saw_default)
4656 {
4657 Location location = this->location();
4658
4659 bool is_default = false;
4660 Expression_list* vals = this->expr_switch_case(&is_default);
4661
4662 if (!this->peek_token()->is_op(OPERATOR_COLON))
4663 {
4664 if (!saw_errors())
4665 go_error_at(this->location(), "expected %<:%>");
4666 return;
4667 }
4668 else
4669 this->advance_token();
4670
4671 Block* statements = NULL;
4672 if (this->statement_list_may_start_here())
4673 {
4674 this->gogo_->start_block(this->location());
4675 this->statement_list();
4676 statements = this->gogo_->finish_block(this->location());
4677 }
4678
4679 bool is_fallthrough = false;
4680 if (this->peek_token()->is_keyword(KEYWORD_FALLTHROUGH))
4681 {
4682 Location fallthrough_loc = this->location();
4683 is_fallthrough = true;
4684 while (this->advance_token()->is_op(OPERATOR_SEMICOLON))
4685 ;
4686 if (this->peek_token()->is_op(OPERATOR_RCURLY))
4687 go_error_at(fallthrough_loc,
4688 _("cannot fallthrough final case in switch"));
4689 else if (!this->peek_token()->is_keyword(KEYWORD_CASE)
4690 && !this->peek_token()->is_keyword(KEYWORD_DEFAULT))
4691 {
4692 go_error_at(fallthrough_loc, "fallthrough statement out of place");
4693 while (!this->peek_token()->is_keyword(KEYWORD_CASE)
4694 && !this->peek_token()->is_keyword(KEYWORD_DEFAULT)
4695 && !this->peek_token()->is_op(OPERATOR_RCURLY)
4696 && !this->peek_token()->is_eof())
4697 {
4698 if (this->statement_may_start_here())
4699 this->statement_list();
4700 else
4701 this->advance_token();
4702 }
4703 }
4704 }
4705
4706 if (is_default)
4707 {
4708 if (*saw_default)
4709 {
4710 go_error_at(location, "multiple defaults in switch");
4711 return;
4712 }
4713 *saw_default = true;
4714 }
4715
4716 if (is_default || vals != NULL)
4717 clauses->add(vals, is_default, statements, is_fallthrough, location);
4718 }
4719
4720 // ExprSwitchCase = "case" ExpressionList | "default" .
4721
4722 Expression_list*
expr_switch_case(bool * is_default)4723 Parse::expr_switch_case(bool* is_default)
4724 {
4725 const Token* token = this->peek_token();
4726 if (token->is_keyword(KEYWORD_CASE))
4727 {
4728 this->advance_token();
4729 return this->expression_list(NULL, false, true);
4730 }
4731 else if (token->is_keyword(KEYWORD_DEFAULT))
4732 {
4733 this->advance_token();
4734 *is_default = true;
4735 return NULL;
4736 }
4737 else
4738 {
4739 if (!saw_errors())
4740 go_error_at(this->location(), "expected %<case%> or %<default%>");
4741 if (!token->is_op(OPERATOR_RCURLY))
4742 this->advance_token();
4743 return NULL;
4744 }
4745 }
4746
4747 // The body of a type switch.
4748 // "{" { TypeCaseClause } "}" .
4749
4750 Statement*
type_switch_body(Label * label,const Type_switch & type_switch,Location location)4751 Parse::type_switch_body(Label* label, const Type_switch& type_switch,
4752 Location location)
4753 {
4754 Expression* init = type_switch.expr;
4755 std::string var_name = type_switch.name;
4756 if (!var_name.empty())
4757 {
4758 if (Gogo::is_sink_name(var_name))
4759 {
4760 go_error_at(type_switch.location,
4761 "no new variables on left side of %<:=%>");
4762 var_name.clear();
4763 }
4764 else
4765 {
4766 Location loc = type_switch.location;
4767 Temporary_statement* switch_temp =
4768 Statement::make_temporary(NULL, init, loc);
4769 this->gogo_->add_statement(switch_temp);
4770 init = Expression::make_temporary_reference(switch_temp, loc);
4771 }
4772 }
4773
4774 Type_switch_statement* statement =
4775 Statement::make_type_switch_statement(var_name, init, location);
4776 this->push_break_statement(statement, label);
4777
4778 Type_case_clauses* case_clauses = new Type_case_clauses();
4779 bool saw_default = false;
4780 std::vector<Named_object*> implicit_vars;
4781 while (!this->peek_token()->is_op(OPERATOR_RCURLY))
4782 {
4783 if (this->peek_token()->is_eof())
4784 {
4785 go_error_at(this->location(), "missing %<}%>");
4786 return NULL;
4787 }
4788 this->type_case_clause(var_name, init, case_clauses, &saw_default,
4789 &implicit_vars);
4790 }
4791 this->advance_token();
4792
4793 statement->add_clauses(case_clauses);
4794
4795 this->pop_break_statement();
4796
4797 // If there is a type switch variable implicitly declared in each case clause,
4798 // check that it is used in at least one of the cases.
4799 if (!var_name.empty())
4800 {
4801 bool used = false;
4802 for (std::vector<Named_object*>::iterator p = implicit_vars.begin();
4803 p != implicit_vars.end();
4804 ++p)
4805 {
4806 if ((*p)->var_value()->is_used())
4807 {
4808 used = true;
4809 break;
4810 }
4811 }
4812 if (!used)
4813 go_error_at(type_switch.location, "%qs declared and not used",
4814 Gogo::message_name(var_name).c_str());
4815 }
4816 return statement;
4817 }
4818
4819 // TypeCaseClause = TypeSwitchCase ":" [ StatementList ] .
