/* Demangler for GNU C++ Copyright 1989, 1991, 1994, 1995, 1996, 1997 Free Software Foundation, Inc. Written by James Clark (jjc@jclark.uucp) Rewritten by Fred Fish (fnf@cygnus.com) for ARM and Lucid demangling This file is part of the libiberty library. Libiberty is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. Libiberty is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with libiberty; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* This file exports two functions; cplus_mangle_opname and cplus_demangle. This file imports xmalloc and xrealloc, which are like malloc and realloc except that they generate a fatal error if there is no available memory. */ /* This file lives in both GCC and libiberty. When making changes, please try not to break either. */ #include #include #include #include #ifdef HAVE_STDLIB_H #include #endif #include #undef CURRENT_DEMANGLING_STYLE #define CURRENT_DEMANGLING_STYLE work->options extern char *xmalloc PARAMS((unsigned)); extern char *xrealloc PARAMS((char *, unsigned)); static const char *mystrstr PARAMS ((const char *, const char *)); static const char * mystrstr (s1, s2) const char *s1, *s2; { register const char *p = s1; register int len = strlen (s2); for (; (p = strchr (p, *s2)) != 0; p++) { if (strncmp (p, s2, len) == 0) { return (p); } } return (0); } /* In order to allow a single demangler executable to demangle strings using various common values of CPLUS_MARKER, as well as any specific one set at compile time, we maintain a string containing all the commonly used ones, and check to see if the marker we are looking for is in that string. CPLUS_MARKER is usually '$' on systems where the assembler can deal with that. Where the assembler can't, it's usually '.' (but on many systems '.' is used for other things). We put the current defined CPLUS_MARKER first (which defaults to '$'), followed by the next most common value, followed by an explicit '$' in case the value of CPLUS_MARKER is not '$'. We could avoid this if we could just get g++ to tell us what the actual cplus marker character is as part of the debug information, perhaps by ensuring that it is the character that terminates the gcc_compiled marker symbol (FIXME). */ #if !defined (CPLUS_MARKER) #define CPLUS_MARKER '$' #endif enum demangling_styles current_demangling_style = gnu_demangling; static char cplus_markers[] = { CPLUS_MARKER, '.', '$', '\0' }; void set_cplus_marker_for_demangling (ch) int ch; { cplus_markers[0] = ch; } /* Stuff that is shared between sub-routines. Using a shared structure allows cplus_demangle to be reentrant. */ struct work_stuff { int options; char **typevec; char **ktypevec; char **btypevec; int numk; int numb; int ksize; int bsize; int ntypes; int typevec_size; int constructor; int destructor; int static_type; /* A static member function */ int const_type; /* A const member function */ char **tmpl_argvec; /* Template function arguments. */ int ntmpl_args; /* The number of template function arguments. */ }; #define PRINT_ANSI_QUALIFIERS (work -> options & DMGL_ANSI) #define PRINT_ARG_TYPES (work -> options & DMGL_PARAMS) static const struct optable { const char *in; const char *out; int flags; } optable[] = { {"nw", " new", DMGL_ANSI}, /* new (1.92, ansi) */ {"dl", " delete", DMGL_ANSI}, /* new (1.92, ansi) */ {"new", " new", 0}, /* old (1.91, and 1.x) */ {"delete", " delete", 0}, /* old (1.91, and 1.x) */ {"vn", " new []", DMGL_ANSI}, /* GNU, pending ansi */ {"vd", " delete []", DMGL_ANSI}, /* GNU, pending ansi */ {"as", "=", DMGL_ANSI}, /* ansi */ {"ne", "!=", DMGL_ANSI}, /* old, ansi */ {"eq", "==", DMGL_ANSI}, /* old, ansi */ {"ge", ">=", DMGL_ANSI}, /* old, ansi */ {"gt", ">", DMGL_ANSI}, /* old, ansi */ {"le", "<=", DMGL_ANSI}, /* old, ansi */ {"lt", "<", DMGL_ANSI}, /* old, ansi */ {"plus", "+", 0}, /* old */ {"pl", "+", DMGL_ANSI}, /* ansi */ {"apl", "+=", DMGL_ANSI}, /* ansi */ {"minus", "-", 0}, /* old */ {"mi", "-", DMGL_ANSI}, /* ansi */ {"ami", "-=", DMGL_ANSI}, /* ansi */ {"mult", "*", 0}, /* old */ {"ml", "*", DMGL_ANSI}, /* ansi */ {"amu", "*=", DMGL_ANSI}, /* ansi (ARM/Lucid) */ {"aml", "*=", DMGL_ANSI}, /* ansi (GNU/g++) */ {"convert", "+", 0}, /* old (unary +) */ {"negate", "-", 0}, /* old (unary -) */ {"trunc_mod", "%", 0}, /* old */ {"md", "%", DMGL_ANSI}, /* ansi */ {"amd", "%=", DMGL_ANSI}, /* ansi */ {"trunc_div", "/", 0}, /* old */ {"dv", "/", DMGL_ANSI}, /* ansi */ {"adv", "/=", DMGL_ANSI}, /* ansi */ {"truth_andif", "&&", 0}, /* old */ {"aa", "&&", DMGL_ANSI}, /* ansi */ {"truth_orif", "||", 0}, /* old */ {"oo", "||", DMGL_ANSI}, /* ansi */ {"truth_not", "!", 0}, /* old */ {"nt", "!", DMGL_ANSI}, /* ansi */ {"postincrement","++", 0}, /* old */ {"pp", "++", DMGL_ANSI}, /* ansi */ {"postdecrement","--", 0}, /* old */ {"mm", "--", DMGL_ANSI}, /* ansi */ {"bit_ior", "|", 0}, /* old */ {"or", "|", DMGL_ANSI}, /* ansi */ {"aor", "|=", DMGL_ANSI}, /* ansi */ {"bit_xor", "^", 0}, /* old */ {"er", "^", DMGL_ANSI}, /* ansi */ {"aer", "^=", DMGL_ANSI}, /* ansi */ {"bit_and", "&", 0}, /* old */ {"ad", "&", DMGL_ANSI}, /* ansi */ {"aad", "&=", DMGL_ANSI}, /* ansi */ {"bit_not", "~", 0}, /* old */ {"co", "~", DMGL_ANSI}, /* ansi */ {"call", "()", 0}, /* old */ {"cl", "()", DMGL_ANSI}, /* ansi */ {"alshift", "<<", 0}, /* old */ {"ls", "<<", DMGL_ANSI}, /* ansi */ {"als", "<<=", DMGL_ANSI}, /* ansi */ {"arshift", ">>", 0}, /* old */ {"rs", ">>", DMGL_ANSI}, /* ansi */ {"ars", ">>=", DMGL_ANSI}, /* ansi */ {"component", "->", 0}, /* old */ {"pt", "->", DMGL_ANSI}, /* ansi; Lucid C++ form */ {"rf", "->", DMGL_ANSI}, /* ansi; ARM/GNU form */ {"indirect", "*", 0}, /* old */ {"method_call", "->()", 0}, /* old */ {"addr", "&", 0}, /* old (unary &) */ {"array", "[]", 0}, /* old */ {"vc", "[]", DMGL_ANSI}, /* ansi */ {"compound", ", ", 0}, /* old */ {"cm", ", ", DMGL_ANSI}, /* ansi */ {"cond", "?:", 0}, /* old */ {"cn", "?:", DMGL_ANSI}, /* pseudo-ansi */ {"max", ">?", 0}, /* old */ {"mx", ">?", DMGL_ANSI}, /* pseudo-ansi */ {"min", "*", DMGL_ANSI}, /* ansi */ {"sz", "sizeof ", DMGL_ANSI} /* pseudo-ansi */ }; typedef struct string /* Beware: these aren't required to be */ { /* '\0' terminated. */ char *b; /* pointer to start of string */ char *p; /* pointer after last character */ char *e; /* pointer after end of allocated space */ } string; #define STRING_EMPTY(str) ((str) -> b == (str) -> p) #define PREPEND_BLANK(str) {if (!STRING_EMPTY(str)) \ string_prepend(str, " ");} #define APPEND_BLANK(str) {if (!STRING_EMPTY(str)) \ string_append(str, " ");} #define LEN_STRING(str) ( (STRING_EMPTY(str))?0:((str)->p - (str)->b)) #define ARM_VTABLE_STRING "__vtbl__" /* Lucid/ARM virtual table prefix */ #define ARM_VTABLE_STRLEN 8 /* strlen (ARM_VTABLE_STRING) */ /* Prototypes for local functions */ static char * mop_up PARAMS ((struct work_stuff *, string *, int)); static void squangle_mop_up PARAMS ((struct work_stuff *)); #if 0 static int demangle_method_args PARAMS ((struct work_stuff *, const char **, string *)); #endif static char * internal_cplus_demangle PARAMS ((struct work_stuff *, const char *)); static int demangle_template_template_parm PARAMS ((struct work_stuff *work, const char **, string *)); static int demangle_template PARAMS ((struct work_stuff *work, const char **, string *, string *, int)); static int arm_pt PARAMS ((struct work_stuff *, const char *, int, const char **, const char **)); static void demangle_arm_pt PARAMS ((struct work_stuff *, const char **, int, string *)); static int demangle_class_name PARAMS ((struct work_stuff *, const char **, string *)); static int demangle_qualified PARAMS ((struct work_stuff *, const char **, string *, int, int)); static int demangle_class PARAMS ((struct work_stuff *, const char **, string *)); static int demangle_fund_type PARAMS ((struct work_stuff *, const char **, string *)); static int demangle_signature PARAMS ((struct work_stuff *, const char **, string *)); static int demangle_prefix PARAMS ((struct work_stuff *, const char **, string *)); static int gnu_special PARAMS ((struct work_stuff *, const char **, string *)); static int arm_special PARAMS ((const char **, string *)); static void string_need PARAMS ((string *, int)); static void string_delete PARAMS ((string *)); static void string_init PARAMS ((string *)); static void string_clear PARAMS ((string *)); #if 0 static int string_empty PARAMS ((string *)); #endif static void string_append PARAMS ((string *, const char *)); static void string_appends PARAMS ((string *, string *)); static void string_appendn PARAMS ((string *, const char *, int)); static void string_prepend PARAMS ((string *, const char *)); static void string_prependn PARAMS ((string *, const char *, int)); static int get_count PARAMS ((const char **, int *)); static int consume_count PARAMS ((const char **)); static int consume_count_with_underscores PARAMS ((const char**)); static int demangle_args PARAMS ((struct work_stuff *, const char **, string *)); static int do_type PARAMS ((struct work_stuff *, const char **, string *)); static int do_arg PARAMS ((struct work_stuff *, const char **, string *)); static void demangle_function_name PARAMS ((struct work_stuff *, const char **, string *, const char *)); static void remember_type PARAMS ((struct work_stuff *, const char *, int)); static void remember_Btype PARAMS ((struct work_stuff *, const char *, int, int)); static int register_Btype PARAMS ((struct work_stuff *)); static void remember_Ktype PARAMS ((struct work_stuff *, const char *, int)); static void forget_types PARAMS ((struct work_stuff *)); static void forget_B_and_K_types PARAMS ((struct work_stuff *)); static void string_prepends PARAMS ((string *, string *)); static int demangle_template_value_parm PARAMS ((struct work_stuff*, const char**, string*)); /* Translate count to integer, consuming tokens in the process. Conversion terminates on the first non-digit character. Trying to consume something that isn't a count results in no consumption of input and a return of 0. */ static int consume_count (type) const char **type; { int count = 0; while (isdigit (**type)) { count *= 10; count += **type - '0'; (*type)++; } return (count); } /* Like consume_count, but for counts that are preceded and followed by '_' if they are greater than 10. Also, -1 is returned for failure, since 0 can be a valid value. */ static int consume_count_with_underscores (mangled) const char **mangled; { int idx; if (**mangled == '_') { (*mangled)++; if (!isdigit (**mangled)) return -1; idx = consume_count (mangled); if (**mangled != '_') /* The trailing underscore was missing. */ return -1; (*mangled)++; } else { if (**mangled < '0' || **mangled > '9') return -1; idx = **mangled - '0'; (*mangled)++; } return idx; } int cplus_demangle_opname (opname, result, options) const char *opname; char *result; int options; { int len, len1, ret; string type; struct work_stuff work[1]; const char *tem; len = strlen(opname); result[0] = '\0'; ret = 0; memset ((char *) work, 0, sizeof (work)); work->options = options; if (opname[0] == '_' && opname[1] == '_' && opname[2] == 'o' && opname[3] == 'p') { /* ANSI. */ /* type conversion operator. */ tem = opname + 4; if (do_type (work, &tem, &type)) { strcat (result, "operator "); strncat (result, type.b, type.p - type.b); string_delete (&type); ret = 1; } } else if (opname[0] == '_' && opname[1] == '_' && opname[2] >= 'a' && opname[2] <= 'z' && opname[3] >= 'a' && opname[3] <= 'z') { if (opname[4] == '\0') { /* Operator. */ size_t i; for (i = 0; i < sizeof (optable) / sizeof (optable[0]); i++) { if (strlen (optable[i].in) == 2 && memcmp (optable[i].in, opname + 2, 2) == 0) { strcat (result, "operator"); strcat (result, optable[i].out); ret = 1; break; } } } else { if (opname[2] == 'a' && opname[5] == '\0') { /* Assignment. */ size_t i; for (i = 0; i < sizeof (optable) / sizeof (optable[0]); i++) { if (strlen (optable[i].in) == 3 && memcmp (optable[i].in, opname + 2, 3) == 0) { strcat (result, "operator"); strcat (result, optable[i].out); ret = 1; break; } } } } } else if (len >= 3 && opname[0] == 'o' && opname[1] == 'p' && strchr (cplus_markers, opname[2]) != NULL) { /* see if it's an assignment expression */ if (len >= 10 /* op$assign_ */ && memcmp (opname + 3, "assign_", 7) == 0) { size_t i; for (i = 0; i < sizeof (optable) / sizeof (optable[0]); i++) { len1 = len - 10; if (strlen (optable[i].in) == len1 && memcmp (optable[i].in, opname + 10, len1) == 0) { strcat (result, "operator"); strcat (result, optable[i].out); strcat (result, "="); ret = 1; break; } } } else { size_t i; for (i = 0; i < sizeof (optable) / sizeof (optable[0]); i++) { len1 = len - 3; if (strlen (optable[i].in) == len1 && memcmp (optable[i].in, opname + 3, len1) == 0) { strcat (result, "operator"); strcat (result, optable[i].out); ret = 1; break; } } } } else if (len >= 5 && memcmp (opname, "type", 4) == 0 && strchr (cplus_markers, opname[4]) != NULL) { /* type conversion operator */ tem = opname + 5; if (do_type (work, &tem, &type)) { strcat (result, "operator "); strncat (result, type.b, type.p - type.b); string_delete (&type); ret = 1; } } squangle_mop_up (work); return ret; } /* Takes operator name as e.g. "++" and returns mangled operator name (e.g. "postincrement_expr"), or NULL if not found. If OPTIONS & DMGL_ANSI == 1, return the ANSI name; if OPTIONS & DMGL_ANSI == 0, return the old GNU name. */ const char * cplus_mangle_opname (opname, options) const char *opname; int options; { size_t i; int len; len = strlen (opname); for (i = 0; i < sizeof (optable) / sizeof (optable[0]); i++) { if (strlen (optable[i].out) == len && (options & DMGL_ANSI) == (optable[i].flags & DMGL_ANSI) && memcmp (optable[i].out, opname, len) == 0) return optable[i].in; } return (0); } /* char *cplus_demangle (const char *mangled, int options) If MANGLED is a mangled function name produced by GNU C++, then a pointer to a malloced string giving a C++ representation of the name will be returned; otherwise NULL will be returned. It is the caller's responsibility to free the string which is returned. The OPTIONS arg may contain one or more of the following bits: DMGL_ANSI ANSI qualifiers such as `const' and `void' are included. DMGL_PARAMS Function parameters are included. For example, cplus_demangle ("foo__1Ai", DMGL_PARAMS) => "A::foo(int)" cplus_demangle ("foo__1Ai", DMGL_PARAMS | DMGL_ANSI) => "A::foo(int)" cplus_demangle ("foo__1Ai", 0) => "A::foo" cplus_demangle ("foo__1Afe", DMGL_PARAMS) => "A::foo(float,...)" cplus_demangle ("foo__1Afe", DMGL_PARAMS | DMGL_ANSI)=> "A::foo(float,...)" cplus_demangle ("foo__1Afe", 0) => "A::foo" Note that any leading underscores, or other such characters prepended by the compilation system, are presumed to have already been stripped from MANGLED. */ char * cplus_demangle (mangled, options) const char *mangled; int options; { char *ret; struct work_stuff work[1]; memset ((char *) work, 0, sizeof (work)); work -> options = options; if ((work -> options & DMGL_STYLE_MASK) == 0) work -> options |= (int) current_demangling_style & DMGL_STYLE_MASK; ret = internal_cplus_demangle (work, mangled); squangle_mop_up (work); return (ret); } /* This function performs most of what cplus_demangle use to do, but to be able to demangle a name with a B, K or n code, we need to have a longer term memory of what types have been seen. The original now intializes and cleans up the squangle code info, while internal calls go directly to this routine to avoid resetting that info. */ static char * internal_cplus_demangle (work, mangled) struct work_stuff *work; const char *mangled; { string decl; int success = 0; char *demangled = NULL; int s1,s2,s3,s4; s1 = work->constructor; s2 = work->destructor; s3 = work->static_type; s4 = work->const_type; work->constructor = work->destructor = 0; work->static_type = work->const_type = 0; if ((mangled != NULL) && (*mangled != '\0')) { string_init (&decl); /* First check to see if gnu style demangling is active and if the string to be demangled contains a CPLUS_MARKER. If so, attempt to recognize one of the gnu special forms rather than looking for a standard prefix. In particular, don't worry about whether there is a "__" string in the mangled string. Consider "_$_5__foo" for example. */ if ((AUTO_DEMANGLING || GNU_DEMANGLING)) { success = gnu_special (work, &mangled, &decl); } if (!success) { success = demangle_prefix (work, &mangled, &decl); } if (success && (*mangled != '\0')) { success = demangle_signature (work, &mangled, &decl); } if (work->constructor == 2) { string_prepend (&decl, "global constructors keyed to "); work->constructor = 0; } else if (work->destructor == 2) { string_prepend (&decl, "global destructors keyed to "); work->destructor = 0; } demangled = mop_up (work, &decl, success); } work->constructor = s1; work->destructor = s2; work->static_type = s3; work->const_type = s4; return (demangled); } /* Clear out and squangling related storage */ static void squangle_mop_up (work) struct work_stuff *work; { /* clean up the B and K type mangling types. */ forget_B_and_K_types (work); if (work -> btypevec != NULL) { free ((char *) work -> btypevec); } if (work -> ktypevec != NULL) { free ((char *) work -> ktypevec); } } /* Clear out any mangled storage */ static char * mop_up (work, declp, success) struct work_stuff *work; string *declp; int success; { char *demangled = NULL; /* Discard the remembered types, if any. */ forget_types (work); if (work -> typevec != NULL) { free ((char *) work -> typevec); work -> typevec = NULL; } if (work->tmpl_argvec) { int i; for (i = 0; i < work->ntmpl_args; i++) if (work->tmpl_argvec[i]) free ((char*) work->tmpl_argvec[i]); free ((char*) work->tmpl_argvec); work->tmpl_argvec = NULL; } /* If demangling was successful, ensure that the demangled string is null terminated and return it. Otherwise, free the demangling decl. */ if (!success) { string_delete (declp); } else { string_appendn (declp, "", 1); demangled = declp -> b; } return (demangled); } /* LOCAL FUNCTION demangle_signature -- demangle the signature part of a mangled name SYNOPSIS static int demangle_signature (struct work_stuff *work, const char **mangled, string *declp); DESCRIPTION Consume and demangle the signature portion of the mangled name. DECLP is the string where demangled output is being built. At entry it contains the demangled root name from the mangled name prefix. I.E. either a demangled operator name or the root function name. In some special cases, it may contain nothing. *MANGLED points to the current unconsumed location in the mangled name. As tokens are consumed and demangling is performed, the pointer is updated to continuously point at the next token to be consumed. Demangling GNU style mangled names is nasty because there is no explicit token that marks the start of the outermost function argument list. */ static int demangle_signature (work, mangled, declp) struct work_stuff *work; const char **mangled; string *declp; { int success = 1; int func_done = 0; int expect_func = 0; int expect_return_type = 0; const char *oldmangled = NULL; string trawname; string tname; while (success && (**mangled != '\0')) { switch (**mangled) { case 'Q': oldmangled = *mangled; success = demangle_qualified (work, mangled, declp, 1, 0); if (success) { remember_type (work, oldmangled, *mangled - oldmangled); } if (AUTO_DEMANGLING || GNU_DEMANGLING) { expect_func = 1; } oldmangled = NULL; break; case 'K': oldmangled = *mangled; success = demangle_qualified (work, mangled, declp, 1, 0); if (AUTO_DEMANGLING || GNU_DEMANGLING) { expect_func = 1; } oldmangled = NULL; break; case 'S': /* Static member function */ if (oldmangled == NULL) { oldmangled = *mangled; } (*mangled)++; work -> static_type = 1; break; case 'C': /* a const member function */ if (oldmangled == NULL) { oldmangled = *mangled; } (*mangled)++; work -> const_type = 1; break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': if (oldmangled == NULL) { oldmangled = *mangled; } success = demangle_class (work, mangled, declp); if (success) { remember_type (work, oldmangled, *mangled - oldmangled); } if (AUTO_DEMANGLING || GNU_DEMANGLING) { expect_func = 1; } oldmangled = NULL; break; case 'F': /* Function */ /* ARM style demangling includes a specific 'F' character after the class name. For GNU style, it is just implied. So we can safely just consume any 'F' at this point and be compatible with either style. */ oldmangled = NULL; func_done = 1; (*mangled)++; /* For lucid/ARM style we have to forget any types we might have remembered up to this point, since they were not argument types. GNU style considers all types seen as available for back references. See comment in demangle_args() */ if (LUCID_DEMANGLING || ARM_DEMANGLING) { forget_types (work); } success = demangle_args (work, mangled, declp); break; case 't': /* G++ Template */ string_init(&trawname); string_init(&tname); if (oldmangled == NULL) { oldmangled = *mangled; } success = demangle_template (work, mangled, &tname, &trawname, 1); if (success) { remember_type (work, oldmangled, *mangled - oldmangled); } string_append (&tname, "::"); string_prepends(declp, &tname); if (work -> destructor & 1) { string_prepend (&trawname, "~"); string_appends (declp, &trawname); work->destructor -= 1; } if ((work->constructor & 1) || (work->destructor & 1)) { string_appends (declp, &trawname); work->constructor -= 1; } string_delete(&trawname); string_delete(&tname); oldmangled = NULL; expect_func = 1; break; case '_': if (GNU_DEMANGLING && expect_return_type) { /* Read the return type. */ string return_type; string_init (&return_type); (*mangled)++; success = do_type (work, mangled, &return_type); APPEND_BLANK (&return_type); string_prepends (declp, &return_type); string_delete (&return_type); break; } else /* At the outermost level, we cannot have a return type specified, so if we run into another '_' at this point we are dealing with a mangled name that is either bogus, or has been mangled by some algorithm we don't know how to deal with. So just reject the entire demangling. */ success = 0; break; case 'H': if (GNU_DEMANGLING) { /* A G++ template function. Read the template arguments. */ success = demangle_template (work, mangled, declp, 0, 0); if (!(work->constructor & 1)) expect_return_type = 1; (*mangled)++; break; } else /* fall through */ {;} default: if (AUTO_DEMANGLING || GNU_DEMANGLING) { /* Assume we have stumbled onto the first outermost function argument token, and start processing args. */ func_done = 1; success = demangle_args (work, mangled, declp); } else { /* Non-GNU demanglers use a specific token to mark the start of the outermost function argument tokens. Typically 'F', for ARM-demangling, for example. So if we find something we are not prepared for, it must be an error. */ success = 0; } break; } /* if (AUTO_DEMANGLING || GNU_DEMANGLING) */ { if (success && expect_func) { func_done = 1; success = demangle_args (work, mangled, declp); /* Since template include the mangling of their return types, we must set expect_func to 0 so that we don't try do demangle more arguments the next time we get here. */ expect_func = 0; } } } if (success && !func_done) { if (AUTO_DEMANGLING || GNU_DEMANGLING) { /* With GNU style demangling, bar__3foo is 'foo::bar(void)', and bar__3fooi is 'foo::bar(int)'. We get here when we find the first case, and need to ensure that the '(void)' gets added to the current declp. Note that with ARM, the first case represents the name of a static data member 'foo::bar', which is in the current declp, so we leave it alone. */ success = demangle_args (work, mangled, declp); } } if (success && work -> static_type && PRINT_ARG_TYPES) { string_append (declp, " static"); } if (success && work -> const_type && PRINT_ARG_TYPES) { string_append (declp, " const"); } return (success); } #if 0 static int demangle_method_args (work, mangled, declp) struct work_stuff *work; const char **mangled; string *declp; { int success = 0; if (work -> static_type) { string_append (declp, *mangled + 1); *mangled += strlen (*mangled); success = 1; } else { success = demangle_args (work, mangled, declp); } return (success); } #endif static int demangle_template_template_parm (work, mangled, tname) struct work_stuff *work; const char **mangled; string *tname; { int i; int r; int need_comma = 0; int success = 1; string temp; string_append (tname, "template <"); /* get size of template parameter list */ if (get_count (mangled, &r)) { for (i = 0; i < r; i++) { if (need_comma) { string_append (tname, ", "); } /* Z for type parameters */ if (**mangled == 'Z') { (*mangled)++; string_append (tname, "class"); } /* z for template parameters */ else if (**mangled == 'z') { (*mangled)++; success = demangle_template_template_parm (work, mangled, tname); if (!success) { break; } } else { /* temp is initialized in do_type */ success = do_type (work, mangled, &temp); if (success) { string_appends (tname, &temp); } string_delete(&temp); if (!success) { break; } } need_comma = 1; } } if (tname->p[-1] == '>') string_append (tname, " "); string_append (tname, "> class"); return (success); } static int demangle_integral_value (work, mangled, s) struct work_stuff *work; const char** mangled; string* s; { int success; if (**mangled == 'E') { int need_operator = 0; success = 1; string_appendn (s, "(", 1); (*mangled)++; while (success && **mangled != 'W' && **mangled != '\0') { if (need_operator) { size_t i; size_t len; success = 0; len = strlen (*mangled); for (i = 0; i < sizeof (optable) / sizeof (optable [0]); ++i) { size_t l = strlen (optable[i].in); if (l <= len && memcmp (optable[i].in, *mangled, l) == 0) { string_appendn (s, " ", 1); string_append (s, optable[i].out); string_appendn (s, " ", 1); success = 1; (*mangled) += l; break; } } if (!success) break; } else need_operator = 1; success = demangle_template_value_parm (work, mangled, s); } if (**mangled != 'W') success = 0; else { string_appendn (s, ")", 1); (*mangled)++; } } else if (**mangled == 'Q' || **mangled == 'K') success = demangle_qualified (work, mangled, s, 0, 1); else { success = 0; if (**mangled == 'm') { string_appendn (s, "-", 1); (*mangled)++; } while (isdigit (**mangled)) { string_appendn (s, *mangled, 1); (*mangled)++; success = 1; } } return success; } static int demangle_template_value_parm (work, mangled, s) struct work_stuff *work; const char **mangled; string* s; { const char *old_p = *mangled; int is_pointer = 0; int is_real = 0; int is_integral = 0; int is_char = 0; int is_bool = 0; int done = 0; int success = 1; while (*old_p && !done) { switch (*old_p) { case 'P': case 'p': case 'R': done = is_pointer = 1; break; case 'C': /* const */ case 'S': /* explicitly signed [char] */ case 'U': /* unsigned */ case 'V': /* volatile */ case 'F': /* function */ case 'M': /* member function */ case 'O': /* ??? */ case 'J': /* complex */ old_p++; continue; case 'E': /* expression */ case 'Q': /* qualified name */ case 'K': /* qualified name */ done = is_integral = 1; break; case 'B': /* squangled name */ done = is_integral = 1; break; case 'T': /* remembered type */ abort (); break; case 'v': /* void */ abort (); break; case 