1 | /* Copyright (C) 1992, 1993, 1994, 1995 Free Software Foundation, Inc.
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2 |
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3 | This file is part of the librx library.
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4 |
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5 | Librx is free software; you can redistribute it and/or modify it under
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6 | the terms of the GNU Library General Public License as published by
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7 | the Free Software Foundation; either version 2, or (at your option)
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8 | any later version.
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9 |
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10 | Librx is distributed in the hope that it will be useful, but WITHOUT
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11 | ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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12 | FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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13 | for more details.
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14 |
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15 | You should have received a copy of the GNU Library General Public
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16 | License along with this software; see the file COPYING.LIB. If not,
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17 | write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA
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18 | 02139, USA. */
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19 |
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20 | /* NOTE!!! AIX is so losing it requires this to be the first thing in the
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21 | * file.
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22 | * Do not put ANYTHING before it!
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23 | */
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24 | #if !defined (__GNUC__) && defined (_AIX)
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25 | #pragma alloca
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26 | #endif
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27 |
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28 | /* To make linux happy? */
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29 | #ifndef _GNU_SOURCE
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30 | #define _GNU_SOURCE
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31 | #endif
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32 |
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33 | #if HAVE_CONFIG_H
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34 | # ifdef __WIN32__ /* [RPAP - Feb 97: WIN32 Port] */
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35 | # include <win32cfg.h>
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36 | # include <malloc.h>
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37 | # else
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38 | # include <sysfuncs.h>
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39 | # endif
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40 | #endif
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41 |
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42 | |
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43 |
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44 | char rx_version_string[] = "GNU Rx version 0.07.1";
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45 |
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46 | /* ``Too hard!''
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47 | * -- anon.
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48 | */
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49 |
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50 | |
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51 |
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52 | #include <stdio.h>
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53 | #include <ctype.h>
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54 | #ifndef isgraph
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55 | #define isgraph(c) (isprint (c) && !isspace (c))
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56 | #endif
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57 | #ifndef isblank
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58 | #define isblank(c) ((c) == ' ' || (c) == '\t')
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59 | #endif
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60 |
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61 | #include <sys/types.h>
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62 |
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63 | #undef MAX
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64 | #undef MIN
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65 | #define MAX(a, b) ((a) > (b) ? (a) : (b))
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66 | #define MIN(a, b) ((a) < (b) ? (a) : (b))
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67 |
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68 | typedef char boolean;
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69 | #define false 0
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70 | #define true 1
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71 |
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72 | #ifndef __GCC__
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73 | #undef __inline__
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74 | #define __inline__
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75 | #endif
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76 |
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77 | /* Emacs already defines alloca, sometimes. */
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78 | #ifndef alloca
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79 |
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80 | /* Make alloca work the best possible way. */
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81 | #ifdef __GNUC__
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82 | #define alloca __builtin_alloca
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83 | #else /* not __GNUC__ */
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84 | #if HAVE_ALLOCA_H
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85 | #include <alloca.h>
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86 | #else /* not __GNUC__ or HAVE_ALLOCA_H */
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87 | #ifndef _AIX /* Already did AIX, up at the top. */
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88 | char *alloca ();
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89 | #endif /* not _AIX */
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90 | #endif /* not HAVE_ALLOCA_H */
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91 | #endif /* not __GNUC__ */
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92 |
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93 | #endif /* not alloca */
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94 |
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95 | /* Memory management and stuff for emacs. */
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96 |
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97 | #define CHARBITS 8
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98 | #define remalloc(M, S) (M ? realloc (M, S) : malloc (S))
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99 |
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100 |
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101 | /* Should we use malloc or alloca? If REGEX_MALLOC is not defined, we
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102 | * use `alloca' instead of `malloc' for the backtracking stack.
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103 | *
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104 | * Emacs will die miserably if we don't do this.
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105 | */
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106 |
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107 | #ifdef REGEX_MALLOC
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108 | #define REGEX_ALLOCATE malloc
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109 | #else /* not REGEX_MALLOC */
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110 | #ifdef __WIN32__ /* [RPAP - Feb 97: WIN32 Port] */
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111 | #define REGEX_ALLOCATE _alloca
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112 | #else
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113 | #define REGEX_ALLOCATE alloca
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114 | #endif /* __WIN32__ */
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115 | #endif /* not REGEX_MALLOC */
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116 |
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117 |
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118 | #ifdef RX_WANT_RX_DEFS
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119 | #define RX_DECL extern
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120 | #define RX_DEF_QUAL
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121 | #else
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122 | #define RX_WANT_RX_DEFS
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123 | #define RX_DECL static
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124 | #define RX_DEF_QUAL static
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125 | #endif
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126 | #include "rx.h"
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127 | #undef RX_DECL
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128 | #define RX_DECL RX_DEF_QUAL
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129 |
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130 |
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131 | #ifndef emacs
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132 |
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133 | #ifdef SYNTAX_TABLE
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134 | extern char *re_syntax_table;
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135 | #else /* not SYNTAX_TABLE */
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136 |
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137 | #ifdef __STDC__
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138 | static void
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139 | init_syntax_once (void)
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140 | #else
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141 | static void
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142 | init_syntax_once ()
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143 | #endif
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144 | {
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145 | register int c;
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146 | static int done = 0;
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147 |
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148 | if (done)
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149 | return;
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150 |
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151 | bzero (re_syntax_table, sizeof re_syntax_table);
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152 |
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153 | for (c = 'a'; c <= 'z'; c++)
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154 | re_syntax_table[c] = Sword;
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155 |
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156 | for (c = 'A'; c <= 'Z'; c++)
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157 | re_syntax_table[c] = Sword;
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158 |
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159 | for (c = '0'; c <= '9'; c++)
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160 | re_syntax_table[c] = Sword;
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161 |
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162 | re_syntax_table['_'] = Sword;
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163 |
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164 | done = 1;
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165 | }
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166 | #endif /* not SYNTAX_TABLE */
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167 | #endif /* not emacs */
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168 | |
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169 |
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170 | /* Compile with `-DRX_DEBUG' and use the following flags.
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171 | *
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172 | * Debugging flags:
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173 | * rx_debug - print information as a regexp is compiled
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174 | * rx_debug_trace - print information as a regexp is executed
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175 | */
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176 |
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177 | #ifdef RX_DEBUG
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178 |
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179 | int rx_debug_compile = 0;
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180 | int rx_debug_trace = 0;
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181 | static struct re_pattern_buffer * dbug_rxb = 0;
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182 |
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183 | #ifdef __STDC__
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184 | typedef void (*side_effect_printer) (struct rx *, void *, FILE *);
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185 | #else
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186 | typedef void (*side_effect_printer) ();
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187 | #endif
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188 |
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189 | #ifdef __STDC__
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190 | static void print_cset (struct rx *rx, rx_Bitset cset, FILE * fp);
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191 | #else
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192 | static void print_cset ();
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193 | #endif
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194 |
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195 | #ifdef __STDC__
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196 | static void
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197 | print_rexp (struct rx *rx,
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198 | struct rexp_node *node, int depth,
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199 | side_effect_printer seprint, FILE * fp)
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200 | #else
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201 | static void
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202 | print_rexp (rx, node, depth, seprint, fp)
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203 | struct rx *rx;
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204 | struct rexp_node *node;
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205 | int depth;
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206 | side_effect_printer seprint;
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207 | FILE * fp;
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208 | #endif
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209 | {
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210 | if (!node)
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211 | return;
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212 | else
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213 | {
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214 | switch (node->type)
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215 | {
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216 | case r_cset:
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217 | {
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218 | fprintf (fp, "%*s", depth, "");
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219 | print_cset (rx, node->params.cset, fp);
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220 | fputc ('\n', fp);
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221 | break;
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222 | }
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223 |
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224 | case r_opt:
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225 | case r_star:
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226 | fprintf (fp, "%*s%s\n", depth, "",
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227 | node->type == r_opt ? "opt" : "star");
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228 | print_rexp (rx, node->params.pair.left, depth + 3, seprint, fp);
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229 | break;
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230 |
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231 | case r_2phase_star:
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232 | fprintf (fp, "%*s2phase star\n", depth, "");
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233 | print_rexp (rx, node->params.pair.right, depth + 3, seprint, fp);
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234 | print_rexp (rx, node->params.pair.left, depth + 3, seprint, fp);
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235 | break;
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236 |
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237 |
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238 | case r_alternate:
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239 | case r_concat:
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240 | fprintf (fp, "%*s%s\n", depth, "",
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241 | node->type == r_alternate ? "alt" : "concat");
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242 | print_rexp (rx, node->params.pair.left, depth + 3, seprint, fp);
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243 | print_rexp (rx, node->params.pair.right, depth + 3, seprint, fp);
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244 | break;
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245 | case r_side_effect:
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246 | fprintf (fp, "%*sSide effect: ", depth, "");
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247 | seprint (rx, node->params.side_effect, fp);
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248 | fputc ('\n', fp);
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249 | }
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250 | }
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251 | }
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252 |
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253 | #ifdef __STDC__
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254 | static void
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255 | print_nfa (struct rx * rx,
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256 | struct rx_nfa_state * n,
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257 | side_effect_printer seprint, FILE * fp)
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258 | #else
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259 | static void
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260 | print_nfa (rx, n, seprint, fp)
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261 | struct rx * rx;
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262 | struct rx_nfa_state * n;
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263 | side_effect_printer seprint;
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264 | FILE * fp;
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265 | #endif
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266 | {
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267 | while (n)
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268 | {
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269 | struct rx_nfa_edge *e = n->edges;
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270 | struct rx_possible_future *ec = n->futures;
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271 | fprintf (fp, "node %d %s\n", n->id,
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272 | n->is_final ? "final" : (n->is_start ? "start" : ""));
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273 | while (e)
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274 | {
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275 | fprintf (fp, " edge to %d, ", e->dest->id);
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276 | switch (e->type)
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277 | {
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278 | case ne_epsilon:
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279 | fprintf (fp, "epsilon\n");
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280 | break;
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281 | case ne_side_effect:
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282 | fprintf (fp, "side effect ");
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283 | seprint (rx, e->params.side_effect, fp);
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284 | fputc ('\n', fp);
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285 | break;
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286 | case ne_cset:
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287 | fprintf (fp, "cset ");
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288 | print_cset (rx, e->params.cset, fp);
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289 | fputc ('\n', fp);
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290 | break;
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291 | }
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292 | e = e->next;
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293 | }
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294 |
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295 | while (ec)
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296 | {
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297 | int x;
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298 | struct rx_nfa_state_set * s;
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299 | struct rx_se_list * l;
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300 | fprintf (fp, " eclosure to {");
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301 | for (s = ec->destset; s; s = s->cdr)
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302 | fprintf (fp, "%d ", s->car->id);
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303 | fprintf (fp, "} (");
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304 | for (l = ec->effects; l; l = l->cdr)
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305 | {
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306 | seprint (rx, l->car, fp);
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307 | fputc (' ', fp);
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308 | }
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309 | fprintf (fp, ")\n");
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310 | ec = ec->next;
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311 | }
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312 | n = n->next;
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313 | }
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314 | }
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315 |
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316 | static char * efnames [] =
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317 | {
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318 | "bogon",
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319 | "re_se_try",
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320 | "re_se_pushback",
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321 | "re_se_push0",
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322 | "re_se_pushpos",
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323 | "re_se_chkpos",
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324 | "re_se_poppos",
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325 | "re_se_at_dot",
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326 | "re_se_syntax",
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327 | "re_se_not_syntax",
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328 | "re_se_begbuf",
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329 | "re_se_hat",
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330 | "re_se_wordbeg",
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331 | "re_se_wordbound",
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332 | "re_se_notwordbound",
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333 | "re_se_wordend",
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334 | "re_se_endbuf",
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335 | "re_se_dollar",
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336 | "re_se_fail",
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337 | };
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338 |
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339 | static char * efnames2[] =
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340 | {
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341 | "re_se_win",
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342 | "re_se_lparen",
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343 | "re_se_rparen",
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344 | "re_se_backref",
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345 | "re_se_iter",
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346 | "re_se_end_iter",
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347 | "re_se_tv"
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348 | };
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349 |
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350 | static char * inx_names[] =
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351 | {
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352 | "rx_backtrack_point",
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353 | "rx_do_side_effects",
