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/* CPP Library - traditional lexical analysis and macro expansion. Copyright (C) 2002, 2004, 2005 Free Software Foundation, Inc. Contributed by Neil Booth, May 2002 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #include "system.h" #include "cpplib.h" #include "internal.h" /* The replacement text of a function-like macro is stored as a contiguous sequence of aligned blocks, each representing the text between subsequent parameters. Each block comprises the text between its surrounding parameters, the length of that text, and the one-based index of the following parameter. The final block in the replacement text is easily recognizable as it has an argument index of zero. */ struct block { unsigned int text_len; unsigned short arg_index; uchar text[1]; }; #define BLOCK_HEADER_LEN offsetof (struct block, text) #define BLOCK_LEN(TEXT_LEN) CPP_ALIGN (BLOCK_HEADER_LEN + (TEXT_LEN)) /* Structure holding information about a function-like macro invocation. */ struct fun_macro { /* Memory buffer holding the trad_arg array. */ _cpp_buff *buff; /* An array of size the number of macro parameters + 1, containing the offsets of the start of each macro argument in the output buffer. The argument continues until the character before the start of the next one. */ size_t *args; /* The hashnode of the macro. */ cpp_hashnode *node; /* The offset of the macro name in the output buffer. */ size_t offset; /* The line the macro name appeared on. */ unsigned int line; /* Zero-based index of argument being currently lexed. */ unsigned int argc; }; /* Lexing state. It is mostly used to prevent macro expansion. */ enum ls {ls_none = 0, /* Normal state. */ ls_fun_open, /* When looking for '('. */ ls_fun_close, /* When looking for ')'. */ ls_defined, /* After defined. */ ls_defined_close, /* Looking for ')' of defined(). */ ls_hash, /* After # in preprocessor conditional. */ ls_predicate, /* After the predicate, maybe paren? */ ls_answer}; /* In answer to predicate. */ /* Lexing TODO: Maybe handle space in escaped newlines. Stop lex.c from recognizing comments and directives during its lexing pass. */ static const uchar *skip_whitespace (cpp_reader *, const uchar *, int); static cpp_hashnode *lex_identifier (cpp_reader *, const uchar *); static const uchar *copy_comment (cpp_reader *, const uchar *, int); static void check_output_buffer (cpp_reader *, size_t); static void push_replacement_text (cpp_reader *, cpp_hashnode *); static bool scan_parameters (cpp_reader *, cpp_macro *); static bool recursive_macro (cpp_reader *, cpp_hashnode *); static void save_replacement_text (cpp_reader *, cpp_macro *, unsigned int); static void maybe_start_funlike (cpp_reader *, cpp_hashnode *, const uchar *, struct fun_macro *); static void save_argument (struct fun_macro *, size_t); static void replace_args_and_push (cpp_reader *, struct fun_macro *); static size_t canonicalize_text (uchar *, const uchar *, size_t, uchar *); /* Ensures we have N bytes' space in the output buffer, and reallocates it if not. */ static void check_output_buffer (cpp_reader *pfile, size_t n) { /* We might need two bytes to terminate an unterminated comment, and one more to terminate the line with a NUL. */ n += 2 + 1; if (n > (size_t) (pfile->out.limit - pfile->out.cur)) { size_t size = pfile->out.cur - pfile->out.base; size_t new_size = (size + n) * 3 / 2; pfile->out.base = XRESIZEVEC (unsigned char, pfile->out.base, new_size); pfile->out.limit = pfile->out.base + new_size; pfile->out.cur = pfile->out.base + size; } } /* Skip a C-style block comment in a macro as a result of -CC. Buffer->cur points to the initial asterisk of the comment. */ static void skip_macro_block_comment (cpp_reader *pfile) { const uchar *cur = pfile->buffer->cur; cur++; if (*cur == '/') cur++; /* People like