4820 // IMPLICIT_VARS is the list of variables implicitly declared for each type
4821 // case if there is a type switch variable declared.
4822
4823 void
type_case_clause(const std::string & var_name,Expression * init,Type_case_clauses * clauses,bool * saw_default,std::vector<Named_object * > * implicit_vars)4824 Parse::type_case_clause(const std::string& var_name, Expression* init,
4825 Type_case_clauses* clauses, bool* saw_default,
4826 std::vector<Named_object*>* implicit_vars)
4827 {
4828 Location location = this->location();
4829
4830 std::vector<Type*> types;
4831 bool is_default = false;
4832 this->type_switch_case(&types, &is_default);
4833
4834 if (!this->peek_token()->is_op(OPERATOR_COLON))
4835 go_error_at(this->location(), "expected %<:%>");
4836 else
4837 this->advance_token();
4838
4839 Block* statements = NULL;
4840 if (this->statement_list_may_start_here())
4841 {
4842 this->gogo_->start_block(this->location());
4843 if (!var_name.empty())
4844 {
4845 Type* type = NULL;
4846 Location var_loc = init->location();
4847 if (types.size() == 1)
4848 {
4849 type = types.front();
4850 init = Expression::make_type_guard(init, type, location);
4851 }
4852
4853 Variable* v = new Variable(type, init, false, false, false,
4854 var_loc);
4855 v->set_is_used();
4856 v->set_is_type_switch_var();
4857 implicit_vars->push_back(this->gogo_->add_variable(var_name, v));
4858 }
4859 this->statement_list();
4860 statements = this->gogo_->finish_block(this->location());
4861 }
4862
4863 if (this->peek_token()->is_keyword(KEYWORD_FALLTHROUGH))
4864 {
4865 go_error_at(this->location(),
4866 "fallthrough is not permitted in a type switch");
4867 if (this->advance_token()->is_op(OPERATOR_SEMICOLON))
4868 this->advance_token();
4869 }
4870
4871 if (is_default)
4872 {
4873 go_assert(types.empty());
4874 if (*saw_default)
4875 {
4876 go_error_at(location, "multiple defaults in type switch");
4877 return;
4878 }
4879 *saw_default = true;
4880 clauses->add(NULL, false, true, statements, location);
4881 }
4882 else if (!types.empty())
4883 {
4884 for (std::vector<Type*>::const_iterator p = types.begin();
4885 p + 1 != types.end();
4886 ++p)
4887 clauses->add(*p, true, false, NULL, location);
4888 clauses->add(types.back(), false, false, statements, location);
4889 }
4890 else
4891 clauses->add(Type::make_error_type(), false, false, statements, location);
4892 }
4893
4894 // TypeSwitchCase = "case" type | "default"
4895
4896 // We accept a comma separated list of types.
4897
4898 void
type_switch_case(std::vector<Type * > * types,bool * is_default)4899 Parse::type_switch_case(std::vector<Type*>* types, bool* is_default)
4900 {
4901 const Token* token = this->peek_token();
4902 if (token->is_keyword(KEYWORD_CASE))
4903 {
4904 this->advance_token();
4905 while (true)
4906 {
4907 Type* t = this->type();
4908
4909 if (!t->is_error_type())
4910 types->push_back(t);
4911 else
4912 {
4913 this->gogo_->mark_locals_used();
4914 token = this->peek_token();
4915 while (!token->is_op(OPERATOR_COLON)
4916 && !token->is_op(OPERATOR_COMMA)
4917 && !token->is_op(OPERATOR_RCURLY)
4918 && !token->is_eof())
4919 token = this->advance_token();
4920 }
4921
4922 if (!this->peek_token()->is_op(OPERATOR_COMMA))
4923 break;
4924 this->advance_token();
4925 }
4926 }
4927 else if (token->is_keyword(KEYWORD_DEFAULT))
4928 {
4929 this->advance_token();
4930 *is_default = true;
4931 }
4932 else
4933 {
4934 go_error_at(this->location(), "expected %<case%> or %<default%>");
4935 if (!token->is_op(OPERATOR_RCURLY))
4936 this->advance_token();
4937 }
4938 }
4939
4940 // SelectStat = "select" "{" { CommClause } "}" .
4941
4942 void
select_stat(Label * label)4943 Parse::select_stat(Label* label)
4944 {
4945 go_assert(this->peek_token()->is_keyword(KEYWORD_SELECT));
4946 Location location = this->location();
4947 const Token* token = this->advance_token();
4948
4949 if (!token->is_op(OPERATOR_LCURLY))
4950 {
4951 Location token_loc = token->location();
4952 if (token->is_op(OPERATOR_SEMICOLON)
4953 && this->advance_token()->is_op(OPERATOR_LCURLY))
4954 go_error_at(token_loc, "unexpected semicolon or newline before %<{%>");
4955 else
4956 {
4957 go_error_at(this->location(), "expected %<{%>");
4958 return;
4959 }
4960 }
4961 this->advance_token();
4962
4963 Select_statement* statement = Statement::make_select_statement(location);
4964
4965 this->push_break_statement(statement, label);
4966
4967 Select_clauses* select_clauses = new Select_clauses();
4968 bool saw_default = false;
4969 while (!this->peek_token()->is_op(OPERATOR_RCURLY))
4970 {
4971 if (this->peek_token()->is_eof())
4972 {
4973 go_error_at(this->location(), "expected %<}%>");
4974 return;
4975 }
4976 this->comm_clause(select_clauses, &saw_default);
4977 }
4978
4979 this->advance_token();
4980
4981 statement->add_clauses(select_clauses);
4982
4983 this->pop_break_statement();
4984
4985 this->gogo_->add_statement(statement);
4986 }
4987
4988 // CommClause = CommCase ":" { Statement ";" } .
