1 /* Various declarations for language-independent pretty-print subroutines. 2 Copyright (C) 2002, 2003, 2004, 2007, 2008, 2009, 2010 3 Free Software Foundation, Inc. 4 Contributed by Gabriel Dos Reis <gdr@integrable-solutions.net> 5 6 This file is part of GCC. 7 8 GCC is free software; you can redistribute it and/or modify it under 9 the terms of the GNU General Public License as published by the Free 10 Software Foundation; either version 3, or (at your option) any later 11 version. 12 13 GCC is distributed in the hope that it will be useful, but WITHOUT ANY 14 WARRANTY; without even the implied warranty of MERCHANTABILITY or 15 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License 16 for more details. 17 18 You should have received a copy of the GNU General Public License 19 along with GCC; see the file COPYING3. If not see 20 <http://www.gnu.org/licenses/>. */ 21 22 #ifndef GCC_PRETTY_PRINT_H 23 #define GCC_PRETTY_PRINT_H 24 25 #include "obstack.h" 26 #include "input.h" 27 28 /* Maximum number of format string arguments. */ 29 #define PP_NL_ARGMAX 30 30 31 /* The type of a text to be formatted according a format specification 32 along with a list of things. */ 33 typedef struct 34 { 35 const char *format_spec; 36 va_list *args_ptr; 37 int err_no; /* for %m */ 38 location_t *locus; 39 void **x_data; 40 } text_info; 41 42 /* How often diagnostics are prefixed by their locations: 43 o DIAGNOSTICS_SHOW_PREFIX_NEVER: never - not yet supported; 44 o DIAGNOSTICS_SHOW_PREFIX_ONCE: emit only once; 45 o DIAGNOSTICS_SHOW_PREFIX_EVERY_LINE: emit each time a physical 46 line is started. */ 47 typedef enum 48 { 49 DIAGNOSTICS_SHOW_PREFIX_ONCE = 0x0, 50 DIAGNOSTICS_SHOW_PREFIX_NEVER = 0x1, 51 DIAGNOSTICS_SHOW_PREFIX_EVERY_LINE = 0x2 52 } diagnostic_prefixing_rule_t; 53 54 /* The chunk_info data structure forms a stack of the results from the 55 first phase of formatting (pp_base_format) which have not yet been 56 output (pp_base_output_formatted_text). A stack is necessary because 57 the diagnostic starter may decide to generate its own output by way 58 of the formatter. */ 59 struct chunk_info 60 { 61 /* Pointer to previous chunk on the stack. */ 62 struct chunk_info *prev; 63 64 /* Array of chunks to output. Each chunk is a NUL-terminated string. 65 In the first phase of formatting, even-numbered chunks are 66 to be output verbatim, odd-numbered chunks are format specifiers. 67 The second phase replaces all odd-numbered chunks with formatted 68 text, and the third phase simply emits all the chunks in sequence 69 with appropriate line-wrapping. */ 70 const char *args[PP_NL_ARGMAX * 2]; 71 }; 72 73 /* The output buffer datatype. This is best seen as an abstract datatype 74 whose fields should not be accessed directly by clients. */ 75 typedef struct 76 { 77 /* Obstack where the text is built up. */ 78 struct obstack formatted_obstack; 79 80 /* Obstack containing a chunked representation of the format 81 specification plus arguments. */ 82 struct obstack chunk_obstack; 83 84 /* Currently active obstack: one of the above two. This is used so 85 that the text formatters don't need to know which phase we're in. */ 86 struct obstack *obstack; 87 88 /* Stack of chunk arrays. These come from the chunk_obstack. */ 89 struct chunk_info *cur_chunk_array; 90 91 /* Where to output formatted text. */ 92 FILE *stream; 93 94 /* The amount of characters output so far. */ 95 int line_length; 96 97 /* This must be large enough to hold any printed integer or 98 floating-point value. */ 99 char digit_buffer[128]; 