'x': /* long long */ case 'l': /* long */ case 'i': /* int */ case 's': /* short */ case 'w': /* wchar_t */ done = is_integral = 1; break; case 'b': /* bool */ done = is_bool = 1; break; case 'c': /* char */ done = is_char = 1; break; case 'r': /* long double */ case 'd': /* double */ case 'f': /* float */ done = is_real = 1; break; default: /* it's probably user defined type, let's assume it's integral, it seems hard to figure out what it really is */ done = is_integral = 1; } } if (**mangled == 'Y') { /* The next argument is a template parameter. */ int idx; (*mangled)++; idx = consume_count_with_underscores (mangled); if (idx == -1 || (work->tmpl_argvec && idx >= work->ntmpl_args) || consume_count_with_underscores (mangled) == -1) return -1; if (work->tmpl_argvec) string_append (s, work->tmpl_argvec[idx]); else { char buf[10]; sprintf(buf, "T%d", idx); string_append (s, buf); } } else if (is_integral) success = demangle_integral_value (work, mangled, s); else if (is_char) { char tmp[2]; int val; if (**mangled == 'm') { string_appendn (s, "-", 1); (*mangled)++; } string_appendn (s, "'", 1); val = consume_count(mangled); if (val == 0) return -1; tmp[0] = (char)val; tmp[1] = '\0'; string_appendn (s, &tmp[0], 1); string_appendn (s, "'", 1); } else if (is_bool) { int val = consume_count (mangled); if (val == 0) string_appendn (s, "false", 5); else if (val == 1) string_appendn (s, "true", 4); else success = 0; } else if (is_real) { if (**mangled == 'm') { string_appendn (s, "-", 1); (*mangled)++; } while (isdigit (**mangled)) { string_appendn (s, *mangled, 1); (*mangled)++; } if (**mangled == '.') /* fraction */ { string_appendn (s, ".", 1); (*mangled)++; while (isdigit (**mangled)) { string_appendn (s, *mangled, 1); (*mangled)++; } } if (**mangled == 'e') /* exponent */ { string_appendn (s, "e", 1); (*mangled)++; while (isdigit (**mangled)) { string_appendn (s, *mangled, 1); (*mangled)++; } } } else if (is_pointer) { int symbol_len = consume_count (mangled); if (symbol_len == 0) return -1; if (symbol_len == 0) string_appendn (s, "0", 1); else { char *p = xmalloc (symbol_len + 1), *q; strncpy (p, *mangled, symbol_len); p [symbol_len] = '\0'; q = internal_cplus_demangle (work, p); string_appendn (s, "&", 1); if (q) { string_append (s, q); free (q); } else string_append (s, p); free (p); } *mangled += symbol_len; } return success; } static int demangle_template (work, mangled, tname, trawname, is_type) struct work_stuff *work; const char **mangled; string *tname; string *trawname; int is_type; { int i; int r; int need_comma = 0; int success = 0; const char *start; string temp; (*mangled)++; if (is_type) { start = *mangled; /* get template name */ if (**mangled == 'z') { int idx; (*mangled)++; (*mangled)++; idx = consume_count_with_underscores (mangled); if (idx == -1 || (work->tmpl_argvec && idx >= work->ntmpl_args) || consume_count_with_underscores (mangled) == -1) { return (0); } if (work->tmpl_argvec) { string_append (tname, work->tmpl_argvec[idx]); if (trawname) string_append (trawname, work->tmpl_argvec[idx]); } else { char buf[10]; sprintf(buf, "T%d", idx); string_append (tname, buf); if (trawname) string_append (trawname, work->tmpl_argvec[idx]); } } else { if ((r = consume_count (mangled)) == 0 || strlen (*mangled) < r) { return (0); } if (trawname) string_appendn (trawname, *mangled, r); string_appendn (tname, *mangled, r); *mangled += r; } } string_append (tname, "<"); /* get size of template parameter list */ if (!get_count (mangled, &r)) { return (0); } if (!is_type) { /* Create an array for saving the template argument values. */ work->tmpl_argvec = (char**) xmalloc (r * sizeof (char *)); work->ntmpl_args = r; for (i = 0; i < r; i++) work->tmpl_argvec[i] = 0; } for (i = 0; i < r; i++) { if (need_comma) { string_append (tname, ", "); } /* Z for type parameters */ if (**mangled == 'Z') { (*mangled)++; /* temp is initialized in do_type */ success = do_type (work, mangled, &temp); if (success) { string_appends (tname, &temp); if (!is_type) { /* Save the template argument. */ int len = temp.p - temp.b; work->tmpl_argvec[i] = xmalloc (len + 1); memcpy (work->tmpl_argvec[i], temp.b, len); work->tmpl_argvec[i][len] = '\0'; } } string_delete(&temp); if (!success) { break; } } /* z for template parameters */ else if (**mangled == 'z') { int r2; (*mangled)++; success = demangle_template_template_parm (work, mangled, tname); if (success && (r2 = consume_count (mangled)) > 0 && strlen (*mangled) >= r2) { string_append (tname, " "); string_appendn (tname, *mangled, r2); if (!is_type) { /* Save the template argument. */ int len = r2; work->tmpl_argvec[i] = xmalloc (len + 1); memcpy (work->tmpl_argvec[i], *mangled, len); work->tmpl_argvec[i][len] = '\0'; } *mangled += r2; } if (!success) { break; } } else { string param; string* s; /* otherwise, value parameter */ /* temp is initialized in do_type */ success = do_type (work, mangled, &temp); /* if (success) { string_appends (s, &temp); } */ string_delete(&temp); if (!success) { break; } /* string_append (s, "="); */ if (!is_type) { s = ¶m; string_init (s); } else s = tname; success = demangle_template_value_parm (work, mangled, s); if (!success) { if (!is_type) string_delete (s); success = 0; break; } if (!is_type) { int len = s->p - s->b; work->tmpl_argvec[i] = xmalloc (len + 1); memcpy (work->tmpl_argvec[i], s->b, len); work->tmpl_argvec[i][len] = '\0'; string_appends (tname, s); string_delete (s); } } need_comma = 1; } { if (tname->p[-1] == '>') string_append (tname, " "); string_append (tname, ">"); } /* if (work -> static_type) { string_append (declp, *mangled + 1); *mangled += strlen (*mangled); success = 1; } else { success = demangle_args (work, mangled, declp); } } */ return (success); } static int arm_pt (work, mangled, n, anchor, args) struct work_stuff *work; const char *mangled; int n; const char **anchor, **args; { /* ARM template? */ if (ARM_DEMANGLING && (*anchor = mystrstr (mangled, "__pt__"))) { int len; *args = *anchor + 6; len = consume_count (args); if (*args + len == mangled + n && **args == '_') { ++*args; return 1; } } return 0; } static void demangle_arm_pt (work, mangled, n, declp) struct work_stuff *work; const char **mangled; int n; string *declp; { const char *p; const char *args; const char *e = *mangled + n; /* ARM template? */ if (arm_pt (work, *mangled, n, &p, &args)) { string arg; string_init (&arg); string_appendn (declp, *mangled, p - *mangled); string_append (declp, "<"); /* should do error checking here */ while (args < e) { string_clear (&arg); do_type (work, &args, &arg); string_appends (declp, &arg); string_append (declp, ","); } string_delete (&arg); --declp->p; string_append (declp, ">"); } else { string_appendn (declp, *mangled, n); } *mangled += n; } static int demangle_class_name (work, mangled, declp) struct work_stuff *work; const char **mangled; string *declp; { int n; int success = 0; n = consume_count (mangled); if (strlen (*mangled) >= n) { demangle_arm_pt (work, mangled, n, declp); success = 1; } return (success); } /* LOCAL FUNCTION demangle_class -- demangle a mangled class sequence SYNOPSIS static int demangle_class (struct work_stuff *work, const char **mangled, strint *declp) DESCRIPTION DECLP points to the buffer into which demangling is being done. *MANGLED points to the current token to be demangled. On input, it points to a mangled class (I.E. "3foo", "13verylongclass", etc.) On exit, it points to the next token after the mangled class on success, or the first unconsumed token on failure. If the CONSTRUCTOR or DESTRUCTOR flags are set in WORK, then we are demangling a constructor or destructor. In this case we prepend "class::class" or "class::~class" to DECLP. Otherwise, we prepend "class::" to the current DECLP. Reset the constructor/destructor flags once they have been "consumed". This allows demangle_class to be called later during the same demangling, to do normal class demangling. Returns 1 if demangling is successful, 0 otherwise. */ static int demangle_class (work, mangled, declp) struct work_stuff *work; const char **mangled; string *declp; { int success = 0; int btype; string class_name; string_init (&class_name); btype = register_Btype (work); if (demangle_class_name (work, mangled, &class_name)) { if ((work->constructor & 1) || (work->destructor & 1)) { string_prepends (declp, &class_name); if (work -> destructor & 1) { string_prepend (declp, "~"); work -> destructor -= 1; } else { work -> constructor -= 1; } } remember_Ktype (work, class_name.b, LEN_STRING(&class_name)); remember_Btype (work, class_name.b, LEN_STRING(&class_name), btype); string_prepend (declp, "::"); string_prepends (declp, &class_name); success = 1; } string_delete (&class_name); return (success); } /* LOCAL FUNCTION demangle_prefix -- consume the mangled name prefix and find signature SYNOPSIS static int demangle_prefix (struct work_stuff *work, const char **mangled, string *declp); DESCRIPTION Consume and demangle the prefix of the mangled name. DECLP points to the string buffer into which demangled