4989
4990 void
comm_clause(Select_clauses * clauses,bool * saw_default)4991 Parse::comm_clause(Select_clauses* clauses, bool* saw_default)
4992 {
4993 Location location = this->location();
4994 bool is_send = false;
4995 Expression* channel = NULL;
4996 Expression* val = NULL;
4997 Expression* closed = NULL;
4998 std::string varname;
4999 std::string closedname;
5000 bool is_default = false;
5001 bool got_case = this->comm_case(&is_send, &channel, &val, &closed,
5002 &varname, &closedname, &is_default);
5003
5004 if (this->peek_token()->is_op(OPERATOR_COLON))
5005 this->advance_token();
5006 else
5007 go_error_at(this->location(), "expected colon");
5008
5009 this->gogo_->start_block(this->location());
5010
5011 Named_object* var = NULL;
5012 if (!varname.empty())
5013 {
5014 // FIXME: LOCATION is slightly wrong here.
5015 Variable* v = new Variable(NULL, channel, false, false, false,
5016 location);
5017 v->set_type_from_chan_element();
5018 var = this->gogo_->add_variable(varname, v);
5019 }
5020
5021 Named_object* closedvar = NULL;
5022 if (!closedname.empty())
5023 {
5024 // FIXME: LOCATION is slightly wrong here.
5025 Variable* v = new Variable(Type::lookup_bool_type(), NULL,
5026 false, false, false, location);
5027 closedvar = this->gogo_->add_variable(closedname, v);
5028 }
5029
5030 this->statement_list();
5031
5032 Block* statements = this->gogo_->finish_block(this->location());
5033
5034 if (is_default)
5035 {
5036 if (*saw_default)
5037 {
5038 go_error_at(location, "multiple defaults in select");
5039 return;
5040 }
5041 *saw_default = true;
5042 }
5043
5044 if (got_case)
5045 clauses->add(is_send, channel, val, closed, var, closedvar, is_default,
5046 statements, location);
5047 else if (statements != NULL)
5048 {
5049 // Add the statements to make sure that any names they define
5050 // are traversed.
5051 this->gogo_->add_block(statements, location);
5052 }
5053 }
5054
5055 // CommCase = "case" ( SendStmt | RecvStmt ) | "default" .
5056
5057 bool
comm_case(bool * is_send,Expression ** channel,Expression ** val,Expression ** closed,std::string * varname,std::string * closedname,bool * is_default)5058 Parse::comm_case(bool* is_send, Expression** channel, Expression** val,
5059 Expression** closed, std::string* varname,
5060 std::string* closedname, bool* is_default)
5061 {
5062 const Token* token = this->peek_token();
5063 if (token->is_keyword(KEYWORD_DEFAULT))
5064 {
5065 this->advance_token();
5066 *is_default = true;
5067 }
5068 else if (token->is_keyword(KEYWORD_CASE))
5069 {
5070 this->advance_token();
5071 if (!this->send_or_recv_stmt(is_send, channel, val, closed, varname,
5072 closedname))
5073 return false;
5074 }
5075 else
5076 {
5077 go_error_at(this->location(), "expected %<case%> or %<default%>");
5078 if (!token->is_op(OPERATOR_RCURLY))
5079 this->advance_token();
5080 return false;
5081 }
5082
5083 return true;
5084 }
5085
5086 // RecvStmt = [ Expression [ "," Expression ] ( "=" | ":=" ) ] RecvExpr .
5087 // RecvExpr = Expression .