100 } output_buffer; 101 102 /* The type of pretty-printer flags passed to clients. */ 103 typedef unsigned int pp_flags; 104 105 typedef enum 106 { 107 pp_none, pp_before, pp_after 108 } pp_padding; 109 110 /* Structure for switching in and out of verbatim mode in a convenient 111 manner. */ 112 typedef struct 113 { 114 /* Current prefixing rule. */ 115 diagnostic_prefixing_rule_t rule; 116 117 /* The ideal upper bound of number of characters per line, as suggested 118 by front-end. */ 119 int line_cutoff; 120 } pp_wrapping_mode_t; 121 122 /* Maximum characters per line in automatic line wrapping mode. 123 Zero means don't wrap lines. */ 124 #define pp_line_cutoff(PP) pp_base (PP)->wrapping.line_cutoff 125 126 /* Prefixing rule used in formatting a diagnostic message. */ 127 #define pp_prefixing_rule(PP) pp_base (PP)->wrapping.rule 128 129 /* Get or set the wrapping mode as a single entity. */ 130 #define pp_wrapping_mode(PP) pp_base (PP)->wrapping 131 132 /* The type of a hook that formats client-specific data onto a pretty_pinter. 133 A client-supplied formatter returns true if everything goes well, 134 otherwise it returns false. */ 135 typedef struct pretty_print_info pretty_printer; 136 typedef bool (*printer_fn) (pretty_printer *, text_info *, const char *, 137 int, bool, bool, bool); 138 139 /* Client supplied function used to decode formats. */ 140 #define pp_format_decoder(PP) pp_base (PP)->format_decoder 141 142 /* TRUE if a newline character needs to be added before further 143 formatting. */ 144 #define pp_needs_newline(PP) pp_base (PP)->need_newline 145 146 /* True if PRETTY-PRINTER is in line-wrapping mode. */ 147 #define pp_is_wrapping_line(PP) (pp_line_cutoff (PP) > 0) 148 149 /* The amount of whitespace to be emitted when starting a new line. */ 150 #define pp_indentation(PP) pp_base (PP)->indent_skip 151 152 /* True if identifiers are translated to the locale character set on 153 output. */ 154 #define pp_translate_identifiers(PP) pp_base (PP)->translate_identifiers 155 156 /* The data structure that contains the bare minimum required to do 157 proper pretty-printing. Clients may derived from this structure 158 and add additional fields they need. */ 159 struct pretty_print_info 160 { 161 /* Where we print external representation of ENTITY. */ 162 output_buffer *buffer; 163 164 /* The prefix for each new line. */ 165 const char *prefix; 166 167 /* Where to put whitespace around the entity being formatted. */ 168 pp_padding padding; 169 170 /* The real upper bound of number of characters per line, taking into 171 account the case of a very very looong prefix. */ 172 int maximum_length; 173 174 /* Indentation count. */ 175 int indent_skip; 176 177 /* Current wrapping mode. */ 178 pp_wrapping_mode_t wrapping; 179 180 /* If non-NULL, this function formats a TEXT into the BUFFER. When called, 181 TEXT->format_spec points to a format code. FORMAT_DECODER should call 182 pp_string (and related functions) to add data to the BUFFER. 183 FORMAT_DECODER can read arguments from *TEXT->args_pts using VA_ARG. 184 If the BUFFER needs additional characters from the format string, it 185 should advance the TEXT->format_spec as it goes. When FORMAT_DECODER 186 returns, TEXT->format_spec should point to the last character processed. 