output is placed. On entry, the buffer is empty. On exit it contains the root function name, the demangled operator name, or in some special cases either nothing or the completely demangled result. MANGLED points to the current pointer into the mangled name. As each token of the mangled name is consumed, it is updated. Upon entry the current mangled name pointer points to the first character of the mangled name. Upon exit, it should point to the first character of the signature if demangling was successful, or to the first unconsumed character if demangling of the prefix was unsuccessful. Returns 1 on success, 0 otherwise. */ static int demangle_prefix (work, mangled, declp) struct work_stuff *work; const char **mangled; string *declp; { int success = 1; const char *scan; int i; if (strlen(*mangled) >= 11 && strncmp(*mangled, "_GLOBAL_", 8) == 0) { char *marker = strchr (cplus_markers, (*mangled)[8]); if (marker != NULL && *marker == (*mangled)[10]) { if ((*mangled)[9] == 'D') { /* it's a GNU global destructor to be executed at program exit */ (*mangled) += 11; work->destructor = 2; if (gnu_special (work, mangled, declp)) return success; } else if ((*mangled)[9] == 'I') { /* it's a GNU global constructor to be executed at program init */ (*mangled) += 11; work->constructor = 2; if (gnu_special (work, mangled, declp)) return success; } } } else if (ARM_DEMANGLING && strncmp(*mangled, "__std__", 7) == 0) { /* it's a ARM global destructor to be executed at program exit */ (*mangled) += 7; work->destructor = 2; } else if (ARM_DEMANGLING && strncmp(*mangled, "__sti__", 7) == 0) { /* it's a ARM global constructor to be executed at program initial */ (*mangled) += 7; work->constructor = 2; } /* This block of code is a reduction in strength time optimization of: scan = mystrstr (*mangled, "__"); */ { scan = *mangled; do { scan = strchr (scan, '_'); } while (scan != NULL && *++scan != '_'); if (scan != NULL) --scan; } if (scan != NULL) { /* We found a sequence of two or more '_', ensure that we start at the last pair in the sequence. */ i = strspn (scan, "_"); if (i > 2) { scan += (i - 2); } } if (scan == NULL) { success = 0; } else if (work -> static_type) { if (!isdigit (scan[0]) && (scan[0] != 't')) { success = 0; } } else if ((scan == *mangled) && (isdigit (scan[2]) || (scan[2] == 'Q') || (scan[2] == 't') || (scan[2] == 'K') || (scan[2] == 'H'))) { /* The ARM says nothing about the mangling of local variables. But cfront mangles local variables by prepending __ to them. As an extension to ARM demangling we handle this case. */ if ((LUCID_DEMANGLING || ARM_DEMANGLING) && isdigit (scan[2])) { *mangled = scan + 2; consume_count (mangled); string_append (declp, *mangled); *mangled += strlen (*mangled); success = 1; } else { /* A GNU style constructor starts with __[0-9Qt]. But cfront uses names like __Q2_3foo3bar for nested type names. So don't accept this style of constructor for cfront demangling. A GNU style member-template constructor starts with 'H'. */ if (!(LUCID_DEMANGLING || ARM_DEMANGLING)) work -> constructor += 1; *mangled = scan + 2; } } else if ((scan == *mangled) && !isdigit (scan[2]) && (scan[2] != 't')) { /* Mangled name starts with "__". Skip over any leading '_' characters, then find the next "__" that separates the prefix from the signature. */ if (!(ARM_DEMANGLING || LUCID_DEMANGLING) || (arm_special (mangled, declp) == 0)) { while (*scan == '_') { scan++; } if ((scan = mystrstr (scan, "__")) == NULL || (*(scan + 2) == '\0')) { /* No separator (I.E. "__not_mangled"), or empty signature (I.E. "__not_mangled_either__") */ success = 0; } else { demangle_function_name (work, mangled, declp, scan); } } } else if (ARM_DEMANGLING && scan[2] == 'p' && scan[3] == 't') { /* Cfront-style parameterized type. Handled later as a signature. */ success = 1; /* ARM template? */ demangle_arm_pt (work, mangled, strlen (*mangled), declp); } else if (*(scan + 2) != '\0') { /* Mangled name does not start with "__" but does have one somewhere in there with non empty stuff after it. Looks like a global function name. */ demangle_function_name (work, mangled, declp, scan); } else { /* Doesn't look like a mangled name */ success = 0; } if (!success && (work->constructor == 2 || work->destructor == 2)) { string_append (declp, *mangled); *mangled += strlen (*mangled); success = 1; } return (success); } /* LOCAL FUNCTION gnu_special -- special handling of gnu mangled strings SYNOPSIS static int gnu_special (struct work_stuff *work, const char **mangled, string *declp); DESCRIPTION Process some special GNU style mangling forms that don't fit the normal pattern. For example: _$_3foo (destructor for class foo) _vt$foo (foo virtual table) _vt$foo$bar (foo::bar virtual table) __vt_foo (foo virtual table, new style with thunks) _3foo$varname (static data member) _Q22rs2tu$vw (static data member) __t6vector1Zii (constructor with template) __thunk_4__$_7ostream (virtual function thunk) */ static int gnu_special (work, mangled, declp) struct work_stuff *work; const char **mangled; string *declp; { int n; int success = 1; const char *p; if ((*mangled)[0] == '_' && strchr (cplus_markers, (*mangled)[1]) != NULL && (*mangled)[2] == '_') { /* Found a GNU style destructor, get past "__" */ (*mangled) += 3; work -> destructor += 1; } else if ((*mangled)[0] == '_' && (((*mangled)[1] == '_' && (*mangled)[2] == 'v' && (*mangled)[3] == 't' && (*mangled)[4] == '_') || ((*mangled)[1] == 'v' && (*mangled)[2] == 't' && strchr (cplus_markers, (*mangled)[3]) != NULL))) { /* Found a GNU style virtual table, get past "_vt" and create the decl. Note that we consume the entire mangled input string, which means that demangle_signature has no work to do. */ if ((*mangled)[2] == 'v') (*mangled) += 5; /* New style, with thunks: "__vt_" */ else (*mangled) += 4; /* Old style, no thunks: "_vt" */ while (**mangled != '\0') { p = strpbrk (*mangled, cplus_markers); switch (**mangled) { case 'Q': case 'K': success = demangle_qualified (work, mangled, declp, 0, 1); break; case 't': success = demangle_template (work, mangled, declp, 0, 1); break; default: if (isdigit(*mangled[0])) { n = consume_count(mangled); /* We may be seeing a too-large size, or else a "." indicating a static local symbol. In any case, declare victory and move on; *don't* try to use n to allocate. */ if (n > strlen (*mangled)) { success = 1; break; } } else { n = strcspn (*mangled, cplus_markers); } string_appendn (declp, *mangled, n); (*mangled) += n; } if (success && ((p == NULL) || (p == *mangled))) { if (p != NULL) { string_append (declp, "::"); (*mangled)++; } } else { success = 0; break; } } if (success) string_append (declp, " virtual table"); } else if ((*mangled)[0] == '_' && (strchr("0123456789Qt", (*mangled)[1]) != NULL) && (p = strpbrk (*mangled, cplus_markers)) != NULL) { /* static data member, "_3foo$varname" for example */ (*mangled)++; switch (**mangled) { case 'Q': case 'K': success = demangle_qualified (work, mangled, declp, 0, 1); break; case 't': success = demangle_template (work, mangled, declp, 0, 1); break; default: n = consume_count (mangled); string_appendn (declp, *mangled, n); (*mangled) += n; } if (success && (p == *mangled)) { /* Consumed everything up to the cplus_marker, append the variable name. */ (*mangled)++; string_append (declp, "::"); n = strlen (*mangled); string_appendn (declp, *mangled, n); (*mangled) += n; } else { success = 0; } } else if (strncmp (*mangled, "__thunk_", 8) == 0) { int delta = ((*mangled) += 8, consume_count (mangled)); char *method = internal_cplus_demangle (work, ++*mangled); if (method) { char buf[50]; sprintf (buf, "virtual function thunk (delta:%d) for ", -delta); string_append (declp, buf); string_append (declp, method); free (method); n = strlen (*mangled); (*mangled) += n; } else { success = 0; } } else if (strncmp (*mangled, "__t", 3) == 0 && ((*mangled)[3] == 'i' || (*mangled)[3] == 'f')) { p = (*mangled)[3] == 'i' ? " type_info node" : " type_info function"; (*mangled) += 4; switch (**mangled) { case 'Q': case 'K': success = demangle_qualified (work, mangled, declp, 0, 1); break; case 't': success = demangle_template (work, mangled, declp, 0, 1); break; default: success = demangle_fund_type (work, mangled, declp); break; } if (success && **mangled != '\0') success = 0; if (success) string_append (declp, p); } else { success = 0; } return (success); } /* LOCAL FUNCTION arm_special -- special handling of ARM/lucid mangled strings SYNOPSIS static int arm_special (const char **mangled, string *declp); DESCRIPTION Process some special ARM style mangling forms that don't fit the normal pattern. For example: __vtbl__3foo (foo virtual table) __vtbl__3foo__3bar (bar::foo virtual table) */ static int arm_special (mangled, declp) const char **mangled; string *declp; { int n; int success = 1; const char *scan; if (strncmp (*mangled, ARM_VTABLE_STRING, ARM_VTABLE_STRLEN) == 0) { /* Found a ARM style virtual table, get past ARM_VTABLE_STRING and create the decl. Note that we consume the entire mangled input string, which