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354 | "rx_cache_miss",
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355 | "rx_next_char",
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356 | "rx_backtrack",
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357 | "rx_error_inx",
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358 | "rx_num_instructions"
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359 | };
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360 |
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361 |
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362 | #ifdef __STDC__
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363 | static void
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364 | re_seprint (struct rx * rx, void * effect, FILE * fp)
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365 | #else
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366 | static void
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367 | re_seprint (rx, effect, fp)
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368 | struct rx * rx;
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369 | void * effect;
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370 | FILE * fp;
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371 | #endif
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372 | {
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373 | if ((int)effect < 0)
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374 | fputs (efnames[-(int)effect], fp);
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375 | else if (dbug_rxb)
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376 | {
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377 | struct re_se_params * p = &dbug_rxb->se_params[(int)effect];
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378 | fprintf (fp, "%s(%d,%d)", efnames2[p->se], p->op1, p->op2);
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379 | }
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380 | else
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381 | fprintf (fp, "[complex op # %d]", (int)effect);
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382 | }
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383 |
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384 |
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385 | /* These are so the regex.c regression tests will compile. */
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386 | void
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387 | print_compiled_pattern (rxb)
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388 | struct re_pattern_buffer * rxb;
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389 | {
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390 | }
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391 |
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392 | void
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393 | print_fastmap (fm)
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394 | char * fm;
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395 | {
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396 | }
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397 |
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398 | #endif /* RX_DEBUG */
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399 |
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400 | |
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401 |
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402 |
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403 | /* This page: Bitsets. Completely unintersting. */
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404 |
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405 | #ifdef __STDC__
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406 | RX_DECL int
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407 | rx_bitset_is_equal (int size, rx_Bitset a, rx_Bitset b)
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408 | #else
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409 | RX_DECL int
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410 | rx_bitset_is_equal (size, a, b)
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411 | int size;
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412 | rx_Bitset a;
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413 | rx_Bitset b;
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414 | #endif
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415 | {
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416 | int x;
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417 | RX_subset s = b[0];
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418 | b[0] = ~a[0];
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419 |
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420 | for (x = rx_bitset_numb_subsets(size) - 1; a[x] == b[x]; --x)
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421 | ;
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422 |
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423 | b[0] = s;
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424 | return !x && s == a[0];
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425 | }
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426 |
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427 | #ifdef __STDC__
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428 | RX_DECL int
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429 | rx_bitset_is_subset (int size, rx_Bitset a, rx_Bitset b)
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430 | #else
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431 | RX_DECL int
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432 | rx_bitset_is_subset (size, a, b)
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433 | int size;
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434 | rx_Bitset a;
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435 | rx_Bitset b;
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436 | #endif
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437 | {
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438 | int x = rx_bitset_numb_subsets(size) - 1;
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439 | while (x-- && (a[x] & b[x]) == a[x]);
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440 | return x == -1;
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441 | }
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442 |
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443 |
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444 | #ifdef __STDC__
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445 | RX_DECL int
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446 | rx_bitset_empty (int size, rx_Bitset set)
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447 | #else
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448 | RX_DECL int
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449 | rx_bitset_empty (size, set)
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450 | int size;
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451 | rx_Bitset set;
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452 | #endif
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453 | {
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454 | int x;
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455 | RX_subset s = set[0];
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456 | set[0] = 1;
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457 | for (x = rx_bitset_numb_subsets(size) - 1; !set[x]; --x)
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458 | ;
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459 | set[0] = s;
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460 | return !s;
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461 | }
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462 |
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463 | #ifdef __STDC__
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464 | RX_DECL void
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465 | rx_bitset_null (int size, rx_Bitset b)
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466 | #else
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467 | RX_DECL void
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468 | rx_bitset_null (size, b)
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469 | int size;
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470 | rx_Bitset b;
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471 | #endif
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472 | {
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473 | bzero (b, rx_sizeof_bitset(size));
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474 | }
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475 |
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476 |
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477 | #ifdef __STDC__
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478 | RX_DECL void
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479 | rx_bitset_universe (int size, rx_Bitset b)
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480 | #else
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481 | RX_DECL void
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482 | rx_bitset_universe (size, b)
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483 | int size;
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484 | rx_Bitset b;
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485 | #endif
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486 | {
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487 | int x = rx_bitset_numb_subsets (size);
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488 | while (x--)
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489 | *b++ = ~(RX_subset)0;
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490 | }
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491 |
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492 |
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493 | #ifdef __STDC__
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494 | RX_DECL void
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495 | rx_bitset_complement (int size, rx_Bitset b)
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496 | #else
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497 | RX_DECL void
|
---|
498 | rx_bitset_complement (size, b)
|
---|
499 | int size;
|
---|
500 | rx_Bitset b;
|
---|
501 | #endif
|
---|
502 | {
|
---|
503 | int x = rx_bitset_numb_subsets (size);
|
---|
504 | while (x--)
|
---|
505 | {
|
---|
506 | *b = ~*b;
|
---|
507 | ++b;
|
---|
508 | }
|
---|
509 | }
|
---|
510 |
|
---|
511 |
|
---|
512 | #ifdef __STDC__
|
---|
513 | RX_DECL void
|
---|
514 | rx_bitset_assign (int size, rx_Bitset a, rx_Bitset b)
|
---|
515 | #else
|
---|
516 | RX_DECL void
|
---|
517 | rx_bitset_assign (size, a, b)
|
---|
518 | int size;
|
---|
519 | rx_Bitset a;
|
---|
520 | rx_Bitset b;
|
---|
521 | #endif
|
---|
522 | {
|
---|
523 | int x;
|
---|
524 | for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x)
|
---|
525 | a[x] = b[x];
|
---|
526 | }
|
---|
527 |
|
---|
528 |
|
---|
529 | #ifdef __STDC__
|
---|
530 | RX_DECL void
|
---|
531 | rx_bitset_union (int size, rx_Bitset a, rx_Bitset b)
|
---|
532 | #else
|
---|
533 | RX_DECL void
|
---|
534 | rx_bitset_union (size, a, b)
|
---|
535 | int size;
|
---|
536 | rx_Bitset a;
|
---|
537 | rx_Bitset b;
|
---|
538 | #endif
|
---|
539 | {
|
---|
540 | int x;
|
---|
541 | for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x)
|
---|
542 | a[x] |= b[x];
|
---|
543 | }
|
---|
544 |
|
---|
545 |
|
---|
546 | #ifdef __STDC__
|
---|
547 | RX_DECL void
|
---|
548 | rx_bitset_intersection (int size,
|
---|
549 | rx_Bitset a, rx_Bitset b)
|
---|
550 | #else
|
---|
551 | RX_DECL void
|
---|
552 | rx_bitset_intersection (size, a, b)
|
---|
553 | int size;
|
---|
554 | rx_Bitset a;
|
---|
555 | rx_Bitset b;
|
---|
556 | #endif
|
---|
557 | {
|
---|
558 | int x;
|
---|
559 | for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x)
|
---|
560 | a[x] &= b[x];
|
---|
561 | }
|
---|
562 |
|
---|
563 |
|
---|
564 | #ifdef __STDC__
|
---|
565 | RX_DECL void
|
---|
566 | rx_bitset_difference (int size, rx_Bitset a, rx_Bitset b)
|
---|
567 | #else
|
---|
568 | RX_DECL void
|
---|
569 | rx_bitset_difference (size, a, b)
|
---|
570 | int size;
|
---|
571 | rx_Bitset a;
|
---|
572 | rx_Bitset b;
|
---|
573 | #endif
|
---|
574 | {
|
---|
575 | int x;
|
---|
576 | for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x)
|
---|
577 | a[x] &= ~ b[x];
|
---|
578 | }
|
---|
579 |
|
---|
580 |
|
---|
581 | #ifdef __STDC__
|
---|
582 | RX_DECL void
|
---|
583 | rx_bitset_revdifference (int size,
|
---|
584 | rx_Bitset a, rx_Bitset b)
|
---|
585 | #else
|
---|
586 | RX_DECL void
|
---|
587 | rx_bitset_revdifference (size, a, b)
|
---|
588 | int size;
|
---|
589 | rx_Bitset a;
|
---|
590 | rx_Bitset b;
|
---|
591 | #endif
|
---|
592 | {
|
---|
593 | int x;
|
---|
594 | for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x)
|
---|
595 | a[x] = ~a[x] & b[x];
|
---|
596 | }
|
---|
597 |
|
---|
598 | #ifdef __STDC__
|
---|
599 | RX_DECL void
|
---|
600 | rx_bitset_xor (int size, rx_Bitset a, rx_Bitset b)
|
---|
601 | #else
|
---|
602 | RX_DECL void
|
---|
603 | rx_bitset_xor (size, a, b)
|
---|
604 | int size;
|
---|
605 | rx_Bitset a;
|
---|
606 | rx_Bitset b;
|
---|
607 | #endif
|
---|
608 | {
|
---|
609 | int x;
|
---|
610 | for (x = rx_bitset_numb_subsets(size) - 1; x >=0; --x)
|
---|
611 | a[x] ^= b[x];
|
---|
612 | }
|
---|
613 |
|
---|
614 |
|
---|
615 | #ifdef __STDC__
|
---|
616 | RX_DECL unsigned long
|
---|
617 | rx_bitset_hash (int size, rx_Bitset b)
|
---|
618 | #else
|
---|
619 | RX_DECL unsigned long
|
---|
620 | rx_bitset_hash (size, b)
|
---|
621 | int size;
|
---|
622 | rx_Bitset b;
|
---|
623 | #endif
|
---|
624 | {
|
---|
625 | int x;
|
---|
626 | unsigned long hash = (unsigned long)rx_bitset_hash;
|
---|
627 |
|
---|
628 | for (x = rx_bitset_numb_subsets(size) - 1; x >= 0; --x)
|
---|
629 | hash ^= rx_bitset_subset_val(b, x);
|
---|
630 |
|
---|
631 | return hash;
|
---|
632 | }
|
---|
633 |
|
---|
634 |
|
---|
635 | RX_DECL RX_subset rx_subset_singletons [RX_subset_bits] =
|
---|
636 | {
|
---|
637 | 0x1,
|
---|
638 | 0x2,
|
---|
639 | 0x4,
|
---|
640 | 0x8,
|
---|
641 | 0x10,
|
---|
642 | 0x20,
|
---|
643 | 0x40,
|
---|
644 | 0x80,
|
---|
645 | 0x100,
|
---|
646 | 0x200,
|
---|
647 | 0x400,
|
---|
648 | 0x800,
|
---|
649 | 0x1000,
|
---|
650 | 0x2000,
|
---|
651 | 0x4000,
|
---|
652 | 0x8000,
|
---|
653 | 0x10000,
|
---|
654 | 0x20000,
|
---|
655 | 0x40000,
|
---|
656 | 0x80000,
|
---|
657 | 0x100000,
|
---|
658 | 0x200000,
|
---|
659 | 0x400000,
|
---|
660 | 0x800000,
|
---|
661 | 0x1000000,
|
---|
662 | 0x2000000,
|
---|
663 | 0x4000000,
|
---|
664 | 0x8000000,
|
---|
665 | 0x10000000,
|
---|
666 | 0x20000000,
|
---|
667 | 0x40000000,
|
---|
668 | 0x80000000
|
---|
669 | };
|
---|
670 |
|
---|
671 | #ifdef RX_DEBUG
|
---|
672 |
|
---|
673 | #ifdef __STDC__
|
---|
674 | static void
|
---|
675 | print_cset (struct rx *rx, rx_Bitset cset, FILE * fp)
|
---|
676 | #else
|
---|
677 | static void
|
---|
678 | print_cset (rx, cset, fp)
|
---|
679 | struct rx *rx;
|
---|
680 | rx_Bitset cset;
|
---|
681 | FILE * fp;
|
---|
682 | #endif
|
---|
683 | {
|
---|
684 | int x;
|
---|
685 | fputc ('[', fp);
|
---|
686 | for (x = 0; x < rx->local_cset_size; ++x)
|
---|
687 | if (RX_bitset_member (cset, x))
|
---|
688 | {
|
---|
689 | if (isprint(x))
|
---|
690 | fputc (x, fp);
|
---|
691 | else
|
---|
692 | fprintf (fp, "\\0%o ", x);
|
---|
693 | }
|
---|
694 | fputc (']', fp);
|
---|
695 | }
|
---|
696 |
|
---|
697 | #endif /* RX_DEBUG */
|
---|
698 |
|
---|
699 | |
---|
700 |
|
---|
701 |
|
---|
702 | static unsigned long rx_hash_masks[4] =
|
---|
703 | {
|
---|
704 | 0x12488421,
|
---|
705 | 0x96699669,
|
---|
706 | 0xbe7dd7eb,
|
---|
707 | 0xffffffff
|
---|
708 | };
|
---|
709 |
|
---|
710 |
|
---|
711 | /* Hash tables */
|
---|
712 | #ifdef __STDC__
|
---|
713 | RX_DECL struct rx_hash_item *
|
---|
714 | rx_hash_find (struct rx_hash * table,
|
---|
715 | unsigned long hash,
|
---|
716 | void * value,
|
---|
717 | struct rx_hash_rules * rules)
|
---|
718 | #else
|
---|
719 | RX_DECL struct rx_hash_item *
|
---|
720 | rx_hash_find (table, hash, value, rules)
|
---|
721 | struct rx_hash * table;
|
---|
722 | unsigned long hash;
|
---|
723 | void * value;
|
---|
724 | struct rx_hash_rules * rules;
|
---|
725 | #endif
|
---|
726 | {
|
---|
727 | rx_hash_eq eq = rules->eq;
|
---|
728 | int maskc = 0;
|
---|
729 | long mask = rx_hash_masks [0];
|
---|
730 | int bucket = (hash & mask) % 13;
|
---|
731 |
|
---|
732 | while (table->children [bucket])
|
---|
733 | {
|
---|
734 | table = table->children [bucket];
|
---|
735 | ++maskc;
|
---|
736 | mask = rx_hash_masks[maskc];
|
---|
737 | bucket = (hash & mask) % 13;
|
---|
738 | }
|
---|
739 |
|
---|
740 | {
|
---|
741 | struct rx_hash_item * it = table->buckets[bucket];
|
---|
742 | while (it)
|
---|
743 | if (eq (it->data, value))
|
---|
744 | return it;
|
---|
745 | else
|
---|
746 | it = it->next_same_hash;
|
---|
747 | }
|
---|
748 |
|
---|
749 | return 0;
|
---|
750 | }
|
---|
751 |
|
---|
752 |
|
---|
753 | #ifdef __STDC__
|
---|
754 | RX_DECL struct rx_hash_item *
|
---|
755 | rx_hash_store (struct rx_hash * table,
|
---|
756 | unsigned long hash,
|
---|
757 | void * value,
|
---|
758 | struct rx_hash_rules * rules)
|
---|
759 | #else
|
---|
760 | RX_DECL struct rx_hash_item *
|
---|
761 | rx_hash_store (table, hash, value, rules)
|
---|
762 | struct rx_hash * table;
|
---|
763 | unsigned long hash;
|
---|
764 | void * value;
|
---|
765 | struct rx_hash_rules * rules;
|
---|
766 | #endif
|
---|
767 | {
|
---|
768 | rx_hash_eq eq = rules->eq;
|
---|
769 | int maskc = 0;
|
---|
770 | long mask = rx_hash_masks[0];
|
---|
771 | int bucket = (hash & mask) % 13;
|
---|
772 | int depth = 0;
|
---|
773 |
|
---|
774 | while (table->children [bucket])
|
---|
775 | {
|
---|
776 | table = table->children [bucket];
|
---|
777 | ++maskc;
|
---|
778 | mask = rx_hash_masks[maskc];
|
---|
779 | bucket = (hash & mask) % 13;
|
---|
780 | ++depth;
|
---|
781 | }
|
---|
782 |
|
---|
783 | {
|
---|
784 | struct rx_hash_item * it = table->buckets[bucket];
|
---|
785 | while (it)
|
---|
786 | if (eq (it->data, value))
|
---|
787 | return it;
|
---|
788 | else
|
---|
789 | it = it->next_same_hash;
|
---|
790 | }
|
---|
791 |
|
---|
792 | {
|
---|
793 | if ( (depth < 3)
|
---|
794 | && (table->bucket_size [bucket] >= 4))
|
---|
795 | {
|
---|
796 | struct rx_hash * newtab = ((struct rx_hash *)
|
---|
797 | rules->hash_alloc (rules));
|
---|
798 | if (!newtab)
|
---|
799 | goto add_to_bucket;
|
---|
800 | bzero (newtab, sizeof (*newtab));
|
---|
801 | newtab->parent = table;
|
---|
802 | {
|
---|
803 | struct rx_hash_item * them = table->buckets[bucket];
|
---|
804 | unsigned long newmask = rx_hash_masks[maskc + 1];
|
---|
805 | while (them)
|
---|
806 | {
|
---|
807 | struct rx_hash_item * save = them->next_same_hash;
|
---|
808 | int new_buck = (them->hash & newmask) % 13;
|
---|
809 | them->next_same_hash = newtab->buckets[new_buck];
|
---|
810 | newtab->buckets[new_buck] = them;
|
---|
811 | them->table = newtab;
|
---|
812 | them = save;
|
---|
813 | ++newtab->bucket_size[new_buck];
|
---|
814 | ++newtab->refs;
|
---|
815 | }
|
---|
816 | table->refs = (table->refs - table->bucket_size[bucket] + 1);
|
---|
817 | table->bucket_size[bucket] = 0;
|
---|
818 | table->buckets[bucket] = 0;
|
---|
819 | table->children[bucket] = newtab;
|
---|
820 | table = newtab;
|
---|
821 | bucket = (hash & newmask) % 13;
|
---|
822 | }
|
---|
823 | }
|
---|
824 | }
|
---|
825 | add_to_bucket:
|
---|
826 | {
|
---|
827 | struct rx_hash_item * it = ((struct rx_hash_item *)
|
---|
828 | rules->hash_item_alloc (rules, value));
|
---|
829 | if (!it)
|
---|
830 | return 0;
|
---|
831 | it->hash = hash;
|
---|
832 | it->table = table;
|
---|
833 | /* DATA and BINDING are to be set in hash_item_alloc */
|
---|
834 | it->next_same_hash = table->buckets [bucket];
|
---|
835 | table->buckets[bucket] = it;
|
---|
836 | ++table->bucket_size [bucket];
|
---|
837 | ++table->refs;
|
---|
838 | return it;
|
---|
839 | }
|
---|
840 | }
|
---|
841 |
|
---|
842 |
|
---|
843 | #ifdef __STDC__
|
---|
844 | RX_DECL void
|
---|
845 | rx_hash_free (struct rx_hash_item * it, struct rx_hash_rules * rules)
|
---|
846 | #else
|
---|
847 | RX_DECL void
|
---|
848 | rx_hash_free (it, rules)
|
---|
849 | struct rx_hash_item * it;
|
---|
850 | struct rx_hash_rules * rules;
|
---|
851 | #endif
|
---|
852 | {
|
---|
853 | if (it)
|
---|
854 | {
|
---|
855 | struct rx_hash * table = it->table;
|
---|
856 | unsigned long hash = it->hash;
|
---|
857 | int depth = (table->parent
|
---|
858 | ? (table->parent->parent
|
---|
859 | ? (table->parent->parent->parent
|
---|
860 | ? 3
|
---|
861 | : 2)
|
---|
862 | : 1)
|
---|
863 | : 0);
|
---|
864 | int bucket = (hash & rx_hash_masks [depth]) % 13;
|
---|
865 | struct rx_hash_item ** pos = &table->buckets [bucket];
|
---|
866 |
|
---|
867 | while (*pos != it)
|
---|
868 | pos = &(*pos)->next_same_hash;
|
---|
869 | *pos = it->next_same_hash;
|
---|
870 | rules->free_hash_item (it, rules);
|
---|
871 | --table->bucket_size[bucket];
|
---|
872 | --table->refs;
|
---|
873 | while (!table->refs && depth)
|
---|
874 | {
|
---|
875 | struct rx_hash * save = table;
|
---|
876 | table = table->parent;
|
---|
877 | --depth;
|
---|
878 | bucket = (hash & rx_hash_masks [depth]) % 13;
|
---|
879 | --table->refs;
|
---|
880 | table->children[bucket] = 0;
|
---|
881 | rules->free_hash (save, rules);
|
---|
882 | }
|
---|
883 | }
|
---|
884 | }
|
---|
885 |
|
---|
886 | #ifdef __STDC__
|
---|
887 | RX_DECL void
|
---|
888 | rx_free_hash_table (struct rx_hash * tab, rx_hash_freefn freefn,
|
---|
889 | struct rx_hash_rules * rules)
|
---|
890 | #else
|
---|
891 | RX_DECL void
|
---|
892 | rx_free_hash_table (tab, freefn, rules)
|
---|
893 | struct rx_hash * tab;
|
---|
894 | rx_hash_freefn freefn;
|
---|
895 | struct rx_hash_rules * rules;
|
---|
896 | #endif
|
---|
897 | {
|
---|
898 | int x;
|
---|
899 |
|
---|
900 | for (x = 0; x < 13; ++x)
|
---|
901 | if (tab->children[x])
|
---|
902 | {
|
---|
903 | rx_free_hash_table (tab->children[x], freefn, rules);
|
---|
904 | rules->free_hash (tab->children[x], rules);
|
---|
905 | }
|
---|
906 | else
|
---|
907 | {
|
---|
908 | struct rx_hash_item * them = tab->buckets[x];
|
---|
909 | while (them)
|
---|
910 | {
|
---|
911 | struct rx_hash_item * that = them;
|
---|
912 | them = that->next_same_hash;
|
---|
913 | freefn (that);
|
---|
914 | rules->free_hash_item (that, rules);
|
---|
915 | }
|
---|
916 | }
|
---|
917 | }
|
---|
918 |
|
---|
919 |
|
---|
920 | |
---|
921 |
|
---|
922 | /* Utilities for manipulating bitset represntations of characters sets. */
|
---|
923 |
|
---|
924 | #ifdef __STDC__
|
---|
925 | RX_DECL rx_Bitset
|
---|
926 | rx_cset (struct rx *rx)
|
---|
927 | #else
|
---|
928 | RX_DECL rx_Bitset
|
---|
929 | rx_cset (rx)
|
---|
930 | struct rx *rx;
|
---|
931 | #endif
|
---|
932 | {
|
---|
933 | rx_Bitset b = (rx_Bitset) malloc (rx_sizeof_bitset (rx->local_cset_size));
|
---|
934 | if (b)
|
---|
935 | rx_bitset_null (rx->local_cset_size, b);
|
---|
936 | return b;
|
---|
937 | }
|
---|
938 |
|
---|
939 |
|
---|
940 | #ifdef __STDC__
|
---|
941 | RX_DECL rx_Bitset
|
---|
942 | rx_copy_cset (struct rx *rx, rx_Bitset a)
|
---|
943 | #else
|
---|
944 | RX_DECL rx_Bitset
|
---|
945 | rx_copy_cset (rx, a)
|
---|
946 | struct rx *rx;
|
---|
947 | rx_Bitset a;
|
---|
948 | #endif
|
---|
949 | {
|
---|
950 | rx_Bitset cs = rx_cset (rx);
|
---|
951 |
|
---|
952 | if (cs)
|
---|
953 | rx_bitset_union (rx->local_cset_size, cs, a);
|
---|
954 |
|
---|
955 | return cs;
|
---|
956 | }
|
---|
957 |
|
---|
958 |
|
---|
959 | #ifdef __STDC__
|
---|
960 | RX_DECL void
|
---|
961 | rx_free_cset (struct rx * rx, rx_Bitset c)
|
---|
962 | #else
|
---|
963 | RX_DECL void
|
---|
964 | rx_free_cset (rx, c)
|
---|
965 | struct rx * rx;
|
---|
966 | rx_Bitset c;
|
---|
967 | #endif
|
---|
968 | {
|
---|
969 | if (c)
|
---|
970 | free ((char *)c);
|
---|
971 | }
|
---|
972 |
|
---|
973 | |
---|
974 |
|
---|
975 | /* Hash table memory allocation policy for the regexp compiler */
|
---|
976 |
|
---|
977 | #ifdef __STDC__
|
---|
978 | static struct rx_hash *
|
---|
979 | compiler_hash_alloc (struct rx_hash_rules * rules)
|
---|
980 | #else
|
---|
981 | static struct rx_hash *
|
---|
982 | compiler_hash_alloc (rules)
|
---|
983 | struct rx_hash_rules * rules;
|
---|
984 | #endif
|
---|
985 | {
|
---|
986 | return (struct rx_hash *)malloc (sizeof (struct rx_hash));
|
---|
987 | }
|
---|
988 |
|
---|
989 |
|
---|
990 | #ifdef __STDC__
|
---|
991 | static struct rx_hash_item *
|
---|
992 | compiler_hash_item_alloc (struct rx_hash_rules * rules, void * value)
|
---|
993 | #else
|
---|
994 | static struct rx_hash_item *
|
---|
995 | compiler_hash_item_alloc (rules, value)
|
---|
996 | struct rx_hash_rules * rules;
|
---|
997 | void * value;
|
---|
998 | #endif
|
---|
999 | {
|
---|
1000 | struct rx_hash_item * it;
|
---|
1001 | it = (struct rx_hash_item *)malloc (sizeof (*it));
|
---|
1002 | if (it)
|
---|
1003 | {
|
---|
1004 | it->data = value;
|
---|
1005 | it->binding = 0;
|
---|
1006 | }
|
---|
1007 | return it;
|
---|
1008 | }
|
---|
1009 |
|
---|
1010 |
|
---|
1011 | #ifdef __STDC__
|
---|
1012 | static void
|
---|
1013 | compiler_free_hash (struct rx_hash * tab,
|
---|
1014 | struct rx_hash_rules * rules)
|
---|
1015 | #else
|
---|
1016 | static void
|
---|
1017 | compiler_free_hash (tab, rules)
|
---|
1018 | struct rx_hash * tab;
|
---|
1019 | struct rx_hash_rules * rules;
|
---|
1020 | #endif
|
---|
1021 | {
|
---|
1022 | free ((char *)tab);
|
---|
1023 | }
|
---|
1024 |
|
---|
1025 |
|
---|
1026 | #ifdef __STDC__
|
---|
1027 | static void
|
---|
1028 | compiler_free_hash_item (struct rx_hash_item * item,
|
---|
1029 | struct rx_hash_rules * rules)
|
---|
1030 | #else
|
---|
1031 | static void
|
---|
1032 | compiler_free_hash_item (item, rules)
|
---|
1033 | struct rx_hash_item * item;
|
---|
1034 | struct rx_hash_rules * rules;
|
---|
1035 | #endif
|
---|
1036 | {
|
---|
1037 | free ((char *)item);
|
---|
1038 | }
|
---|
1039 |
|
---|
1040 | |
---|
1041 |
|
---|
1042 | /* This page: REXP_NODE (expression tree) structures. */
|
---|
1043 |
|
---|
1044 | #ifdef __STDC__
|
---|
1045 | RX_DECL struct rexp_node *
|
---|
1046 | rexp_node (struct rx *rx,
|
---|
1047 | enum rexp_node_type type)
|
---|
1048 | #else
|
---|
1049 | RX_DECL struct rexp_node *
|
---|
1050 | rexp_node (rx, type)
|
---|
1051 | struct rx *rx;
|
---|
1052 | enum rexp_node_type type;
|
---|
1053 | #endif
|
---|
1054 | {
|
---|
1055 | struct rexp_node *n;
|
---|
1056 |
|
---|
1057 | n = (struct rexp_node *)malloc (sizeof (*n));
|
---|
1058 | bzero (n, sizeof (*n));
|
---|
1059 | if (n)
|
---|
1060 | n->type = type;
|
---|
1061 | return n;
|
---|
1062 | }
|
---|
1063 |
|
---|
1064 |
|
---|
1065 | /* free_rexp_node assumes that the bitset passed to rx_mk_r_cset
|
---|
1066 | * can be freed using rx_free_cset.