decorating comments with '*', so check for '/' instead for efficiency. */ while(! (*cur++ == '/' && cur[-2] == '*') ) ; pfile->buffer->cur = cur; } /* CUR points to the asterisk introducing a comment in the current context. IN_DEFINE is true if we are in the replacement text of a macro. The asterisk and following comment is copied to the buffer pointed to by pfile->out.cur, which must be of sufficient size. Unterminated comments are diagnosed, and correctly terminated in the output. pfile->out.cur is updated depending upon IN_DEFINE, -C, -CC and pfile->state.in_directive. Returns a pointer to the first character after the comment in the input buffer. */ static const uchar * copy_comment (cpp_reader *pfile, const uchar *cur, int in_define) { bool unterminated, copy = false; source_location src_loc = pfile->line_table->highest_line; cpp_buffer *buffer = pfile->buffer; buffer->cur = cur; if (pfile->context->prev) unterminated = false, skip_macro_block_comment (pfile); else unterminated = _cpp_skip_block_comment (pfile); if (unterminated) cpp_error_with_line (pfile, CPP_DL_ERROR, src_loc, 0, "unterminated comment"); /* Comments in directives become spaces so that tokens are properly separated when the ISO preprocessor re-lexes the line. The exception is #define. */ if (pfile->state.in_directive) { if (in_define) { if (CPP_OPTION (pfile, discard_comments_in_macro_exp)) pfile->out.cur--; else copy = true; } else pfile->out.cur[-1] = ' '; } else if (CPP_OPTION (pfile, discard_comments)) pfile->out.cur--; else copy = true; if (copy) { size_t len = (size_t) (buffer->cur - cur); memcpy (pfile->out.cur, cur, len); pfile->out.cur += len; if (unterminated) { *pfile->out.cur++ = '*'; *pfile->out.cur++ = '/'; } } return buffer->cur; } /* CUR points to any character in the input buffer. Skips over all contiguous horizontal white space and NULs, including comments if SKIP_COMMENTS, until reaching the first non-horizontal-whitespace character or the end of the current context. Escaped newlines are removed. The whitespace is copied verbatim to the output buffer, except that comments are handled as described in copy_comment(). pfile->out.cur is updated. Returns a pointer to the first character after the whitespace in the input buffer. */ static const uchar * skip_whitespace (cpp_reader *pfile, const uchar *cur, int skip_comments) { uchar *out = pfile->out.cur; for (;;) { unsigned int c = *cur++; *out++ = c; if (is_nvspace (c)) continue; if (c == '/' && *cur == '*' && skip_comments) { pfile->out.cur = out; cur = copy_comment (pfile, cur, false /* in_define */); out = pfile->out.cur; continue; } out--; break; } pfile->out.cur = out; return cur - 1; } /* Lexes and outputs an identifier starting at CUR, which is assumed to point to a valid first character of an identifier. Returns the hashnode, and updates out.cur. */ static cpp_hashnode * lex_identifier (cpp_reader *pfile, const uchar *cur) { size_t len; uchar *out = pfile->out.cur; cpp_hashnode *result; do *out++ = *cur++; while (is_numchar (*cur)); CUR (pfile->context) = cur; len = out - pfile->out.cur; result = (cpp_hashnode *) ht_lookup (pfile->hash_table, pfile->out.cur, len, HT_ALLOC); pfile->out.cur = out; return result; } /* Overlays the true file buffer temporarily with text of length LEN starting at START. The true buffer is restored upon calling restore_buff(). */ void _cpp_overlay_buffer (cpp_reader *pfile, const uchar *start, size_t len) { cpp_buffer *buffer = pfile->buffer; pfile->overlaid_buffer = buffer; pfile->saved_cur = buffer->cur; pfile->saved_rlimit = buffer->rlimit; pfile->saved_line_base = buffer->next_line; buffer->need_line = false; buffer->cur = start; buffer->line_base = start; buffer->rlimit = start + len; } /* Restores a buffer overlaid by _cpp_overlay_buffer(). */ void _cpp_remove_overlay (cpp_reader *pfile) { cpp_buffer *buffer = pfile->overlaid_buffer; buffer->cur = pfile->saved_cur; buffer->rlimit = pfile->saved_rlimit; buffer->line_base = pfile->saved_line_base; buffer->need_line = true; pfile->overlaid_buffer = NULL; } /* Reads a logical line into the output buffer. Returns TRUE if there is more text left in the buffer. */ bool _cpp_read_logical_line_trad (cpp_reader *pfile) { do { if (pfile->buffer->need_line && !