5088
5089 bool
send_or_recv_stmt(bool * is_send,Expression ** channel,Expression ** val,Expression ** closed,std::string * varname,std::string * closedname)5090 Parse::send_or_recv_stmt(bool* is_send, Expression** channel, Expression** val,
5091 Expression** closed, std::string* varname,
5092 std::string* closedname)
5093 {
5094 const Token* token = this->peek_token();
5095 bool saw_comma = false;
5096 bool closed_is_id = false;
5097 if (token->is_identifier())
5098 {
5099 Gogo* gogo = this->gogo_;
5100 std::string recv_var = token->identifier();
5101 bool is_rv_exported = token->is_identifier_exported();
5102 Location recv_var_loc = token->location();
5103 token = this->advance_token();
5104 if (token->is_op(OPERATOR_COLONEQ))
5105 {
5106 // case rv := <-c:
5107 this->advance_token();
5108 Expression* e = this->expression(PRECEDENCE_NORMAL, false, false,
5109 NULL, NULL);
5110 Receive_expression* re = e->receive_expression();
5111 if (re == NULL)
5112 {
5113 if (!e->is_error_expression())
5114 go_error_at(this->location(), "expected receive expression");
5115 return false;
5116 }
5117 if (recv_var == "_")
5118 {
5119 go_error_at(recv_var_loc,
5120 "no new variables on left side of %<:=%>");
5121 recv_var = Gogo::erroneous_name();
5122 }
5123 *is_send = false;
5124 *varname = gogo->pack_hidden_name(recv_var, is_rv_exported);
5125 *channel = re->channel();
5126 return true;
5127 }
5128 else if (token->is_op(OPERATOR_COMMA))
5129 {
5130 token = this->advance_token();
5131 if (token->is_identifier())
5132 {
5133 std::string recv_closed = token->identifier();
5134 bool is_rc_exported = token->is_identifier_exported();
5135 Location recv_closed_loc = token->location();
5136 closed_is_id = true;
5137
5138 token = this->advance_token();
5139 if (token->is_op(OPERATOR_COLONEQ))
5140 {
5141 // case rv, rc := <-c:
5142 this->advance_token();
5143 Expression* e = this->expression(PRECEDENCE_NORMAL, false,
5144 false, NULL, NULL);
5145 Receive_expression* re = e->receive_expression();
5146 if (re == NULL)
5147 {
5148 if (!e->is_error_expression())
5149 go_error_at(this->location(),
5150 "expected receive expression");
5151 return false;
5152 }
5153 if (recv_var == "_" && recv_closed == "_")
5154 {
5155 go_error_at(recv_var_loc,
5156 "no new variables on left side of %<:=%>");
5157 recv_var = Gogo::erroneous_name();
5158 }
5159 *is_send = false;
5160 if (recv_var != "_")
5161 *varname = gogo->pack_hidden_name(recv_var,
5162 is_rv_exported);
5163 if (recv_closed != "_")
5164 *closedname = gogo->pack_hidden_name(recv_closed,
5165 is_rc_exported);
5166 *channel = re->channel();
5167 return true;
5168 }
5169
5170 this->unget_token(Token::make_identifier_token(recv_closed,
5171 is_rc_exported,
5172 recv_closed_loc));
5173 }
5174
5175 *val = this->id_to_expression(gogo->pack_hidden_name(recv_var,
5176 is_rv_exported),
5177 recv_var_loc, true, false);
5178 saw_comma = true;
5179 }
5180 else
5181 this->unget_token(Token::make_identifier_token(recv_var,
5182 is_rv_exported,
5183 recv_var_loc));
5184 }
5185
5186 // If SAW_COMMA is false, then we are looking at the start of the
5187 // send or receive expression. If SAW_COMMA is true, then *VAL is
5188 // set and we just read a comma.
5189
5190 Expression* e;
5191 if (saw_comma || !this->peek_token()->is_op(OPERATOR_CHANOP))
5192 {
5193 e = this->expression(PRECEDENCE_NORMAL, true, true, NULL, NULL);
5194 if (e->receive_expression() != NULL)
5195 {
5196 *is_send = false;
5197 *channel = e->receive_expression()->channel();
5198 // This is 'case (<-c):'. We now expect ':'. If we see
5199 // '<-', then we have case (<-c)<-v:
5200 if (!this->peek_token()->is_op(OPERATOR_CHANOP))
5201 return true;
5202 }
5203 }
5204 else
5205 {
5206 // case <-c:
5207 *is_send = false;
5208 this->advance_token();
5209 *channel = this->expression(PRECEDENCE_NORMAL, false, true, NULL, NULL);
5210
5211 // The next token should be ':'. If it is '<-', then we have
5212 // case <-c <- v:
5213 // which is to say, send on a channel received from a channel.
5214 if (!this->peek_token()->is_op(OPERATOR_CHANOP))
5215 return true;
5216
5217 e = Expression::make_receive(*channel, (*channel)->location());
5218 }
5219
5220 if (!saw_comma && this->peek_token()->is_op(OPERATOR_COMMA))
5221 {
5222 this->advance_token();
5223 // case v, e = <-c:
5224 if (!e->is_sink_expression())
5225 *val = e;
5226 e = this->expression(PRECEDENCE_NORMAL, true, true, NULL, NULL);
5227 saw_comma = true;
5228 }
5229
5230 if (this->peek_token()->is_op(OPERATOR_EQ))
5231 {
5232 *is_send = false;
5233 this->advance_token();
5234 Location recvloc = this->location();
5235 Expression* recvexpr = this->expression(PRECEDENCE_NORMAL, false,
5236 true, NULL, NULL);
5237 if (recvexpr->receive_expression() == NULL)
5238 {
5239 go_error_at(recvloc, "missing %<<-%>");
5240 return false;
5241 }
5242 *channel = recvexpr->receive_expression()->channel();
5243 if (saw_comma)
5244 {
5245 // case v, e = <-c:
5246 // *VAL is already set.
5247 if (!e->is_sink_expression())
5248 *closed = e;
5249 }
5250 else
5251 {
5252 // case v = <-c:
5253 if (!e->is_sink_expression())
5254 *val = e;
5255 }
5256 return true;
5257 }
5258
5259 if (saw_comma)
5260 {
5261 if (closed_is_id)
5262 go_error_at(this->location(), "expected %<=%> or %<:=%>");
5263 else
5264 go_error_at(this->location(), "expected %<=%>");
5265 return false;
5266 }
5267
5268 if (this->peek_token()->is_op(OPERATOR_CHANOP))
5269 {
5270 // case c <- v:
5271 *is_send = true;
5272 *channel = this->verify_not_sink(e);
5273 this->advance_token();
5274 *val = this->expression(PRECEDENCE_NORMAL, false, true, NULL, NULL);
5275 return true;
5276 }
5277
5278 go_error_at(this->location(), "expected %<<-%> or %<=%>");
5279 return false;
5280 }
5281
5282 // ForStat = "for" [ Condition | ForClause | RangeClause ] Block .