|
---|
1067 | */
|
---|
1068 | #ifdef __STDC__
|
---|
1069 | RX_DECL struct rexp_node *
|
---|
1070 | rx_mk_r_cset (struct rx * rx,
|
---|
1071 | rx_Bitset b)
|
---|
1072 | #else
|
---|
1073 | RX_DECL struct rexp_node *
|
---|
1074 | rx_mk_r_cset (rx, b)
|
---|
1075 | struct rx * rx;
|
---|
1076 | rx_Bitset b;
|
---|
1077 | #endif
|
---|
1078 | {
|
---|
1079 | struct rexp_node * n = rexp_node (rx, r_cset);
|
---|
1080 | if (n)
|
---|
1081 | n->params.cset = b;
|
---|
1082 | return n;
|
---|
1083 | }
|
---|
1084 |
|
---|
1085 |
|
---|
1086 | #ifdef __STDC__
|
---|
1087 | RX_DECL struct rexp_node *
|
---|
1088 | rx_mk_r_concat (struct rx * rx,
|
---|
1089 | struct rexp_node * a,
|
---|
1090 | struct rexp_node * b)
|
---|
1091 | #else
|
---|
1092 | RX_DECL struct rexp_node *
|
---|
1093 | rx_mk_r_concat (rx, a, b)
|
---|
1094 | struct rx * rx;
|
---|
1095 | struct rexp_node * a;
|
---|
1096 | struct rexp_node * b;
|
---|
1097 | #endif
|
---|
1098 | {
|
---|
1099 | struct rexp_node * n = rexp_node (rx, r_concat);
|
---|
1100 | if (n)
|
---|
1101 | {
|
---|
1102 | n->params.pair.left = a;
|
---|
1103 | n->params.pair.right = b;
|
---|
1104 | }
|
---|
1105 | return n;
|
---|
1106 | }
|
---|
1107 |
|
---|
1108 |
|
---|
1109 | #ifdef __STDC__
|
---|
1110 | RX_DECL struct rexp_node *
|
---|
1111 | rx_mk_r_alternate (struct rx * rx,
|
---|
1112 | struct rexp_node * a,
|
---|
1113 | struct rexp_node * b)
|
---|
1114 | #else
|
---|
1115 | RX_DECL struct rexp_node *
|
---|
1116 | rx_mk_r_alternate (rx, a, b)
|
---|
1117 | struct rx * rx;
|
---|
1118 | struct rexp_node * a;
|
---|
1119 | struct rexp_node * b;
|
---|
1120 | #endif
|
---|
1121 | {
|
---|
1122 | struct rexp_node * n = rexp_node (rx, r_alternate);
|
---|
1123 | if (n)
|
---|
1124 | {
|
---|
1125 | n->params.pair.left = a;
|
---|
1126 | n->params.pair.right = b;
|
---|
1127 | }
|
---|
1128 | return n;
|
---|
1129 | }
|
---|
1130 |
|
---|
1131 |
|
---|
1132 | #ifdef __STDC__
|
---|
1133 | RX_DECL struct rexp_node *
|
---|
1134 | rx_mk_r_opt (struct rx * rx,
|
---|
1135 | struct rexp_node * a)
|
---|
1136 | #else
|
---|
1137 | RX_DECL struct rexp_node *
|
---|
1138 | rx_mk_r_opt (rx, a)
|
---|
1139 | struct rx * rx;
|
---|
1140 | struct rexp_node * a;
|
---|
1141 | #endif
|
---|
1142 | {
|
---|
1143 | struct rexp_node * n = rexp_node (rx, r_opt);
|
---|
1144 | if (n)
|
---|
1145 | {
|
---|
1146 | n->params.pair.left = a;
|
---|
1147 | n->params.pair.right = 0;
|
---|
1148 | }
|
---|
1149 | return n;
|
---|
1150 | }
|
---|
1151 |
|
---|
1152 |
|
---|
1153 | #ifdef __STDC__
|
---|
1154 | RX_DECL struct rexp_node *
|
---|
1155 | rx_mk_r_star (struct rx * rx,
|
---|
1156 | struct rexp_node * a)
|
---|
1157 | #else
|
---|
1158 | RX_DECL struct rexp_node *
|
---|
1159 | rx_mk_r_star (rx, a)
|
---|
1160 | struct rx * rx;
|
---|
1161 | struct rexp_node * a;
|
---|
1162 | #endif
|
---|
1163 | {
|
---|
1164 | struct rexp_node * n = rexp_node (rx, r_star);
|
---|
1165 | if (n)
|
---|
1166 | {
|
---|
1167 | n->params.pair.left = a;
|
---|
1168 | n->params.pair.right = 0;
|
---|
1169 | }
|
---|
1170 | return n;
|
---|
1171 | }
|
---|
1172 |
|
---|
1173 |
|
---|
1174 | #ifdef __STDC__
|
---|
1175 | RX_DECL struct rexp_node *
|
---|
1176 | rx_mk_r_2phase_star (struct rx * rx,
|
---|
1177 | struct rexp_node * a,
|
---|
1178 | struct rexp_node * b)
|
---|
1179 | #else
|
---|
1180 | RX_DECL struct rexp_node *
|
---|
1181 | rx_mk_r_2phase_star (rx, a, b)
|
---|
1182 | struct rx * rx;
|
---|
1183 | struct rexp_node * a;
|
---|
1184 | struct rexp_node * b;
|
---|
1185 | #endif
|
---|
1186 | {
|
---|
1187 | struct rexp_node * n = rexp_node (rx, r_2phase_star);
|
---|
1188 | if (n)
|
---|
1189 | {
|
---|
1190 | n->params.pair.left = a;
|
---|
1191 | n->params.pair.right = b;
|
---|
1192 | }
|
---|
1193 | return n;
|
---|
1194 | }
|
---|
1195 |
|
---|
1196 |
|
---|
1197 | #ifdef __STDC__
|
---|
1198 | RX_DECL struct rexp_node *
|
---|
1199 | rx_mk_r_side_effect (struct rx * rx,
|
---|
1200 | rx_side_effect a)
|
---|
1201 | #else
|
---|
1202 | RX_DECL struct rexp_node *
|
---|
1203 | rx_mk_r_side_effect (rx, a)
|
---|
1204 | struct rx * rx;
|
---|
1205 | rx_side_effect a;
|
---|
1206 | #endif
|
---|
1207 | {
|
---|
1208 | struct rexp_node * n = rexp_node (rx, r_side_effect);
|
---|
1209 | if (n)
|
---|
1210 | {
|
---|
1211 | n->params.side_effect = a;
|
---|
1212 | n->params.pair.right = 0;
|
---|
1213 | }
|
---|
1214 | return n;
|
---|
1215 | }
|
---|
1216 |
|
---|
1217 |
|
---|
1218 | #ifdef __STDC__
|
---|
1219 | RX_DECL struct rexp_node *
|
---|
1220 | rx_mk_r_data (struct rx * rx,
|
---|
1221 | void * a)
|
---|
1222 | #else
|
---|
1223 | RX_DECL struct rexp_node *
|
---|
1224 | rx_mk_r_data (rx, a)
|
---|
1225 | struct rx * rx;
|
---|
1226 | void * a;
|
---|
1227 | #endif
|
---|
1228 | {
|
---|
1229 | struct rexp_node * n = rexp_node (rx, r_data);
|
---|
1230 | if (n)
|
---|
1231 | {
|
---|
1232 | n->params.pair.left = a;
|
---|
1233 | n->params.pair.right = 0;
|
---|
1234 | }
|
---|
1235 | return n;
|
---|
1236 | }
|
---|
1237 |
|
---|
1238 |
|
---|
1239 | #ifdef __STDC__
|
---|
1240 | RX_DECL void
|
---|
1241 | rx_free_rexp (struct rx * rx, struct rexp_node * node)
|
---|
1242 | #else
|
---|
1243 | RX_DECL void
|
---|
1244 | rx_free_rexp (rx, node)
|
---|
1245 | struct rx * rx;
|
---|
1246 | struct rexp_node * node;
|
---|
1247 | #endif
|
---|
1248 | {
|
---|
1249 | if (node)
|
---|
1250 | {
|
---|
1251 | switch (node->type)
|
---|
1252 | {
|
---|
1253 | case r_cset:
|
---|
1254 | if (node->params.cset)
|
---|
1255 | rx_free_cset (rx, node->params.cset);
|
---|
1256 |
|
---|
1257 | case r_side_effect:
|
---|
1258 | break;
|
---|
1259 |
|
---|
1260 | case r_concat:
|
---|
1261 | case r_alternate:
|
---|
1262 | case r_2phase_star:
|
---|
1263 | case r_opt:
|
---|
1264 | case r_star:
|
---|
1265 | rx_free_rexp (rx, node->params.pair.left);
|
---|
1266 | rx_free_rexp (rx, node->params.pair.right);
|
---|
1267 | break;
|
---|
1268 |
|
---|
1269 | case r_data:
|
---|
1270 | /* This shouldn't occur. */
|
---|
1271 | break;
|
---|
1272 | }
|
---|
1273 | free ((char *)node);
|
---|
1274 | }
|
---|
1275 | }
|
---|
1276 |
|
---|
1277 |
|
---|
1278 | #ifdef __STDC__
|
---|
1279 | RX_DECL struct rexp_node *
|
---|
1280 | rx_copy_rexp (struct rx *rx,
|
---|
1281 | struct rexp_node *node)
|
---|
1282 | #else
|
---|
1283 | RX_DECL struct rexp_node *
|
---|
1284 | rx_copy_rexp (rx, node)
|
---|
1285 | struct rx *rx;
|
---|
1286 | struct rexp_node *node;
|
---|
1287 | #endif
|
---|
1288 | {
|
---|
1289 | if (!node)
|
---|
1290 | return 0;
|
---|
1291 | else
|
---|
1292 | {
|
---|
1293 | struct rexp_node *n = rexp_node (rx, node->type);
|
---|
1294 | if (!n)
|
---|
1295 | return 0;
|
---|
1296 | switch (node->type)
|
---|
1297 | {
|
---|
1298 | case r_cset:
|
---|
1299 | n->params.cset = rx_copy_cset (rx, node->params.cset);
|
---|
1300 | if (!n->params.cset)
|
---|
1301 | {
|
---|
1302 | rx_free_rexp (rx, n);
|
---|
1303 | return 0;
|
---|
1304 | }
|
---|
1305 | break;
|
---|
1306 |
|
---|
1307 | case r_side_effect:
|
---|
1308 | n->params.side_effect = node->params.side_effect;
|
---|
1309 | break;
|
---|
1310 |
|
---|
1311 | case r_concat:
|
---|
1312 | case r_alternate:
|
---|
1313 | case r_opt:
|
---|
1314 | case r_2phase_star:
|
---|
1315 | case r_star:
|
---|
1316 | n->params.pair.left =
|
---|
1317 | rx_copy_rexp (rx, node->params.pair.left);
|
---|
1318 | n->params.pair.right =
|
---|
1319 | rx_copy_rexp (rx, node->params.pair.right);
|
---|
1320 | if ( (node->params.pair.left && !n->params.pair.left)
|
---|
1321 | || (node->params.pair.right && !n->params.pair.right))
|
---|
1322 | {
|
---|
1323 | rx_free_rexp (rx, n);
|
---|
1324 | return 0;
|
---|
1325 | }
|
---|
1326 | break;
|
---|
1327 | case r_data:
|
---|
1328 | /* shouldn't happen */
|
---|
1329 | break;
|
---|
1330 | }
|
---|
1331 | return n;
|
---|
1332 | }
|
---|
1333 | }
|
---|
1334 |
|
---|
1335 |
|
---|
1336 | |
---|
1337 |
|
---|
1338 | /* This page: functions to build and destroy graphs that describe nfa's */
|
---|
1339 |
|
---|
1340 | /* Constructs a new nfa node. */
|
---|
1341 | #ifdef __STDC__
|
---|
1342 | RX_DECL struct rx_nfa_state *
|
---|
1343 | rx_nfa_state (struct rx *rx)
|
---|
1344 | #else
|
---|
1345 | RX_DECL struct rx_nfa_state *
|
---|
1346 | rx_nfa_state (rx)
|
---|
1347 | struct rx *rx;
|
---|
1348 | #endif
|
---|
1349 | {
|
---|
1350 | struct rx_nfa_state * n = (struct rx_nfa_state *)malloc (sizeof (*n));
|
---|
1351 | if (!n)
|
---|
1352 | return 0;
|
---|
1353 | bzero (n, sizeof (*n));
|
---|
1354 | n->next = rx->nfa_states;
|
---|
1355 | rx->nfa_states = n;
|
---|
1356 | return n;
|
---|
1357 | }
|
---|
1358 |
|
---|
1359 |
|
---|
1360 | #ifdef __STDC__
|
---|
1361 | RX_DECL void
|
---|
1362 | rx_free_nfa_state (struct rx_nfa_state * n)
|
---|
1363 | #else
|
---|
1364 | RX_DECL void
|
---|
1365 | rx_free_nfa_state (n)
|
---|
1366 | struct rx_nfa_state * n;
|
---|
1367 | #endif
|
---|
1368 | {
|
---|
1369 | free ((char *)n);
|
---|
1370 | }
|
---|
1371 |
|
---|
1372 |
|
---|
1373 | /* This looks up an nfa node, given a numeric id. Numeric id's are
|
---|
1374 | * assigned after the nfa has been built.
|
---|
1375 | */
|
---|
1376 | #ifdef __STDC__
|
---|
1377 | RX_DECL struct rx_nfa_state *
|
---|
1378 | rx_id_to_nfa_state (struct rx * rx,
|
---|
1379 | int id)
|
---|
1380 | #else
|
---|
1381 | RX_DECL struct rx_nfa_state *
|
---|
1382 | rx_id_to_nfa_state (rx, id)
|
---|
1383 | struct rx * rx;
|
---|
1384 | int id;
|
---|
1385 | #endif
|
---|
1386 | {
|
---|
1387 | struct rx_nfa_state * n;
|
---|
1388 | for (n = rx->nfa_states; n; n = n->next)
|
---|
1389 | if (n->id == id)
|
---|
1390 | return n;
|
---|
1391 | return 0;
|
---|
1392 | }
|
---|
1393 |
|
---|
1394 |
|
---|
1395 | /* This adds an edge between two nodes, but doesn't initialize the
|
---|
1396 | * edge label.
|
---|
1397 | */
|
---|
1398 |
|
---|
1399 | #ifdef __STDC__
|
---|
1400 | RX_DECL struct rx_nfa_edge *
|
---|
1401 | rx_nfa_edge (struct rx *rx,
|
---|
1402 | enum rx_nfa_etype type,
|
---|
1403 | struct rx_nfa_state *start,
|
---|
1404 | struct rx_nfa_state *dest)
|
---|
1405 | #else
|
---|
1406 | RX_DECL struct rx_nfa_edge *
|
---|
1407 | rx_nfa_edge (rx, type, start, dest)
|
---|
1408 | struct rx *rx;
|
---|
1409 | enum rx_nfa_etype type;
|
---|
1410 | struct rx_nfa_state *start;
|
---|
1411 | struct rx_nfa_state *dest;
|
---|
1412 | #endif
|
---|
1413 | {
|
---|
1414 | struct rx_nfa_edge *e;
|
---|
1415 | e = (struct rx_nfa_edge *)malloc (sizeof (*e));
|
---|
1416 | if (!e)
|
---|
1417 | return 0;
|
---|
1418 | e->next = start->edges;
|
---|
1419 | start->edges = e;
|
---|
1420 | e->type = type;
|
---|
1421 | e->dest = dest;
|
---|
1422 | return e;
|
---|
1423 | }
|
---|
1424 |
|
---|
1425 |
|
---|
1426 | #ifdef __STDC__
|
---|
1427 | RX_DECL void
|
---|
1428 | rx_free_nfa_edge (struct rx_nfa_edge * e)
|
---|
1429 | #else
|
---|
1430 | RX_DECL void
|
---|
1431 | rx_free_nfa_edge (e)
|
---|
1432 | struct rx_nfa_edge * e;
|
---|
1433 | #endif
|
---|
1434 | {
|
---|
1435 | free ((char *)e);
|
---|
1436 | }
|
---|
1437 |
|
---|
1438 |
|
---|
1439 | /* This constructs a POSSIBLE_FUTURE, which is a kind epsilon-closure
|
---|
1440 | * of an NFA. These are added to an nfa automaticly by eclose_nfa.
|
---|
1441 | */
|
---|
1442 |
|
---|
1443 | #ifdef __STDC__
|
---|
1444 | static struct rx_possible_future *
|
---|
1445 | rx_possible_future (struct rx * rx,
|
---|
1446 | struct rx_se_list * effects)
|
---|
1447 | #else
|
---|
1448 | static struct rx_possible_future *
|
---|
1449 | rx_possible_future (rx, effects)
|
---|
1450 | struct rx * rx;
|
---|
1451 | struct rx_se_list * effects;
|
---|
1452 | #endif
|
---|
1453 | {
|
---|
1454 | struct rx_possible_future *ec;
|
---|
1455 | ec = (struct rx_possible_future *) malloc (sizeof (*ec));
|
---|
1456 | if (!ec)
|
---|
1457 | return 0;
|
---|
1458 | ec->destset = 0;
|
---|
1459 | ec->next = 0;
|
---|
1460 | ec->effects = effects;
|
---|
1461 | return ec;
|
---|
1462 | }
|
---|
1463 |
|
---|
1464 |
|
---|
1465 | #ifdef __STDC__
|
---|
1466 | static void
|
---|
1467 | rx_free_possible_future (struct rx_possible_future * pf)
|
---|
1468 | #else
|
---|
1469 | static void
|
---|
1470 | rx_free_possible_future (pf)
|
---|
1471 | struct rx_possible_future * pf;
|
---|
1472 | #endif
|
---|
1473 | {
|
---|
1474 | free ((char *)pf);
|
---|
1475 | }
|
---|
1476 |
|
---|
1477 |
|
---|
1478 | #ifdef __STDC__
|
---|
1479 | RX_DECL void
|
---|
1480 | rx_free_nfa (struct rx *rx)
|
---|
1481 | #else
|
---|
1482 | RX_DECL void
|
---|
1483 | rx_free_nfa (rx)
|
---|
1484 | struct rx *rx;
|
---|
1485 | #endif
|
---|
1486 | {
|
---|
1487 | while (rx->nfa_states)
|
---|
1488 | {
|
---|
1489 | while (rx->nfa_states->edges)
|
---|
1490 | {
|
---|
1491 | switch (rx->nfa_states->edges->type)
|
---|
1492 | {
|
---|
1493 | case ne_cset:
|
---|
1494 | rx_free_cset (rx, rx->nfa_states->edges->params.cset);
|
---|
1495 | break;
|
---|
1496 | default:
|
---|
1497 | break;
|
---|
1498 | }
|
---|
1499 | {
|
---|
1500 | struct rx_nfa_edge * e;
|
---|
1501 | e = rx->nfa_states->edges;
|
---|
1502 | rx->nfa_states->edges = rx->nfa_states->edges->next;
|
---|
1503 | rx_free_nfa_edge (e);
|
---|
1504 | }
|
---|
1505 | } /* while (rx->nfa_states->edges) */
|
---|
1506 | {
|
---|
1507 | /* Iterate over the partial epsilon closures of rx->nfa_states */
|
---|
1508 | struct rx_possible_future * pf = rx->nfa_states->futures;
|
---|
1509 | while (pf)
|
---|
1510 | {
|
---|
1511 | struct rx_possible_future * pft = pf;
|
---|
1512 | pf = pf->next;
|
---|
1513 | rx_free_possible_future (pft);
|
---|
1514 | }
|
---|
1515 | }
|
---|
1516 | {
|
---|
1517 | struct rx_nfa_state *n;
|
---|
1518 | n = rx->nfa_states;
|
---|
1519 | rx->nfa_states = rx->nfa_states->next;
|
---|
1520 | rx_free_nfa_state (n);
|
---|
1521 | }
|
---|
1522 | }
|
---|
1523 | }
|
---|
1524 |
|
---|
1525 |
|
---|
1526 | |
---|
1527 |
|
---|
1528 | /* This page: translating a pattern expression into an nfa and doing the
|
---|
1529 | * static part of the nfa->super-nfa translation.
|
---|
1530 | */
|
---|
1531 |
|
---|
1532 | /* This is the thompson regexp->nfa algorithm.
|
---|
1533 | * It is modified to allow for `side-effect epsilons.' Those are
|
---|
1534 | * edges that are taken whenever a similar epsilon edge would be,
|
---|
1535 | * but which imply that some side effect occurs when the edge
|
---|
1536 | * is taken.
|
---|
1537 | *
|
---|
1538 | * Side effects are used to model parts of the pattern langauge
|
---|
1539 | * that are not regular (in the formal sense).
|
---|
1540 | */
|
---|
1541 |
|
---|
1542 | #ifdef __STDC__
|
---|
1543 | RX_DECL int
|
---|
1544 | rx_build_nfa (struct rx *rx,
|
---|
1545 | struct rexp_node *rexp,
|
---|
1546 | struct rx_nfa_state **start,
|
---|
1547 | struct rx_nfa_state **end)
|
---|
1548 | #else
|
---|
1549 | RX_DECL int
|
---|
1550 | rx_build_nfa (rx, rexp, start, end)
|
---|
1551 | struct rx *rx;
|
---|
1552 | struct rexp_node *rexp;
|
---|
1553 | struct rx_nfa_state **start;
|
---|
1554 | struct rx_nfa_state **end;
|
---|
1555 | #endif
|
---|
1556 | {
|
---|
1557 | struct rx_nfa_edge *edge;
|
---|
1558 |
|
---|
1559 | /* Start & end nodes may have been allocated by the caller. */
|
---|
1560 | *start = *start ? *start : rx_nfa_state (rx);
|
---|
1561 |
|
---|
1562 | if (!*start)
|
---|
1563 | return 0;
|
---|
1564 |
|
---|
1565 | if (!rexp)
|
---|
1566 | {
|
---|
1567 | *end = *start;
|
---|
1568 | return 1;
|
---|
1569 | }
|
---|
1570 |
|
---|
1571 | *end = *end ? *end : rx_nfa_state (rx);
|
---|
1572 |
|
---|
1573 | if (!*end)
|
---|
1574 | {
|
---|
1575 | rx_free_nfa_state (*start);
|
---|
1576 | return 0;
|
---|
1577 | }
|
---|
1578 |
|
---|
1579 | switch (rexp->type)
|
---|
1580 | {
|
---|
1581 | case r_data:
|
---|
1582 | return 0;
|
---|
1583 |
|
---|
1584 | case r_cset:
|
---|
1585 | edge = rx_nfa_edge (rx, ne_cset, *start, *end);
|
---|
1586 | if (!edge)
|
---|
1587 | return 0;
|
---|
1588 | edge->params.cset = rx_copy_cset (rx, rexp->params.cset);
|
---|
1589 | if (!edge->params.cset)
|
---|
1590 | {
|
---|
1591 | rx_free_nfa_edge (edge);
|
---|
1592 | return 0;
|
---|
1593 | }
|
---|
1594 | return 1;
|
---|
1595 |
|
---|
1596 | case r_opt:
|
---|
1597 | return (rx_build_nfa (rx, rexp->params.pair.left, start, end)
|
---|
1598 | && rx_nfa_edge (rx, ne_epsilon, *start, *end));
|
---|
1599 |
|
---|
1600 | case r_star:
|
---|
1601 | {
|
---|
1602 | struct rx_nfa_state * star_start = 0;
|
---|
1603 | struct rx_nfa_state * star_end = 0;
|
---|
1604 | return (rx_build_nfa (rx, rexp->params.pair.left,
|
---|
1605 | &star_start, &star_end)
|
---|
1606 | && star_start
|
---|
1607 | && star_end
|
---|
1608 | && rx_nfa_edge (rx, ne_epsilon, star_start, star_end)
|
---|
1609 | && rx_nfa_edge (rx, ne_epsilon, *start, star_start)
|
---|
1610 | && rx_nfa_edge (rx, ne_epsilon, star_end, *end)
|
---|
1611 |
|
---|
1612 | && rx_nfa_edge (rx, ne_epsilon, star_end, star_start));
|
---|
1613 | }
|
---|
1614 |
|
---|
1615 | case r_2phase_star:
|
---|
1616 | {
|
---|
1617 | struct rx_nfa_state * star_start = 0;
|
---|
1618 | struct rx_nfa_state * star_end = 0;
|
---|
1619 | struct rx_nfa_state * loop_exp_start = 0;
|
---|
1620 | struct rx_nfa_state * loop_exp_end = 0;
|
---|
1621 |
|
---|
1622 | return (rx_build_nfa (rx, rexp->params.pair.left,
|
---|
1623 | &star_start, &star_end)
|
---|
1624 | && rx_build_nfa (rx, rexp->params.pair.right,
|
---|
1625 | &loop_exp_start, &loop_exp_end)
|
---|
1626 | && star_start
|
---|
1627 | && star_end
|
---|
1628 | && loop_exp_end
|
---|
1629 | && loop_exp_start
|
---|
1630 | && rx_nfa_edge (rx, ne_epsilon, star_start, *end)
|
---|
1631 | && rx_nfa_edge (rx, ne_epsilon, *start, star_start)
|
---|
1632 | && rx_nfa_edge (rx, ne_epsilon, star_end, *end)
|
---|
1633 |
|
---|
1634 | && rx_nfa_edge (rx, ne_epsilon, star_end, loop_exp_start)
|
---|
1635 | && rx_nfa_edge (rx, ne_epsilon, loop_exp_end, star_start));
|
---|
1636 | }
|
---|
1637 |
|
---|
1638 |
|
---|
1639 | case r_concat:
|
---|
1640 | {
|
---|
1641 | struct rx_nfa_state *shared = 0;
|
---|
1642 | return
|
---|
1643 | (rx_build_nfa (rx, rexp->params.pair.left, start, &shared)
|
---|
1644 | && rx_build_nfa (rx, rexp->params.pair.right, &shared, end));
|
---|
1645 | }
|
---|
1646 |
|
---|
1647 | case r_alternate:
|
---|
1648 | {
|
---|
1649 | struct rx_nfa_state *ls = 0;
|
---|
1650 | struct rx_nfa_state *le = 0;
|
---|
1651 | struct rx_nfa_state *rs = 0;
|
---|
1652 | struct rx_nfa_state *re = 0;
|
---|
1653 | return (rx_build_nfa (rx, rexp->params.pair.left, &ls, &le)
|
---|
1654 | && rx_build_nfa (rx, rexp->params.pair.right, &rs, &re)
|
---|
1655 | && rx_nfa_edge (rx, ne_epsilon, *start, ls)
|
---|
1656 | && rx_nfa_edge (rx, ne_epsilon, *start, rs)
|
---|
1657 | && rx_nfa_edge (rx, ne_epsilon, le, *end)
|
---|
1658 | && rx_nfa_edge (rx, ne_epsilon, re, *end));
|
---|
1659 | }
|
---|
1660 |
|
---|
1661 | case r_side_effect:
|
---|
1662 | edge = rx_nfa_edge (rx, ne_side_effect, *start, *end);
|
---|
1663 | if (!edge)
|
---|
1664 | return 0;
|
---|
1665 | edge->params.side_effect = rexp->params.side_effect;
|
---|
1666 | return 1;
|
---|
1667 | }
|
---|
1668 |
|
---|
1669 | /* this should never happen */
|
---|
1670 | return 0;
|
---|
1671 | }
|
---|
1672 |
|
---|
1673 |
|
---|
1674 | /* RX_NAME_NFA_STATES identifies all nodes with outgoing non-epsilon
|
---|
1675 | * transitions. Only these nodes can occur in super-states.