_cpp_get_fresh_line (pfile)) return false; } while (!_cpp_scan_out_logical_line (pfile, NULL) || pfile->state.skipping); return pfile->buffer != NULL; } /* Set up state for finding the opening '(' of a function-like macro. */ static void maybe_start_funlike (cpp_reader *pfile, cpp_hashnode *node, const uchar *start, struct fun_macro *macro) { unsigned int n = node->value.macro->paramc + 1; if (macro->buff) _cpp_release_buff (pfile, macro->buff); macro->buff = _cpp_get_buff (pfile, n * sizeof (size_t)); macro->args = (size_t *) BUFF_FRONT (macro->buff); macro->node = node; macro->offset = start - pfile->out.base; macro->argc = 0; } /* Save the OFFSET of the start of the next argument to MACRO. */ static void save_argument (struct fun_macro *macro, size_t offset) { macro->argc++; if (macro->argc <= macro->node->value.macro->paramc) macro->args[macro->argc] = offset; } /* Copies the next logical line in the current buffer (starting at buffer->cur) to the output buffer. The output is guaranteed to terminate with a NUL character. buffer->cur is updated. If MACRO is non-NULL, then we are scanning the replacement list of MACRO, and we call save_replacement_text() every time we meet an argument. */ bool _cpp_scan_out_logical_line (cpp_reader *pfile, cpp_macro *macro) { bool result = true; cpp_context *context; const uchar *cur; uchar *out; struct fun_macro fmacro; unsigned int c, paren_depth = 0, quote; enum ls lex_state = ls_none; bool header_ok; const uchar *start_of_input_line; fmacro.buff = NULL; quote = 0; header_ok = pfile->state.angled_headers; CUR (pfile->context) = pfile->buffer->cur; RLIMIT (pfile->context) = pfile->buffer->rlimit; pfile->out.cur = pfile->out.base; pfile->out.first_line = pfile->line_table->highest_line; /* start_of_input_line is needed to make sure that directives really, really start at the first character of the line. */ start_of_input_line = pfile->buffer->cur; new_context: context = pfile->context; cur = CUR (context); check_output_buffer (pfile, RLIMIT (context) - cur); out = pfile->out.cur; for (;;) { if (!context->prev && cur >= pfile->buffer->notes[pfile->buffer->cur_note].pos) { pfile->buffer->cur = cur; _cpp_process_line_notes (pfile, false); } c = *cur++; *out++ = c; /* Whitespace should "continue" out of the switch, non-whitespace should "break" out of it. */ switch (c) { case ' ': case '\t': case '\f': case '\v': case '\0': continue; case '\n': /* If this is a macro's expansion, pop it. */ if (context->prev) { pfile->out.cur = out - 1; _cpp_pop_context (pfile); goto new_context; } /* Omit the newline from the output buffer. */ pfile->out.cur = out - 1; pfile->buffer->cur = cur; pfile->buffer->need_line = true; CPP_INCREMENT_LINE (pfile, 0); if ((lex_state == ls_fun_open || lex_state == ls_fun_close) && !pfile->state.in_directive && _cpp_get_fresh_line (pfile)) { /* Newlines in arguments become a space, but we don't clear any in-progress quote. */ if (lex_state == ls_fun_close) out[-1] = ' '; cur = pfile->buffer->cur; continue; } goto done; case '<': if (header_ok) quote = '>'; break; case '>': if (c == quote) quote = 0; break; case '"': case '\'': if (c == quote) quote = 0; else if (!quote) quote = c; break; case '\\': /* Skip escaped quotes here, it's easier than above. */ if (*cur == '\\' || *cur == '"' || *cur == '\'') *out++ = *cur++; break; case '/': /* Traditional CPP does not recognize comments within literals. */ if (!quote && *cur == '*') { pfile->out.cur = out; cur = copy_comment (pfile, cur, macro != 0); out = pfile->out.cur; continue; } break; case '_': case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': case 'g': case 'h': case 'i': case 'j': case 'k': case 'l': case 'm': case 'n': case 'o': case 'p': case 'q': case 'r': case 's': case 't': case 'u': case 'v': case 'w': case 'x': case 'y': case 'z': case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': case 'G': case 'H': case 'I': case 'J': case 'K': case 'L': case 'M': case 'N': case 'O': case 'P': case 'Q': case 'R': case 'S': case 'T': case 'U': case 'V': case 'W': case 'X': case 'Y': case 'Z': if (!pfile->state.skipping && (quote == 0 || macro)) { cpp_hashnode *node; uchar *out_start = out - 1; pfile->out.cur = out_start; node = lex_identifier (pfile, cur - 1); out = pfile->out.cur; cur = CUR (context); if (node->type == NT_MACRO /* Should we expand for ls_answer? */ && (lex_state == ls_none || lex_state == ls_fun_open) && !pfile->state.prevent_expansion) { /* Macros invalidate MI optimization. */ pfile->mi_valid = false; if (! (node->flags & NODE_BUILTIN) && node->value.macro->fun_like) { maybe_start_funlike (pfile, node, out_start, &fmacro); lex_state = ls_fun_open; fmacro.line = pfile->line_table->highest_line; continue; } else if (!recursive_macro (pfile, node)) { /* Remove the object-like macro's name from the output, and push its replacement text. */ pfile->out.cur = out_start; push_replacement_text (pfile, node); lex_state = ls_none; goto new_context; } } else if (macro && (node->flags & NODE_MACRO_ARG) != 0) { /* Found a parameter in the replacement text of a #define. Remove its name from the output. */ pfile->out.cur = out_start; save_replacement_text (pfile, macro, node->value.arg_index); out = pfile->out.base; } else if (lex_state == ls_hash) { lex_state = ls_predicate; continue; } else if (pfile->state.in_expression && node == pfile->spec_nodes.n_defined) { lex_state = ls_defined; continue; } } break; case '(': if (quote == 0) { paren_depth++; if (lex_state == ls_fun_open) { if (recursive_macro (pfile, fmacro.node)) lex_state = ls_none; else { lex_state = ls_fun_close; paren_depth = 1; out = pfile->out.base + fmacro.offset; fmacro.args[0] = fmacro.offset; } } else if (lex_state == ls_predicate) lex_state = ls_answer; else if (lex_state == ls_defined) lex_state = ls_defined_close; } break; case ',': if (quote == 0 && lex_state == ls_fun_close && paren_depth == 1) save_argument (&fmacro, out - pfile->out.base); break; case ')': if (quote == 0) { paren_depth--; if (lex_state == ls_fun_close && paren_depth == 0) { cpp_macro *m = fmacro.node->value.macro; m->used = 1; lex_state = ls_none; save_argument (&fmacro, out - pfile->out.base); /* A single zero-length argument is no argument. */ if (fmacro.argc == 1 && m->paramc == 0 && out == pfile->out.base + fmacro.offset + 1) fmacro.argc = 0; if (_cpp_arguments_ok (pfile, m, fmacro.node, fmacro.argc)) { /* Remove the macro's invocation from the output, and push its replacement text. */ pfile->out.cur = (pfile->out.base + fmacro.offset); CUR (context) = cur; replace_args_and_push (pfile, &fmacro); goto new_context; } } else if (lex_state == ls_answer || lex_state == ls_defined_close) lex_state = ls_none; } break; case '#': if (cur - 1 == start_of_input_line /* A '#' from a macro doesn't start a directive. */ && !pfile->context->prev && !pfile->state.in_directive) { /* A directive. With the way _cpp_handle_directive currently works, we only want to call it if either we know the directive is OK, or we want it to fail and be removed from the output. If we want it to be passed through (the assembler case) then we must not call _cpp_handle_directive. */ pfile->out.cur = out; cur = skip_whitespace (pfile, cur, true /* skip_comments */); out = pfile->out.cur; if (*cur == '\n') { /* Null