5283 // Condition = Expression .
5284
5285 void
for_stat(Label * label)5286 Parse::for_stat(Label* label)
5287 {
5288 go_assert(this->peek_token()->is_keyword(KEYWORD_FOR));
5289 Location location = this->location();
5290 const Token* token = this->advance_token();
5291
5292 // Open a block to hold any variables defined in the init statement
5293 // of the for statement.
5294 this->gogo_->start_block(location);
5295
5296 Block* init = NULL;
5297 Expression* cond = NULL;
5298 Block* post = NULL;
5299 Range_clause range_clause;
5300
5301 if (!token->is_op(OPERATOR_LCURLY))
5302 {
5303 if (token->is_keyword(KEYWORD_VAR))
5304 {
5305 go_error_at(this->location(),
5306 "var declaration not allowed in for initializer");
5307 this->var_decl();
5308 }
5309
5310 if (token->is_op(OPERATOR_SEMICOLON))
5311 this->for_clause(&cond, &post);
5312 else
5313 {
5314 // We might be looking at a Condition, an InitStat, or a
5315 // RangeClause.
5316 bool saw_send_stmt;
5317 cond = this->simple_stat(false, &saw_send_stmt, &range_clause, NULL);
5318 if (!this->peek_token()->is_op(OPERATOR_SEMICOLON))
5319 {
5320 if (cond == NULL && !range_clause.found)
5321 {
5322 if (saw_send_stmt)
5323 go_error_at(this->location(),
5324 ("send statement used as value; "
5325 "use select for non-blocking send"));
5326 else
5327 go_error_at(this->location(),
5328 "parse error in for statement");
5329 }
5330 }
5331 else
5332 {
5333 if (range_clause.found)
5334 go_error_at(this->location(), "parse error after range clause");
5335
5336 if (cond != NULL)
5337 {
5338 // COND is actually an expression statement for
5339 // InitStat at the start of a ForClause.
5340 this->expression_stat(cond);
5341 cond = NULL;
5342 }
5343
5344 this->for_clause(&cond, &post);
5345 }
5346 }
5347 }
5348
5349 // Check for the easy error of a newline before starting the block.
5350 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
5351 {
5352 Location semi_loc = this->location();
5353 if (this->advance_token()->is_op(OPERATOR_LCURLY))
5354 go_error_at(semi_loc, "missing %<{%> after for clause");
5355 // Otherwise we will get an error when we call this->block
5356 // below.
5357 }
5358
5359 // Build the For_statement and note that it is the current target
5360 // for break and continue statements.
5361
5362 For_statement* sfor;
5363 For_range_statement* srange;
5364 Statement* s;
5365 if (!range_clause.found)
5366 {
5367 sfor = Statement::make_for_statement(init, cond, post, location);
5368 s = sfor;
5369 srange = NULL;
5370 }
5371 else
5372 {
5373 srange = Statement::make_for_range_statement(range_clause.index,
5374 range_clause.value,
5375 range_clause.range,
5376 location);
5377 s = srange;
5378 sfor = NULL;
5379 }
5380
5381 this->push_break_statement(s, label);
5382 this->push_continue_statement(s, label);
5383
5384 // Gather the block of statements in the loop and add them to the
5385 // For_statement.
5386
5387 this->gogo_->start_block(this->location());
5388 Location end_loc = this->block();
5389 Block* statements = this->gogo_->finish_block(end_loc);
5390
5391 if (sfor != NULL)
5392 sfor->add_statements(statements);
5393 else
5394 srange->add_statements(statements);
5395
5396 // This is no longer the break/continue target.
5397 this->pop_break_statement();
5398 this->pop_continue_statement();
5399
5400 // Add the For_statement to the list of statements, and close out
5401 // the block we started to hold any variables defined in the for
5402 // statement.
5403
5404 this->gogo_->add_statement(s);
5405
5406 this->gogo_->add_block(this->gogo_->finish_block(this->location()),
5407 location);
5408 }
5409
5410 // ForClause = [ InitStat ] ";" [ Condition ] ";" [ PostStat ] .
5411 // InitStat = SimpleStat .
5412 // PostStat = SimpleStat .
5413
5414 // We have already read InitStat at this point.
5415
5416 void
for_clause(Expression ** cond,Block ** post)5417 Parse::for_clause(Expression** cond, Block** post)
5418 {
5419 go_assert(this->peek_token()->is_op(OPERATOR_SEMICOLON));
5420 this->advance_token();
5421 if (this->peek_token()->is_op(OPERATOR_SEMICOLON))
5422 *cond = NULL;
5423 else if (this->peek_token()->is_op(OPERATOR_LCURLY))
5424 {
5425 go_error_at(this->location(), "missing %<{%> after for clause");
5426 *cond = NULL;
5427 *post = NULL;
5428 return;
5429 }
5430 else
5431 *cond = this->expression(PRECEDENCE_NORMAL, false, true, NULL, NULL);
5432 if (!this->peek_token()->is_op(OPERATOR_SEMICOLON))
5433 go_error_at(this->location(), "expected semicolon");
5434 else
5435 this->advance_token();
5436
5437 if (this->peek_token()->is_op(OPERATOR_LCURLY))
5438 *post = NULL;
5439 else
5440 {
5441 this->gogo_->start_block(this->location());
5442 this->simple_stat(false, NULL, NULL, NULL);
5443 *post = this->gogo_->finish_block(this->location());
5444 }
5445 }
5446
5447 // RangeClause = [ IdentifierList ( "=" | ":=" ) ] "range" Expression .