|
---|
1676 | * All nodes are given an integer id.
|
---|
1677 | * The id is non-negative if the node has non-epsilon out-transitions, negative
|
---|
1678 | * otherwise (this is because we want the non-negative ids to be used as
|
---|
1679 | * array indexes in a few places).
|
---|
1680 | */
|
---|
1681 |
|
---|
1682 | #ifdef __STDC__
|
---|
1683 | RX_DECL void
|
---|
1684 | rx_name_nfa_states (struct rx *rx)
|
---|
1685 | #else
|
---|
1686 | RX_DECL void
|
---|
1687 | rx_name_nfa_states (rx)
|
---|
1688 | struct rx *rx;
|
---|
1689 | #endif
|
---|
1690 | {
|
---|
1691 | struct rx_nfa_state *n = rx->nfa_states;
|
---|
1692 |
|
---|
1693 | rx->nodec = 0;
|
---|
1694 | rx->epsnodec = -1;
|
---|
1695 |
|
---|
1696 | while (n)
|
---|
1697 | {
|
---|
1698 | struct rx_nfa_edge *e = n->edges;
|
---|
1699 |
|
---|
1700 | if (n->is_start)
|
---|
1701 | n->eclosure_needed = 1;
|
---|
1702 |
|
---|
1703 | while (e)
|
---|
1704 | {
|
---|
1705 | switch (e->type)
|
---|
1706 | {
|
---|
1707 | case ne_epsilon:
|
---|
1708 | case ne_side_effect:
|
---|
1709 | break;
|
---|
1710 |
|
---|
1711 | case ne_cset:
|
---|
1712 | n->id = rx->nodec++;
|
---|
1713 | {
|
---|
1714 | struct rx_nfa_edge *from_n = n->edges;
|
---|
1715 | while (from_n)
|
---|
1716 | {
|
---|
1717 | from_n->dest->eclosure_needed = 1;
|
---|
1718 | from_n = from_n->next;
|
---|
1719 | }
|
---|
1720 | }
|
---|
1721 | goto cont;
|
---|
1722 | }
|
---|
1723 | e = e->next;
|
---|
1724 | }
|
---|
1725 | n->id = rx->epsnodec--;
|
---|
1726 | cont:
|
---|
1727 | n = n->next;
|
---|
1728 | }
|
---|
1729 | rx->epsnodec = -rx->epsnodec;
|
---|
1730 | }
|
---|
1731 |
|
---|
1732 | |
---|
1733 |
|
---|
1734 | /* This page: data structures for the static part of the nfa->supernfa
|
---|
1735 | * translation.
|
---|
1736 | *
|
---|
1737 | * There are side effect lists -- lists of side effects occuring
|
---|
1738 | * along an uninterrupted, acyclic path of side-effect epsilon edges.
|
---|
1739 | * Such paths are collapsed to single edges in the course of computing
|
---|
1740 | * epsilon closures. Such single edges are labled with a list of all
|
---|
1741 | * the side effects entailed in crossing them. Like lists of side
|
---|
1742 | * effects are made == by the constructors below.
|
---|
1743 | *
|
---|
1744 | * There are also nfa state sets. These are used to hold a list of all
|
---|
1745 | * states reachable from a starting state for a given type of transition
|
---|
1746 | * and side effect list. These are also hash-consed.
|
---|
1747 | */
|
---|
1748 |
|
---|
1749 | /* The next several functions compare, construct, etc. lists of side
|
---|
1750 | * effects. See ECLOSE_NFA (below) for details.
|
---|
1751 | */
|
---|
1752 |
|
---|
1753 | /* Ordering of rx_se_list
|
---|
1754 | * (-1, 0, 1 return value convention).
|
---|
1755 | */
|
---|
1756 |
|
---|
1757 | #ifdef __STDC__
|
---|
1758 | static int
|
---|
1759 | se_list_cmp (void * va, void * vb)
|
---|
1760 | #else
|
---|
1761 | static int
|
---|
1762 | se_list_cmp (va, vb)
|
---|
1763 | void * va;
|
---|
1764 | void * vb;
|
---|
1765 | #endif
|
---|
1766 | {
|
---|
1767 | struct rx_se_list * a = (struct rx_se_list *)va;
|
---|
1768 | struct rx_se_list * b = (struct rx_se_list *)vb;
|
---|
1769 |
|
---|
1770 | return ((va == vb)
|
---|
1771 | ? 0
|
---|
1772 | : (!va
|
---|
1773 | ? -1
|
---|
1774 | : (!vb
|
---|
1775 | ? 1
|
---|
1776 | : ((long)a->car < (long)b->car
|
---|
1777 | ? 1
|
---|
1778 | : ((long)a->car > (long)b->car
|
---|
1779 | ? -1
|
---|
1780 | : se_list_cmp ((void *)a->cdr, (void *)b->cdr))))));
|
---|
1781 | }
|
---|
1782 |
|
---|
1783 |
|
---|
1784 | #ifdef __STDC__
|
---|
1785 | static int
|
---|
1786 | se_list_equal (void * va, void * vb)
|
---|
1787 | #else
|
---|
1788 | static int
|
---|
1789 | se_list_equal (va, vb)
|
---|
1790 | void * va;
|
---|
1791 | void * vb;
|
---|
1792 | #endif
|
---|
1793 | {
|
---|
1794 | return !(se_list_cmp (va, vb));
|
---|
1795 | }
|
---|
1796 |
|
---|
1797 | static struct rx_hash_rules se_list_hash_rules =
|
---|
1798 | {
|
---|
1799 | se_list_equal,
|
---|
1800 | compiler_hash_alloc,
|
---|
1801 | compiler_free_hash,
|
---|
1802 | compiler_hash_item_alloc,
|
---|
1803 | compiler_free_hash_item
|
---|
1804 | };
|
---|
1805 |
|
---|
1806 |
|
---|
1807 | #ifdef __STDC__
|
---|
1808 | static struct rx_se_list *
|
---|
1809 | side_effect_cons (struct rx * rx,
|
---|
1810 | void * se, struct rx_se_list * list)
|
---|
1811 | #else
|
---|
1812 | static struct rx_se_list *
|
---|
1813 | side_effect_cons (rx, se, list)
|
---|
1814 | struct rx * rx;
|
---|
1815 | void * se;
|
---|
1816 | struct rx_se_list * list;
|
---|
1817 | #endif
|
---|
1818 | {
|
---|
1819 | struct rx_se_list * l;
|
---|
1820 | l = ((struct rx_se_list *) malloc (sizeof (*l)));
|
---|
1821 | if (!l)
|
---|
1822 | return 0;
|
---|
1823 | l->car = se;
|
---|
1824 | l->cdr = list;
|
---|
1825 | return l;
|
---|
1826 | }
|
---|
1827 |
|
---|
1828 |
|
---|
1829 | #ifdef __STDC__
|
---|
1830 | static struct rx_se_list *
|
---|
1831 | hash_cons_se_prog (struct rx * rx,
|
---|
1832 | struct rx_hash * memo,
|
---|
1833 | void * car, struct rx_se_list * cdr)
|
---|
1834 | #else
|
---|
1835 | static struct rx_se_list *
|
---|
1836 | hash_cons_se_prog (rx, memo, car, cdr)
|
---|
1837 | struct rx * rx;
|
---|
1838 | struct rx_hash * memo;
|
---|
1839 | void * car;
|
---|
1840 | struct rx_se_list * cdr;
|
---|
1841 | #endif
|
---|
1842 | {
|
---|
1843 | long hash = (long)car ^ (long)cdr;
|
---|
1844 | struct rx_se_list template;
|
---|
1845 |
|
---|
1846 | template.car = car;
|
---|
1847 | template.cdr = cdr;
|
---|
1848 | {
|
---|
1849 | struct rx_hash_item * it = rx_hash_store (memo, hash,
|
---|
1850 | (void *)&template,
|
---|
1851 | &se_list_hash_rules);
|
---|
1852 | if (!it)
|
---|
1853 | return 0;
|
---|
1854 | if (it->data == (void *)&template)
|
---|
1855 | {
|
---|
1856 | struct rx_se_list * consed;
|
---|
1857 | consed = (struct rx_se_list *) malloc (sizeof (*consed));
|
---|
1858 | *consed = template;
|
---|
1859 | it->data = (void *)consed;
|
---|
1860 | }
|
---|
1861 | return (struct rx_se_list *)it->data;
|
---|
1862 | }
|
---|
1863 | }
|
---|
1864 |
|
---|
1865 |
|
---|
1866 | #ifdef __STDC__
|
---|
1867 | static struct rx_se_list *
|
---|
1868 | hash_se_prog (struct rx * rx, struct rx_hash * memo, struct rx_se_list * prog)
|
---|
1869 | #else
|
---|
1870 | static struct rx_se_list *
|
---|
1871 | hash_se_prog (rx, memo, prog)
|
---|
1872 | struct rx * rx;
|
---|
1873 | struct rx_hash * memo;
|
---|
1874 | struct rx_se_list * prog;
|
---|
1875 | #endif
|
---|
1876 | {
|
---|
1877 | struct rx_se_list * answer = 0;
|
---|
1878 | while (prog)
|
---|
1879 | {
|
---|
1880 | answer = hash_cons_se_prog (rx, memo, prog->car, answer);
|
---|
1881 | if (!answer)
|
---|
1882 | return 0;
|
---|
1883 | prog = prog->cdr;
|
---|
1884 | }
|
---|
1885 | return answer;
|
---|
1886 | }
|
---|
1887 |
|
---|
1888 | #ifdef __STDC__
|
---|
1889 | static int
|
---|
1890 | nfa_set_cmp (void * va, void * vb)
|
---|
1891 | #else
|
---|
1892 | static int
|
---|
1893 | nfa_set_cmp (va, vb)
|
---|
1894 | void * va;
|
---|
1895 | void * vb;
|
---|
1896 | #endif
|
---|
1897 | {
|
---|
1898 | struct rx_nfa_state_set * a = (struct rx_nfa_state_set *)va;
|
---|
1899 | struct rx_nfa_state_set * b = (struct rx_nfa_state_set *)vb;
|
---|
1900 |
|
---|
1901 | return ((va == vb)
|
---|
1902 | ? 0
|
---|
1903 | : (!va
|
---|
1904 | ? -1
|
---|
1905 | : (!vb
|
---|
1906 | ? 1
|
---|
1907 | : (a->car->id < b->car->id
|
---|
1908 | ? 1
|
---|
1909 | : (a->car->id > b->car->id
|
---|
1910 | ? -1
|
---|
1911 | : nfa_set_cmp ((void *)a->cdr, (void *)b->cdr))))));
|
---|
1912 | }
|
---|
1913 |
|
---|
1914 | #ifdef __STDC__
|
---|
1915 | static int
|
---|
1916 | nfa_set_equal (void * va, void * vb)
|
---|
1917 | #else
|
---|
1918 | static int
|
---|
1919 | nfa_set_equal (va, vb)
|
---|
1920 | void * va;
|
---|
1921 | void * vb;
|
---|
1922 | #endif
|
---|
1923 | {
|
---|
1924 | return !nfa_set_cmp (va, vb);
|
---|
1925 | }
|
---|
1926 |
|
---|
1927 | static struct rx_hash_rules nfa_set_hash_rules =
|
---|
1928 | {
|
---|
1929 | nfa_set_equal,
|
---|
1930 | compiler_hash_alloc,
|
---|
1931 | compiler_free_hash,
|
---|
1932 | compiler_hash_item_alloc,
|
---|
1933 | compiler_free_hash_item
|
---|
1934 | };
|
---|
1935 |
|
---|
1936 |
|
---|
1937 | #ifdef __STDC__
|
---|
1938 | static struct rx_nfa_state_set *
|
---|
1939 | nfa_set_cons (struct rx * rx,
|
---|
1940 | struct rx_hash * memo, struct rx_nfa_state * state,
|
---|
1941 | struct rx_nfa_state_set * set)
|
---|
1942 | #else
|
---|
1943 | static struct rx_nfa_state_set *
|
---|
1944 | nfa_set_cons (rx, memo, state, set)
|
---|
1945 | struct rx * rx;
|
---|
1946 | struct rx_hash * memo;
|
---|
1947 | struct rx_nfa_state * state;
|
---|
1948 | struct rx_nfa_state_set * set;
|
---|
1949 | #endif
|
---|
1950 | {
|
---|
1951 | struct rx_nfa_state_set template;
|
---|
1952 | struct rx_hash_item * node;
|
---|
1953 | template.car = state;
|
---|
1954 | template.cdr = set;
|
---|
1955 | node = rx_hash_store (memo,
|
---|
1956 | (((long)state) >> 8) ^ (long)set,
|
---|
1957 | &template, &nfa_set_hash_rules);
|
---|
1958 | if (!node)
|
---|
1959 | return 0;
|
---|
1960 | if (node->data == &template)
|
---|
1961 | {
|
---|
1962 | struct rx_nfa_state_set * l;
|
---|
1963 | l = (struct rx_nfa_state_set *) malloc (sizeof (*l));
|
---|
1964 | node->data = (void *) l;
|
---|
1965 | if (!l)
|
---|
1966 | return 0;
|
---|
1967 | *l = template;
|
---|
1968 | }
|
---|
1969 | return (struct rx_nfa_state_set *)node->data;
|
---|
1970 | }
|
---|
1971 |
|
---|
1972 |
|
---|
1973 | #ifdef __STDC__
|
---|
1974 | static struct rx_nfa_state_set *
|
---|
1975 | nfa_set_enjoin (struct rx * rx,
|
---|
1976 | struct rx_hash * memo, struct rx_nfa_state * state,
|
---|
1977 | struct rx_nfa_state_set * set)
|
---|
1978 | #else
|
---|
1979 | static struct rx_nfa_state_set *
|
---|
1980 | nfa_set_enjoin (rx, memo, state, set)
|
---|
1981 | struct rx * rx;
|
---|
1982 | struct rx_hash * memo;
|
---|
1983 | struct rx_nfa_state * state;
|
---|
1984 | struct rx_nfa_state_set * set;
|
---|
1985 | #endif
|
---|
1986 | {
|
---|
1987 | if (!set || state->id < set->car->id)
|
---|
1988 | return nfa_set_cons (rx, memo, state, set);
|
---|
1989 | if (state->id == set->car->id)
|
---|
1990 | return set;
|
---|
1991 | else
|
---|
1992 | {
|
---|
1993 | struct rx_nfa_state_set * newcdr
|
---|
1994 | = nfa_set_enjoin (rx, memo, state, set->cdr);
|
---|
1995 | if (newcdr != set->cdr)
|
---|
1996 | set = nfa_set_cons (rx, memo, set->car, newcdr);
|
---|
1997 | return set;
|
---|
1998 | }
|
---|
1999 | }
|
---|
2000 |
|
---|
2001 |
|
---|
2002 | |
---|
2003 |
|
---|
2004 | /* This page: computing epsilon closures. The closures aren't total.
|
---|
2005 | * Each node's closures are partitioned according to the side effects entailed
|
---|
2006 | * along the epsilon edges. Return true on success.
|
---|
2007 | */
|
---|
2008 |
|
---|
2009 | struct eclose_frame
|
---|
2010 | {
|
---|
2011 | struct rx_se_list *prog_backwards;
|
---|
2012 | };
|
---|
2013 |
|
---|
2014 |
|
---|
2015 | #ifdef __STDC__
|
---|
2016 | static int
|
---|
2017 | eclose_node (struct rx *rx, struct rx_nfa_state *outnode,
|
---|
2018 | struct rx_nfa_state *node, struct eclose_frame *frame)
|
---|
2019 | #else
|
---|
2020 | static int
|
---|
2021 | eclose_node (rx, outnode, node, frame)
|
---|
2022 | struct rx *rx;
|
---|
2023 | struct rx_nfa_state *outnode;
|
---|
2024 | struct rx_nfa_state *node;
|
---|
2025 | struct eclose_frame *frame;
|
---|
2026 | #endif
|
---|
2027 | {
|
---|
2028 | struct rx_nfa_edge *e = node->edges;
|
---|
2029 |
|
---|
2030 | /* For each node, we follow all epsilon paths to build the closure.
|
---|
2031 | * The closure omits nodes that have only epsilon edges.
|
---|
2032 | * The closure is split into partial closures -- all the states in
|
---|
2033 | * a partial closure are reached by crossing the same list of
|
---|
2034 | * of side effects (though not necessarily the same path).
|
---|
2035 | */
|
---|
2036 | if (node->mark)
|
---|
2037 | return 1;
|
---|
2038 | node->mark = 1;
|
---|
2039 |
|
---|
2040 | if (node->id >= 0 || node->is_final)
|
---|
2041 | {
|
---|
2042 | struct rx_possible_future **ec;
|
---|
2043 | struct rx_se_list * prog_in_order
|
---|
2044 | = ((struct rx_se_list *)hash_se_prog (rx,
|
---|
2045 | &rx->se_list_memo,
|
---|
2046 | frame->prog_backwards));
|
---|
2047 | int cmp;
|
---|
2048 |
|
---|
2049 | ec = &outnode->futures;
|
---|
2050 |
|
---|
2051 | while (*ec)
|
---|
2052 | {
|
---|
2053 | cmp = se_list_cmp ((void *)(*ec)->effects, (void *)prog_in_order);
|
---|
2054 | if (cmp <= 0)
|
---|
2055 | break;
|
---|
2056 | ec = &(*ec)->next;
|
---|
2057 | }
|
---|
2058 | if (!*ec || (cmp < 0))
|
---|
2059 | {
|
---|
2060 | struct rx_possible_future * saved = *ec;
|
---|
2061 | *ec = rx_possible_future (rx, prog_in_order);
|
---|
2062 | (*ec)->next = saved;
|
---|
2063 | if (!*ec)
|
---|
2064 | return 0;
|
---|
2065 | }
|
---|
2066 | if (node->id >= 0)
|
---|
2067 | {
|
---|
2068 | (*ec)->destset = nfa_set_enjoin (rx, &rx->set_list_memo,
|
---|
2069 | node, (*ec)->destset);
|
---|
2070 | if (!(*ec)->destset)
|
---|
2071 | return 0;
|
---|
2072 | }
|
---|
2073 | }
|
---|
2074 |
|
---|
2075 | while (e)
|
---|
2076 | {
|
---|
2077 | switch (e->type)
|
---|
2078 | {
|
---|
2079 | case ne_epsilon:
|
---|
2080 | if (!eclose_node (rx, outnode, e->dest, frame))
|
---|
2081 | return 0;
|
---|
2082 | break;
|
---|
2083 | case ne_side_effect:
|
---|
2084 | {
|
---|
2085 | frame->prog_backwards = side_effect_cons (rx,
|
---|
2086 | e->params.side_effect,
|
---|
2087 | frame->prog_backwards);
|
---|
2088 | if (!frame->prog_backwards)
|
---|
2089 | return 0;
|
---|
2090 | if (!eclose_node (rx, outnode, e->dest, frame))
|
---|
2091 | return 0;
|
---|
2092 | {
|
---|
2093 | struct rx_se_list * dying = frame->prog_backwards;
|
---|
2094 | frame->prog_backwards = frame->prog_backwards->cdr;
|
---|
2095 | free ((char *)dying);
|
---|
2096 | }
|
---|
2097 | break;
|
---|
2098 | }
|
---|
2099 | default:
|
---|
2100 | break;
|
---|
2101 | }
|
---|
2102 | e = e->next;
|
---|
2103 | }
|
---|
2104 | node->mark = 0;
|
---|
2105 | return 1;
|
---|
2106 | }
|
---|
2107 |
|
---|
2108 |
|
---|
2109 | #ifdef __STDC__
|
---|
2110 | RX_DECL int
|
---|
2111 | rx_eclose_nfa (struct rx *rx)
|
---|
2112 | #else
|
---|
2113 | RX_DECL int
|
---|
2114 | rx_eclose_nfa (rx)
|
---|
2115 | struct rx *rx;
|
---|
2116 | #endif
|
---|
2117 | {
|
---|
2118 | struct rx_nfa_state *n = rx->nfa_states;
|
---|
2119 | struct eclose_frame frame;
|
---|
2120 | static int rx_id = 0;
|
---|
2121 |
|
---|
2122 | frame.prog_backwards = 0;
|
---|
2123 | rx->rx_id = rx_id++;
|
---|
2124 | bzero (&rx->se_list_memo, sizeof (rx->se_list_memo));
|
---|
2125 | bzero (&rx->set_list_memo, sizeof (rx->set_list_memo));
|
---|
2126 | while (n)
|
---|
2127 | {
|
---|
2128 | n->futures = 0;
|
---|
2129 | if (n->eclosure_needed && !eclose_node (rx, n, n, &frame))
|
---|
2130 | return 0;
|
---|
2131 | /* clear_marks (rx); */
|
---|
2132 | n = n->next;
|
---|
2133 | }
|
---|
2134 | return 1;
|
---|
2135 | }
|
---|
2136 |
|
---|
2137 |
|
---|
2138 | /* This deletes epsilon edges from an NFA. After running eclose_node,
|
---|
2139 | * we have no more need for these edges. They are removed to simplify
|
---|
2140 | * further operations on the NFA.
