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[wine/multimedia.git] / tools / winedump / msmangle.c
blob161bcc7d80fa57a01fd6ce452139ebd4053fa31d
1 /*
2 * Demangle VC++ symbols into C function prototypes
4 * Copyright 2000 Jon Griffiths
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
21 #include "config.h"
22 #include "wine/port.h"
24 #include "winedump.h"
26 /* Type for parsing mangled types */
27 typedef struct _compound_type
29 char dest_type;
30 int flags;
31 int have_qualifiers;
32 char *expression;
33 } compound_type;
36 /* Initialise a compound type structure */
37 #define INIT_CT(ct) do { memset (&ct, 0, sizeof (ct)); } while (0)
39 /* free the memory used by a compound structure */
40 #define FREE_CT(ct) free (ct.expression)
42 /* Flags for data types */
43 #define DATA_VTABLE 0x1
45 /* Internal functions */
46 static char *demangle_datatype (char **str, compound_type *ct,
47 parsed_symbol* sym);
49 static char *get_constraints_convention_1 (char **str, compound_type *ct);
51 static char *get_constraints_convention_2 (char **str, compound_type *ct);
53 static char *get_type_string (const char c, const int constraints);
55 static int get_type_constant (const char c, const int constraints);
57 static char *get_pointer_type_string (compound_type *ct,
58 const char *expression);
61 /*******************************************************************
62 * demangle_symbol
64 * Demangle a C++ linker symbol into a C prototype
66 int symbol_demangle (parsed_symbol *sym)
68 compound_type ct;
69 int is_static = 0, is_const = 0;
70 char *function_name = NULL;
71 char *class_name = NULL;
72 char *name;
73 const char *const_status;
74 static unsigned int hash = 0; /* In case of overloaded functions */
75 unsigned int data_flags = 0;
77 assert (globals.do_code);
78 assert (sym && sym->symbol);
80 hash++;
82 /* MS mangled names always begin with '?' */
83 name = sym->symbol;
84 if (*name++ != '?')
85 return -1;
87 if (VERBOSE)
88 puts ("Attempting to demangle symbol");
90 /* Then function name or operator code */
91 if (*name == '?')
93 /* C++ operator code (one character, or two if the first is '_') */
94 switch (*++name)
96 case '0': function_name = strdup ("ctor"); break;
97 case '1': function_name = strdup ("dtor"); break;
98 case '2': function_name = strdup ("operator_new"); break;
99 case '3': function_name = strdup ("operator_delete"); break;
100 case '4': function_name = strdup ("operator_equals"); break;
101 case '5': function_name = strdup ("operator_shiftright"); break;
102 case '6': function_name = strdup ("operator_shiftleft"); break;
103 case '7': function_name = strdup ("operator_not"); break;
104 case '8': function_name = strdup ("operator_equalsequals"); break;
105 case '9': function_name = strdup ("operator_notequals"); break;
106 case 'A': function_name = strdup ("operator_array"); break;
107 case 'C': function_name = strdup ("operator_dereference"); break;
108 case 'D': function_name = strdup ("operator_multiply"); break;
109 case 'E': function_name = strdup ("operator_plusplus"); break;
110 case 'F': function_name = strdup ("operator_minusminus"); break;
111 case 'G': function_name = strdup ("operator_minus"); break;
112 case 'H': function_name = strdup ("operator_plus"); break;
113 case 'I': function_name = strdup ("operator_address"); break;
114 case 'J': function_name = strdup ("operator_dereferencememberptr"); break;
115 case 'K': function_name = strdup ("operator_divide"); break;
116 case 'L': function_name = strdup ("operator_modulo"); break;
117 case 'M': function_name = strdup ("operator_lessthan"); break;
118 case 'N': function_name = strdup ("operator_lessthanequal"); break;
119 case 'O': function_name = strdup ("operator_greaterthan"); break;
120 case 'P': function_name = strdup ("operator_greaterthanequal"); break;
121 case 'Q': function_name = strdup ("operator_comma"); break;
122 case 'R': function_name = strdup ("operator_functioncall"); break;
123 case 'S': function_name = strdup ("operator_complement"); break;
124 case 'T': function_name = strdup ("operator_xor"); break;
125 case 'U': function_name = strdup ("operator_logicalor"); break;
126 case 'V': function_name = strdup ("operator_logicaland"); break;
127 case 'W': function_name = strdup ("operator_or"); break;
128 case 'X': function_name = strdup ("operator_multiplyequals"); break;