5448
5449 // This is the := version. It is called with a list of identifiers.
5450
5451 void
range_clause_decl(const Typed_identifier_list * til,Range_clause * p_range_clause)5452 Parse::range_clause_decl(const Typed_identifier_list* til,
5453 Range_clause* p_range_clause)
5454 {
5455 go_assert(this->peek_token()->is_keyword(KEYWORD_RANGE));
5456 Location location = this->location();
5457
5458 p_range_clause->found = true;
5459
5460 if (til->size() > 2)
5461 go_error_at(this->location(), "too many variables for range clause");
5462
5463 this->advance_token();
5464 Expression* expr = this->expression(PRECEDENCE_NORMAL, false, false, NULL,
5465 NULL);
5466 p_range_clause->range = expr;
5467
5468 if (til->empty())
5469 return;
5470
5471 bool any_new = false;
5472
5473 const Typed_identifier* pti = &til->front();
5474 Named_object* no = this->init_var(*pti, NULL, expr, true, true, &any_new,
5475 NULL, NULL);
5476 if (any_new && no->is_variable())
5477 no->var_value()->set_type_from_range_index();
5478 p_range_clause->index = Expression::make_var_reference(no, location);
5479
5480 if (til->size() == 1)
5481 p_range_clause->value = NULL;
5482 else
5483 {
5484 pti = &til->back();
5485 bool is_new = false;
5486 no = this->init_var(*pti, NULL, expr, true, true, &is_new, NULL, NULL);
5487 if (is_new && no->is_variable())
5488 no->var_value()->set_type_from_range_value();
5489 if (is_new)
5490 any_new = true;
5491 p_range_clause->value = Expression::make_var_reference(no, location);
5492 }
5493
5494 if (!any_new)
5495 go_error_at(location, "variables redeclared but no variable is new");
5496 }
5497
5498 // The = version of RangeClause. This is called with a list of
5499 // expressions.
5500
5501 void
range_clause_expr(const Expression_list * vals,Range_clause * p_range_clause)5502 Parse::range_clause_expr(const Expression_list* vals,
5503 Range_clause* p_range_clause)
5504 {
5505 go_assert(this->peek_token()->is_keyword(KEYWORD_RANGE));
5506
5507 p_range_clause->found = true;
5508
5509 go_assert(vals->size() >= 1);
5510 if (vals->size() > 2)
5511 go_error_at(this->location(), "too many variables for range clause");
5512
5513 this->advance_token();
5514 p_range_clause->range = this->expression(PRECEDENCE_NORMAL, false, false,
5515 NULL, NULL);
5516
5517 if (vals->empty())
5518 return;
5519
5520 p_range_clause->index = vals->front();
5521 if (vals->size() == 1)
5522 p_range_clause->value = NULL;
5523 else
5524 p_range_clause->value = vals->back();
5525 }
5526
5527 // Push a statement on the break stack.
5528
5529 void
push_break_statement(Statement * enclosing,Label * label)5530 Parse::push_break_statement(Statement* enclosing, Label* label)
5531 {
5532 if (this->break_stack_ == NULL)
5533 this->break_stack_ = new Bc_stack();
5534 this->break_stack_->push_back(std::make_pair(enclosing, label));
5535 }
5536
5537 // Push a statement on the continue stack.
5538
5539 void
push_continue_statement(Statement * enclosing,Label * label)5540 Parse::push_continue_statement(Statement* enclosing, Label* label)
5541 {
5542 if (this->continue_stack_ == NULL)
5543 this->continue_stack_ = new Bc_stack();
5544 this->continue_stack_->push_back(std::make_pair(enclosing, label));
5545 }
5546
5547 // Pop the break stack.
5548
5549 void
pop_break_statement()5550 Parse::pop_break_statement()
5551 {
5552 this->break_stack_->pop_back();
5553 }
5554
5555 // Pop the continue stack.
5556
5557 void
pop_continue_statement()5558 Parse::pop_continue_statement()
5559 {
5560 this->continue_stack_->pop_back();
5561 }
5562
5563 // Find a break or continue statement given a label name.
5564
5565 Statement*
find_bc_statement(const Bc_stack * bc_stack,const std::string & label)5566 Parse::find_bc_statement(const Bc_stack* bc_stack, const std::string& label)
5567 {
5568 if (bc_stack == NULL)
5569 return NULL;
5570 for (Bc_stack::const_reverse_iterator p = bc_stack->rbegin();
5571 p != bc_stack->rend();
5572 ++p)
5573 {
5574 if (p->second != NULL && p->second->name() == label)
5575 {
5576 p->second->set_is_used();
5577 return p->first;
5578 }
5579 }
5580 return NULL;
5581 }
5582
5583 // BreakStat = "break" [ identifier ] .