means that demangle_signature has no work to do. */ scan = *mangled + ARM_VTABLE_STRLEN; while (*scan != '\0') /* first check it can be demangled */ { n = consume_count (&scan); if (n==0) { return (0); /* no good */ } scan += n; if (scan[0] == '_' && scan[1] == '_') { scan += 2; } } (*mangled) += ARM_VTABLE_STRLEN; while (**mangled != '\0') { n = consume_count (mangled); string_prependn (declp, *mangled, n); (*mangled) += n; if ((*mangled)[0] == '_' && (*mangled)[1] == '_') { string_prepend (declp, "::"); (*mangled) += 2; } } string_append (declp, " virtual table"); } else { success = 0; } return (success); } /* LOCAL FUNCTION demangle_qualified -- demangle 'Q' qualified name strings SYNOPSIS static int demangle_qualified (struct work_stuff *, const char *mangled, string *result, int isfuncname, int append); DESCRIPTION Demangle a qualified name, such as "Q25Outer5Inner" which is the mangled form of "Outer::Inner". The demangled output is prepended or appended to the result string according to the state of the append flag. If isfuncname is nonzero, then the qualified name we are building is going to be used as a member function name, so if it is a constructor or destructor function, append an appropriate constructor or destructor name. I.E. for the above example, the result for use as a constructor is "Outer::Inner::Inner" and the result for use as a destructor is "Outer::Inner::~Inner". BUGS Numeric conversion is ASCII dependent (FIXME). */ static int demangle_qualified (work, mangled, result, isfuncname, append) struct work_stuff *work; const char **mangled; string *result; int isfuncname; int append; { int qualifiers = 0; int namelength; int success = 1; const char *p; char num[2]; string temp; string_init (&temp); if ((*mangled)[0] == 'K') { /* Squangling qualified name reuse */ int idx; (*mangled)++; idx = consume_count_with_underscores (mangled); if (idx == -1 || idx > work -> numk) success = 0; else string_append (&temp, work -> ktypevec[idx]); } else switch ((*mangled)[1]) { case '_': /* GNU mangled name with more than 9 classes. The count is preceded by an underscore (to distinguish it from the <= 9 case) and followed by an underscore. */ p = *mangled + 2; qualifiers = atoi (p); if (!isdigit (*p) || *p == '0') success = 0; /* Skip the digits. */ while (isdigit (*p)) ++p; if (*p != '_') success = 0; *mangled = p + 1; break; case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': /* The count is in a single digit. */ num[0] = (*mangled)[1]; num[1] = '\0'; qualifiers = atoi (num); /* If there is an underscore after the digit, skip it. This is said to be for ARM-qualified names, but the ARM makes no mention of such an underscore. Perhaps cfront uses one. */ if ((*mangled)[2] == '_') { (*mangled)++; } (*mangled) += 2; break; case '0': default: success = 0; } if (!success) return success; /* Pick off the names and collect them in the temp buffer in the order in which they are found, separated by '::'. */ while (qualifiers-- > 0) { int remember_K = 1; if (*mangled[0] == '_') *mangled = *mangled + 1; if (*mangled[0] == 't') { success = demangle_template(work, mangled, &temp, 0, 1); if (!success) break; } else if (*mangled[0] == 'X') { success = do_type (work, mangled, &temp); if (!success) break; } else if (*mangled[0] == 'K') { int idx; (*mangled)++; idx = consume_count_with_underscores (mangled); if (idx == -1 || idx > work->numk) success = 0; else string_append (&temp, work->ktypevec[idx]); remember_K = 0; if (!success) break; } else { namelength = consume_count (mangled); if (strlen (*mangled) < namelength) { /* Simple sanity check failed */ success = 0; break; } string_appendn (&temp, *mangled, namelength); *mangled += namelength; } if (remember_K) { remember_Ktype (work, temp.b, LEN_STRING (&temp)); } if (qualifiers > 0) { string_append (&temp, "::"); } } /* If we are using the result as a function name, we need to append the appropriate '::' separated constructor or destructor name. We do this here because this is the most convenient place, where we already have a pointer to the name and the length of the name. */ if (isfuncname && (work->constructor & 1 || work->destructor & 1)) { string_append (&temp, "::"); if (work -> destructor & 1) { string_append (&temp, "~"); } string_appendn (&temp, (*mangled) - namelength, namelength); } /* Now either prepend the temp buffer to the result, or append it, depending upon the state of the append flag. */ if (append) { string_appends (result, &temp); } else { if (!STRING_EMPTY (result)) { string_append (&temp, "::"); } string_prepends (result, &temp); } string_delete (&temp); return (success); } /* LOCAL FUNCTION get_count -- convert an ascii count to integer, consuming tokens SYNOPSIS static int get_count (const char **type, int *count) DESCRIPTION Return 0 if no conversion is performed, 1 if a string is converted. */ static int get_count (type, count) const char **type; int *count; { const char *p; int n; if (!isdigit (**type)) { return (0); } else { *count = **type - '0'; (*type)++; if (isdigit (**type)) { p = *type; n = *count; do { n *= 10; n += *p - '0'; p++; } while (isdigit (*p)); if (*p == '_') { *type = p + 1; *count = n; } } } return (1); } /* result will be initialised here; it will be freed on failure */ static int do_type (work, mangled, result) struct work_stuff *work; const char **mangled; string *result; { int n; int done; int success; string decl; const char *remembered_type; int constp; int volatilep; string btype; string_init (&btype); string_init (&decl); string_init (result); done = 0; success = 1; while (success && !done) { int member; switch (**mangled) { /* A pointer type */ case 'P': case 'p': (*mangled)++; string_prepend (&decl, "*"); break; /* A reference type */ case 'R': (*mangled)++; string_prepend (&decl, "&"); break; /* An array */ case 'A': { const char *p = ++(*mangled); string_prepend (&decl, "("); string_append (&decl, ")["); /* Copy anything up until the next underscore (the size of the array). */ while (**mangled && **mangled != '_') ++(*mangled); if (**mangled == '_') { string_appendn (&decl, p, *mangled - p); string_append (&decl, "]"); *mangled += 1; } else success = 0; break; } /* A back reference to a previously seen type */ case 'T': (*mangled)++; if (!get_count (mangled, &n) || n >= work -> ntypes) { success = 0; } else { remembered_type = work -> typevec[n]; mangled = &remembered_type; } break; /* A function */ case 'F': (*mangled)++; if (!STRING_EMPTY (&decl) && decl.b[0] == '*') { string_prepend (&decl, "("); string_append (&decl, ")"); } /* After picking off the function args, we expect to either find the function return type (preceded by an '_') or the end of the string. */ if (!demangle_args (work, mangled, &decl) || (**mangled != '_' && **mangled != '\0')) { success = 0; } if (success && (**mangled == '_')) { (*mangled)++; } break; case 'M': case 'O': { constp = 0; volatilep = 0; member = **mangled == 'M'; (*mangled)++; if (!isdigit (**mangled) && **mangled != 't') { success = 0; break; } string_append (&decl, ")"); string_prepend (&decl, "::"); if (isdigit (**mangled)) { n = consume_count (mangled); if (strlen (*mangled) < n) { success = 0; break; } string_prependn (&decl, *mangled, n); *mangled += n; } else { string temp; string_init (&temp); success = demangle_template (work, mangled, &temp, NULL, 1); if (success) { string_prependn (&decl, temp.b, temp.p - temp.b); string_clear (&temp); } else break; } string_prepend (&decl, "("); if (member) { if (**mangled == 'C') { (*mangled)++; constp = 1; } if (**mangled == 'V') { (*mangled)++; volatilep = 1; } if (*(*mangled)++ != 'F') { success = 0; break; } } if ((member && !demangle_args (work, mangled, &decl)) || **mangled != '_') { success = 0; break; } (*mangled)++; if (! PRINT_ANSI_QUALIFIERS) { break; } if (constp) { APPEND_BLANK (&decl); string_append (&decl, "const"); } if (volatilep) { APPEND_BLANK (&decl); string_append (&decl, "volatile"); } break; } case 'G': (*mangled)++; break; case 'C': (*mangled)++; /* if ((*mangled)[1] == 'P') { */ if (PRINT_ANSI_QUALIFIERS) { if (!STRING_EMPTY (&decl)) { string_prepend (&decl, " "); } string_prepend (&decl, "const"); } break; /* } */ /* fall through */ default: done = 1; break; } } switch (**mangled) { /* A qualified name, such as "Outer::Inner". */ case 'Q': case 'K': { int btype = register_Btype (work); success = demangle_qualified (work, mangled, result, 0, 1); remember_Btype (work, result->b, LEN_STRING (result), btype); break; } /* A back reference to a previously seen squangled type */ case 'B': (*mangled)++; if (!get_count (mangled, &n) || n >= work -> numb) success = 0; else { string_append (result, work->btypevec[n]); } break; case 'X': case 'Y': /* A template parm. We substitute the corresponding argument. */ { int idx; (*mangled)++; idx = consume_count_with_underscores (mangled); if (idx == -1 || (work->tmpl_argvec && idx >= work->ntmpl_args) || consume_count_with_underscores (mangled) == -1) { success = 0; break; } if (work->tmpl_argvec) string_append (result, work->tmpl_argvec[idx]); else { char buf[10]; sprintf(buf, "T%d", idx); string_append (result, buf); } success = 1; } break; default: success = demangle_fund_type (work, mangled, result); break; } if (success) { if (!STRING_EMPTY (&decl)) { string_append (result, " "); string_appends (result, &decl); } } else { string_delete (result); } string_delete (&decl); return (success); } /* Given a pointer to a type string that represents a fundamental type argument (int, long, unsigned int, etc) in TYPE, a pointer to the string in which the demangled output is being built in RESULT, and the WORK structure, decode the types and add them to the result. For example: "Ci" => "const int" "Sl" => "signed long" "CUs" => "const unsigned short" */ static int demangle_fund_type (work, mangled, result) struct work_stuff *work; const char **mangled; string *result; { int done = 0; int success = 1; string btype; string_init (&btype); /* First pick off any type qualifiers. There can be more than one. */ while (!done) { switch (**mangled) { case 'C': (*mangled)++; if (PRINT_ANSI_QUALIFIERS) { APPEND_BLANK (result); string_append (result, "const"); } break; case 'U': (*mangled)++; APPEND_BLANK (result); string_append (result, "unsigned"); break; case 'S': /* signed char only */ (*mangled)++; APPEND_BLANK (result); string_append (result, "signed"); break; case 'V': (*mangled)++; if (PRINT_ANSI_QUALIFIERS) { APPEND_BLANK (result); string_append (result, "volatile"); } break; case 'J': (*mangled)++; APPEND_BLANK (result); string_append (result, "__complex"); break; default: done = 1; break; } } /* Now pick off the fundamental type. There can be only one. */ switch (**mangled) { case '\0': case '_': break; case 'v': (*mangled)++; APPEND_BLANK (result); string_append (result, "void"); break; case 'x': (*mangled)++; APPEND_BLANK (result); string_append (result, "long long"); break; case 'l': (*mangled)++; APPEND_BLANK (result); string_append (result, "long"); break; case 'i': (*mangled)++; APPEND_BLANK (result); string_append (result, "int"); break; case 's': (*mangled)++; APPEND_BLANK (result); string_append (result, "short"); break; case 'b': (*mangled)++; APPEND_BLANK (result); string_append (result, "bool"); break; case 'c': (*mangled)++; APPEND_BLANK (result); string_append (result, "char"); break; case 'w': (*mangled)++; APPEND_BLANK (result); string_append (result, "wchar_t"); break; case 'r': (*mangled)++; APPEND_BLANK (result); string_append (result, "long double"); break; case 'd': (*mangled)++; APPEND_BLANK (result); string_append (result, "double"); break; case 'f': (*mangled)++; APPEND_BLANK (result); string_append (result, "float"); break; case 'G': (*mangled)++; if (!isdigit (**mangled)) { success = 0; break; } /* fall through */ /* An explicit type, such as "6mytype" or "7integer" */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': { int bindex = register_Btype (work); string btype; string_init (&btype); if (demangle_class_name (work, mangled, &btype)) { remember_Btype (work, btype.b, LEN_STRING (&btype), bindex); APPEND_BLANK (result); string_appends (result, &btype); } else success = 0; string_delete (&btype); break; } case 't': { int bindex= register_Btype (work); success = demangle_template (work, mangled, &btype, 0, 1); remember_Btype (work, btype.b, LEN_STRING (&btype), bindex); string_appends (result, &btype); break; } default: success = 0; break; } return (success); } /* `result' will be initialized in do_type; it will be freed on failure */ static int do_arg (work, mangled, result) struct work_stuff *work; const char **mangled; string *result; { const char *start = *mangled; if (!do_type (work, mangled, result)) { return (0); } else { remember_type (work, start, *mangled - start); return (1); } } static void remember_type (work, start, len) struct work_stuff *work; const char *start; int len; { char *tem; if (work -> ntypes >= work -> typevec_size) { if (work -> typevec_size == 0) { work -> typevec_size = 3; work -> typevec = (char **) xmalloc (sizeof (char *) * work -> typevec_size); } else { work -> typevec_size *= 2; work -> typevec = (char **) xrealloc ((char *)work -> typevec, sizeof (char *) * work -> typevec_size); } } tem = xmalloc (len + 1); memcpy (tem, start, len); tem[len] = '\0'; work -> typevec[work -> ntypes++] = tem; } /* Remember a K type class qualifier. */ static void remember_Ktype (work, start, len) struct work_stuff *work; const char *start; int len; { char *tem; if (work -> numk >= work -> ksize) { if (work -> ksize == 0) { work -> ksize = 5; work -> ktypevec = (char **) xmalloc (sizeof (char *) * work -> ksize); } else { work -> ksize *= 2; work -> ktypevec = (char **) xrealloc ((char *)work -> ktypevec, sizeof (char *) * work -> ksize); } } tem = xmalloc (len + 1); memcpy (tem, start, len); tem[len] = '\0'; work -> ktypevec[work -> numk++] = tem; } /* Register a B code, and get an index for it. B codes are registered as they are seen, rather than as they are completed, so map > registers map > as B0, and temp as B1 */ static int register_Btype (work) struct work_stuff *work; { int ret; if (work -> numb >= work -> bsize) { if (work -> bsize == 0) { work -> bsize = 5; work -> btypevec = (char **) xmalloc (sizeof (char *) * work -> bsize); } else { work -> bsize *= 2; work -> btypevec = (char **) xrealloc ((char *)work -> btypevec, sizeof (char *) * work -> bsize); } } ret = work -> numb++; work -> btypevec[ret] = NULL; return(ret); } /* Store a value into a previously registered B code type. */ static void remember_Btype (work, start, len, index) struct work_stuff *work; const char *start; int len, index; { char *tem; tem = xmalloc (len + 1); memcpy (tem, start, len); tem[len] = '\0'; work -> btypevec[index] = tem; } /* Lose all the info related to B and K type codes. */ static void forget_B_and_K_types (work) struct work_stuff *work; { int i; while (work -> numk > 0) { i = --(work -> numk); if (work -> ktypevec[i] != NULL) { free (work -> ktypevec[i]); work -> ktypevec[i] = NULL; } } while (work -> numb > 0) { i = --(work -> numb); if (work -> btypevec[i] != NULL) { free (work -> btypevec[i]); work -> btypevec[i] = NULL; } } } /* Forget the remembered types, but not the type vector itself. */ static void forget_types (work) struct work_stuff *work; { int i; while (work -> ntypes > 0) { i = --(work -> ntypes); if (work -> typevec[i] != NULL) { free (work -> typevec[i]); work -> typevec[i] = NULL; } } } /* Process the argument list part of the signature, after any class spec has been consumed, as well as the first 'F' character (if any). For example: "__als__3fooRT0" => process "RT0" "complexfunc5__FPFPc_PFl_i" => process "PFPc_PFl_i" DECLP must be already initialised, usually non-empty. It won't be freed on failure. Note that g++ differs significantly from ARM and lucid style mangling with regards to references to previously seen types. For example, given the source fragment: class foo { public: foo::foo (int, foo &ia, int, foo &ib, int, foo &ic); }; foo::foo (int, foo &ia, int, foo &ib, int, foo &ic) { ia = ib = ic; } void foo (int, foo &ia, int, foo &ib, int, foo &ic) { ia = ib = ic; } g++ produces the names: __3fooiRT0iT2iT2 foo__FiR3fooiT1iT1 while lcc (and presumably other ARM style compilers as well) produces: foo__FiR3fooT1T2T1T2 __ct__3fooFiR3fooT1T2T1T2 Note that g++ bases it's type numbers starting at zero and counts all previously seen types, while lucid/ARM bases it's type numbers starting at one and only considers types after it has seen the 'F' character indicating the start of the function args. For lucid/ARM style, we account for this difference by discarding any previously seen types when we see the 'F' character, and subtracting one from the type number reference. */ static int demangle_args (work, mangled, declp) struct work_stuff *work; const char **mangled; string *declp; { string arg; int need_comma = 0; int r; int t; const char *tem; char temptype; if (PRINT_ARG_TYPES) { string_append (declp, "("); if (**mangled == '\0') { string_append (declp, "void"); } } while (**mangled != '_' && **mangled != '\0' && **mangled != 'e') { if ((**mangled == 'N') || (**mangled == 'T')) { temptype = *(*mangled)++; if (temptype == 'N') { if (!get_count (mangled, &r)) { return (0); } } else { r = 1; } if (ARM_DEMANGLING && work -> ntypes >= 10) { /* If we have 10 or more types we might have more than a 1 digit index so we'll have to consume the whole count here. This will lose if the next thing is a type name preceded by a count but it's impossible to demangle that case properly anyway. Eg if we already have 12 types is T12Pc "(..., type1, Pc, ...)" or "(..., type12, char *, ...)" */ if ((t = consume_count(mangled)) == 0) { return (0); } } else { if (!get_count (mangled, &t)) { return (0); } } if (LUCID_DEMANGLING || ARM_DEMANGLING) { t--; } /* Validate the type index. Protect against illegal indices from malformed type strings. */ if ((t < 0) || (t >= work -> ntypes)) { return (0); } while (--r >= 0) { tem = work -> typevec[t]; if (need_comma && PRINT_ARG_TYPES) { string_append (declp, ", "); } if (!do_arg (work, &tem, &arg)) { return (0); } if (PRINT_ARG_TYPES) { string_appends (declp, &arg); } string_delete (&arg); need_comma = 1; } } else { if (need_comma & PRINT_ARG_TYPES) { string_append (declp, ", "); } if (!do_arg (work, mangled, &arg)) { return (0); } if (PRINT_ARG_TYPES) { string_appends (declp, &arg); } string_delete (&arg); need_comma = 1; } } if (**mangled == 'e') { (*mangled)++; if (PRINT_ARG_TYPES) { if (need_comma) { string_append (declp, ","); } string_append (declp, "..."); } } if (PRINT_ARG_TYPES) { string_append (declp, ")"); } return (1); } static void demangle_function_name (work, mangled, declp, scan) struct work_stuff *work; const char **mangled; string *declp; const char *scan; { size_t i; string type; const char *tem; string_appendn (declp, (*mangled), scan - (*mangled)); string_need (declp, 1); *(declp -> p) = '\0'; /* Consume the function name, including the "__" separating the name from the signature. We are guaranteed that SCAN points to the separator. */ (*mangled) = scan + 2; if (LUCID_DEMANGLING || ARM_DEMANGLING) { /* See if we have an ARM style constructor or destructor operator. If so, then just record it, clear the decl, and return. We can't build the actual constructor/destructor decl until later, when we recover the class name from the signature. */ if (strcmp (declp -> b, "__ct") == 0) { work -> constructor += 1; string_clear (declp); return; } else if (strcmp (declp -> b, "__dt") == 0) { work -> destructor += 1; string_clear (declp); return; } } if (declp->p - declp->b >= 3 && declp->b[0] == 'o' && declp->b[1] == 'p' && strchr (cplus_markers, declp->b[2]) != NULL) { /* see if it's an assignment expression */ if (declp->p - declp->b >= 10 /* op$assign_ */ && memcmp (declp->b + 3, "assign_", 7) == 0) { for (i = 0; i < sizeof (optable) / sizeof (optable[0]); i++) { int len = declp->p - declp->b - 10; if (strlen (optable[i].in) == len && memcmp (optable[i].in, declp->b + 10, len) == 0) { string_clear (declp); string_append (declp, "operator"); string_append (declp, optable[i].out); string_append (declp, "="); break; } } } else { for (i = 0; i < sizeof (optable) / sizeof (optable[0]); i++) { int len = declp->p - declp->b - 3; if (strlen (optable[i].in) == len && memcmp (optable[i].in, declp->b + 3, len) == 0) { string_clear (declp); string_append (declp, "operator"); string_append (declp, optable[i].out); break; } } } } else if (declp->p - declp->b >= 5 && memcmp (declp->b, "type", 4) == 0 && strchr (cplus_markers, declp->b[4]) != NULL) { /* type conversion operator */ tem = declp->b + 5; if (do_type (work, &tem, &type)) { string_clear (declp); string_append (declp, "operator "); string_appends (declp, &type); string_delete (&type); } } else if (declp->b[0] == '_' && declp->b[1] == '_' && declp->b[2] == 'o' && declp->b[3] == 'p') { /* ANSI. */ /* type conversion operator. */ tem = declp->b + 4; if (do_type (work, &tem, &type)) { string_clear (declp); string_append (declp, "operator "); string_appends (declp, &type); string_delete (&type); } } else if (declp->b[0] == '_' && declp->b[1] == '_' && declp->b[2] >= 'a' && declp->b[2] <= 'z' && declp->b[3] >= 'a' && declp->b[3] <= 'z') { if (declp->b[4] == '\0') { /* Operator. */ for (i = 0; i < sizeof (optable) / sizeof (optable[0]); i++) { if (strlen (optable[i].in) == 2 && memcmp (optable[i].in, declp->b + 2, 2) == 0) { string_clear (declp); string_append (declp, "operator"); string_append (declp, optable[i].out); break; } } } else { if (declp->b[2] == 'a' && declp->b[5] == '\0') { /* Assignment. */ for (i = 0; i < sizeof (optable) / sizeof (optable[0]); i++) { if (strlen (optable[i].in) == 3 && memcmp (optable[i].in, declp->b + 2, 3) == 0) { string_clear (declp); string_append (declp, "operator"); string_append (declp, optable[i].out); break; } } } } } } /* a mini string-handling package */ static void string_need (s, n) string *s; int n; { int tem; if (s->b == NULL) { if (n < 32) { n = 32; } s->p = s->b = xmalloc (n); s->e = s->b + n; } else if (s->e - s->p < n) { tem = s->p - s->b; n += tem; n *= 2; s->b = xrealloc (s->b, n); s->p = s->b + tem; s->e = s->b + n; } } static void string_delete (s) string *s; { if (s->b != NULL) { free (s->b); s->b = s->e = s->p = NULL; } } static void string_init (s) string *s; { s->b = s->p = s->e = NULL; } static void string_clear (s) string *s; { s->p = s->b; } #if 0 static int string_empty (s) string *s; { return (s->b == s->p); } #endif static void string_append (p, s) string *p; const char *s; { int n; if (s == NULL || *s == '\0') return; n = strlen (s); string_need (p, n); memcpy (p->p, s, n); p->p += n; } static void string_appends (p, s) string *p, *s; { int n; if (s->b != s->p) { n = s->p - s->b; string_need (p, n); memcpy (p->p, s->b, n); p->p += n; } } static void string_appendn (p, s, n) string *p; const char *s; int n; { if (n != 0) { string_need (p, n); memcpy (p->p, s, n); p->p += n; } } static void string_prepend (p, s) string *p; const char *s; { if (s != NULL && *s != '\0') { string_prependn (p, s, strlen (s)); } } static void string_prepends (p, s) string *p, *s; { if (s->b != s->p) { string_prependn (p, s->b, s->p - s->b); } } static void string_prependn (p, s, n) string *p; const char *s; int n; { char *q; if (n != 0) { string_need (p, n); for (q = p->p - 1; q >= p->b; q--) { q[n] = q[0]; } memcpy (p->b, s, n); p->p += n; } } /* To generate a standalone demangler program for testing purposes, just compile and link this file with -DMAIN and libiberty.a. When run, it demangles each command line arg, or each stdin string, and prints the result on stdout. */ #ifdef MAIN #include "getopt.h" static char *program_name; static char *program_version = VERSION; static int flags = DMGL_PARAMS | DMGL_ANSI; static void demangle_it PARAMS ((char *)); static void usage PARAMS ((FILE *, int)); static void fatal PARAMS ((char *)); static void demangle_it (mangled_name) char *mangled_name; { char *result; result = cplus_demangle (mangled_name, flags); if (result == NULL) { printf ("%s\n", mangled_name); } else { printf ("%s\n", result); free (result); } } static void usage (stream, status) FILE *stream; int status; { fprintf (stream, "\ Usage: %s [-_] [-n] [-s {gnu,lucid,arm}] [--strip-underscores]\n\ [--no-strip-underscores] [--format={gnu,lucid,arm}]\n\ [--help] [--version] [arg...]\n", program_name); exit (status); } #define MBUF_SIZE 512 char mbuffer[MBUF_SIZE]; /* Defined in the automatically-generated underscore.c. */ extern int prepends_underscore; int strip_underscore = 0; static struct option long_options[] = { {"strip-underscores", no_argument, 0, '_'}, {"format", required_argument, 0, 's'}, {"help", no_argument, 0, 'h'}, {"no-strip-underscores", no_argument, 0, 'n'}, {"version", no_argument, 0, 'v'}, {0, no_argument, 0, 0} }; /* More 'friendly' abort that prints the line and file. config.h can #define abort fancy_abort if you like that sort of thing. */ void fancy_abort () { fatal ("Internal gcc abort."); } int main (argc, argv) int argc; char **argv; { char *result; int c; program_name = argv[0]; strip_underscore = prepends_underscore; while ((c = getopt_long (argc, argv, "_ns:j", long_options, (int *) 0)) != EOF) { switch (c) { case '?': usage (stderr, 1); break; case 'h': usage (stdout, 0); case 'n': strip_underscore = 0; break; case 'v': printf ("GNU %s version %s\n", program_name, program_version); exit (0); case '_': strip_underscore = 1; break; case 's': if (strcmp (optarg, "gnu") == 0) { current_demangling_style = gnu_demangling; } else if (strcmp (optarg, "lucid") == 0) { current_demangling_style = lucid_demangling; } else if (strcmp (optarg, "arm") == 0) { current_demangling_style = arm_demangling; } else { fprintf (stderr, "%s: unknown demangling style `%s'\n", program_name, optarg); exit (1); } break; } } if (optind < argc) { for ( ; optind < argc; optind++) { demangle_it (argv[optind]); } } else { for (;;) { int i = 0; c = getchar (); /* Try to read a label. */ while (c != EOF && (isalnum(c) || c == '_' || c == '$' || c == '.')) { if (i >= MBUF_SIZE-1) break; mbuffer[i++] = c; c = getchar (); } if (i > 0) { int skip_first = 0; if (mbuffer[0] == '.') ++skip_first; if (strip_underscore && mbuffer[skip_first] == '_') ++skip_first; if (skip_first > i) skip_first = i; mbuffer[i] = 0; result = cplus_demangle (mbuffer + skip_first, flags); if (result) { if (mbuffer[0] == '.') putc ('.', stdout); fputs (result, stdout); free (result); } else fputs (mbuffer, stdout); fflush (stdout); } if (c == EOF) break; putchar (c); } } exit (0); } static void fatal (str) char *str; { fprintf (stderr, "%s: %s\n", program_name, str); exit (1); } char * malloc (); char * realloc (); char * xmalloc (size) unsigned size; { register char *value = (char *) malloc (size); if (value == 0) fatal ("virtual memory exhausted"); return value; } char * xrealloc (ptr, size) char *ptr; unsigned size; { register char *value = (char *) realloc (ptr, size); if (value == 0) fatal ("virtual memory exhausted"); return value; } #endif /* main */