/* xgettext PHP backend. Copyright (C) 2001-2003, 2005-2010, 2015 Free Software Foundation, Inc. This file was written by Bruno Haible , 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 3 of the License, 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, see . */ #ifdef HAVE_CONFIG_H # include "config.h" #endif /* Specification. */ #include "x-php.h" #include #include #include #include #include "message.h" #include "xgettext.h" #include "error.h" #include "xalloc.h" #include "gettext.h" #define _(s) gettext(s) #define SIZEOF(a) (sizeof(a) / sizeof(a[0])) /* The PHP syntax is defined in phpdoc/manual/langref.html. See also php-4.1.0/Zend/zend_language_scanner.l and php-4.1.0/Zend/zend_language_parser.y. Note that variable and function names can contain bytes in the range 0x7f..0xff; see http://www.php.net/manual/en/language.variables.php http://www.php.net/manual/en/language.functions.php */ /* ====================== Keyword set customization. ====================== */ /* If true extract all strings. */ static bool extract_all = false; static hash_table keywords; static bool default_keywords = true; void x_php_extract_all () { extract_all = true; } void x_php_keyword (const char *name) { if (name == NULL) default_keywords = false; else { const char *end; struct callshape shape; const char *colon; if (keywords.table == NULL) hash_init (&keywords, 100); split_keywordspec (name, &end, &shape); /* The characters between name and end should form a valid C identifier. A colon means an invalid parse in split_keywordspec(). */ colon = strchr (name, ':'); if (colon == NULL || colon >= end) insert_keyword_callshape (&keywords, name, end - name, &shape); } } /* Finish initializing the keywords hash table. Called after argument processing, before each file is processed. */ static void init_keywords () { if (default_keywords) { /* When adding new keywords here, also update the documentation in xgettext.texi! */ x_php_keyword ("_"); x_php_keyword ("gettext"); x_php_keyword ("dgettext:2"); x_php_keyword ("dcgettext:2"); /* The following were added in PHP 4.2.0. */ x_php_keyword ("ngettext:1,2"); x_php_keyword ("dngettext:2,3"); x_php_keyword ("dcngettext:2,3"); default_keywords = false; } } void init_flag_table_php () { xgettext_record_flag ("_:1:pass-php-format"); xgettext_record_flag ("gettext:1:pass-php-format"); xgettext_record_flag ("dgettext:2:pass-php-format"); xgettext_record_flag ("dcgettext:2:pass-php-format"); xgettext_record_flag ("ngettext:1:pass-php-format"); xgettext_record_flag ("ngettext:2:pass-php-format"); xgettext_record_flag ("dngettext:2:pass-php-format"); xgettext_record_flag ("dngettext:3:pass-php-format"); xgettext_record_flag ("dcngettext:2:pass-php-format"); xgettext_record_flag ("dcngettext:3:pass-php-format"); xgettext_record_flag ("sprintf:1:php-format"); xgettext_record_flag ("printf:1:php-format"); } /* ======================== Reading of characters. ======================== */ /* Real filename, used in error messages about the input file. */ static const char *real_file_name; /* Logical filename and line number, used to label the extracted messages. */ static char *logical_file_name; static int line_number; /* The input file stream. */ static FILE *fp; /* 1. line_number handling. */ static unsigned char phase1_pushback[2]; static int phase1_pushback_length; static int phase1_getc () { int c; if (phase1_pushback_length) c = phase1_pushback[--phase1_pushback_length]; else { c = getc (fp); if (c == EOF) { if (ferror (fp)) error (EXIT_FAILURE, errno, _("error while reading \"%s\""), real_file_name); return EOF; } } if (c == '\n') line_number++; return c; } /* Supports 2 characters of pushback. */ static void phase1_ungetc (int c) { if (c != EOF) { if (c == '\n') --line_number; if (phase1_pushback_length == SIZEOF (phase1_pushback)) abort (); phase1_pushback[phase1_pushback_length++] = c; } } /* 2. Ignore HTML sections. They are equivalent to PHP echo commands and therefore don't contain translatable strings. */ static void skip_html () { for (;;) { int c = phase1_getc (); if (c == EOF) return; if (c == '<') { int c2 = phase1_getc (); if (c2 == EOF) break; if (c2 == '?') { /* < script language = "php" > < script language = 'php' > are always recognized. */ while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r') c2 = phase1_getc (); if (c2 != 's' && c2 != 'S') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'c' && c2 != 'C') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'r' && c2 != 'R') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'i' && c2 != 'I') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'p' && c2 != 'P') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 't' && c2 != 'T') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (!(c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r')) { phase1_ungetc (c2); continue; } do c2 = phase1_getc (); while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r'); if (c2 != 'l' && c2 != 'L') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'a' && c2 != 'A') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'n' && c2 != 'N') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'g' && c2 != 'G') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'u' && c2 != 'U') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'a' && c2 != 'A') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'g' && c2 != 'G') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'e' && c2 != 'E') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r') c2 = phase1_getc (); if (c2 != '=') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r') c2 = phase1_getc (); if (c2 == '"') { c2 = phase1_getc (); if (c2 != 'p') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'h') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'p') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != '"') { phase1_ungetc (c2); continue; } } else if (c2 == '\'') { c2 = phase1_getc (); if (c2 != 'p') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'h') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'p') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != '\'') { phase1_ungetc (c2); continue; } } else { if (c2 != 'p') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'h') { phase1_ungetc (c2); continue; } c2 = phase1_getc (); if (c2 != 'p') { phase1_ungetc (c2); continue; } } c2 = phase1_getc (); while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r') c2 = phase1_getc (); if (c2 != '>') { phase1_ungetc (c2); continue; } return; } } } #if 0 static unsigned char phase2_pushback[1]; static int phase2_pushback_length; static int phase2_getc () { int c; if (phase2_pushback_length) return phase2_pushback[--phase2_pushback_length]; c = phase1_getc (); switch (c) { case '?': case '%': { int c2 = phase1_getc (); if (c2 == '>') { /* ?> and %> terminate PHP mode and switch back to HTML mode. */ skip_html (); return ' '; } phase1_ungetc (c2); } break; case '<': { int c2 = phase1_getc (); /* < / script > terminates PHP mode and switches back to HTML mode. */ while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r') c2 = phase1_getc (); if (c2 == '/') { do c2 = phase1_getc (); while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r'); if (c2 == 's' || c2 == 'S') { c2 = phase1_getc (); if (c2 == 'c' || c2 == 'C') { c2 = phase1_getc (); if (c2 == 'r' || c2 == 'R') { c2 = phase1_getc (); if (c2 == 'i' || c2 == 'I') { c2 = phase1_getc (); if (c2 == 'p' || c2 == 'P') { c2 = phase1_getc (); if (c2 == 't' || c2 == 'T') { do c2 = phase1_getc (); while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r'); if (c2 == '>') { skip_html (); return ' '; } } } } } } } } phase1_ungetc (c2); } break; } return c; } static void phase2_ungetc (int c) { if (c != EOF) { if (phase2_pushback_length == SIZEOF (phase2_pushback)) abort (); phase2_pushback[phase2_pushback_length++] = c; } } #endif /* Accumulating comments. */ static char *buffer; static size_t bufmax; static size_t buflen; static inline void comment_start () { buflen = 0; } static inline void comment_add (int c) { if (buflen >= bufmax) { bufmax = 2 * bufmax + 10; buffer = xrealloc (buffer, bufmax); } buffer[buflen++] = c; } static