|
---|
2141 | */
|
---|
2142 |
|
---|
2143 | #ifdef __STDC__
|
---|
2144 | RX_DECL void
|
---|
2145 | rx_delete_epsilon_transitions (struct rx *rx)
|
---|
2146 | #else
|
---|
2147 | RX_DECL void
|
---|
2148 | rx_delete_epsilon_transitions (rx)
|
---|
2149 | struct rx *rx;
|
---|
2150 | #endif
|
---|
2151 | {
|
---|
2152 | struct rx_nfa_state *n = rx->nfa_states;
|
---|
2153 | struct rx_nfa_edge **e;
|
---|
2154 |
|
---|
2155 | while (n)
|
---|
2156 | {
|
---|
2157 | e = &n->edges;
|
---|
2158 | while (*e)
|
---|
2159 | {
|
---|
2160 | struct rx_nfa_edge *t;
|
---|
2161 | switch ((*e)->type)
|
---|
2162 | {
|
---|
2163 | case ne_epsilon:
|
---|
2164 | case ne_side_effect:
|
---|
2165 | t = *e;
|
---|
2166 | *e = t->next;
|
---|
2167 | rx_free_nfa_edge (t);
|
---|
2168 | break;
|
---|
2169 |
|
---|
2170 | default:
|
---|
2171 | e = &(*e)->next;
|
---|
2172 | break;
|
---|
2173 | }
|
---|
2174 | }
|
---|
2175 | n = n->next;
|
---|
2176 | }
|
---|
2177 | }
|
---|
2178 |
|
---|
2179 | |
---|
2180 |
|
---|
2181 | /* This page: storing the nfa in a contiguous region of memory for
|
---|
2182 | * subsequent conversion to a super-nfa.
|
---|
2183 | */
|
---|
2184 |
|
---|
2185 | /* This is for qsort on an array of nfa_states. The order
|
---|
2186 | * is based on state ids and goes
|
---|
2187 | * [0...MAX][MIN..-1] where (MAX>=0) and (MIN<0)
|
---|
2188 | * This way, positive ids double as array indices.
|
---|
2189 | */
|
---|
2190 |
|
---|
2191 | #ifdef __STDC__
|
---|
2192 | static int
|
---|
2193 | nfacmp (void * va, void * vb)
|
---|
2194 | #else
|
---|
2195 | static int
|
---|
2196 | nfacmp (va, vb)
|
---|
2197 | void * va;
|
---|
2198 | void * vb;
|
---|
2199 | #endif
|
---|
2200 | {
|
---|
2201 | struct rx_nfa_state **a = (struct rx_nfa_state **)va;
|
---|
2202 | struct rx_nfa_state **b = (struct rx_nfa_state **)vb;
|
---|
2203 | return (*a == *b /* &&&& 3.18 */
|
---|
2204 | ? 0
|
---|
2205 | : (((*a)->id < 0) == ((*b)->id < 0)
|
---|
2206 | ? (((*a)->id < (*b)->id) ? -1 : 1)
|
---|
2207 | : (((*a)->id < 0)
|
---|
2208 | ? 1 : -1)));
|
---|
2209 | }
|
---|
2210 |
|
---|
2211 | #ifdef __STDC__
|
---|
2212 | static int
|
---|
2213 | count_hash_nodes (struct rx_hash * st)
|
---|
2214 | #else
|
---|
2215 | static int
|
---|
2216 | count_hash_nodes (st)
|
---|
2217 | struct rx_hash * st;
|
---|
2218 | #endif
|
---|
2219 | {
|
---|
2220 | int x;
|
---|
2221 | int count = 0;
|
---|
2222 | for (x = 0; x < 13; ++x)
|
---|
2223 | count += ((st->children[x])
|
---|
2224 | ? count_hash_nodes (st->children[x])
|
---|
2225 | : st->bucket_size[x]);
|
---|
2226 |
|
---|
2227 | return count;
|
---|
2228 | }
|
---|
2229 |
|
---|
2230 |
|
---|
2231 | #ifdef __STDC__
|
---|
2232 | static void
|
---|
2233 | se_memo_freer (struct rx_hash_item * node)
|
---|
2234 | #else
|
---|
2235 | static void
|
---|
2236 | se_memo_freer (node)
|
---|
2237 | struct rx_hash_item * node;
|
---|
2238 | #endif
|
---|
2239 | {
|
---|
2240 | free ((char *)node->data);
|
---|
2241 | }
|
---|
2242 |
|
---|
2243 |
|
---|
2244 | #ifdef __STDC__
|
---|
2245 | static void
|
---|
2246 | nfa_set_freer (struct rx_hash_item * node)
|
---|
2247 | #else
|
---|
2248 | static void
|
---|
2249 | nfa_set_freer (node)
|
---|
2250 | struct rx_hash_item * node;
|
---|
2251 | #endif
|
---|
2252 | {
|
---|
2253 | free ((char *)node->data);
|
---|
2254 | }
|
---|
2255 |
|
---|
2256 |
|
---|
2257 | /* This copies an entire NFA into a single malloced block of memory.
|
---|
2258 | * Mostly this is for compatability with regex.c, though it is convenient
|
---|
2259 | * to have the nfa nodes in an array.
|
---|
2260 | */
|
---|
2261 |
|
---|
2262 | #ifdef __STDC__
|
---|
2263 | RX_DECL int
|
---|
2264 | rx_compactify_nfa (struct rx *rx,
|
---|
2265 | void **mem, unsigned long *size)
|
---|
2266 | #else
|
---|
2267 | RX_DECL int
|
---|
2268 | rx_compactify_nfa (rx, mem, size)
|
---|
2269 | struct rx *rx;
|
---|
2270 | void **mem;
|
---|
2271 | unsigned long *size;
|
---|
2272 | #endif
|
---|
2273 | {
|
---|
2274 | int total_nodec;
|
---|
2275 | struct rx_nfa_state *n;
|
---|
2276 | int edgec = 0;
|
---|
2277 | int eclosec = 0;
|
---|
2278 | int se_list_consc = count_hash_nodes (&rx->se_list_memo);
|
---|
2279 | int nfa_setc = count_hash_nodes (&rx->set_list_memo);
|
---|
2280 | unsigned long total_size;
|
---|
2281 |
|
---|
2282 | /* This takes place in two stages. First, the total size of the
|
---|
2283 | * nfa is computed, then structures are copied.
|
---|
2284 | */
|
---|
2285 | n = rx->nfa_states;
|
---|
2286 | total_nodec = 0;
|
---|
2287 | while (n)
|
---|
2288 | {
|
---|
2289 | struct rx_nfa_edge *e = n->edges;
|
---|
2290 | struct rx_possible_future *ec = n->futures;
|
---|
2291 | ++total_nodec;
|
---|
2292 | while (e)
|
---|
2293 | {
|
---|
2294 | ++edgec;
|
---|
2295 | e = e->next;
|
---|
2296 | }
|
---|
2297 | while (ec)
|
---|
2298 | {
|
---|
2299 | ++eclosec;
|
---|
2300 | ec = ec->next;
|
---|
2301 | }
|
---|
2302 | n = n->next;
|
---|
2303 | }
|
---|
2304 |
|
---|
2305 | total_size = (total_nodec * sizeof (struct rx_nfa_state)
|
---|
2306 | + edgec * rx_sizeof_bitset (rx->local_cset_size)
|
---|
2307 | + edgec * sizeof (struct rx_nfa_edge)
|
---|
2308 | + nfa_setc * sizeof (struct rx_nfa_state_set)
|
---|
2309 | + eclosec * sizeof (struct rx_possible_future)
|
---|
2310 | + se_list_consc * sizeof (struct rx_se_list)
|
---|
2311 | + rx->reserved);
|
---|
2312 |
|
---|
2313 | if (total_size > *size)
|
---|
2314 | {
|
---|
2315 | *mem = remalloc (*mem, total_size);
|
---|
2316 | if (*mem)
|
---|
2317 | *size = total_size;
|
---|
2318 | else
|
---|
2319 | return 0;
|
---|
2320 | }
|
---|
2321 | /* Now we've allocated the memory; this copies the NFA. */
|
---|
2322 | {
|
---|
2323 | static struct rx_nfa_state **scratch = 0;
|
---|
2324 | static int scratch_alloc = 0;
|
---|
2325 | struct rx_nfa_state *state_base = (struct rx_nfa_state *) * mem;
|
---|
2326 | struct rx_nfa_state *new_state = state_base;
|
---|
2327 | struct rx_nfa_edge *new_edge =
|
---|
2328 | (struct rx_nfa_edge *)
|
---|
2329 | ((char *) state_base + total_nodec * sizeof (struct rx_nfa_state));
|
---|
2330 | struct rx_se_list * new_se_list =
|
---|
2331 | (struct rx_se_list *)
|
---|
2332 | ((char *)new_edge + edgec * sizeof (struct rx_nfa_edge));
|
---|
2333 | struct rx_possible_future *new_close =
|
---|
2334 | ((struct rx_possible_future *)
|
---|
2335 | ((char *) new_se_list
|
---|
2336 | + se_list_consc * sizeof (struct rx_se_list)));
|
---|
2337 | struct rx_nfa_state_set * new_nfa_set =
|
---|
2338 | ((struct rx_nfa_state_set *)
|
---|
2339 | ((char *)new_close + eclosec * sizeof (struct rx_possible_future)));
|
---|
2340 | char *new_bitset =
|
---|
2341 | ((char *) new_nfa_set + nfa_setc * sizeof (struct rx_nfa_state_set));
|
---|
2342 | int x;
|
---|
2343 | struct rx_nfa_state *n;
|
---|
2344 |
|
---|
2345 | if (scratch_alloc < total_nodec)
|
---|
2346 | {
|
---|
2347 | scratch = ((struct rx_nfa_state **)
|
---|
2348 | remalloc (scratch, total_nodec * sizeof (*scratch)));
|
---|
2349 | if (scratch)
|
---|
2350 | scratch_alloc = total_nodec;
|
---|
2351 | else
|
---|
2352 | {
|
---|
2353 | scratch_alloc = 0;
|
---|
2354 | return 0;
|
---|
2355 | }
|
---|
2356 | }
|
---|
2357 |
|
---|
2358 | for (x = 0, n = rx->nfa_states; n; n = n->next)
|
---|
2359 | scratch[x++] = n;
|
---|
2360 |
|
---|
2361 | qsort (scratch, total_nodec,
|
---|
2362 | sizeof (struct rx_nfa_state *), (int (*)())nfacmp);
|
---|
2363 |
|
---|
2364 | for (x = 0; x < total_nodec; ++x)
|
---|
2365 | {
|
---|
2366 | struct rx_possible_future *eclose = scratch[x]->futures;
|
---|
2367 | struct rx_nfa_edge *edge = scratch[x]->edges;
|
---|
2368 | struct rx_nfa_state *cn = new_state++;
|
---|
2369 | cn->futures = 0;
|
---|
2370 | cn->edges = 0;
|
---|
2371 | cn->next = (x == total_nodec - 1) ? 0 : (cn + 1);
|
---|
2372 | cn->id = scratch[x]->id;
|
---|
2373 | cn->is_final = scratch[x]->is_final;
|
---|
2374 | cn->is_start = scratch[x]->is_start;
|
---|
2375 | cn->mark = 0;
|
---|
2376 | while (edge)
|
---|
2377 | {
|
---|
2378 | int indx = (edge->dest->id < 0
|
---|
2379 | ? (total_nodec + edge->dest->id)
|
---|
2380 | : edge->dest->id);
|
---|
2381 | struct rx_nfa_edge *e = new_edge++;
|
---|
2382 | rx_Bitset cset = (rx_Bitset) new_bitset;
|
---|
2383 | new_bitset += rx_sizeof_bitset (rx->local_cset_size);
|
---|
2384 | rx_bitset_null (rx->local_cset_size, cset);
|
---|
2385 | rx_bitset_union (rx->local_cset_size, cset, edge->params.cset);
|
---|
2386 | e->next = cn->edges;
|
---|
2387 | cn->edges = e;
|
---|
2388 | e->type = edge->type;
|
---|
2389 | e->dest = state_base + indx;
|
---|
2390 | e->params.cset = cset;
|
---|
2391 | edge = edge->next;
|
---|
2392 | }
|
---|
2393 | while (eclose)
|
---|
2394 | {
|
---|
2395 | struct rx_possible_future *ec = new_close++;
|
---|
2396 | struct rx_hash_item * sp;
|
---|
2397 | struct rx_se_list ** sepos;
|
---|
2398 | struct rx_se_list * sesrc;
|
---|
2399 | struct rx_nfa_state_set * destlst;
|
---|
2400 | struct rx_nfa_state_set ** destpos;
|
---|
2401 | ec->next = cn->futures;
|
---|
2402 | cn->futures = ec;
|
---|
2403 | for (sepos = &ec->effects, sesrc = eclose->effects;
|
---|
2404 | sesrc;
|
---|
2405 | sesrc = sesrc->cdr, sepos = &(*sepos)->cdr)
|
---|
2406 | {
|
---|
2407 | sp = rx_hash_find (&rx->se_list_memo,
|
---|
2408 | (long)sesrc->car ^ (long)sesrc->cdr,
|
---|
2409 | sesrc, &se_list_hash_rules);
|
---|
2410 | if (sp->binding)
|
---|
2411 | {
|
---|
2412 | sesrc = (struct rx_se_list *)sp->binding;
|
---|
2413 | break;
|
---|
2414 | }
|
---|
2415 | *new_se_list = *sesrc;
|
---|
2416 | sp->binding = (void *)new_se_list;
|
---|
2417 | *sepos = new_se_list;
|
---|
2418 | ++new_se_list;
|
---|
2419 | }
|
---|
2420 | *sepos = sesrc;
|
---|
2421 | for (destpos = &ec->destset, destlst = eclose->destset;
|
---|
2422 | destlst;
|
---|
2423 | destpos = &(*destpos)->cdr, destlst = destlst->cdr)
|
---|
2424 | {
|
---|
2425 | sp = rx_hash_find (&rx->set_list_memo,
|
---|
2426 | ((((long)destlst->car) >> 8)
|
---|
2427 | ^ (long)destlst->cdr),
|
---|
2428 | destlst, &nfa_set_hash_rules);
|
---|
2429 | if (sp->binding)
|
---|
2430 | {
|
---|
2431 | destlst = (struct rx_nfa_state_set *)sp->binding;
|
---|
2432 | break;
|
---|
2433 | }
|
---|
2434 | *new_nfa_set = *destlst;
|
---|
2435 | new_nfa_set->car = state_base + destlst->car->id;
|
---|
2436 | sp->binding = (void *)new_nfa_set;
|
---|
2437 | *destpos = new_nfa_set;
|
---|
2438 | ++new_nfa_set;
|
---|
2439 | }
|
---|
2440 | *destpos = destlst;
|
---|
2441 | eclose = eclose->next;
|
---|
2442 | }
|
---|
2443 | }
|
---|
2444 | }
|
---|
2445 | rx_free_hash_table (&rx->se_list_memo, se_memo_freer, &se_list_hash_rules);
|
---|
2446 | bzero (&rx->se_list_memo, sizeof (rx->se_list_memo));
|
---|
2447 | rx_free_hash_table (&rx->set_list_memo, nfa_set_freer, &nfa_set_hash_rules);
|
---|
2448 | bzero (&rx->set_list_memo, sizeof (rx->set_list_memo));
|
---|
2449 |
|
---|
2450 | rx_free_nfa (rx);
|
---|
2451 | rx->nfa_states = (struct rx_nfa_state *)*mem;
|
---|
2452 | return 1;
|
---|
2453 | }
|
---|
2454 |
|
---|
2455 | |
---|
2456 |
|
---|
2457 | /* The functions in the next several pages define the lazy-NFA-conversion used
|
---|
2458 | * by matchers. The input to this construction is an NFA such as
|
---|
2459 | * is built by compactify_nfa (rx.c). The output is the superNFA.
|
---|
2460 | */
|
---|
2461 |
|
---|
2462 | /* Match engines can use arbitrary values for opcodes. So, the parse tree
|
---|
2463 | * is built using instructions names (enum rx_opcode), but the superstate
|
---|
2464 | * nfa is populated with mystery opcodes (void *).
|
---|
2465 | *
|
---|
2466 | * For convenience, here is an id table. The opcodes are == to their inxs
|
---|
2467 | *
|
---|
2468 | * The lables in re_search_2 would make good values for instructions.
|
---|
2469 | */
|
---|
2470 |
|
---|
2471 | void * rx_id_instruction_table[rx_num_instructions] =
|
---|
2472 | {
|
---|
2473 | (void *) rx_backtrack_point,
|
---|
2474 | (void *) rx_do_side_effects,
|
---|
2475 | (void *) rx_cache_miss,
|
---|
2476 | (void *) rx_next_char,
|
---|
2477 | (void *) rx_backtrack,
|
---|
2478 | (void *) rx_error_inx
|
---|
2479 | };
|
---|
2480 |
|
---|
2481 | |
---|
2482 |
|
---|
2483 |
|
---|
2484 | /* Memory mgt. for superstate graphs. */
|
---|
2485 |
|
---|
2486 | #ifdef __STDC__
|
---|
2487 | static char *
|
---|
2488 | rx_cache_malloc (struct rx_cache * cache, int bytes)
|
---|
2489 | #else
|
---|
2490 | static char *
|
---|
2491 | rx_cache_malloc (cache, bytes)
|
---|
2492 | struct rx_cache * cache;
|
---|
2493 | int bytes;
|
---|
2494 | #endif
|
---|
2495 | {
|
---|
2496 | while (cache->bytes_left < bytes)
|
---|
2497 | {
|
---|
2498 | if (cache->memory_pos)
|
---|
2499 | cache->memory_pos = cache->memory_pos->next;
|
---|
2500 | if (!cache->memory_pos)
|
---|
2501 | {
|
---|
2502 | cache->morecore (cache);
|
---|
2503 | if (!cache->memory_pos)
|
---|
2504 | return 0;
|
---|
2505 | }
|
---|
2506 | cache->bytes_left = cache->memory_pos->bytes;
|
---|
2507 | cache->memory_addr = ((char *)cache->memory_pos
|
---|
2508 | + sizeof (struct rx_blocklist));
|
---|
2509 | }
|
---|
2510 | cache->bytes_left -= bytes;
|
---|
2511 | {
|
---|
2512 | char * addr = cache->memory_addr;
|
---|
2513 | cache->memory_addr += bytes;
|
---|
2514 | return addr;
|
---|
2515 | }
|
---|
2516 | }
|
---|
2517 |
|
---|
2518 | #ifdef __STDC__
|
---|
2519 | static void
|
---|
2520 | rx_cache_free (struct rx_cache * cache,
|
---|
2521 | struct rx_freelist ** freelist, char * mem)
|
---|
2522 | #else
|
---|
2523 | static void
|
---|
2524 | rx_cache_free (cache, freelist, mem)
|
---|
2525 | struct rx_cache * cache;
|
---|
2526 | struct rx_freelist ** freelist;
|
---|
2527 | char * mem;
|
---|
2528 | #endif
|
---|
2529 | {
|
---|
2530 | struct rx_freelist * it = (struct rx_freelist *)mem;
|
---|
2531 | it->next = *freelist;
|
---|
2532 | *freelist = it;
|
---|
2533 | }
|
---|
2534 |
|
---|
2535 |
|
---|
2536 | /* The partially instantiated superstate graph has a transition
|
---|
2537 | * table at every node. There is one entry for every character.
|
---|
2538 | * This fills in the transition for a set.
|
---|
2539 | */
|
---|
2540 | #ifdef __STDC__
|
---|
2541 | static void
|
---|
2542 | install_transition (struct rx_superstate *super,
|
---|
2543 | struct rx_inx *answer, rx_Bitset trcset)
|
---|
2544 | #else
|
---|
2545 | static void
|
---|
2546 | install_transition (super, answer, trcset)
|
---|
2547 | struct rx_superstate *super;
|
---|
2548 | struct rx_inx *answer;
|
---|
2549 | rx_Bitset trcset;
|
---|
2550 | #endif
|
---|
2551 | {
|
---|
2552 | struct rx_inx * transitions = super->transitions;
|
---|
2553 | int chr;
|
---|
2554 | for (chr = 0; chr < 256; )
|
---|
2555 | if (!*trcset)
|
---|
2556 | {
|
---|
2557 | ++trcset;
|
---|
2558 | chr += 32;
|
---|
2559 | }
|
---|
2560 | else
|
---|
2561 | {
|
---|
2562 | RX_subset sub = *trcset;
|
---|
2563 | RX_subset mask = 1;
|
---|
2564 | int bound = chr + 32;
|
---|
2565 | while (chr < bound)
|
---|
2566 | {
|
---|
2567 | if (sub & mask)
|
---|
2568 | transitions [chr] = *answer;
|
---|
2569 | ++chr;
|
---|
2570 | mask <<= 1;
|
---|
2571 | }
|
---|
2572 | ++trcset;
|
---|
2573 | }
|
---|
2574 | }
|
---|
2575 |
|
---|
2576 |
|
---|
2577 | #ifdef __STDC__
|
---|
2578 | static int
|
---|
2579 | qlen (struct rx_superstate * q)
|
---|
2580 | #else
|
---|
2581 | static int
|
---|
2582 | qlen (q)
|
---|
2583 | struct rx_superstate * q;
|
---|
2584 | #endif
|
---|
2585 | {
|
---|
2586 | int count = 1;
|
---|
2587 | struct rx_superstate * it;
|
---|
2588 | if (!q)
|
---|
2589 | return 0;
|
---|
2590 | for (it = q->next_recyclable; it != q; it = it->next_recyclable)
|
---|
2591 | ++count;
|
---|
2592 | return count;
|
---|
2593 | }
|
---|
2594 |
|
---|
2595 | #ifdef __STDC__
|
---|
2596 | static void
|
---|
2597 | check_cache (struct rx_cache * cache)
|
---|
2598 | #else
|
---|
2599 | static void
|
---|
2600 | check_cache (cache)
|
---|
2601 | struct rx_cache * cache;
|
---|
2602 | #endif
|
---|
2603 | {
|
---|
2604 | struct rx_cache * you_fucked_up = 0;
|
---|
2605 | int total = cache->superstates;
|
---|
2606 | int semi = cache->semifree_superstates;
|
---|
2607 | if (semi != qlen (cache->semifree_superstate))
|
---|
2608 | check_cache (you_fucked_up);
|
---|
2609 | if ((total - semi) != qlen (cache->lru_superstate))
|
---|
2610 | check_cache (you_fucked_up);
|
---|
2611 | }
|
---|
2612 |
|
---|
2613 | /* When a superstate is old and neglected, it can enter a
|
---|
2614 | * semi-free state. A semi-free state is slated to die.