directive. Ignore it and don't invalidate the MI optimization. */ pfile->buffer->need_line = true; CPP_INCREMENT_LINE (pfile, 0); result = false; goto done; } else { bool do_it = false; if (is_numstart (*cur) && CPP_OPTION (pfile, lang) != CLK_ASM) do_it = true; else if (is_idstart (*cur)) /* Check whether we know this directive, but don't advance. */ do_it = lex_identifier (pfile, cur)->is_directive; if (do_it || CPP_OPTION (pfile, lang) != CLK_ASM) { /* This is a kludge. We want to have the ISO preprocessor lex the next token. */ pfile->buffer->cur = cur; _cpp_handle_directive (pfile, false /* indented */); result = false; goto done; } } } if (pfile->state.in_expression) { lex_state = ls_hash; continue; } break; default: break; } /* Non-whitespace disables MI optimization and stops treating '<' as a quote in #include. */ header_ok = false; if (!pfile->state.in_directive) pfile->mi_valid = false; if (lex_state == ls_none) continue; /* Some of these transitions of state are syntax errors. The ISO preprocessor will issue errors later. */ if (lex_state == ls_fun_open) /* Missing '('. */ lex_state = ls_none; else if (lex_state == ls_hash || lex_state == ls_predicate || lex_state == ls_defined) lex_state = ls_none; /* ls_answer and ls_defined_close keep going until ')'. */ } done: if (fmacro.buff) _cpp_release_buff (pfile, fmacro.buff); if (lex_state == ls_fun_close) cpp_error_with_line (pfile, CPP_DL_ERROR, fmacro.line, 0, "unterminated argument list invoking macro \"%s\"", NODE_NAME (fmacro.node)); return result; } /* Push a context holding the replacement text of the macro NODE on the context stack. NODE is either object-like, or a function-like macro with no arguments. */ static void push_replacement_text (cpp_reader *pfile, cpp_hashnode *node) { size_t len; const uchar *text; uchar *buf; if (node->flags & NODE_BUILTIN) { text = _cpp_builtin_macro_text (pfile, node); len = ustrlen (text); buf = _cpp_unaligned_alloc (pfile, len + 1); memcpy (buf, text, len); buf[len]='\n'; text = buf; } else { cpp_macro *macro = node->value.macro; macro->used = 1; text = macro->exp.text; macro->traditional = 1; len = macro->count; } _cpp_push_text_context (pfile, node, text, len); } /* Returns TRUE if traditional macro recursion is detected. */ static bool recursive_macro (cpp_reader *pfile, cpp_hashnode *node) { bool recursing = !!(node->flags & NODE_DISABLED); /* Object-like macros that are already expanding are necessarily recursive. However, it is possible to have traditional function-like macros that are not infinitely recursive but recurse to any given depth. Further, it is easy to construct examples that get ever longer until the point they stop recursing. So there is no easy way to detect true recursion; instead we assume any expansion more than 20 deep since the first invocation of this macro must be recursing. */ if (recursing && node->value.macro->fun_like) { size_t depth = 0; cpp_context *context = pfile->context; do { depth++; if (context->macro == node && depth > 20) break; context = context->prev; } while (context); recursing = context != NULL; } if (recursing) cpp_error (pfile, CPP_DL_ERROR, "detected recursion whilst expanding macro \"%s\"", NODE_NAME (node)); return recursing; } /* Return the length of the replacement text of a function-like or object-like non-builtin macro. */ size_t _cpp_replacement_text_len (const cpp_macro *macro) { size_t len; if (macro->fun_like && (macro->paramc != 0)) { const uchar *exp; len = 0; for (exp = macro->exp.text;;) { struct block *b = (struct block *) exp; len += b->text_len; if (b->arg_index == 0) break; len += NODE_LEN (macro->params[b->arg_index - 1]); exp += BLOCK_LEN (b->text_len); } } else len = macro->count; return len; } /* Copy the replacement text of MACRO to DEST, which must be of sufficient size. It is not NUL-terminated. The