inline void comment_line_end (size_t chars_to_remove) { buflen -= chars_to_remove; while (buflen >= 1 && (buffer[buflen - 1] == ' ' || buffer[buflen - 1] == '\t')) --buflen; if (chars_to_remove == 0 && buflen >= bufmax) { bufmax = 2 * bufmax + 10; buffer = xrealloc (buffer, bufmax); } buffer[buflen] = '\0'; savable_comment_add (buffer); } /* 3. Replace each comment that is not inside a string literal with a space character. We need to remember the comment for later, because it may be attached to a keyword string. */ /* These are for tracking whether comments count as immediately before keyword. */ static int last_comment_line; static int last_non_comment_line; static unsigned char phase3_pushback[1]; static int phase3_pushback_length; static int phase3_getc () { int lineno; int c; if (phase3_pushback_length) return phase3_pushback[--phase3_pushback_length]; c = phase1_getc (); if (c == '#') { /* sh comment. */ bool last_was_qmark = false; comment_start (); lineno = line_number; for (;;) { c = phase1_getc (); if (c == '\n' || c == EOF) { comment_line_end (0); break; } if (last_was_qmark && c == '>') { comment_line_end (1); skip_html (); break; } /* We skip all leading white space, but not EOLs. */ if (!(buflen == 0 && (c == ' ' || c == '\t'))) comment_add (c); last_was_qmark = (c == '?' || c == '%'); } last_comment_line = lineno; return '\n'; } else if (c == '/') { c = phase1_getc (); switch (c) { default: phase1_ungetc (c); return '/'; case '*': { /* C comment. */ bool last_was_star; comment_start (); lineno = line_number; last_was_star = false; for (;;) { c = phase1_getc (); if (c == EOF) break; /* We skip all leading white space, but not EOLs. */ if (buflen == 0 && (c == ' ' || c == '\t')) continue; comment_add (c); switch (c) { case '\n': comment_line_end (1); comment_start (); lineno = line_number; last_was_star = false; continue; case '*': last_was_star = true; continue; case '/': if (last_was_star) { comment_line_end (2); break; } /* FALLTHROUGH */ default: last_was_star = false; continue; } break; } last_comment_line = lineno; return ' '; } case '/': { /* C++ comment. */ bool last_was_qmark = false; comment_start (); lineno = line_number; for (;;) { c = phase1_getc (); if (c == '\n' || c == EOF) { comment_line_end (0); break; } if (last_was_qmark && c == '>') { comment_line_end (1); skip_html (); break; } /* We skip all leading white space, but not EOLs. */ if (!(buflen == 0 && (c == ' ' || c == '\t'))) comment_add (c); last_was_qmark = (c == '?' || c == '%'); } last_comment_line = lineno; return '\n'; } } } else return c; } #ifdef unused static void phase3_ungetc (int c) { if (c != EOF) { if (phase3_pushback_length == SIZEOF (phase3_pushback)) abort (); phase3_pushback[phase3_pushback_length++] = c; } } #endif /* ========================== Reading of tokens. ========================== */ enum token_type_ty { token_type_eof, token_type_lparen, /* ( */ token_type_rparen, /* ) */ token_type_comma, /* , */ token_type_lbracket, /* [ */ token_type_rbracket, /* ] */ token_type_dot, /* . */ token_type_operator1, /* * / % ++ -- */ token_type_operator2, /* + - ! ~ @ */ token_type_string_literal, /* "abc" */ token_type_symbol, /* symbol, number */ token_type_other /* misc. operator */ }; typedef enum token_type_ty token_type_ty; typedef struct token_ty token_ty; struct token_ty { token_type_ty type; char *string; /* for token_type_string_literal, token_type_symbol */ refcounted_string_list_ty *comment; /* for token_type_string_literal */ int line_number; }; /* Free the memory pointed to by a 'struct token_ty'. */ static inline void free_token (token_ty *tp) { if (tp->type == token_type_string_literal || tp->type == token_type_symbol) free (tp->string); if (tp->type == token_type_string_literal) drop_reference (tp->comment); } /* 4. Combine characters into tokens. Discard whitespace. */ static token_ty phase4_pushback[3]; static int phase4_pushback_length; static void phase4_get (token_ty *tp) { static char *buffer; static int bufmax; int bufpos; int c; if (phase4_pushback_length) { *tp = phase4_pushback[--phase4_pushback_length]; return; } tp->string = NULL; for (;;) { tp->line_number = line_number; c = phase3_getc (); switch (c) { case EOF: tp->type = token_type_eof; return; case '\n': if (last_non_comment_line > last_comment_line) savable_comment_reset (); /* FALLTHROUGH */ case ' ': case '\t': case '\r': /* Ignore whitespace. */ continue; } last_non_comment_line = tp->line_number; switch (c) { 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 '_': 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 127: case 128: case 129: case 130: case 131: case 132: case 133: case 134: case 135: case 136: case 137: case 138: case 139: case 140: case 141: case 142: case 143: case 144: case 145: case 146: case 147: case 148: case 149: case 150: case 151: case 152: case 153: case 154: case 155: case 156: case 157: case 158: case 159: case 160: case 161: case 162: case 163: case 164: case 165: case 166: case 167: case 168: case 169: case 170: case 171: case 172: case 173: case 174: case 175: case 176: case 177: case 178: case 179: case 180: case 181: case 182: case 183: case 184: case 185: case 186: case 187: case 188: case 189: case 190: case 191: case 192: case 193: case 194: case 195: case 196: case 197: case 198: case 199: case 200: case 201: case 202: case 203: case 204: case 205: case 206: case 207: case 208: case 209: case 210: case 211: case 212: case 213: case 214: case 215: case 216: case 217: case 218: case 219: case 220: case 221: case 222: case 223: case 224: case 225: case 226: case 227: case 228: case 229: case 230: case 231: case 232: case 233: case 234: case 235: case 236: case 237: case 238: case 239: case 240: case 241: case 242: case 243: case 244: case 245: case 246: case 247: case 248: case 249: case 250: case 251: case 252: case 253: case 254: case 255: bufpos = 0; for (;;) { if (bufpos >= bufmax) { bufmax = 2 * bufmax + 10; buffer = xrealloc (buffer, bufmax); } buffer[bufpos++] = c; c = phase1_getc (); switch (c) { 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 '_': 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 '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': case 127: case 128: case 129: case 130: case 131: case 132: case 133: case 134: case 135: case 136: case 137: case 138: case 139: case 140: case 141: case 142: case 143: case 144: case 145: case 146: case 147: case 148: case 149: case 150: case 151: case 152: case 153: case 154: case 155: case 156: case 157: case 158: case 159: case 160: case 161: case 162: case 163: case 164: case 165: case 166: case 167: case 168: case 169: case 170: case 171: case 172: case 173: case 174: case 175: case 176: case 177: case 178: case 179: case 180: case 181: case 182: case 183: case 184: case 185: case 186: case 187: case 188: case 189: case 190: case 191: case 192: case 193: case 194: case 195: case 196: case 197: case 198: case 199: case 200: case 201: case 202: case 203: case 204: case 205: case 206: case 207: case 208: case 209: case 210: case 211: case 212: case 213: case 214: case 215: case 216: case 217: case 218: case 219: case 220: case 221: case 222: case 223: case 224: case 225: case 226: case 227: case 228: case 229: case 230: case 231: case 232: case 233: case 234: case 235: case 236: case 237: case 238: case 239: case 240: case 241: case 242: case 243: case 244: case 245: case 246: case 247: case 248: case 249: case 250: case 251: case 252: case 253: case 254: case 255: continue; default: phase1_ungetc (c); break; } break; } if (bufpos >= bufmax) { bufmax = 2 * bufmax + 10; buffer = xrealloc (buffer, bufmax); } buffer[bufpos] = 0; tp->string = xstrdup (buffer); tp->type = token_type_symbol; return; case '\'': /* Single-quoted string literal. */ bufpos = 0; for (;;) { c = phase1_getc (); if (c == EOF || c == '\'') break; if (c == '\\') { c = phase1_getc (); if (c != '\\' && c != '\'') { phase1_ungetc (c); c = '\\'; } } if (bufpos >= bufmax) { bufmax = 2 * bufmax + 10; buffer = xrealloc (buffer, bufmax); } buffer[bufpos++] = c; } if (bufpos >= bufmax) { bufmax = 2 * bufmax + 10; buffer = xrealloc (buffer, bufmax); } buffer[bufpos] = 0; tp->type = token_type_string_literal; tp->string = xstrdup (buffer); tp->comment = add_reference (savable_comment); return; case '"': /* Double-quoted string literal. */ tp->type = token_type_string_literal; bufpos = 0; for (;;) { c = phase1_getc (); if (c == EOF || c == '"') break; if (c == '$') { c = phase1_getc (); if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || c == '_' || c == '{' || c >= 0x7f) { /* String with variables. */ tp->type = token_type_other; continue; } phase1_ungetc (c); c = '$'; } if (c == '{') { c = phase1_getc (); if (c == '$') { /* String with expressions. */ tp->type = token_type_other; continue; } phase1_ungetc (c); c = '{'; } if (c == '\\') { int n, j; c = phase1_getc (); switch (c) { case '"': case '\\': case '$': break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': n = 0; for (j = 0; j < 3; ++j) { n = n * 8 + c - '0'; c = phase1_getc (); switch (c) { default: break; case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': continue; } break; } phase1_ungetc (c); c = n; break; case 'x': n = 0; for (j = 0; j < 2; ++j) { c = phase1_getc (); switch (c) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': n = n * 16 + c - '0'; break; case 'A': case 'B': case 'C': case 'D': case 'E': case 'F': n = n * 16 + 10 + c - 'A'; break; case 'a': case 'b': case 'c': case 'd': case 'e': case 'f': n = n * 16 + 10 + c - 'a'; break; default: phase1_ungetc (c); c = 0; break; } if (c == 0) break; } if (j == 0) { phase1_ungetc ('x'); c = '\\'; } else c = n; break; case 'n': c = '\n'; break; case 't': c = '\t'; break; case 'r': c = '\r'; break; default: phase1_ungetc (c); c = '\\'; break; } } if (bufpos >= bufmax) { bufmax = 2 * bufmax + 10; buffer = xrealloc (buffer, bufmax); } buffer[bufpos++] = c; } if (bufpos >= bufmax) { bufmax = 2 * bufmax + 10; buffer = xrealloc (buffer, bufmax); } buffer[bufpos] = 0; if (tp->type == token_type_string_literal) { tp->string = xstrdup (buffer); tp->comment = add_reference (savable_comment); } return; case '?': case '%': { int c2 = phase1_getc (); if (c2 == '>') { /* ?> and %> terminate PHP mode and switch back to HTML mode. */ skip_html (); tp->type = token_type_other; } else { phase1_ungetc (c2); tp->type = (c == '%' ? token_type_operator1 : token_type_other); } return; } case '(': tp->type = token_type_lparen; return; case ')': tp->type = token_type_rparen; return; case ',': tp->type = token_type_comma; return; case '[': tp->type = token_type_lbracket; return; case ']': tp->type = token_type_rbracket; return; case '.': tp->type = token_type_dot; return; case '*': case '/': tp->type = token_type_operator1; return; case '+': case '-': { int c2 = phase1_getc (); if (c2 == c) /* ++ or -- */ tp->type = token_type_operator1; else /* + or - */ { phase1_ungetc (c2); tp->type = token_type_operator2; } return; } case '!': case '~': case '@': tp->type = token_type_operator2; return; case '<': { int c2 = phase1_getc (); if (c2 == '<') { int c3 = phase1_getc (); if (c3 == '<') { int label_start = 0; /* Start of here and now document. Parse whitespace, then label, then newline. */ do c = phase3_getc (); while (c == ' ' || c == '\t' || c == '\n' || c == '\r'); bufpos = 0; do { if (bufpos >= bufmax) { bufmax = 2 * bufmax + 10; buffer = xrealloc (buffer, bufmax); } buffer[bufpos++] = c; c = phase3_getc (); } while (c != EOF && c != '\n' && c != '\r'); /* buffer[0..bufpos-1] now contains the label (including single or double quotes). */ if (*buffer == '\'' || *buffer == '"') { label_start++; bufpos--; } /* Now skip the here document. */ for (;;) { c = phase1_getc (); if (c == EOF) break; if (c == '\n' || c == '\r') { int bufidx = label_start; while (bufidx < bufpos) { c = phase1_getc (); if (c == EOF) break; if (c != buffer[bufidx]) { phase1_ungetc (c); break; } bufidx++; } if (bufidx == bufpos) { c = phase1_getc (); if (c != ';') phase1_ungetc (c); c = phase1_getc (); if (c == '\n' || c == '\r') break; } } } /* FIXME: Ideally we should turn the here document into a string literal if it didn't contain $ substitution. And we should also