129 case 'Y': function_name = strdup ("operator_plusequals"); break;
130 case 'Z': function_name = strdup ("operator_minusequals"); break;
131 case '_':
132 switch (*++name)
134 case '0': function_name = strdup ("operator_divideequals"); break;
135 case '1': function_name = strdup ("operator_moduloequals"); break;
136 case '2': function_name = strdup ("operator_shiftrightequals"); break;
137 case '3': function_name = strdup ("operator_shiftleftequals"); break;
138 case '4': function_name = strdup ("operator_andequals"); break;
139 case '5': function_name = strdup ("operator_orequals"); break;
140 case '6': function_name = strdup ("operator_xorequals"); break;
141 case '7': function_name = strdup ("vftable"); data_flags = DATA_VTABLE; break;
142 case '8': function_name = strdup ("vbtable"); data_flags = DATA_VTABLE; break;
143 case '9': function_name = strdup ("vcall"); data_flags = DATA_VTABLE; break;
144 case 'A': function_name = strdup ("typeof"); data_flags = DATA_VTABLE; break;
145 case 'B': function_name = strdup ("local_static_guard"); data_flags = DATA_VTABLE; break;
146 case 'C': function_name = strdup ("string"); data_flags = DATA_VTABLE; break;
147 case 'D': function_name = strdup ("vbase_dtor"); data_flags = DATA_VTABLE; break;
148 case 'E': function_name = strdup ("vector_dtor"); break;
149 case 'G': function_name = strdup ("scalar_dtor"); break;
150 case 'H': function_name = strdup ("vector_ctor_iter"); break;
151 case 'I': function_name = strdup ("vector_dtor_iter"); break;
152 case 'J': function_name = strdup ("vector_vbase_ctor_iter"); break;
153 case 'L': function_name = strdup ("eh_vector_ctor_iter"); break;
154 case 'M': function_name = strdup ("eh_vector_dtor_iter"); break;
155 case 'N': function_name = strdup ("eh_vector_vbase_ctor_iter"); break;
156 case 'O': function_name = strdup ("copy_ctor_closure"); break;
157 case 'S': function_name = strdup ("local_vftable"); data_flags = DATA_VTABLE; break;
158 case 'T': function_name = strdup ("local_vftable_ctor_closure"); break;
159 case 'U': function_name = strdup ("operator_new_vector"); break;
160 case 'V': function_name = strdup ("operator_delete_vector"); break;
161 case 'X': function_name = strdup ("placement_new_closure"); break;
162 case 'Y': function_name = strdup ("placement_delete_closure"); break;
163 default:
164 return -1;
166 break;
167 default:
168 /* FIXME: Other operators */
169 return -1;
171 name++;
173 else
175 /* Type or function name terminated by '@' */
176 function_name = name;
177 while (*name && *name++ != '@') ;
178 if (!*name)
179 return -1;
180 function_name = str_substring (function_name, name - 1);
183 /* Either a class name, or '@' if the symbol is not a class member */
184 if (*name == '@')
186 class_name = strdup ("global"); /* Non member function (or a datatype) */
187 name++;
189 else
191 /* Class the function is associated with, terminated by '@@' */
192 class_name = name;
193 while (*name && *name++ != '@') ;
194 if (*name++ != '@') {
195 free (function_name);
196 return -1;
198 class_name = str_substring (class_name, name - 2); /* Allocates a new string */
201 /* Function/Data type and access level */
202 /* FIXME: why 2 possible letters for each option? */
203 switch(*name++)
205 /* Data */
207 case '0' : /* private static */
208 case '1' : /* protected static */
209 case '2' : /* public static */
210 is_static = 1;
211 /* Fall through */
212 case '3' : /* non static */
213 case '4' : /* non static */
214 /* Data members need to be implemented: report */
215 INIT_CT (ct);
216 if (!demangle_datatype (&name, &ct, sym))
218 if (VERBOSE)
219 printf ("/*FIXME: %s: unknown data*/\n", sym->symbol);
220 free (function_name);
221 free (class_name);
222 return -1;
224 sym->flags |= SYM_DATA;
225 sym->argc = 1;
226 sym->arg_name[0] = str_create (5, OUTPUT_UC_DLL_NAME, "_", class_name,
227 is_static ? "static_" : "_", function_name);
228 sym->arg_text[0] = str_create (3, ct.expression, " ", sym->arg_name[0]);
229 FREE_CT (ct);
230 free (function_name);
231 free (class_name);
232 return 0;
234 case '6' : /* compiler generated static */
235 case '7' : /* compiler generated static */
236 if (data_flags & DATA_VTABLE)
238 sym->flags |= SYM_DATA;
239 sym->argc = 1;
240 sym->arg_name[0] = str_create (5, OUTPUT_UC_DLL_NAME, "_", class_name,