next character is returned. */ uchar * _cpp_copy_replacement_text (const cpp_macro *macro, uchar *dest) { if (macro->fun_like && (macro->paramc != 0)) { const uchar *exp; for (exp = macro->exp.text;;) { struct block *b = (struct block *) exp; cpp_hashnode *param; memcpy (dest, b->text, b->text_len); dest += b->text_len; if (b->arg_index == 0) break; param = macro->params[b->arg_index - 1]; memcpy (dest, NODE_NAME (param), NODE_LEN (param)); dest += NODE_LEN (param); exp += BLOCK_LEN (b->text_len); } } else { memcpy (dest, macro->exp.text, macro->count); dest += macro->count; } return dest; } /* Push a context holding the replacement text of the macro NODE on the context stack. NODE is either object-like, or a function-like macro with no arguments. */ static void replace_args_and_push (cpp_reader *pfile, struct fun_macro *fmacro) { cpp_macro *macro = fmacro->node->value.macro; if (macro->paramc == 0) push_replacement_text (pfile, fmacro->node); else { const uchar *exp; uchar *p; _cpp_buff *buff; size_t len = 0; /* Calculate the length of the argument-replaced text. */ for (exp = macro->exp.text;;) { struct block *b = (struct block *) exp; len += b->text_len; if (b->arg_index == 0) break; len += (fmacro->args[b->arg_index] - fmacro->args[b->arg_index - 1] - 1); exp += BLOCK_LEN (b->text_len); } /* Allocate room for the expansion plus \n. */ buff = _cpp_get_buff (pfile, len + 1); /* Copy the expansion and replace arguments. */ p = BUFF_FRONT (buff); for (exp = macro->exp.text;;) { struct block *b = (struct block *) exp; size_t arglen; memcpy (p, b->text, b->text_len); p += b->text_len; if (b->arg_index == 0) break; arglen = (fmacro->args[b->arg_index] - fmacro->args[b->arg_index - 1] - 1); memcpy (p, pfile->out.base + fmacro->args[b->arg_index - 1], arglen); p += arglen; exp += BLOCK_LEN (b->text_len); } /* \n-terminate. */ *p = '\n'; _cpp_push_text_context (pfile, fmacro->node, BUFF_FRONT (buff), len); /* So we free buffer allocation when macro is left. */ pfile->context->buff = buff; } } /* Read and record the parameters, if any, of a function-like macro definition. Destroys pfile->out.cur. Returns true on success, false on failure (syntax error or a duplicate parameter). On success, CUR (pfile->context) is just past the closing parenthesis. */ static bool scan_parameters (cpp_reader *pfile, cpp_macro *macro) { const uchar *cur = CUR (pfile->context) + 1; bool ok; for (;;) { cur = skip_whitespace (pfile, cur, true /* skip_comments */); if (is_idstart (*cur)) { ok = false; if (_cpp_save_parameter (pfile, macro, lex_identifier (pfile, cur))) break; cur = skip_whitespace (pfile, CUR (pfile->context), true /* skip_comments */); if (*cur == ',') { cur++; continue; } ok = (*cur == ')'); break; } ok = (*cur == ')' && macro->paramc == 0); break; } if (!ok) cpp_error (pfile, CPP_DL_ERROR, "syntax error in macro parameter list"); CUR (pfile->context) = cur + (*cur == ')'); return ok; } /* Save the text from pfile->out.base to pfile->out.cur as the replacement text for the current macro, followed by argument ARG_INDEX, with zero indicating the end of the replacement text. */ static void save_replacement_text (cpp_reader *pfile, cpp_macro *macro, unsigned int arg_index) { size_t len = pfile->out.cur - pfile->out.base; uchar *exp; if (macro->paramc == 0) { /* Object-like and function-like macros without parameters simply store their \n-terminated replacement text. */ exp = _cpp_unaligned_alloc (pfile, len + 1); memcpy (exp, pfile->out.base, len); exp[len] = '\n'; macro->exp.text = exp; macro->traditional = 1; macro->count = len; } else { /* Store the text's length (unsigned int), the argument index (unsigned short, base 1) and then the text. */ size_t blen = BLOCK_LEN (len); struct block *block; if (macro->count + blen > BUFF_ROOM (pfile->a_buff)) _cpp_extend_buff (pfile, &pfile->a_buff, macro->count + blen); exp = BUFF_FRONT (pfile->a_buff); block = (struct block *) (exp + macro->count); macro->exp.text = exp; macro->traditional = 1; /* Write out the block information. */ block->text_len = len; block->arg_index = arg_index; memcpy (block->text, pfile->out.base, len); /* Lex the rest into the start of the output buffer. */ pfile->out.cur = pfile->out.base; macro->count += blen; /* If we've finished, commit the memory. */ if (arg_index == 0) BUFF_FRONT (pfile->a_buff) += macro->count; } } /* Analyze and save the replacement text of a macro. Returns true on success. */ bool _cpp_create_trad_definition (cpp_reader *pfile, cpp_macro *macro) { const uchar *cur; uchar *limit; cpp_context *context = pfile->context; /* The context has not been set up for command line defines, and CUR has not been updated for the macro name for in-file defines. */ pfile->out.cur = pfile->out.base; CUR (context) = pfile->buffer->cur; RLIMIT (context) = pfile->buffer->rlimit; check_output_buffer (pfile, RLIMIT (context) - CUR (context)); /* Is this a function-like macro? */ if (* CUR (context) == '(') { bool ok = scan_parameters (pfile, macro); /* Remember the params so we can clear NODE_MACRO_ARG flags. */ macro->params = (cpp_hashnode **) BUFF_FRONT (pfile->a_buff); /* Setting macro to NULL indicates an error occurred, and prevents unnecessary work in _cpp_scan_out_logical_line. */ if (!ok) macro = NULL; else { BUFF_FRONT (pfile->a_buff) = (uchar *) ¯o->params[macro->paramc]; macro->fun_like = 1; } } /* Skip leading whitespace in the replacement text. */ pfile->buffer->cur = skip_whitespace (pfile, CUR (context), CPP_OPTION (pfile, discard_comments_in_macro_exp)); pfile->state.prevent_expansion++; _cpp_scan_out_logical_line (pfile, macro); pfile->state.prevent_expansion--; if (!macro) return false; /* Skip trailing white space. */ cur = pfile->out.base; limit = pfile->out.cur; while (limit > cur && is_space (limit[-1])) limit--; pfile->out.cur = limit; save_replacement_text (pfile, macro, 0); return true; } /* Copy SRC of length LEN to DEST, but convert all contiguous whitespace to a single space, provided it is not in quotes. The quote currently in effect is pointed to by PQUOTE, and is updated by the function. Returns the number of bytes copied. */ static size_t canonicalize_text (uchar *dest, const uchar *src, size_t len, uchar *pquote) { uchar *orig_dest = dest; uchar quote = *pquote; while (len) { if (is_space (*src) && !quote) { do src++, len--; while (len && is_space (*src)); *dest++ = ' '; } else { if (*src == '\'' || *src == '"') { if (!quote) quote = *src; else if (quote == *src) quote = 0; } *dest++ = *src++, len--; } } *pquote = quote; return dest - orig_dest; } /* Returns true if MACRO1 and MACRO2 have expansions different other than in the form of their whitespace. */ bool _cpp_expansions_different_trad (const cpp_macro *macro1, const cpp_macro *macro2) { uchar *p1 = XNEWVEC (uchar, macro1->count + macro2->count); uchar *p2 = p1 + macro1->count; uchar quote1 = 0, quote2 = 0; bool mismatch; size_t len1, len2; if (macro1->paramc > 0) { const uchar *exp1 = macro1->exp.text, *exp2 = macro2->exp.text; mismatch = true; for (;;) { struct block *b1 = (struct block *) exp1; struct block *b2 = (struct block *) exp2; if (b1->arg_index != b2->arg_index) break; len1 = canonicalize_text (p1, b1->text, b1->text_len, "e1); len2 = canonicalize_text (p2, b2->text, b2->text_len, "e2); if (len1 != len2 || memcmp (p1, p2, len1)) break; if (b1->arg_index == 0) { mismatch = false; break; } exp1 += BLOCK_LEN (b1->text_len); exp2 += BLOCK_LEN (b2->text_len); } } else { len1 = canonicalize_text (p1, macro1->exp.text, macro1->count, "e1); len2 = canonicalize_text (p2, macro2->exp.text, macro2->count, "e2); mismatch = (len1 != len2 || memcmp (p1, p2, len1)); } free (p1); return mismatch; }