respect backslash escape sequences like in double-quoted strings. */ tp->type = token_type_other; return; } phase1_ungetc (c3); } /* < / script > terminates PHP mode and switches back to HTML mode. */ while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r') c2 = phase1_getc (); if (c2 == '/') { do c2 = phase1_getc (); while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r'); if (c2 == 's' || c2 == 'S') { c2 = phase1_getc (); if (c2 == 'c' || c2 == 'C') { c2 = phase1_getc (); if (c2 == 'r' || c2 == 'R') { c2 = phase1_getc (); if (c2 == 'i' || c2 == 'I') { c2 = phase1_getc (); if (c2 == 'p' || c2 == 'P') { c2 = phase1_getc (); if (c2 == 't' || c2 == 'T') { do c2 = phase1_getc (); while (c2 == ' ' || c2 == '\t' || c2 == '\n' || c2 == '\r'); if (c2 == '>') { skip_html (); } else phase1_ungetc (c2); } else phase1_ungetc (c2); } else phase1_ungetc (c2); } else phase1_ungetc (c2); } else phase1_ungetc (c2); } else phase1_ungetc (c2); } else phase1_ungetc (c2); } else phase1_ungetc (c2); tp->type = token_type_other; return; } case '`': /* Execution operator. */ default: /* We could carefully recognize each of the 2 and 3 character operators, but it is not necessary, as we only need to recognize gettext invocations. Don't bother. */ tp->type = token_type_other; return; } } } /* Supports 3 tokens of pushback. */ static void phase4_unget (token_ty *tp) { if (tp->type != token_type_eof) { if (phase4_pushback_length == SIZEOF (phase4_pushback)) abort (); phase4_pushback[phase4_pushback_length++] = *tp; } } /* 5. Compile-time optimization of string literal concatenation. Combine "string1" . ... . "stringN" to the concatenated string if - the token before this expression is none of '+' '-' '.' '*' '/' '%' '!' '~' '++' '--' ')' '@' (because then the first string could be part of an expression with the same or higher precedence as '.', such as an additive, multiplicative, negation, preincrement, or cast expression), - the token after this expression is none of '*' '/' '%' '++' '--' (because then the last string could be part of an expression with higher precedence as '.', such as a multiplicative or postincrement expression). */ static token_type_ty phase5_last; static void x_php_lex (token_ty *tp) { phase4_get (tp); if (tp->type == token_type_string_literal && !(phase5_last == token_type_dot || phase5_last == token_type_operator1 || phase5_last == token_type_operator2 || phase5_last == token_type_rparen)) { char *sum = tp->string; size_t sum_len = strlen (sum); for (;;) { token_ty token2; phase4_get (&token2); if (token2.type == token_type_dot) { token_ty token3; phase4_get (&token3); if (token3.type == token_type_string_literal) { token_ty token_after; phase4_get (&token_after); if (token_after.type != token_type_operator1) { char *addend = token3.string; size_t addend_len = strlen (addend); sum = (char *) xrealloc (sum, sum_len + addend_len + 1); memcpy (sum + sum_len, addend, addend_len + 1); sum_len += addend_len; phase4_unget (&token_after); free_token (&token3); free_token (&token2); continue; } phase4_unget (&token_after); } phase4_unget (&token3); } phase4_unget (&token2); break; } tp->string = sum; } phase5_last = tp->type; } /* ========================= Extracting strings. ========================== */ /* Context lookup table. */ static flag_context_list_table_ty *flag_context_list_table; /* The file is broken into tokens. Scan the token stream, looking for a keyword, followed by a left paren, followed by a string. When we see this sequence, we have something to remember. We assume we are looking at a valid C or C++ program, and leave the complaints about the grammar to the compiler. Normal handling: Look for keyword ( ... msgid ... ) Plural handling: Look for keyword ( ... msgid ... msgid_plural ... ) We use recursion because the arguments before msgid or between msgid and msgid_plural can contain subexpressions of the same form. */ /* Extract messages until the next balanced closing parenthesis or bracket. Extracted messages are added to MLP. DELIM can be either token_type_rparen or token_type_rbracket, or