241 "_", function_name);
242 sym->arg_text[0] = str_create (2, "void *", sym->arg_name[0]);
244 if (VERBOSE)
245 puts ("Demangled symbol OK [vtable]");
246 free (function_name);
247 free (class_name);
248 return 0;
250 free (function_name);
251 free (class_name);
252 return -1;
254 /* Functions */
256 case 'E' : /* private virtual */
257 case 'F' : /* private virtual */
258 case 'M' : /* protected virtual */
259 case 'N' : /* protected virtual */
260 case 'U' : /* public virtual */
261 case 'V' : /* public virtual */
262 /* Virtual functions need to be added to the exported vtable: report */
263 if (VERBOSE)
264 printf ("/*FIXME %s: %s::%s is virtual-add to vftable*/\n", sym->symbol,
265 class_name, function_name);
266 /* Fall through */
267 case 'A' : /* private */
268 case 'B' : /* private */
269 case 'I' : /* protected */
270 case 'J' : /* protected */
271 case 'Q' : /* public */
272 case 'R' : /* public */
273 /* Implicit 'this' pointer */
274 sym->arg_text [sym->argc] = str_create (3, "struct ", class_name, " *");
275 sym->arg_type [sym->argc] = ARG_POINTER;
276 sym->arg_flag [sym->argc] = 0;
277 sym->arg_name [sym->argc++] = strdup ("_this");
278 /* New struct definitions can be 'grep'ed out for making a fixup header */
279 if (VERBOSE)
280 printf ("struct %s { void **vtable; /*FIXME: class definition */ };\n", class_name);
281 break;
282 case 'C' : /* private: static */
283 case 'D' : /* private: static */
284 case 'K' : /* protected: static */
285 case 'L' : /* protected: static */
286 case 'S' : /* public: static */
287 case 'T' : /* public: static */
288 is_static = 1; /* No implicit this pointer */
289 break;
290 case 'Y' :
291 case 'Z' :
292 break;
293 /* FIXME: G,H / O,P / W,X are private / protected / public thunks */
294 default:
295 free (function_name);
296 free (class_name);
297 return -1;
300 /* If there is an implicit this pointer, const status follows */
301 if (sym->argc)
303 switch (*name++)
305 case 'A': break; /* non-const */
306 case 'B': is_const = CT_CONST; break;
307 case 'C': is_const = CT_VOLATILE; break;
308 case 'D': is_const = (CT_CONST | CT_VOLATILE); break;
309 default:
310 free (function_name);
311 free (class_name);
312 return -1;
316 /* Next is the calling convention */
317 switch (*name++)
319 case 'A': /* __cdecl */
320 case 'B': /* __cdecl __declspec(dllexport) */
321 if (!sym->argc)
323 sym->flags |= SYM_CDECL;
324 break;
326 /* Else fall through */
327 case 'C': /* __pascal */
328 case 'D': /* __pascal __declspec(dllexport) */
329 case 'E': /* __thiscall */
330 case 'F': /* __thiscall __declspec(dllexport) */
331 case 'G': /* __stdcall */
332 case 'H': /* __stdcall __declspec(dllexport) */
333 case 'I': /* __fastcall */
334 case 'J': /* __fastcall __declspec(dllexport)*/
335 case 'K': /* default (none given) */
336 if (sym->argc)
337 sym->flags |= SYM_THISCALL;
338 else
339 sym->flags |= SYM_STDCALL;
340 break;
341 default:
342 free (function_name);
343 free (class_name);
344 return -1;
347 /* Return type, or @ if 'void' */
348 if (*name == '@')
350 sym->return_text = strdup ("void");
351 sym->return_type = ARG_VOID;
352 name++;
354 else
356 INIT_CT (ct);
357 if (!demangle_datatype (&name, &ct, sym)) {
358 free (function_name);
359 free (class_name);
360 return -1;
362 sym->return_text = ct.expression;
363 sym->return_type = get_type_constant(ct.dest_type, ct.flags);
364 ct.expression = NULL;
365 FREE_CT (ct);
368 /* Now come the function arguments */
369 while (*name && *name != 'Z')
371 /* Decode each data type and append it to the argument list */
372 if (*name != '@')
374 INIT_CT (ct);
375 if (!demangle_datatype(&name, &ct, sym)) {
376 free (function_name);
377 free (class_name);
378 return -1;
381 if (strcmp (ct.expression, "void"))
383 sym->arg_text [sym->argc] = ct.expression;
384 ct.expression = NULL;
385 sym->arg_type [sym->argc] = get_type_constant (ct.dest_type, ct.flags);
386 sym->arg_flag [sym->argc] = ct.flags;
387 sym->arg_name[sym->argc] = str_create_num (1, sym->argc, "arg");
388 sym->argc++;
390 else
391 break; /* 'void' terminates an argument list */
392 FREE_CT (ct);
394 else
395 name++;
398 while (*name == '@')
399 name++;
401 /* Functions are always terminated by 'Z'. If we made it this far and
402 * Don't find it, we have incorrectly identified a data type.