|
---|
2615 | * Incoming transitions to a semi-free state are re-written
|
---|
2616 | * to cause an (interpreted) fault when they are taken.
|
---|
2617 | * The fault handler revives the semi-free state, patches
|
---|
2618 | * incoming transitions back to normal, and continues.
|
---|
2619 | *
|
---|
2620 | * The idea is basicly to free in two stages, aborting
|
---|
2621 | * between the two if the state turns out to be useful again.
|
---|
2622 | * When a free is aborted, the rescued superstate is placed
|
---|
2623 | * in the most-favored slot to maximize the time until it
|
---|
2624 | * is next semi-freed.
|
---|
2625 | */
|
---|
2626 |
|
---|
2627 | #ifdef __STDC__
|
---|
2628 | static void
|
---|
2629 | semifree_superstate (struct rx_cache * cache)
|
---|
2630 | #else
|
---|
2631 | static void
|
---|
2632 | semifree_superstate (cache)
|
---|
2633 | struct rx_cache * cache;
|
---|
2634 | #endif
|
---|
2635 | {
|
---|
2636 | int disqualified = cache->semifree_superstates;
|
---|
2637 | if (disqualified == cache->superstates)
|
---|
2638 | return;
|
---|
2639 | while (cache->lru_superstate->locks)
|
---|
2640 | {
|
---|
2641 | cache->lru_superstate = cache->lru_superstate->next_recyclable;
|
---|
2642 | ++disqualified;
|
---|
2643 | if (disqualified == cache->superstates)
|
---|
2644 | return;
|
---|
2645 | }
|
---|
2646 | {
|
---|
2647 | struct rx_superstate * it = cache->lru_superstate;
|
---|
2648 | it->next_recyclable->prev_recyclable = it->prev_recyclable;
|
---|
2649 | it->prev_recyclable->next_recyclable = it->next_recyclable;
|
---|
2650 | cache->lru_superstate = (it == it->next_recyclable
|
---|
2651 | ? 0
|
---|
2652 | : it->next_recyclable);
|
---|
2653 | if (!cache->semifree_superstate)
|
---|
2654 | {
|
---|
2655 | cache->semifree_superstate = it;
|
---|
2656 | it->next_recyclable = it;
|
---|
2657 | it->prev_recyclable = it;
|
---|
2658 | }
|
---|
2659 | else
|
---|
2660 | {
|
---|
2661 | it->prev_recyclable = cache->semifree_superstate->prev_recyclable;
|
---|
2662 | it->next_recyclable = cache->semifree_superstate;
|
---|
2663 | it->prev_recyclable->next_recyclable = it;
|
---|
2664 | it->next_recyclable->prev_recyclable = it;
|
---|
2665 | }
|
---|
2666 | {
|
---|
2667 | struct rx_distinct_future *df;
|
---|
2668 | it->is_semifree = 1;
|
---|
2669 | ++cache->semifree_superstates;
|
---|
2670 | df = it->transition_refs;
|
---|
2671 | if (df)
|
---|
2672 | {
|
---|
2673 | df->prev_same_dest->next_same_dest = 0;
|
---|
2674 | for (df = it->transition_refs; df; df = df->next_same_dest)
|
---|
2675 | {
|
---|
2676 | df->future_frame.inx = cache->instruction_table[rx_cache_miss];
|
---|
2677 | df->future_frame.data = 0;
|
---|
2678 | df->future_frame.data_2 = (void *) df;
|
---|
2679 | /* If there are any NEXT-CHAR instruction frames that
|
---|
2680 | * refer to this state, we convert them to CACHE-MISS frames.
|
---|
2681 | */
|
---|
2682 | if (!df->effects
|
---|
2683 | && (df->edge->options->next_same_super_edge[0]
|
---|
2684 | == df->edge->options))
|
---|
2685 | install_transition (df->present, &df->future_frame,
|
---|
2686 | df->edge->cset);
|
---|
2687 | }
|
---|
2688 | df = it->transition_refs;
|
---|
2689 | df->prev_same_dest->next_same_dest = df;
|
---|
2690 | }
|
---|
2691 | }
|
---|
2692 | }
|
---|
2693 | }
|
---|
2694 |
|
---|
2695 |
|
---|
2696 | #ifdef __STDC__
|
---|
2697 | static void
|
---|
2698 | refresh_semifree_superstate (struct rx_cache * cache,
|
---|
2699 | struct rx_superstate * super)
|
---|
2700 | #else
|
---|
2701 | static void
|
---|
2702 | refresh_semifree_superstate (cache, super)
|
---|
2703 | struct rx_cache * cache;
|
---|
2704 | struct rx_superstate * super;
|
---|
2705 | #endif
|
---|
2706 | {
|
---|
2707 | struct rx_distinct_future *df;
|
---|
2708 |
|
---|
2709 | if (super->transition_refs)
|
---|
2710 | {
|
---|
2711 | super->transition_refs->prev_same_dest->next_same_dest = 0;
|
---|
2712 | for (df = super->transition_refs; df; df = df->next_same_dest)
|
---|
2713 | {
|
---|
2714 | df->future_frame.inx = cache->instruction_table[rx_next_char];
|
---|
2715 | df->future_frame.data = (void *) super->transitions;
|
---|
2716 | /* CACHE-MISS instruction frames that refer to this state,
|
---|
2717 | * must be converted to NEXT-CHAR frames.
|
---|
2718 | */
|
---|
2719 | if (!df->effects
|
---|
2720 | && (df->edge->options->next_same_super_edge[0]
|
---|
2721 | == df->edge->options))
|
---|
2722 | install_transition (df->present, &df->future_frame,
|
---|
2723 | df->edge->cset);
|
---|
2724 | }
|
---|
2725 | super->transition_refs->prev_same_dest->next_same_dest
|
---|
2726 | = super->transition_refs;
|
---|
2727 | }
|
---|
2728 | if (cache->semifree_superstate == super)
|
---|
2729 | cache->semifree_superstate = (super->prev_recyclable == super
|
---|
2730 | ? 0
|
---|
2731 | : super->prev_recyclable);
|
---|
2732 | super->next_recyclable->prev_recyclable = super->prev_recyclable;
|
---|
2733 | super->prev_recyclable->next_recyclable = super->next_recyclable;
|
---|
2734 |
|
---|
2735 | if (!cache->lru_superstate)
|
---|
2736 | (cache->lru_superstate
|
---|
2737 | = super->next_recyclable
|
---|
2738 | = super->prev_recyclable
|
---|
2739 | = super);
|
---|
2740 | else
|
---|
2741 | {
|
---|
2742 | super->next_recyclable = cache->lru_superstate;
|
---|
2743 | super->prev_recyclable = cache->lru_superstate->prev_recyclable;
|
---|
2744 | super->next_recyclable->prev_recyclable = super;
|
---|
2745 | super->prev_recyclable->next_recyclable = super;
|
---|
2746 | }
|
---|
2747 | super->is_semifree = 0;
|
---|
2748 | --cache->semifree_superstates;
|
---|
2749 | }
|
---|
2750 |
|
---|
2751 | #ifdef __STDC__
|
---|
2752 | static void
|
---|
2753 | rx_refresh_this_superstate (struct rx_cache * cache, struct rx_superstate * superstate)
|
---|
2754 | #else
|
---|
2755 | static void
|
---|
2756 | rx_refresh_this_superstate (cache, superstate)
|
---|
2757 | struct rx_cache * cache;
|
---|
2758 | struct rx_superstate * superstate;
|
---|
2759 | #endif
|
---|
2760 | {
|
---|
2761 | if (superstate->is_semifree)
|
---|
2762 | refresh_semifree_superstate (cache, superstate);
|
---|
2763 | else if (cache->lru_superstate == superstate)
|
---|
2764 | cache->lru_superstate = superstate->next_recyclable;
|
---|
2765 | else if (superstate != cache->lru_superstate->prev_recyclable)
|
---|
2766 | {
|
---|
2767 | superstate->next_recyclable->prev_recyclable
|
---|
2768 | = superstate->prev_recyclable;
|
---|
2769 | superstate->prev_recyclable->next_recyclable
|
---|
2770 | = superstate->next_recyclable;
|
---|
2771 | superstate->next_recyclable = cache->lru_superstate;
|
---|
2772 | superstate->prev_recyclable = cache->lru_superstate->prev_recyclable;
|
---|
2773 | superstate->next_recyclable->prev_recyclable = superstate;
|
---|
2774 | superstate->prev_recyclable->next_recyclable = superstate;
|
---|
2775 | }
|
---|
2776 | }
|
---|
2777 |
|
---|
2778 | #ifdef __STDC__
|
---|
2779 | static void
|
---|
2780 | release_superset_low (struct rx_cache * cache,
|
---|
2781 | struct rx_superset *set)
|
---|
2782 | #else
|
---|
2783 | static void
|
---|
2784 | release_superset_low (cache, set)
|
---|
2785 | struct rx_cache * cache;
|
---|
2786 | struct rx_superset *set;
|
---|
2787 | #endif
|
---|
2788 | {
|
---|
2789 | if (!--set->refs)
|
---|
2790 | {
|
---|
2791 | if (set->cdr)
|
---|
2792 | release_superset_low (cache, set->cdr);
|
---|
2793 |
|
---|
2794 | set->starts_for = 0;
|
---|
2795 |
|
---|
2796 | rx_hash_free
|
---|
2797 | (rx_hash_find
|
---|
2798 | (&cache->superset_table,
|
---|
2799 | (unsigned long)set->car ^ set->id ^ (unsigned long)set->cdr,
|
---|
2800 | (void *)set,
|
---|
2801 | &cache->superset_hash_rules),
|
---|
2802 | &cache->superset_hash_rules);
|
---|
2803 | rx_cache_free (cache, &cache->free_supersets, (char *)set);
|
---|
2804 | }
|
---|
2805 | }
|
---|
2806 |
|
---|
2807 | #ifdef __STDC__
|
---|
2808 | RX_DECL void
|
---|
2809 | rx_release_superset (struct rx *rx,
|
---|
2810 | struct rx_superset *set)
|
---|
2811 | #else
|
---|
2812 | RX_DECL void
|
---|
2813 | rx_release_superset (rx, set)
|
---|
2814 | struct rx *rx;
|
---|
2815 | struct rx_superset *set;
|
---|
2816 | #endif
|
---|
2817 | {
|
---|
2818 | release_superset_low (rx->cache, set);
|
---|
2819 | }
|
---|
2820 |
|
---|
2821 | /* This tries to add a new superstate to the superstate freelist.
|
---|
2822 | * It might, as a result, free some edge pieces or hash tables.
|
---|
2823 | * If nothing can be freed because too many locks are being held, fail.
|
---|
2824 | */
|
---|
2825 |
|
---|
2826 | #ifdef __STDC__
|
---|
2827 | static int
|
---|
2828 | rx_really_free_superstate (struct rx_cache * cache)
|
---|
2829 | #else
|
---|
2830 | static int
|
---|
2831 | rx_really_free_superstate (cache)
|
---|
2832 | struct rx_cache * cache;
|
---|
2833 | #endif
|
---|
2834 | {
|
---|
2835 | int locked_superstates = 0;
|
---|
2836 | struct rx_superstate * it;
|
---|
2837 |
|
---|
2838 | if (!cache->superstates)
|
---|
2839 | return 0;
|
---|
2840 |
|
---|
2841 | {
|
---|
2842 | /* This is a total guess. The idea is that we should expect as
|
---|
2843 | * many misses as we've recently experienced. I.e., cache->misses
|
---|
2844 | * should be the same as cache->semifree_superstates.
|
---|
2845 | */
|
---|
2846 | while ((cache->hits + cache->misses) > cache->superstates_allowed)
|
---|
2847 | {
|
---|
2848 | cache->hits >>= 1;
|
---|
2849 | cache->misses >>= 1;
|
---|
2850 | }
|
---|
2851 | if ( ((cache->hits + cache->misses) * cache->semifree_superstates)
|
---|
2852 | < (cache->superstates * cache->misses))
|
---|
2853 | {
|
---|
2854 | semifree_superstate (cache);
|
---|
2855 | semifree_superstate (cache);
|
---|
2856 | }
|
---|
2857 | }
|
---|
2858 |
|
---|
2859 | while (cache->semifree_superstate && cache->semifree_superstate->locks)
|
---|
2860 | {
|
---|
2861 | refresh_semifree_superstate (cache, cache->semifree_superstate);
|
---|
2862 | ++locked_superstates;
|
---|
2863 | if (locked_superstates == cache->superstates)
|
---|
2864 | return 0;
|
---|
2865 | }
|
---|
2866 |
|
---|
2867 | if (cache->semifree_superstate)
|
---|
2868 | {
|
---|
2869 | it = cache->semifree_superstate;
|
---|
2870 | it->next_recyclable->prev_recyclable = it->prev_recyclable;
|
---|
2871 | it->prev_recyclable->next_recyclable = it->next_recyclable;
|
---|
2872 | cache->semifree_superstate = ((it == it->next_recyclable)
|
---|
2873 | ? 0
|
---|
2874 | : it->next_recyclable);
|
---|
2875 | --cache->semifree_superstates;
|
---|
2876 | }
|
---|
2877 | else
|
---|
2878 | {
|
---|
2879 | while (cache->lru_superstate->locks)
|
---|
2880 | {
|
---|
2881 | cache->lru_superstate = cache->lru_superstate->next_recyclable;
|
---|
2882 | ++locked_superstates;
|
---|
2883 | if (locked_superstates == cache->superstates)
|
---|
2884 | return 0;
|
---|
2885 | }
|
---|
2886 | it = cache->lru_superstate;
|
---|
2887 | it->next_recyclable->prev_recyclable = it->prev_recyclable;
|
---|
2888 | it->prev_recyclable->next_recyclable = it->next_recyclable;
|
---|
2889 | cache->lru_superstate = ((it == it->next_recyclable)
|
---|
2890 | ? 0
|
---|
2891 | : it->next_recyclable);
|
---|
2892 | }
|
---|
2893 |
|
---|
2894 | if (it->transition_refs)
|
---|
2895 | {
|
---|
2896 | struct rx_distinct_future *df;
|
---|
2897 | for (df = it->transition_refs,
|
---|
2898 | df->prev_same_dest->next_same_dest = 0;
|
---|
2899 | df;
|
---|
2900 | df = df->next_same_dest)
|
---|
2901 | {
|
---|
2902 | df->future_frame.inx = cache->instruction_table[rx_cache_miss];
|
---|
2903 | df->future_frame.data = 0;
|
---|
2904 | df->future_frame.data_2 = (void *) df;
|
---|
2905 | df->future = 0;
|
---|
2906 | }
|
---|
2907 | it->transition_refs->prev_same_dest->next_same_dest =
|
---|
2908 | it->transition_refs;
|
---|
2909 | }
|
---|
2910 | {
|
---|
2911 | struct rx_super_edge *tc = it->edges;
|
---|
2912 | while (tc)
|
---|
2913 | {
|
---|
2914 | struct rx_distinct_future * df;
|
---|
2915 | struct rx_super_edge *tct = tc->next;
|
---|
2916 | df = tc->options;
|
---|
2917 | df->next_same_super_edge[1]->next_same_super_edge[0] = 0;
|
---|
2918 | while (df)
|
---|
2919 | {
|
---|
2920 | struct rx_distinct_future *dft = df;
|
---|
2921 | df = df->next_same_super_edge[0];
|
---|
2922 |
|
---|
2923 |
|
---|
2924 | if (dft->future && dft->future->transition_refs == dft)
|
---|
2925 | {
|
---|
2926 | dft->future->transition_refs = dft->next_same_dest;
|
---|
2927 | if (dft->future->transition_refs == dft)
|
---|
2928 | dft->future->transition_refs = 0;
|
---|
2929 | }
|
---|
2930 | dft->next_same_dest->prev_same_dest = dft->prev_same_dest;
|
---|
2931 | dft->prev_same_dest->next_same_dest = dft->next_same_dest;
|
---|
2932 | rx_cache_free (cache, &cache->free_discernable_futures,
|
---|
2933 | (char *)dft);
|
---|
2934 | }
|
---|
2935 | rx_cache_free (cache, &cache->free_transition_classes, (char *)tc);
|
---|
2936 | tc = tct;
|
---|
2937 | }
|
---|
2938 | }
|
---|
2939 |
|
---|
2940 | if (it->contents->superstate == it)
|
---|
2941 | it->contents->superstate = 0;
|
---|
2942 | release_superset_low (cache, it->contents);
|
---|
2943 | rx_cache_free (cache, &cache->free_superstates, (char *)it);
|
---|
2944 | --cache->superstates;
|
---|
2945 | return 1;
|
---|
2946 | }
|
---|
2947 |
|
---|
2948 | #ifdef __STDC__
|
---|
2949 | static char *
|
---|
2950 | rx_cache_get (struct rx_cache * cache,
|
---|
2951 | struct rx_freelist ** freelist)
|
---|
2952 | #else
|
---|
2953 | static char *
|
---|
2954 | rx_cache_get (cache, freelist)
|
---|
2955 | struct rx_cache * cache;
|
---|
2956 | struct rx_freelist ** freelist;
|
---|
2957 | #endif
|
---|
2958 | {
|
---|
2959 | while (!*freelist && rx_really_free_superstate (cache))
|
---|
2960 | ;
|
---|
2961 | if (!*freelist)
|
---|
2962 | return 0;
|
---|
2963 | {
|
---|
2964 | struct rx_freelist * it = *freelist;
|
---|
2965 | *freelist = it->next;
|
---|
2966 | return (char *)it;
|
---|
2967 | }
|
---|
2968 | }
|
---|
2969 |
|
---|
2970 | #ifdef __STDC__
|
---|
2971 | static char *
|
---|
2972 | rx_cache_malloc_or_get (struct rx_cache * cache,
|
---|
2973 | struct rx_freelist ** freelist, int bytes)
|
---|
2974 | #else
|
---|
2975 | static char *
|
---|
2976 | rx_cache_malloc_or_get (cache, freelist, bytes)
|
---|
2977 | struct rx_cache * cache;
|
---|
2978 | struct rx_freelist ** freelist;
|
---|
2979 | int bytes;
|
---|
2980 | #endif
|
---|
2981 | {
|
---|
2982 | if (!*freelist)
|
---|
2983 | {
|
---|
2984 | char * answer = rx_cache_malloc (cache, bytes);
|
---|
2985 | if (answer)
|
---|
2986 | return answer;
|
---|
2987 | }
|
---|
2988 |
|
---|
2989 | return rx_cache_get (cache, freelist);
|
---|
2990 | }
|
---|
2991 |
|
---|
2992 | #ifdef __STDC__
|
---|
2993 | static char *
|
---|
2994 | rx_cache_get_superstate (struct rx_cache * cache)
|
---|
2995 | #else
|
---|
2996 | static char *
|
---|
2997 | rx_cache_get_superstate (cache)
|
---|
2998 | struct rx_cache * cache;
|
---|
2999 | #endif
|
---|
3000 | {
|
---|
3001 | char * answer;
|
---|
3002 | int bytes = ( sizeof (struct rx_superstate)
|
---|
3003 | + cache->local_cset_size * sizeof (struct rx_inx));
|
---|
3004 | if (!cache->free_superstates
|
---|
3005 | && (cache->superstates < cache->superstates_allowed))
|
---|
3006 | {
|
---|
3007 | answer = rx_cache_malloc (cache, bytes);
|
---|
3008 | if (answer)
|
---|
3009 | {
|
---|
3010 | ++cache->superstates;
|
---|
3011 | return answer;
|
---|
3012 | }
|
---|
3013 | }
|
---|
3014 | answer = rx_cache_get (cache, &cache->free_superstates);
|
---|
3015 | if (!answer)
|
---|
3016 | {
|
---|
3017 | answer = rx_cache_malloc (cache, bytes);
|
---|
3018 | if (answer)
|
---|
3019 | ++cache->superstates_allowed;
|
---|
3020 | }
|
---|
3021 | ++cache->superstates;
|
---|
3022 | return answer;
|
---|
3023 | }
|
---|
3024 |
|
---|
3025 | |
---|
3026 |
|
---|
3027 |
|
---|
3028 | #ifdef __STDC__
|
---|
3029 | static int
|
---|
3030 | supersetcmp (void * va, void * vb)
|
---|
3031 | #else
|
---|
3032 | static int
|
---|
3033 | supersetcmp (va, vb)
|
---|
3034 | void * va;
|
---|
3035 | void * vb;
|
---|
3036 | #endif
|
---|
3037 | {
|
---|
3038 | struct rx_superset * a = (struct rx_superset *)va;
|
---|
3039 | struct rx_superset * b = (struct rx_superset *)vb;
|
---|
3040 | return ( (a == b)
|
---|
3041 | || (a && b && (a->car == b->car) && (a->cdr == b->cdr)));
|
---|
3042 | }
|
---|
3043 |
|
---|
3044 | #ifdef __STDC__
|
---|
3045 | static struct rx_hash_item *
|
---|
3046 | superset_allocator (struct rx_hash_rules * rules, void * val)
|
---|
3047 | #else
|
---|
3048 | static struct rx_hash_item *
|
---|
3049 | superset_allocator (rules, val)
|
---|
3050 | struct rx_hash_rules * rules;
|
---|
3051 | void * val;
|
---|
3052 | #endif
|
---|
3053 | {
|
---|
3054 | struct rx_cache * cache
|
---|
3055 | = ((struct rx_cache *)
|
---|
3056 | ((char *)rules
|
---|
3057 | - (unsigned long)(&((struct rx_cache *)0)->superset_hash_rules)));
|
---|
3058 | struct rx_superset * template = (struct rx_superset *)val;
|
---|
3059 | struct rx_superset * newset
|
---|
3060 | = ((struct rx_superset *)
|
---|
3061 | rx_cache_malloc_or_get (cache,
|
---|
3062 | &cache->free_supersets,
|
---|
3063 | sizeof (*template)));
|
---|
3064 | if (!newset)
|
---|
3065 | return 0;
|
---|
3066 | newset->refs = 0;
|
---|
3067 | newset->car = template->car;
|
---|