token_type_eof to accept both. Return true upon eof, false upon closing parenthesis or bracket. */ static bool extract_balanced (message_list_ty *mlp, token_type_ty delim, flag_context_ty outer_context, flag_context_list_iterator_ty context_iter, struct arglist_parser *argparser) { /* Current argument number. */ int arg = 1; /* 0 when no keyword has been seen. 1 right after a keyword is seen. */ int state; /* Parameters of the keyword just seen. Defined only in state 1. */ const struct callshapes *next_shapes = NULL; /* Context iterator that will be used if the next token is a '('. */ flag_context_list_iterator_ty next_context_iter = passthrough_context_list_iterator; /* Current context. */ flag_context_ty inner_context = inherited_context (outer_context, flag_context_list_iterator_advance (&context_iter)); /* Start state is 0. */ state = 0; for (;;) { token_ty token; x_php_lex (&token); switch (token.type) { case token_type_symbol: { void *keyword_value; if (hash_find_entry (&keywords, token.string, strlen (token.string), &keyword_value) == 0) { next_shapes = (const struct callshapes *) keyword_value; state = 1; } else state = 0; } next_context_iter = flag_context_list_iterator ( flag_context_list_table_lookup ( flag_context_list_table, token.string, strlen (token.string))); free (token.string); continue; case token_type_lparen: if (extract_balanced (mlp, token_type_rparen, inner_context, next_context_iter, arglist_parser_alloc (mlp, state ? next_shapes : NULL))) { arglist_parser_done (argparser, arg); return true; } next_context_iter = null_context_list_iterator; state = 0; continue; case token_type_rparen: if (delim == token_type_rparen || delim == token_type_eof) { arglist_parser_done (argparser, arg); return false; } next_context_iter = null_context_list_iterator; state = 0; continue; case token_type_comma: arg++; inner_context = inherited_context (outer_context, flag_context_list_iterator_advance ( &context_iter)); next_context_iter = passthrough_context_list_iterator; state = 0; continue; case token_type_lbracket: if (extract_balanced (mlp, token_type_rbracket, null_context, null_context_list_iterator, arglist_parser_alloc (mlp, NULL))) { arglist_parser_done (argparser, arg); return true; } next_context_iter = null_context_list_iterator; state = 0; continue; case token_type_rbracket: if (delim == token_type_rbracket || delim == token_type_eof) { arglist_parser_done (argparser, arg); return false; } next_context_iter = null_context_list_iterator; state = 0; continue; case token_type_string_literal: { lex_pos_ty pos; pos.file_name = logical_file_name; pos.line_number = token.line_number; if (extract_all) remember_a_message (mlp, NULL, token.string, inner_context, &pos, NULL, token.comment); else arglist_parser_remember (argparser, arg, token.string, inner_context, pos.file_name, pos.line_number, token.comment); drop_reference (token.comment); } next_context_iter = null_context_list_iterator; state = 0; continue; case token_type_dot: case token_type_operator1: case token_type_operator2: case token_type_other: next_context_iter = null_context_list_iterator; state = 0; continue; case token_type_eof: arglist_parser_done (argparser, arg); return true; default: abort (); } } } void extract_php (FILE *f, const char *real_filename, const char *logical_filename, flag_context_list_table_ty *flag_table, msgdomain_list_ty *mdlp) { message_list_ty *mlp = mdlp->item[0]->messages; fp = f; real_file_name = real_filename; logical_file_name = xstrdup (logical_filename); line_number = 1; last_comment_line = -1; last_non_comment_line = -1; phase5_last = token_type_eof; flag_context_list_table = flag_table; init_keywords (); /* Initial mode is HTML mode, not PHP mode. */ skip_html (); /* Eat tokens until eof is seen. When extract_balanced returns due to an unbalanced closing parenthesis, just restart it. */ while (!extract_balanced (mlp, token_type_eof, null_context, null_context_list_iterator, arglist_parser_alloc (mlp, NULL))) ; /* Close scanner. */ fp = NULL; real_file_name = NULL; logical_file_name = NULL; line_number = 0; }