5584
5585 void
break_stat()5586 Parse::break_stat()
5587 {
5588 go_assert(this->peek_token()->is_keyword(KEYWORD_BREAK));
5589 Location location = this->location();
5590
5591 const Token* token = this->advance_token();
5592 Statement* enclosing;
5593 if (!token->is_identifier())
5594 {
5595 if (this->break_stack_ == NULL || this->break_stack_->empty())
5596 {
5597 go_error_at(this->location(),
5598 "break statement not within for or switch or select");
5599 return;
5600 }
5601 enclosing = this->break_stack_->back().first;
5602 }
5603 else
5604 {
5605 enclosing = this->find_bc_statement(this->break_stack_,
5606 token->identifier());
5607 if (enclosing == NULL)
5608 {
5609 // If there is a label with this name, mark it as used to
5610 // avoid a useless error about an unused label.
5611 this->gogo_->add_label_reference(token->identifier(),
5612 Linemap::unknown_location(), false);
5613
5614 go_error_at(token->location(), "invalid break label %qs",
5615 Gogo::message_name(token->identifier()).c_str());
5616 this->advance_token();
5617 return;
5618 }
5619 this->advance_token();
5620 }
5621
5622 Unnamed_label* label;
5623 if (enclosing->classification() == Statement::STATEMENT_FOR)
5624 label = enclosing->for_statement()->break_label();
5625 else if (enclosing->classification() == Statement::STATEMENT_FOR_RANGE)
5626 label = enclosing->for_range_statement()->break_label();
5627 else if (enclosing->classification() == Statement::STATEMENT_SWITCH)
5628 label = enclosing->switch_statement()->break_label();
5629 else if (enclosing->classification() == Statement::STATEMENT_TYPE_SWITCH)
5630 label = enclosing->type_switch_statement()->break_label();
5631 else if (enclosing->classification() == Statement::STATEMENT_SELECT)
5632 label = enclosing->select_statement()->break_label();
5633 else
5634 go_unreachable();
5635
5636 this->gogo_->add_statement(Statement::make_break_statement(label,
5637 location));
5638 }
5639
5640 // ContinueStat = "continue" [ identifier ] .
5641
5642 void
continue_stat()5643 Parse::continue_stat()
5644 {
5645 go_assert(this->peek_token()->is_keyword(KEYWORD_CONTINUE));
5646 Location location = this->location();
5647
5648 const Token* token = this->advance_token();
5649 Statement* enclosing;
5650 if (!token->is_identifier())
5651 {
5652 if (this->continue_stack_ == NULL || this->continue_stack_->empty())
5653 {
5654 go_error_at(this->location(), "continue statement not within for");
5655 return;
5656 }
5657 enclosing = this->continue_stack_->back().first;
5658 }
5659 else
5660 {
5661 enclosing = this->find_bc_statement(this->continue_stack_,
5662 token->identifier());
5663 if (enclosing == NULL)
5664 {
5665 // If there is a label with this name, mark it as used to
5666 // avoid a useless error about an unused label.
5667 this->gogo_->add_label_reference(token->identifier(),
5668 Linemap::unknown_location(), false);
5669
5670 go_error_at(token->location(), "invalid continue label %qs",
5671 Gogo::message_name(token->identifier()).c_str());
5672 this->advance_token();
5673 return;
5674 }
5675 this->advance_token();
5676 }
5677
5678 Unnamed_label* label;
5679 if (enclosing->classification() == Statement::STATEMENT_FOR)
5680 label = enclosing->for_statement()->continue_label();
5681 else if (enclosing->classification() == Statement::STATEMENT_FOR_RANGE)
5682 label = enclosing->for_range_statement()->continue_label();
5683 else
5684 go_unreachable();
5685
5686 this->gogo_->add_statement(Statement::make_continue_statement(label,
5687 location));
5688 }
5689
5690 // GotoStat = "goto" identifier .
5691
5692 void
goto_stat()5693 Parse::goto_stat()
5694 {
5695 go_assert(this->peek_token()->is_keyword(KEYWORD_GOTO));
5696 Location location = this->location();
5697 const Token* token = this->advance_token();
5698 if (!token->is_identifier())
5699 go_error_at(this->location(), "expected label for goto");
5700 else
5701 {
5702 Label* label = this->gogo_->add_label_reference(token->identifier(),
5703 location, true);
5704 Statement* s = Statement::make_goto_statement(label, location);
5705 this->gogo_->add_statement(s);
5706 this->advance_token();
5707 }
5708 }
5709
5710 // PackageClause = "package" PackageName .
5711
5712 void
package_clause()5713 Parse::package_clause()
5714 {
5715 const Token* token = this->peek_token();
5716 Location location = token->location();
5717 std::string name;
5718 if (!token->is_keyword(KEYWORD_PACKAGE))
5719 {
5720 go_error_at(this->location(), "program must start with package clause");
5721 name = "ERROR";
5722 }
5723 else
5724 {
5725 token = this->advance_token();
5726 if (token->is_identifier())
5727 {
5728 name = token->identifier();
5729 if (name == "_")
5730 {
5731 go_error_at(this->location(), "invalid package name %<_%>");
5732 name = Gogo::erroneous_name();
5733 }
5734 this->advance_token();
5735 }
5736 else
5737 {
5738 go_error_at(this->location(), "package name must be an identifier");
5739 name = "ERROR";
5740 }
5741 }
5742 this->gogo_->set_package_name(name, location);
5743 }
5744
5745 // ImportDecl = "import" Decl<ImportSpec> .