3068 | newset->id = template->car->id;
|
---|
3069 | newset->cdr = template->cdr;
|
---|
3070 | newset->superstate = 0;
|
---|
3071 | rx_protect_superset (rx, template->cdr);
|
---|
3072 | newset->hash_item.data = (void *)newset;
|
---|
3073 | newset->hash_item.binding = 0;
|
---|
3074 | return &newset->hash_item;
|
---|
3075 | }
|
---|
3076 |
|
---|
3077 | #ifdef __STDC__
|
---|
3078 | static struct rx_hash *
|
---|
3079 | super_hash_allocator (struct rx_hash_rules * rules)
|
---|
3080 | #else
|
---|
3081 | static struct rx_hash *
|
---|
3082 | super_hash_allocator (rules)
|
---|
3083 | struct rx_hash_rules * rules;
|
---|
3084 | #endif
|
---|
3085 | {
|
---|
3086 | struct rx_cache * cache
|
---|
3087 | = ((struct rx_cache *)
|
---|
3088 | ((char *)rules
|
---|
3089 | - (unsigned long)(&((struct rx_cache *)0)->superset_hash_rules)));
|
---|
3090 | return ((struct rx_hash *)
|
---|
3091 | rx_cache_malloc_or_get (cache,
|
---|
3092 | &cache->free_hash, sizeof (struct rx_hash)));
|
---|
3093 | }
|
---|
3094 |
|
---|
3095 |
|
---|
3096 | #ifdef __STDC__
|
---|
3097 | static void
|
---|
3098 | super_hash_liberator (struct rx_hash * hash, struct rx_hash_rules * rules)
|
---|
3099 | #else
|
---|
3100 | static void
|
---|
3101 | super_hash_liberator (hash, rules)
|
---|
3102 | struct rx_hash * hash;
|
---|
3103 | struct rx_hash_rules * rules;
|
---|
3104 | #endif
|
---|
3105 | {
|
---|
3106 | struct rx_cache * cache
|
---|
3107 | = ((struct rx_cache *)
|
---|
3108 | (char *)rules - (long)(&((struct rx_cache *)0)->superset_hash_rules));
|
---|
3109 | rx_cache_free (cache, &cache->free_hash, (char *)hash);
|
---|
3110 | }
|
---|
3111 |
|
---|
3112 | #ifdef __STDC__
|
---|
3113 | static void
|
---|
3114 | superset_hash_item_liberator (struct rx_hash_item * it,
|
---|
3115 | struct rx_hash_rules * rules)
|
---|
3116 | #else
|
---|
3117 | static void
|
---|
3118 | superset_hash_item_liberator (it, rules) /* Well, it does ya know. */
|
---|
3119 | struct rx_hash_item * it;
|
---|
3120 | struct rx_hash_rules * rules;
|
---|
3121 | #endif
|
---|
3122 | {
|
---|
3123 | }
|
---|
3124 |
|
---|
3125 | int rx_cache_bound = 128;
|
---|
3126 | static int rx_default_cache_got = 0;
|
---|
3127 |
|
---|
3128 | #ifdef __STDC__
|
---|
3129 | static int
|
---|
3130 | bytes_for_cache_size (int supers, int cset_size)
|
---|
3131 | #else
|
---|
3132 | static int
|
---|
3133 | bytes_for_cache_size (supers, cset_size)
|
---|
3134 | int supers;
|
---|
3135 | int cset_size;
|
---|
3136 | #endif
|
---|
3137 | {
|
---|
3138 | /* What the hell is this? !!!*/
|
---|
3139 | return (int)
|
---|
3140 | ((float)supers *
|
---|
3141 | ( (1.03 * (float) ( rx_sizeof_bitset (cset_size)
|
---|
3142 | + sizeof (struct rx_super_edge)))
|
---|
3143 | + (1.80 * (float) sizeof (struct rx_possible_future))
|
---|
3144 | + (float) ( sizeof (struct rx_superstate)
|
---|
3145 | + cset_size * sizeof (struct rx_inx))));
|
---|
3146 | }
|
---|
3147 |
|
---|
3148 | #ifdef __STDC__
|
---|
3149 | static void
|
---|
3150 | rx_morecore (struct rx_cache * cache)
|
---|
3151 | #else
|
---|
3152 | static void
|
---|
3153 | rx_morecore (cache)
|
---|
3154 | struct rx_cache * cache;
|
---|
3155 | #endif
|
---|
3156 | {
|
---|
3157 | if (rx_default_cache_got >= rx_cache_bound)
|
---|
3158 | return;
|
---|
3159 |
|
---|
3160 | rx_default_cache_got += 16;
|
---|
3161 | cache->superstates_allowed = rx_cache_bound;
|
---|
3162 | {
|
---|
3163 | struct rx_blocklist ** pos = &cache->memory;
|
---|
3164 | int size = bytes_for_cache_size (16, cache->local_cset_size);
|
---|
3165 | while (*pos)
|
---|
3166 | pos = &(*pos)->next;
|
---|
3167 | *pos = ((struct rx_blocklist *)
|
---|
3168 | malloc (size + sizeof (struct rx_blocklist)));
|
---|
3169 | if (!*pos)
|
---|
3170 | return;
|
---|
3171 |
|
---|
3172 | (*pos)->next = 0;
|
---|
3173 | (*pos)->bytes = size;
|
---|
3174 | cache->memory_pos = *pos;
|
---|
3175 | cache->memory_addr = (char *)*pos + sizeof (**pos);
|
---|
3176 | cache->bytes_left = size;
|
---|
3177 | }
|
---|
3178 | }
|
---|
3179 |
|
---|
3180 | static struct rx_cache default_cache =
|
---|
3181 | {
|
---|
3182 | {
|
---|
3183 | supersetcmp,
|
---|
3184 | super_hash_allocator,
|
---|
3185 | super_hash_liberator,
|
---|
3186 | superset_allocator,
|
---|
3187 | superset_hash_item_liberator,
|
---|
3188 | },
|
---|
3189 | 0,
|
---|
3190 | 0,
|
---|
3191 | 0,
|
---|
3192 | 0,
|
---|
3193 | rx_morecore,
|
---|
3194 |
|
---|
3195 | 0,
|
---|
3196 | 0,
|
---|
3197 | 0,
|
---|
3198 | 0,
|
---|
3199 | 0,
|
---|
3200 |
|
---|
3201 | 0,
|
---|
3202 | 0,
|
---|
3203 |
|
---|
3204 | 0,
|
---|
3205 |
|
---|
3206 | 0,
|
---|
3207 | 0,
|
---|
3208 | 0,
|
---|
3209 | 0,
|
---|
3210 | 128,
|
---|
3211 |
|
---|
3212 | 256,
|
---|
3213 | rx_id_instruction_table,
|
---|
3214 |
|
---|
3215 | {
|
---|
3216 | 0,
|
---|
3217 | 0,
|
---|
3218 | {0},
|
---|
3219 | {0},
|
---|
3220 | {0}
|
---|
3221 | }
|
---|
3222 | };
|
---|
3223 |
|
---|
3224 | /* This adds an element to a superstate set. These sets are lists, such
|
---|
3225 | * that lists with == elements are ==. The empty set is returned by
|
---|
3226 | * superset_cons (rx, 0, 0) and is NOT equivelent to
|
---|
3227 | * (struct rx_superset)0.
|
---|
3228 | */
|
---|
3229 |
|
---|
3230 | #ifdef __STDC__
|
---|
3231 | RX_DECL struct rx_superset *
|
---|
3232 | rx_superset_cons (struct rx * rx,
|
---|
3233 | struct rx_nfa_state *car, struct rx_superset *cdr)
|
---|
3234 | #else
|
---|
3235 | RX_DECL struct rx_superset *
|
---|
3236 | rx_superset_cons (rx, car, cdr)
|
---|
3237 | struct rx * rx;
|
---|
3238 | struct rx_nfa_state *car;
|
---|
3239 | struct rx_superset *cdr;
|
---|
3240 | #endif
|
---|
3241 | {
|
---|
3242 | struct rx_cache * cache = rx->cache;
|
---|
3243 | if (!car && !cdr)
|
---|
3244 | {
|
---|
3245 | if (!cache->empty_superset)
|
---|
3246 | {
|
---|
3247 | cache->empty_superset
|
---|
3248 | = ((struct rx_superset *)
|
---|
3249 | rx_cache_malloc_or_get (cache, &cache->free_supersets,
|
---|
3250 | sizeof (struct rx_superset)));
|
---|
3251 | if (!cache->empty_superset)
|
---|
3252 | return 0;
|
---|
3253 | bzero (cache->empty_superset, sizeof (struct rx_superset));
|
---|
3254 | cache->empty_superset->refs = 1000;
|
---|
3255 | }
|
---|
3256 | return cache->empty_superset;
|
---|
3257 | }
|
---|
3258 | {
|
---|
3259 | struct rx_superset template;
|
---|
3260 | struct rx_hash_item * hit;
|
---|
3261 | template.car = car;
|
---|
3262 | template.cdr = cdr;
|
---|
3263 | template.id = car->id;
|
---|
3264 | hit = rx_hash_store (&cache->superset_table,
|
---|
3265 | (unsigned long)car ^ car->id ^ (unsigned long)cdr,
|
---|
3266 | (void *)&template,
|
---|
3267 | &cache->superset_hash_rules);
|
---|
3268 | return (hit
|
---|
3269 | ? (struct rx_superset *)hit->data
|
---|
3270 | : 0);
|
---|
3271 | }
|
---|
3272 | }
|
---|
3273 |
|
---|
3274 | /* This computes a union of two NFA state sets. The sets do not have the
|
---|
3275 | * same representation though. One is a RX_SUPERSET structure (part
|
---|
3276 | * of the superstate NFA) and the other is an NFA_STATE_SET (part of the NFA).
|
---|
3277 | */
|
---|
3278 |
|
---|
3279 | #ifdef __STDC__
|
---|
3280 | RX_DECL struct rx_superset *
|
---|
3281 | rx_superstate_eclosure_union
|
---|
3282 | (struct rx * rx, struct rx_superset *set, struct rx_nfa_state_set *ecl)
|
---|
3283 | #else
|
---|
3284 | RX_DECL struct rx_superset *
|
---|
3285 | rx_superstate_eclosure_union (rx, set, ecl)
|
---|
3286 | struct rx * rx;
|
---|
3287 | struct rx_superset *set;
|
---|
3288 | struct rx_nfa_state_set *ecl;
|
---|
3289 | #endif
|
---|
3290 | {
|
---|
3291 | if (!ecl)
|
---|
3292 | return set;
|
---|
3293 |
|
---|
3294 | if (!set->car)
|
---|
3295 | return rx_superset_cons (rx, ecl->car,
|
---|
3296 | rx_superstate_eclosure_union (rx, set, ecl->cdr));
|
---|
3297 | if (set->car == ecl->car)
|
---|
3298 | return rx_superstate_eclosure_union (rx, set, ecl->cdr);
|
---|
3299 |
|
---|
3300 | {
|
---|
3301 | struct rx_superset * tail;
|
---|
3302 | struct rx_nfa_state * first;
|
---|
3303 |
|
---|
3304 | if (set->car > ecl->car)
|
---|
3305 | {
|
---|
3306 | tail = rx_superstate_eclosure_union (rx, set->cdr, ecl);
|
---|
3307 | first = set->car;
|
---|
3308 | }
|
---|
3309 | else
|
---|
3310 | {
|
---|
3311 | tail = rx_superstate_eclosure_union (rx, set, ecl->cdr);
|
---|
3312 | first = ecl->car;
|
---|
3313 | }
|
---|
3314 | if (!tail)
|
---|
3315 | return 0;
|
---|
3316 | else
|
---|
3317 | {
|
---|
3318 | struct rx_superset * answer;
|
---|
3319 | answer = rx_superset_cons (rx, first, tail);
|
---|
3320 | if (!answer)
|
---|
3321 | {
|
---|
3322 | rx_protect_superset (rx, tail);
|
---|
3323 | rx_release_superset (rx, tail);
|
---|
3324 | return 0;
|
---|
3325 | }
|
---|
3326 | else
|
---|
3327 | return answer;
|
---|
3328 | }
|
---|
3329 | }
|
---|
3330 | }
|
---|
3331 |
|
---|
3332 |
|
---|
3333 | |
---|
3334 |
|
---|
3335 |
|
---|
3336 | /*
|
---|
3337 | * This makes sure that a list of rx_distinct_futures contains
|
---|
3338 | * a future for each possible set of side effects in the eclosure
|
---|
3339 | * of a given state. This is some of the work of filling in a
|
---|
3340 | * superstate transition.
|
---|
3341 | */
|
---|
3342 |
|
---|
3343 | #ifdef __STDC__
|
---|
3344 | static struct rx_distinct_future *
|
---|
3345 | include_futures (struct rx *rx,
|
---|
3346 | struct rx_distinct_future *df, struct rx_nfa_state
|
---|
3347 | *state, struct rx_superstate *superstate)
|
---|
3348 | #else
|
---|
3349 | static struct rx_distinct_future *
|
---|
3350 | include_futures (rx, df, state, superstate)
|
---|
3351 | struct rx *rx;
|
---|
3352 | struct rx_distinct_future *df;
|
---|
3353 | struct rx_nfa_state *state;
|
---|
3354 | struct rx_superstate *superstate;
|
---|
3355 | #endif
|
---|
3356 | {
|
---|
3357 | struct rx_possible_future *future;
|
---|
3358 | struct rx_cache * cache = rx->cache;
|
---|
3359 | for (future = state->futures; future; future = future->next)
|
---|
3360 | {
|
---|
3361 | struct rx_distinct_future *dfp;
|
---|
3362 | struct rx_distinct_future *insert_before = 0;
|
---|
3363 | if (df)
|
---|
3364 | df->next_same_super_edge[1]->next_same_super_edge[0] = 0;
|
---|
3365 | for (dfp = df; dfp; dfp = dfp->next_same_super_edge[0])
|
---|
3366 | if (dfp->effects == future->effects)
|
---|
3367 | break;
|
---|
3368 | else
|
---|
3369 | {
|
---|
3370 | int order = rx->se_list_cmp (rx, dfp->effects, future->effects);
|
---|
3371 | if (order > 0)
|
---|
3372 | {
|
---|
3373 | insert_before = dfp;
|
---|
3374 | dfp = 0;
|
---|
3375 | break;
|
---|
3376 | }
|
---|
3377 | }
|
---|
3378 | if (df)
|
---|
3379 | df->next_same_super_edge[1]->next_same_super_edge[0] = df;
|
---|
3380 | if (!dfp)
|
---|
3381 | {
|
---|
3382 | dfp
|
---|
3383 | = ((struct rx_distinct_future *)
|
---|
3384 | rx_cache_malloc_or_get (cache, &cache->free_discernable_futures,
|
---|
3385 | sizeof (struct rx_distinct_future)));
|
---|
3386 | if (!dfp)
|
---|
3387 | return 0;
|
---|
3388 | if (!df)
|
---|
3389 | {
|
---|
3390 | df = insert_before = dfp;
|
---|
3391 | df->next_same_super_edge[0] = df->next_same_super_edge[1] = df;
|
---|
3392 | }
|
---|
3393 | else if (!insert_before)
|
---|
3394 | insert_before = df;
|
---|
3395 | else if (insert_before == df)
|
---|
3396 | df = dfp;
|
---|
3397 |
|
---|
3398 | dfp->next_same_super_edge[0] = insert_before;
|
---|
3399 | dfp->next_same_super_edge[1]
|
---|
3400 | = insert_before->next_same_super_edge[1];
|
---|
3401 | dfp->next_same_super_edge[1]->next_same_super_edge[0] = dfp;
|
---|
3402 | dfp->next_same_super_edge[0]->next_same_super_edge[1] = dfp;
|
---|
3403 | dfp->next_same_dest = dfp->prev_same_dest = dfp;
|
---|
3404 | dfp->future = 0;
|
---|
3405 | dfp->present = superstate;
|
---|
3406 | dfp->future_frame.inx = rx->instruction_table[rx_cache_miss];
|
---|
3407 | dfp->future_frame.data = 0;
|
---|
3408 | dfp->future_frame.data_2 = (void *) dfp;
|
---|
3409 | dfp->side_effects_frame.inx
|
---|
3410 | = rx->instruction_table[rx_do_side_effects];
|
---|
3411 | dfp->side_effects_frame.data = 0;
|
---|
3412 | dfp->side_effects_frame.data_2 = (void *) dfp;
|
---|
3413 | dfp->effects = future->effects;
|
---|
3414 | }
|
---|
3415 | }
|
---|
3416 | return df;
|
---|
3417 | }
|
---|
3418 | |
---|
3419 |
|
---|
3420 |
|
---|
3421 |
|
---|
3422 | /* This constructs a new superstate from its state set. The only
|
---|
3423 | * complexity here is memory management.
|
---|
3424 | */
|
---|
3425 | #ifdef __STDC__
|
---|
3426 | RX_DECL struct rx_superstate *
|
---|
3427 | rx_superstate (struct rx *rx,
|
---|
3428 | struct rx_superset *set)
|
---|
3429 | #else
|
---|
3430 | RX_DECL struct rx_superstate *
|
---|
3431 | rx_superstate (rx, set)
|
---|
3432 | struct rx *rx;
|
---|
3433 | struct rx_superset *set;
|
---|
3434 | #endif
|
---|
3435 | {
|
---|
3436 | struct rx_cache * cache = rx->cache;
|
---|
3437 | struct rx_superstate * superstate = 0;
|
---|
3438 |
|
---|
3439 | /* Does the superstate already exist in the cache? */
|
---|
3440 | if (set->superstate)
|
---|
3441 | {
|
---|
3442 | if (set->superstate->rx_id != rx->rx_id)
|
---|
3443 | {
|
---|
3444 | /* Aha. It is in the cache, but belongs to a superstate
|
---|
3445 | * that refers to an NFA that no longer exists.
|
---|
3446 | * (We know it no longer exists because it was evidently
|
---|
3447 | * stored in the same region of memory as the current nfa
|
---|
3448 | * yet it has a different id.)
|
---|
3449 | */
|
---|
3450 | superstate = set->superstate;
|
---|
3451 | if (!superstate->is_semifree)
|
---|
3452 | {
|
---|
3453 | if (cache->lru_superstate == superstate)
|
---|
3454 | {
|
---|
3455 | cache->lru_superstate = superstate->next_recyclable;
|
---|
3456 | if (cache->lru_superstate == superstate)
|
---|
3457 | cache->lru_superstate = 0;
|
---|
3458 | }
|
---|
3459 | {
|
---|
3460 | superstate->next_recyclable->prev_recyclable
|
---|
3461 | = superstate->prev_recyclable;
|
---|
3462 | superstate->prev_recyclable->next_recyclable
|
---|
3463 | = superstate->next_recyclable;
|
---|
3464 | if (!cache->semifree_superstate)
|
---|
3465 | {
|
---|
3466 | (cache->semifree_superstate
|
---|
3467 | = superstate->next_recyclable
|
---|
3468 | = superstate->prev_recyclable
|
---|
3469 | = superstate);
|
---|
3470 | }
|
---|
3471 | else
|
---|
3472 | {
|
---|
3473 | superstate->next_recyclable = cache->semifree_superstate;
|
---|
3474 | superstate->prev_recyclable
|
---|
3475 | = cache->semifree_superstate->prev_recyclable;
|
---|
3476 | superstate->next_recyclable->prev_recyclable
|
---|
3477 | = superstate;
|
---|
3478 | superstate->prev_recyclable->next_recyclable
|
---|
3479 | = superstate;
|
---|
3480 | cache->semifree_superstate = superstate;
|
---|
3481 | }
|
---|
3482 | ++cache->semifree_superstates;
|
---|
3483 | }
|
---|
3484 | }
|
---|
3485 | set->superstate = 0;
|
---|
3486 | goto handle_cache_miss;
|
---|
3487 | }
|
---|
3488 | ++cache->hits;
|
---|
3489 | superstate = set->superstate;
|
---|
3490 |
|
---|
3491 | rx_refresh_this_superstate (cache, superstate);
|
---|
3492 | return superstate;
|
---|
3493 | }
|
---|
3494 |
|
---|
3495 | handle_cache_miss:
|
---|
3496 |
|
---|
3497 | /* This point reached only for cache misses. */
|
---|
3498 | ++cache->misses;
|
---|
3499 | #if RX_DEBUG
|
---|
3500 | if (rx_debug_trace > 1)
|
---|
3501 | {
|
---|
3502 | struct rx_superset * setp = set;
|
---|
3503 | fprintf (stderr, "Building a superstet %d(%d): ", rx->rx_id, set);
|
---|
3504 | while (setp)
|
---|
3505 | {
|
---|
3506 | fprintf (stderr, "%d ", setp->id);
|
---|
3507 | setp = setp->cdr;
|
---|
3508 | }
|
---|
3509 | fprintf (stderr, "(%d)\n", set);
|
---|
3510 | }
|
---|
3511 | #endif
|
---|
3512 | superstate = (struct rx_superstate *)rx_cache_get_superstate (cache);
|
---|
3513 | if (!superstate)
|
---|
3514 | return 0;
|
---|
3515 |
|
---|
3516 | if (!cache->lru_superstate)
|
---|
3517 | (cache->lru_superstate
|
---|
3518 | = superstate->next_recyclable
|
---|
3519 | = superstate->prev_recyclable
|
---|
3520 | = superstate);
|
---|
3521 | else
|
---|
3522 | {
|
---|
3523 | superstate->next_recyclable = cache->lru_superstate;
|
---|
3524 | superstate->prev_recyclable = cache->lru_superstate->prev_recyclable;
|
---|
3525 | ( superstate->prev_recyclable->next_recyclable
|
---|
3526 | = superstate->next_recyclable->prev_recyclable
|
---|
3527 | = superstate);
|
---|
3528 | }
|
---|
3529 | superstate->rx_id = rx->rx_id;
|
---|
3530 | superstate->transition_refs = 0;
|
---|
3531 | superstate->locks = 0;
|
---|
3532 | superstate->is_semifree = 0;
|
---|
3533 | set->superstate = superstate;
|
---|
3534 | superstate->contents = set;
|
---|
3535 | rx_protect_superset (rx, set);
|
---|
3536 | superstate->edges = 0;
|
---|
3537 | {
|
---|
3538 | int x;
|
---|
3539 | /* None of the transitions from this superstate are known yet. */
|
---|
3540 | for (x = 0; x < rx->local_cset_size; ++x) /* &&&&& 3.8 % */
|
---|
3541 | {
|
---|
3542 | struct rx_inx * ifr = &superstate->transitions[x];
|
---|
3543 | ifr->inx = rx->instruction_table [rx_cache_miss];
|
---|
3544 | ifr->data = ifr->data_2 = 0;
|
---|
3545 | }
|
---|
3546 | }
|
---|
3547 | return superstate;
|
---|
3548 | }
|
---|
3549 | |
---|
3550 |
|
---|
3551 |
|
---|
3552 | /* This computes the destination set of one edge of the superstate NFA.