187 */ 188 printer_fn format_decoder; 189 190 /* Nonzero if current PREFIX was emitted at least once. */ 191 bool emitted_prefix; 192 193 /* Nonzero means one should emit a newline before outputting anything. */ 194 bool need_newline; 195 196 /* Nonzero means identifiers are translated to the locale character 197 set on output. */ 198 bool translate_identifiers; 199 }; 200 201 #define pp_set_line_maximum_length(PP, L) \ 202 pp_base_set_line_maximum_length (pp_base (PP), L) 203 #define pp_set_prefix(PP, P) pp_base_set_prefix (pp_base (PP), P) 204 #define pp_destroy_prefix(PP) pp_base_destroy_prefix (pp_base (PP)) 205 #define pp_remaining_character_count_for_line(PP) \ 206 pp_base_remaining_character_count_for_line (pp_base (PP)) 207 #define pp_clear_output_area(PP) \ 208 pp_base_clear_output_area (pp_base (PP)) 209 #define pp_formatted_text(PP) pp_base_formatted_text (pp_base (PP)) 210 #define pp_last_position_in_text(PP) \ 211 pp_base_last_position_in_text (pp_base (PP)) 212 #define pp_emit_prefix(PP) pp_base_emit_prefix (pp_base (PP)) 213 #define pp_append_text(PP, B, E) \ 214 pp_base_append_text (pp_base (PP), B, E) 215 #define pp_flush(PP) pp_base_flush (pp_base (PP)) 216 #define pp_format(PP, TI) pp_base_format (pp_base (PP), TI) 217 #define pp_output_formatted_text(PP) \ 218 pp_base_output_formatted_text (pp_base (PP)) 219 #define pp_format_verbatim(PP, TI) \ 220 pp_base_format_verbatim (pp_base (PP), TI) 221 222 #define pp_character(PP, C) pp_base_character (pp_base (PP), C) 223 #define pp_string(PP, S) pp_base_string (pp_base (PP), S) 224 #define pp_newline(PP) pp_base_newline (pp_base (PP)) 225 226 #define pp_space(PP) pp_character (PP, ' ') 227 #define pp_left_paren(PP) pp_character (PP, '(') 228 #define pp_right_paren(PP) pp_character (PP, ')') 229 #define pp_left_bracket(PP) pp_character (PP, '[') 230 #define pp_right_bracket(PP) pp_character (PP, ']') 231 #define pp_left_brace(PP) pp_character (PP, '{') 232 #define pp_right_brace(PP) pp_character (PP, '}') 233 #define pp_semicolon(PP) pp_character (PP, ';') 234 #define pp_comma(PP) pp_string (PP, ", ") 235 #define pp_dot(PP) pp_character (PP, '.') 236 #define pp_colon(PP) pp_character (PP, ':') 237 #define pp_colon_colon(PP) pp_string (PP, "::") 238 #define pp_arrow(PP) pp_string (PP, "->") 239 #define pp_equal(PP) pp_character (PP, '=') 240 #define pp_question(PP) pp_character (PP, '?') 241 #define pp_bar(PP) pp_character (PP, '|') 242 #define pp_carret(PP) pp_character (PP, '^') 243 #define pp_ampersand(PP) pp_character (PP, '&') 244 #define pp_less(PP) pp_character (PP, '<') 245 #define pp_greater(PP) pp_character (PP, '>') 246 #define pp_plus(PP) pp_character (PP, '+') 247 #define pp_minus(PP) pp_character (PP, '-') 248 #define pp_star(PP) pp_character (PP, '*') 249 #define pp_slash(PP) pp_character (PP, '/') 250 #define pp_modulo(PP) pp_character (PP, '%') 251 #define pp_exclamation(PP) pp_character (PP, '!') 252 #define pp_complement(PP) pp_character (PP, '~') 253 #define pp_quote(PP) pp_character (PP, '\'') 254 #define pp_backquote(PP) pp_character (PP, '`') 255 #define pp_doublequote(PP) pp_character (PP, '"') 256 #define pp_newline_and_indent(PP, N) \ 257 do { \ 258 pp_indentation (PP) += N; \ 259 pp_newline (PP); \ 260 pp_base_indent (pp_base (PP)); \ 261 pp_needs_newline (PP) = false; \ 262 } while (0) 263 #define pp_maybe_newline_and_indent(PP, N) \ 264 if (pp_needs_newline (PP)) pp_newline_and_indent (PP, N) 265 #define pp_maybe_space(PP) pp_base_maybe_space (pp_base (PP)) 266 #define pp_separate_with(PP, C) \ 267 do { \ 268 pp_character (PP, C); \ 269 pp_space (PP); \ 270 } while (0) 271 #define pp_scalar(PP, FORMAT, SCALAR) \ 272 do \ 273 { \ 274 sprintf (pp_buffer (PP)->digit_buffer, FORMAT, SCALAR); \ 275 pp_string (PP, pp_buffer (PP)->digit_buffer); \ 276 } \ 