5746
5747 void
import_decl()5748 Parse::import_decl()
5749 {
5750 go_assert(this->peek_token()->is_keyword(KEYWORD_IMPORT));
5751 this->advance_token();
5752 this->decl(&Parse::import_spec, NULL, 0);
5753 }
5754
5755 // ImportSpec = [ "." | PackageName ] PackageFileName .
5756
5757 void
import_spec(void *,unsigned int pragmas)5758 Parse::import_spec(void*, unsigned int pragmas)
5759 {
5760 if (pragmas != 0)
5761 go_warning_at(this->location(), 0,
5762 "ignoring magic %<//go:...%> comment before import");
5763
5764 const Token* token = this->peek_token();
5765 Location location = token->location();
5766
5767 std::string local_name;
5768 bool is_local_name_exported = false;
5769 if (token->is_op(OPERATOR_DOT))
5770 {
5771 local_name = ".";
5772 token = this->advance_token();
5773 }
5774 else if (token->is_identifier())
5775 {
5776 local_name = token->identifier();
5777 is_local_name_exported = token->is_identifier_exported();
5778 token = this->advance_token();
5779 }
5780
5781 if (!token->is_string())
5782 {
5783 go_error_at(this->location(), "import statement not a string");
5784 this->advance_token();
5785 return;
5786 }
5787
5788 this->gogo_->import_package(token->string_value(), local_name,
5789 is_local_name_exported, true, location);
5790
5791 this->advance_token();
5792 }
5793
5794 // SourceFile = PackageClause ";" { ImportDecl ";" }
5795 // { TopLevelDecl ";" } .
5796
5797 void
program()5798 Parse::program()
5799 {
5800 this->package_clause();
5801
5802 const Token* token = this->peek_token();
5803 if (token->is_op(OPERATOR_SEMICOLON))
5804 token = this->advance_token();
5805 else
5806 go_error_at(this->location(),
5807 "expected %<;%> or newline after package clause");
5808
5809 while (token->is_keyword(KEYWORD_IMPORT))
5810 {
5811 this->import_decl();
5812 token = this->peek_token();
5813 if (token->is_op(OPERATOR_SEMICOLON))
5814 token = this->advance_token();
5815 else
5816 go_error_at(this->location(),
5817 "expected %<;%> or newline after import declaration");
5818 }
5819
5820 while (!token->is_eof())
5821 {
5822 if (this->declaration_may_start_here())
5823 this->declaration();
5824 else
5825 {
5826 go_error_at(this->location(), "expected declaration");
5827 this->gogo_->mark_locals_used();
5828 do
5829 this->advance_token();
5830 while (!this->peek_token()->is_eof()
5831 && !this->peek_token()->is_op(OPERATOR_SEMICOLON)
5832 && !this->peek_token()->is_op(OPERATOR_RCURLY));
5833 if (!this->peek_token()->is_eof()
5834 && !this->peek_token()->is_op(OPERATOR_SEMICOLON))
5835 this->advance_token();
5836 }
5837 token = this->peek_token();
5838 if (token->is_op(OPERATOR_SEMICOLON))
5839 token = this->advance_token();
5840 else if (!token->is_eof() || !saw_errors())
5841 {
5842 if (token->is_op(OPERATOR_CHANOP))
5843 go_error_at(this->location(),
5844 ("send statement used as value; "
5845 "use select for non-blocking send"));
5846 else
5847 go_error_at(this->location(),
5848 ("expected %<;%> or newline after top "
5849 "level declaration"));
5850 this->skip_past_error(OPERATOR_INVALID);
5851 }
5852 }
5853 }
5854
5855 // Skip forward to a semicolon or OP. OP will normally be
5856 // OPERATOR_RPAREN or OPERATOR_RCURLY. If we find a semicolon, move
5857 // past it and return. If we find OP, it will be the next token to
5858 // read. Return true if we are OK, false if we found EOF.
5859
5860 bool
skip_past_error(Operator op)5861 Parse::skip_past_error(Operator op)
5862 {
5863 this->gogo_->mark_locals_used();
5864 const Token* token = this->peek_token();
5865 while (!token->is_op(op))
5866 {
5867 if (token->is_eof())
5868 return false;
5869 if (token->is_op(OPERATOR_SEMICOLON))
5870 {
5871 this->advance_token();
5872 return true;
5873 }
5874 token = this->advance_token();
5875 }
5876 return true;
5877 }
5878
5879 // Check that an expression is not a sink.
5880
5881 Expression*
verify_not_sink(Expression * expr)5882 Parse::verify_not_sink(Expression* expr)
5883 {
5884 if (expr->is_sink_expression())
5885 {
5886 go_error_at(expr->location(), "cannot use %<_%> as value");
5887 expr = Expression::make_error(expr->location());
5888 }
5889
5890 // If this can not be a sink, and it is a variable, then we are
5891 // using the variable, not just assigning to it.
5892 if (expr->var_expression() != NULL)
5893 this->mark_var_used(expr->var_expression()->named_object());
5894 else if (expr->enclosed_var_expression() != NULL)
5895 this->mark_var_used(expr->enclosed_var_expression()->variable());
5896 return expr;
5897 }
5898
5899 // Mark a variable as used.
5900
5901 void
mark_var_used(Named_object * no)5902 Parse::mark_var_used(Named_object* no)
5903 {
5904 if (no->is_variable())
5905 no->var_value()->set_is_used();
5906 }
5907