404 if (*name != 'Z') {
405 free (function_name);
406 free (class_name);
407 return -1;
410 /* Note: '()' after 'Z' means 'throws', but we don't care here */
412 /* Create the function name. Include a unique number because otherwise
413 * overloaded functions could have the same c signature.
415 switch (is_const)
417 case (CT_CONST | CT_VOLATILE): const_status = "_const_volatile"; break;
418 case CT_CONST: const_status = "_const"; break;
419 case CT_VOLATILE: const_status = "_volatile"; break;
420 default: const_status = "_"; break;
422 sym->function_name = str_create_num (4, hash, class_name, "_",
423 function_name, is_static ? "_static" : const_status);
425 assert (sym->return_text);
426 assert (sym->flags);
427 assert (sym->function_name);
429 free (class_name);
430 free (function_name);
432 if (VERBOSE)
433 puts ("Demangled symbol OK");
435 return 0;
439 /*******************************************************************
440 * demangle_datatype
442 * Attempt to demangle a C++ data type, which may be compound.
443 * a compound type is made up of a number of simple types. e.g:
444 * char** = (pointer to (pointer to (char)))
446 * Uses a simple recursive descent algorithm that is broken
447 * and/or incomplete, without a doubt ;-)
449 static char *demangle_datatype (char **str, compound_type *ct,
450 parsed_symbol* sym)
452 char *iter;
454 assert (str && *str);
455 assert (ct);
457 iter = *str;
459 if (!get_constraints_convention_1 (&iter, ct))
460 return NULL;
462 if (*iter == '_')
464 /* MS type: __int8,__int16 etc */
465 ct->flags |= CT_EXTENDED;
466 iter++;
469 switch (*iter)
471 case 'C': case 'D': case 'E': case 'F': case 'G':
472 case 'H': case 'I': case 'J': case 'K': case 'M':
473 case 'N': case 'O': case 'X': case 'Z':
474 /* Simple data types */
475 ct->dest_type = *iter++;
476 if (!get_constraints_convention_2 (&iter, ct))
477 return NULL;
478 ct->expression = get_type_string (ct->dest_type, ct->flags);
479 break;
480 case 'U':
481 case 'V':
482 /* Class/struct/union */
483 ct->dest_type = *iter++;
484 if (*iter == '0' || *iter == '1')
486 /* Referring to class type (implicit 'this') */
487 char *stripped;
488 if (!sym->argc)
489 return NULL;
491 iter++;
492 /* Apply our constraints to the base type (struct xxx *) */
493 stripped = strdup (sym->arg_text [0]);
494 if (!stripped)
495 fatal ("Out of Memory");
497 /* If we're a reference, re-use the pointer already in the type */
498 if (!(ct->flags & CT_BY_REFERENCE))
499 stripped[ strlen (stripped) - 2] = '\0'; /* otherwise, strip it */
501 ct->expression = str_create (2, ct->flags & CT_CONST ? "const " :
502 ct->flags & CT_VOLATILE ? "volatile " : "", stripped);
503 free (stripped);
505 else if (*iter != '@')
507 /* The name of the class/struct, followed by '@@' */
508 char *struct_name = iter;
509 while (*iter && *iter++ != '@') ;
510 if (*iter++ != '@')
511 return NULL;
512 struct_name = str_substring (struct_name, iter - 2);
513 ct->expression = str_create (4, ct->flags & CT_CONST ? "const " :
514 ct->flags & CT_VOLATILE ? "volatile " : "", "struct ",
515 struct_name, ct->flags & CT_BY_REFERENCE ? " *" : "");
516 free (struct_name);
518 break;
519 case 'Q': /* FIXME: Array Just treated as pointer currently */
520 case 'P': /* Pointer */
522 compound_type sub_ct;
523 INIT_CT (sub_ct);
525 ct->dest_type = *iter++;
526 if (!get_constraints_convention_2 (&iter, ct))
527 return NULL;
529 /* FIXME: P6 = Function pointer, others who knows.. */
530 if (isdigit (*iter))
532 if (*iter == '6')
534 int sub_expressions = 0;
535 /* FIXME: there are a tons of memory leaks here */
536 /* FIXME: this is still broken in some cases and it has to be
537 * merged with the function prototype parsing above...