277 while (0) 278 #define pp_decimal_int(PP, I) pp_scalar (PP, "%d", I) 279 #define pp_unsigned_wide_integer(PP, I) \ 280 pp_scalar (PP, HOST_WIDE_INT_PRINT_UNSIGNED, (unsigned HOST_WIDE_INT) I) 281 #define pp_wide_integer(PP, I) \ 282 pp_scalar (PP, HOST_WIDE_INT_PRINT_DEC, (HOST_WIDE_INT) I) 283 #define pp_widest_integer(PP, I) \ 284 pp_scalar (PP, HOST_WIDEST_INT_PRINT_DEC, (HOST_WIDEST_INT) I) 285 #define pp_pointer(PP, P) pp_scalar (PP, "%p", P) 286 287 #define pp_identifier(PP, ID) pp_string (PP, (pp_translate_identifiers (PP) \ 288 ? identifier_to_locale (ID) \ 289 : (ID))) 290 291 292 #define pp_buffer(PP) pp_base (PP)->buffer 293 /* Clients that directly derive from pretty_printer need to override 294 this macro to return a pointer to the base pretty_printer structure. */ 295 #define pp_base(PP) (PP) 296 297 extern void pp_construct (pretty_printer *, const char *, int); 298 extern void pp_base_set_line_maximum_length (pretty_printer *, int); 299 extern void pp_base_set_prefix (pretty_printer *, const char *); 300 extern void pp_base_destroy_prefix (pretty_printer *); 301 extern int pp_base_remaining_character_count_for_line (pretty_printer *); 302 extern void pp_base_clear_output_area (pretty_printer *); 303 extern const char *pp_base_formatted_text (pretty_printer *); 304 extern const char *pp_base_last_position_in_text (const pretty_printer *); 305 extern void pp_base_emit_prefix (pretty_printer *); 306 extern void pp_base_append_text (pretty_printer *, const char *, const char *); 307 308 /* If we haven't already defined a front-end-specific diagnostics 309 style, use the generic one. */ 310 #ifdef GCC_DIAG_STYLE 311 #define GCC_PPDIAG_STYLE GCC_DIAG_STYLE 312 #else 313 #define GCC_PPDIAG_STYLE __gcc_diag__ 314 #endif 315 316 /* This header may be included before diagnostics-core.h, hence the duplicate 317 definitions to allow for GCC-specific formats. */ 318 #if GCC_VERSION >= 3005 319 #define ATTRIBUTE_GCC_PPDIAG(m, n) __attribute__ ((__format__ (GCC_PPDIAG_STYLE, m ,n))) ATTRIBUTE_NONNULL(m) 320 #else 321 #define ATTRIBUTE_GCC_PPDIAG(m, n) ATTRIBUTE_NONNULL(m) 322 #endif 323 extern void pp_printf (pretty_printer *, const char *, ...) 324 ATTRIBUTE_GCC_PPDIAG(2,3); 325 326 extern void pp_verbatim (pretty_printer *, const char *, ...) 327 ATTRIBUTE_GCC_PPDIAG(2,3); 328 extern void pp_base_flush (pretty_printer *); 329 extern void pp_base_format (pretty_printer *, text_info *); 330 extern void pp_base_output_formatted_text (pretty_printer *); 331 extern void pp_base_format_verbatim (pretty_printer *, text_info *); 332 333 extern void pp_base_indent (pretty_printer *); 334 extern void pp_base_newline (pretty_printer *); 335 extern void pp_base_character (pretty_printer *, int); 336 extern void pp_base_string (pretty_printer *, const char *); 337 extern void pp_write_text_to_stream (pretty_printer *pp); 338 extern void pp_base_maybe_space (pretty_printer *); 339 340 /* Switch into verbatim mode and return the old mode. */ 341 static inline pp_wrapping_mode_t 342 pp_set_verbatim_wrapping_ (pretty_printer *pp) 343 { 344 pp_wrapping_mode_t oldmode = pp_wrapping_mode (pp); 345 pp_line_cutoff (pp) = 0; 346 pp_prefixing_rule (pp) = DIAGNOSTICS_SHOW_PREFIX_NEVER; 347 return oldmode; 348 } 349 #define pp_set_verbatim_wrapping(PP) pp_set_verbatim_wrapping_ (pp_base (PP)) 350 351 extern const char *identifier_to_locale (const char *); 352 extern void *(*identifier_to_locale_alloc) (size_t); 353 extern void (*identifier_to_locale_free) (void *); 354 355 #endif /* GCC_PRETTY_PRINT_H */ 356