539 iter += iter[1] == 'A' ? 2 : 3; /* FIXME */
540 if (!demangle_datatype (&iter, &sub_ct, sym))
541 return NULL;
542 ct->expression = str_create(2, sub_ct.expression, " (*)(");
543 if (*iter != '@')
545 while (*iter != 'Z')
547 FREE_CT (sub_ct);
548 INIT_CT (sub_ct);
549 if (!demangle_datatype (&iter, &sub_ct, sym))
550 return NULL;
551 if (sub_expressions)
552 ct->expression = str_create(3, ct->expression, ", ", sub_ct.expression);
553 else
554 ct->expression = str_create(2, ct->expression, sub_ct.expression);
555 while (*iter == '@') iter++;
556 sub_expressions++;
558 } else while (*iter == '@') iter++;
559 iter++;
560 ct->expression = str_create(2, ct->expression, ")");
562 else
563 return NULL;
565 else
567 /* Recurse to get the pointed-to type */
568 if (!demangle_datatype (&iter, &sub_ct, sym))
569 return NULL;
571 ct->expression = get_pointer_type_string (ct, sub_ct.expression);
574 FREE_CT (sub_ct);
576 break;
577 case '0': case '1': case '2': case '3': case '4':
578 case '5': case '6': case '7': case '8': case '9':
579 /* Referring back to previously parsed type */
580 if (sym->argc >= (size_t)('0' - *iter))
581 return NULL;
582 ct->dest_type = sym->arg_type ['0' - *iter];
583 ct->expression = strdup (sym->arg_text ['0' - *iter]);
584 iter++;
585 break;
586 default :
587 return NULL;
589 if (!ct->expression)
590 return NULL;
592 return (char *)(*str = iter);
596 /* Constraints:
597 * There are two conventions for specifying data type constants. I
598 * don't know how the compiler chooses between them, but I suspect it
599 * is based on ensuring that linker names are unique.
600 * Convention 1. The data type modifier is given first, followed
601 * by the data type it operates on. '?' means passed by value,
602 * 'A' means passed by reference. Note neither of these characters
603 * is a valid base data type. This is then followed by a character
604 * specifying constness or volatility.
605 * Convention 2. The base data type (which is never '?' or 'A') is
606 * given first. The character modifier is optionally given after
607 * the base type character. If a valid character modifier is present,
608 * then it only applies to the current data type if the character
609 * after that is not 'A' 'B' or 'C' (Because this makes a convention 1
610 * constraint for the next data type).
612 * The conventions are usually mixed within the same symbol.
613 * Since 'C' is both a qualifier and a data type, I suspect that
614 * convention 1 allows specifying e.g. 'volatile signed char*'. In
615 * convention 2 this would be 'CC' which is ambiguous (i.e. Is it two
616 * pointers, or a single pointer + modifier?). In convention 1 it
617 * is encoded as '?CC' which is not ambiguous. This probably
618 * holds true for some other types as well.
621 /*******************************************************************
622 * get_constraints_convention_1
624 * Get type constraint information for a data type
626 static char *get_constraints_convention_1 (char **str, compound_type *ct)
628 char *iter = *str, **retval = str;
630 if (ct->have_qualifiers)
631 return (char *)*str; /* Previously got constraints for this type */
633 if (*iter == '?' || *iter == 'A')
635 ct->have_qualifiers = 1;
636 ct->flags |= (*iter++ == '?' ? 0 : CT_BY_REFERENCE);
638 switch (*iter++)
640 case 'A' :
641 break; /* non-const, non-volatile */
642 case 'B' :
643 ct->flags |= CT_CONST;
644 break;
645 case 'C' :
646 ct->flags |= CT_VOLATILE;
647 break;
648 default :
649 return NULL;
653 return (char *)(*retval = iter);
657 /*******************************************************************
658 * get_constraints_convention_2
660 * Get type constraint information for a data type
662 static char *get_constraints_convention_2 (char **str, compound_type *ct)
664 char *iter = *str, **retval = str;
666 /* FIXME: Why do arrays have both convention 1 & 2 constraints? */
667 if (ct->have_qualifiers && ct->dest_type != 'Q')
668 return (char *)*str; /* Previously got constraints for this type */
670 ct->have_qualifiers = 1; /* Even if none, we've got all we're getting */
672 switch (*iter)
674 case 'A' :
675 if (iter[1] != 'A' && iter[1] != 'B' && iter[1] != 'C')
676 iter++;
677 break;
678 case 'B' :
679 ct->flags |= CT_CONST;
680 iter++;
681 break;
682 case 'C' :
683 /* See note above, if we find 'C' it is _not_ a signed char */
684 ct->flags |= CT_VOLATILE;
685 iter++;
686 break;
689 return (char *)(*retval = iter);
693 /*******************************************************************
694 * get_type_string
696 * Return a string containing the name of a data type
698 static char *get_type_string (const char c, const int constraints)
700 const char *type_string;
702 if (constraints & CT_EXTENDED)
704 switch (c)
706 case 'D': type_string = "__int8"; break;
707 case 'E': type_string = "unsigned __int8"; break;
708 case 'F': type_string = "__int16"; break;
709 case 'G': type_string = "unsigned __int16"; break;
710 case 'H': type_string = "__int32"; break;
711 case 'I': type_string = "unsigned __int32"; break;
712 case 'J': type_string = "__int64"; break;
713 case 'K': type_string = "unsigned __int64"; break;
714 case 'L': type_string = "__int128"; break;
715 case 'M': type_string = "unsigned __int128"; break;
716 case 'N': type_string = "int"; break; /* bool */
717 case 'W': type_string = "WCHAR"; break; /* wchar_t */
718 default:
719 return NULL;
722 else
724 switch (c)
726 case 'C': /* Signed char, fall through */
727 case 'D': type_string = "char"; break;
728 case 'E': type_string = "unsigned char"; break;
729 case 'F': type_string = "short int"; break;
730 case 'G': type_string = "unsigned short int"; break;
731 case 'H': type_string = "int"; break;
732 case 'I': type_string = "unsigned int"; break;
733 case 'J': type_string = "long"; break;
734 case 'K': type_string = "unsigned long"; break;
735 case 'M': type_string = "float"; break;
736 case 'N': type_string = "double"; break;
737 case 'O': type_string = "long double"; break;
738 /* FIXME: T = union */
739 case 'U':
740 case 'V': type_string = "struct"; break;
741 case 'X': return strdup ("void");
742 case 'Z': return strdup ("...");
743 default:
744 return NULL;
748 return str_create (3, constraints & CT_CONST ? "const " :
749 constraints & CT_VOLATILE ? "volatile " : "", type_string,
750 constraints & CT_BY_REFERENCE ? " *" : "");
754 /*******************************************************************
755 * get_type_constant
757 * Get the ARG_* constant for this data type
759 static int get_type_constant (const char c, const int constraints)
761 /* Any reference type is really a pointer */
762 if (constraints & CT_BY_REFERENCE)
763 return ARG_POINTER;
765 switch (c)
767 case 'C': case 'D': case 'E': case 'F': case 'G': case 'H': case 'I':
768 case 'J': case 'K':
769 return ARG_LONG;
770 case 'M':
771 return ARG_FLOAT;
772 case 'N': case 'O':
773 return ARG_DOUBLE;
774 case 'P': case 'Q':
775 return ARG_POINTER;
776 case 'U': case 'V':
777 return ARG_STRUCT;
778 case 'X':
779 return ARG_VOID;
780 case 'Z':
781 default:
782 return -1;
787 /*******************************************************************
788 * get_pointer_type_string
790 * Return a string containing 'pointer to expression'
792 static char *get_pointer_type_string (compound_type *ct,
793 const char *expression)
795 /* FIXME: set a compound flag for bracketing expression if needed */
796 return str_create (3, ct->flags & CT_CONST ? "const " :
797 ct->flags & CT_VOLATILE ? "volatile " : "", expression,
798 ct->flags & CT_BY_REFERENCE ? " **" : " *");