|
---|
3553 | * Note that a RX_DISTINCT_FUTURE is a superstate edge.
|
---|
3554 | * Returns 0 on an allocation failure.
|
---|
3555 | */
|
---|
3556 |
|
---|
3557 | #ifdef __STDC__
|
---|
3558 | static int
|
---|
3559 | solve_destination (struct rx *rx, struct rx_distinct_future *df)
|
---|
3560 | #else
|
---|
3561 | static int
|
---|
3562 | solve_destination (rx, df)
|
---|
3563 | struct rx *rx;
|
---|
3564 | struct rx_distinct_future *df;
|
---|
3565 | #endif
|
---|
3566 | {
|
---|
3567 | struct rx_super_edge *tc = df->edge;
|
---|
3568 | struct rx_superset *nfa_state;
|
---|
3569 | struct rx_superset *nil_set = rx_superset_cons (rx, 0, 0);
|
---|
3570 | struct rx_superset *solution = nil_set;
|
---|
3571 | struct rx_superstate *dest;
|
---|
3572 |
|
---|
3573 | rx_protect_superset (rx, solution);
|
---|
3574 | /* Iterate over all NFA states in the state set of this superstate. */
|
---|
3575 | for (nfa_state = df->present->contents;
|
---|
3576 | nfa_state->car;
|
---|
3577 | nfa_state = nfa_state->cdr)
|
---|
3578 | {
|
---|
3579 | struct rx_nfa_edge *e;
|
---|
3580 | /* Iterate over all edges of each NFA state. */
|
---|
3581 | for (e = nfa_state->car->edges; e; e = e->next)
|
---|
3582 | /* If we find an edge that is labeled with
|
---|
3583 | * the characters we are solving for.....
|
---|
3584 | */
|
---|
3585 | if (rx_bitset_is_subset (rx->local_cset_size,
|
---|
3586 | tc->cset, e->params.cset))
|
---|
3587 | {
|
---|
3588 | struct rx_nfa_state *n = e->dest;
|
---|
3589 | struct rx_possible_future *pf;
|
---|
3590 | /* ....search the partial epsilon closures of the destination
|
---|
3591 | * of that edge for a path that involves the same set of
|
---|
3592 | * side effects we are solving for.
|
---|
3593 | * If we find such a RX_POSSIBLE_FUTURE, we add members to the
|
---|
3594 | * stateset we are computing.
|
---|
3595 | */
|
---|
3596 | for (pf = n->futures; pf; pf = pf->next)
|
---|
3597 | if (pf->effects == df->effects)
|
---|
3598 | {
|
---|
3599 | struct rx_superset * old_sol;
|
---|
3600 | old_sol = solution;
|
---|
3601 | solution = rx_superstate_eclosure_union (rx, solution,
|
---|
3602 | pf->destset);
|
---|
3603 | if (!solution)
|
---|
3604 | return 0;
|
---|
3605 | rx_protect_superset (rx, solution);
|
---|
3606 | rx_release_superset (rx, old_sol);
|
---|
3607 | }
|
---|
3608 | }
|
---|
3609 | }
|
---|
3610 | /* It is possible that the RX_DISTINCT_FUTURE we are working on has
|
---|
3611 | * the empty set of NFA states as its definition. In that case, this
|
---|
3612 | * is a failure point.
|
---|
3613 | */
|
---|
3614 | if (solution == nil_set)
|
---|
3615 | {
|
---|
3616 | df->future_frame.inx = (void *) rx_backtrack;
|
---|
3617 | df->future_frame.data = 0;
|
---|
3618 | df->future_frame.data_2 = 0;
|
---|
3619 | return 1;
|
---|
3620 | }
|
---|
3621 | dest = rx_superstate (rx, solution);
|
---|
3622 | rx_release_superset (rx, solution);
|
---|
3623 | if (!dest)
|
---|
3624 | return 0;
|
---|
3625 |
|
---|
3626 | {
|
---|
3627 | struct rx_distinct_future *dft;
|
---|
3628 | dft = df;
|
---|
3629 | df->prev_same_dest->next_same_dest = 0;
|
---|
3630 | while (dft)
|
---|
3631 | {
|
---|
3632 | dft->future = dest;
|
---|
3633 | dft->future_frame.inx = rx->instruction_table[rx_next_char];
|
---|
3634 | dft->future_frame.data = (void *) dest->transitions;
|
---|
3635 | dft = dft->next_same_dest;
|
---|
3636 | }
|
---|
3637 | df->prev_same_dest->next_same_dest = df;
|
---|
3638 | }
|
---|
3639 | if (!dest->transition_refs)
|
---|
3640 | dest->transition_refs = df;
|
---|
3641 | else
|
---|
3642 | {
|
---|
3643 | struct rx_distinct_future *dft = dest->transition_refs->next_same_dest;
|
---|
3644 | dest->transition_refs->next_same_dest = df->next_same_dest;
|
---|
3645 | df->next_same_dest->prev_same_dest = dest->transition_refs;
|
---|
3646 | df->next_same_dest = dft;
|
---|
3647 | dft->prev_same_dest = df;
|
---|
3648 | }
|
---|
3649 | return 1;
|
---|
3650 | }
|
---|
3651 |
|
---|
3652 |
|
---|
3653 | /* This takes a superstate and a character, and computes some edges
|
---|
3654 | * from the superstate NFA. In particular, this computes all edges
|
---|
3655 | * that lead from SUPERSTATE given CHR. This function also
|
---|
3656 | * computes the set of characters that share this edge set.
|
---|
3657 | * This returns 0 on allocation error.
|
---|
3658 | * The character set and list of edges are returned through
|
---|
3659 | * the paramters CSETOUT and DFOUT.
|
---|
3660 | } */
|
---|
3661 |
|
---|
3662 | #ifdef __STDC__
|
---|
3663 | static int
|
---|
3664 | compute_super_edge (struct rx *rx, struct rx_distinct_future **dfout,
|
---|
3665 | rx_Bitset csetout, struct rx_superstate *superstate,
|
---|
3666 | unsigned char chr)
|
---|
3667 | #else
|
---|
3668 | static int
|
---|
3669 | compute_super_edge (rx, dfout, csetout, superstate, chr)
|
---|
3670 | struct rx *rx;
|
---|
3671 | struct rx_distinct_future **dfout;
|
---|
3672 | rx_Bitset csetout;
|
---|
3673 | struct rx_superstate *superstate;
|
---|
3674 | unsigned char chr;
|
---|
3675 | #endif
|
---|
3676 | {
|
---|
3677 | struct rx_superset *stateset = superstate->contents;
|
---|
3678 |
|
---|
3679 | /* To compute the set of characters that share edges with CHR,
|
---|
3680 | * we start with the full character set, and subtract.
|
---|
3681 | */
|
---|
3682 | rx_bitset_universe (rx->local_cset_size, csetout);
|
---|
3683 | *dfout = 0;
|
---|
3684 |
|
---|
3685 | /* Iterate over the NFA states in the superstate state-set. */
|
---|
3686 | while (stateset->car)
|
---|
3687 | {
|
---|
3688 | struct rx_nfa_edge *e;
|
---|
3689 | for (e = stateset->car->edges; e; e = e->next)
|
---|
3690 | if (RX_bitset_member (e->params.cset, chr))
|
---|
3691 | {
|
---|
3692 | /* If we find an NFA edge that applies, we make sure there
|
---|
3693 | * are corresponding edges in the superstate NFA.
|
---|
3694 | */
|
---|
3695 | {
|
---|
3696 | struct rx_distinct_future * saved;
|
---|
3697 | saved = *dfout;
|
---|
3698 | *dfout = include_futures (rx, *dfout, e->dest, superstate);
|
---|
3699 | if (!*dfout)
|
---|
3700 | {
|
---|
3701 | struct rx_distinct_future * df;
|
---|
3702 | df = saved;
|
---|
3703 | df->next_same_super_edge[1]->next_same_super_edge[0] = 0;
|
---|
3704 | while (df)
|
---|
3705 | {
|
---|
3706 | struct rx_distinct_future *dft;
|
---|
3707 | dft = df;
|
---|
3708 | df = df->next_same_super_edge[0];
|
---|
3709 |
|
---|
3710 | if (dft->future && dft->future->transition_refs == dft)
|
---|
3711 | {
|
---|
3712 | dft->future->transition_refs = dft->next_same_dest;
|
---|
3713 | if (dft->future->transition_refs == dft)
|
---|
3714 | dft->future->transition_refs = 0;
|
---|
3715 | }
|
---|
3716 | dft->next_same_dest->prev_same_dest = dft->prev_same_dest;
|
---|
3717 | dft->prev_same_dest->next_same_dest = dft->next_same_dest;
|
---|
3718 | rx_cache_free (rx->cache,
|
---|
3719 | &rx->cache->free_discernable_futures,
|
---|
3720 | (char *)dft);
|
---|
3721 | }
|
---|
3722 | return 0;
|
---|
3723 | }
|
---|
3724 | }
|
---|
3725 | /* We also trim the character set a bit. */
|
---|
3726 | rx_bitset_intersection (rx->local_cset_size,
|
---|
3727 | csetout, e->params.cset);
|
---|
3728 | }
|
---|
3729 | else
|
---|
3730 | /* An edge that doesn't apply at least tells us some characters
|
---|
3731 | * that don't share the same edge set as CHR.
|
---|
3732 | */
|
---|
3733 | rx_bitset_difference (rx->local_cset_size, csetout, e->params.cset);
|
---|
3734 | stateset = stateset->cdr;
|
---|
3735 | }
|
---|
3736 | return 1;
|
---|
3737 | }
|
---|
3738 | |
---|
3739 |
|
---|
3740 |
|
---|
3741 | /* This is a constructor for RX_SUPER_EDGE structures. These are
|
---|
3742 | * wrappers for lists of superstate NFA edges that share character sets labels.
|
---|
3743 | * If a transition class contains more than one rx_distinct_future (superstate
|
---|
3744 | * edge), then it represents a non-determinism in the superstate NFA.
|
---|
3745 | */
|
---|
3746 |
|
---|
3747 | #ifdef __STDC__
|
---|
3748 | static struct rx_super_edge *
|
---|
3749 | rx_super_edge (struct rx *rx,
|
---|
3750 | struct rx_superstate *super, rx_Bitset cset,
|
---|
3751 | struct rx_distinct_future *df)
|
---|
3752 | #else
|
---|
3753 | static struct rx_super_edge *
|
---|
3754 | rx_super_edge (rx, super, cset, df)
|
---|
3755 | struct rx *rx;
|
---|
3756 | struct rx_superstate *super;
|
---|
3757 | rx_Bitset cset;
|
---|
3758 | struct rx_distinct_future *df;
|
---|
3759 | #endif
|
---|
3760 | {
|
---|
3761 | struct rx_super_edge *tc =
|
---|
3762 | (struct rx_super_edge *)rx_cache_malloc_or_get
|
---|
3763 | (rx->cache, &rx->cache->free_transition_classes,
|
---|
3764 | sizeof (struct rx_super_edge) + rx_sizeof_bitset (rx->local_cset_size));
|
---|
3765 |
|
---|
3766 | if (!tc)
|
---|
3767 | return 0;
|
---|
3768 | tc->next = super->edges;
|
---|
3769 | super->edges = tc;
|
---|
3770 | tc->rx_backtrack_frame.inx = rx->instruction_table[rx_backtrack_point];
|
---|
3771 | tc->rx_backtrack_frame.data = 0;
|
---|
3772 | tc->rx_backtrack_frame.data_2 = (void *) tc;
|
---|
3773 | tc->options = df;
|
---|
3774 | tc->cset = (rx_Bitset) ((char *) tc + sizeof (*tc));
|
---|
3775 | rx_bitset_assign (rx->local_cset_size, tc->cset, cset);
|
---|
3776 | if (df)
|
---|
3777 | {
|
---|
3778 | struct rx_distinct_future * dfp = df;
|
---|
3779 | df->next_same_super_edge[1]->next_same_super_edge[0] = 0;
|
---|
3780 | while (dfp)
|
---|
3781 | {
|
---|
3782 | dfp->edge = tc;
|
---|
3783 | dfp = dfp->next_same_super_edge[0];
|
---|
3784 | }
|
---|
3785 | df->next_same_super_edge[1]->next_same_super_edge[0] = df;
|
---|
3786 | }
|
---|
3787 | return tc;
|
---|
3788 | }
|
---|
3789 |
|
---|
3790 |
|
---|
3791 | /* There are three kinds of cache miss. The first occurs when a
|
---|
3792 | * transition is taken that has never been computed during the
|
---|
3793 | * lifetime of the source superstate. That cache miss is handled by
|
---|
3794 | * calling COMPUTE_SUPER_EDGE. The second kind of cache miss
|
---|
3795 | * occurs when the destination superstate of a transition doesn't
|
---|
3796 | * exist. SOLVE_DESTINATION is used to construct the destination superstate.
|
---|
3797 | * Finally, the third kind of cache miss occurs when the destination
|
---|
3798 | * superstate of a transition is in a `semi-free state'. That case is
|
---|
3799 | * handled by UNFREE_SUPERSTATE.
|
---|
3800 | *
|
---|
3801 | * The function of HANDLE_CACHE_MISS is to figure out which of these
|
---|
3802 | * cases applies.
|
---|
3803 | */
|
---|
3804 |
|
---|
3805 | #ifdef __STDC__
|
---|
3806 | static void
|
---|
3807 | install_partial_transition (struct rx_superstate *super,
|
---|
3808 | struct rx_inx *answer,
|
---|
3809 | RX_subset set, int offset)
|
---|
3810 | #else
|
---|
3811 | static void
|
---|
3812 | install_partial_transition (super, answer, set, offset)
|
---|
3813 | struct rx_superstate *super;
|
---|
3814 | struct rx_inx *answer;
|
---|
3815 | RX_subset set;
|
---|
3816 | int offset;
|
---|
3817 | #endif
|
---|
3818 | {
|
---|
3819 | int start = offset;
|
---|
3820 | int end = start + 32;
|
---|
3821 | RX_subset pos = 1;
|
---|
3822 | struct rx_inx * transitions = super->transitions;
|
---|
3823 |
|
---|
3824 | while (start < end)
|
---|
3825 | {
|
---|
3826 | if (set & pos)
|
---|
3827 | transitions[start] = *answer;
|
---|
3828 | pos <<= 1;
|
---|
3829 | ++start;
|
---|
3830 | }
|
---|
3831 | }
|
---|
3832 |
|
---|
3833 |
|
---|
3834 | #ifdef __STDC__
|
---|
3835 | RX_DECL struct rx_inx *
|
---|
3836 | rx_handle_cache_miss
|
---|
3837 | (struct rx *rx, struct rx_superstate *super, unsigned char chr, void *data)
|
---|
3838 | #else
|
---|
3839 | RX_DECL struct rx_inx *
|
---|
3840 | rx_handle_cache_miss (rx, super, chr, data)
|
---|
3841 | struct rx *rx;
|
---|
3842 | struct rx_superstate *super;
|
---|
3843 | unsigned char chr;
|
---|
3844 | void *data;
|
---|
3845 | #endif
|
---|
3846 | {
|
---|
3847 | int offset = chr / RX_subset_bits;
|
---|
3848 | struct rx_distinct_future *df = data;
|
---|
3849 |
|
---|
3850 | if (!df) /* must be the shared_cache_miss_frame */
|
---|
3851 | {
|
---|
3852 | /* Perhaps this is just a transition waiting to be filled. */
|
---|
3853 | struct rx_super_edge *tc;
|
---|
3854 | RX_subset mask = rx_subset_singletons [chr % RX_subset_bits];
|
---|
3855 |
|
---|
3856 | for (tc = super->edges; tc; tc = tc->next)
|
---|
3857 | if (tc->cset[offset] & mask)
|
---|
3858 | {
|
---|
3859 | struct rx_inx * answer;
|
---|
3860 | df = tc->options;
|
---|
3861 | answer = ((tc->options->next_same_super_edge[0] != tc->options)
|
---|
3862 | ? &tc->rx_backtrack_frame
|
---|
3863 | : (df->effects
|
---|
3864 | ? &df->side_effects_frame
|
---|
3865 | : &df->future_frame));
|
---|
3866 | install_partial_transition (super, answer,
|
---|
3867 | tc->cset [offset], offset * 32);
|
---|
3868 | return answer;
|
---|
3869 | }
|
---|
3870 | /* Otherwise, it's a flushed or newly encountered edge. */
|
---|
3871 | {
|
---|
3872 | char cset_space[1024]; /* this limit is far from unreasonable */
|
---|
3873 | rx_Bitset trcset;
|
---|
3874 | struct rx_inx *answer;
|
---|
3875 |
|
---|
3876 | if (rx_sizeof_bitset (rx->local_cset_size) > sizeof (cset_space))
|
---|
3877 | return 0; /* If the arbitrary limit is hit, always fail */
|
---|
3878 | /* cleanly. */
|
---|
3879 | trcset = (rx_Bitset)cset_space;
|
---|
3880 | rx_lock_superstate (rx, super);
|
---|
3881 | if (!compute_super_edge (rx, &df, trcset, super, chr))
|
---|
3882 | {
|
---|
3883 | rx_unlock_superstate (rx, super);
|
---|
3884 | return 0;
|
---|
3885 | }
|
---|
3886 | if (!df) /* We just computed the fail transition. */
|
---|
3887 | {
|
---|
3888 | static struct rx_inx
|
---|
3889 | shared_fail_frame = { 0, 0, (void *)rx_backtrack, 0 };
|
---|
3890 | answer = &shared_fail_frame;
|
---|
3891 | }
|
---|
3892 | else
|
---|
3893 | {
|
---|
3894 | tc = rx_super_edge (rx, super, trcset, df);
|
---|
3895 | if (!tc)
|
---|
3896 | {
|
---|
3897 | rx_unlock_superstate (rx, super);
|
---|
3898 | return 0;
|
---|
3899 | }
|
---|
3900 | answer = ((tc->options->next_same_super_edge[0] != tc->options)
|
---|
3901 | ? &tc->rx_backtrack_frame
|
---|
3902 | : (df->effects
|
---|
3903 | ? &df->side_effects_frame
|
---|
3904 | : &df->future_frame));
|
---|
3905 | }
|
---|
3906 | install_partial_transition (super, answer,
|
---|
3907 | trcset[offset], offset * 32);
|
---|
3908 | rx_unlock_superstate (rx, super);
|
---|
3909 | return answer;
|
---|
3910 | }
|
---|
3911 | }
|
---|
3912 | else if (df->future) /* A cache miss on an edge with a future? Must be
|
---|
3913 | * a semi-free destination. */
|
---|
3914 | {
|
---|
3915 | if (df->future->is_semifree)
|
---|
3916 | refresh_semifree_superstate (rx->cache, df->future);
|
---|
3917 | return &df->future_frame;
|
---|
3918 | }
|
---|
3919 | else
|
---|
3920 | /* no future superstate on an existing edge */
|
---|
3921 | {
|
---|
3922 | rx_lock_superstate (rx, super);
|
---|
3923 | if (!solve_destination (rx, df))
|
---|
3924 | {
|
---|
3925 | rx_unlock_superstate (rx, super);
|
---|
3926 | return 0;
|
---|
3927 | }
|
---|
3928 | if (!df->effects
|
---|
3929 | && (df->edge->options->next_same_super_edge[0] == df->edge->options))
|
---|
3930 | install_partial_transition (super, &df->future_frame,
|
---|
3931 | df->edge->cset[offset], offset * 32);
|
---|
3932 | rx_unlock_superstate (rx, super);
|
---|
3933 | return &df->future_frame;
|
---|
3934 | }
|
---|
3935 | }
|
---|
3936 |
|
---|
3937 |
|
---|
3938 | |
---|
3939 |
|
---|
3940 |
|
---|
3941 | /* The rest of the code provides a regex.c compatable interface. */
|
---|
3942 |
|
---|
3943 |
|
---|
3944 | __const__ char *re_error_msg[] =
|
---|
3945 | {
|
---|
3946 | 0, /* REG_NOUT */
|
---|
3947 | "No match", /* REG_NOMATCH */
|
---|
3948 | "Invalid regular expression", /* REG_BADPAT */
|
---|
3949 | "Invalid collation character", /* REG_ECOLLATE */
|
---|
3950 | "Invalid character class name", /* REG_ECTYPE */
|
---|
3951 | "Trailing backslash", /* REG_EESCAPE */
|
---|
3952 | "Invalid back reference", /* REG_ESUBREG */
|
---|
3953 | "Unmatched [ or [^", /* REG_EBRACK */
|
---|
3954 | "Unmatched ( or \\(", /* REG_EPAREN */
|
---|
3955 | "Unmatched \\{", /* REG_EBRACE */
|
---|
3956 | "Invalid content of \\{\\}", /* REG_BADBR */
|
---|
3957 | "Invalid range end", /* REG_ERANGE */
|
---|
3958 | "Memory exhausted", /* REG_ESPACE */
|
---|
3959 | "Invalid preceding regular expression", /* REG_BADRPT */
|
---|
3960 | "Premature end of regular expression", /* REG_EEND */
|
---|
3961 | "Regular expression too big", /* REG_ESIZE */
|
---|
3962 | "Unmatched ) or \\)", /* REG_ERPAREN */
|
---|
3963 | };
|
---|
3964 |
|
---|
3965 |
|
---|
3966 | |
---|
3967 |
|
---|
3968 | /*
|
---|
3969 | * Macros used while compiling patterns.
|
---|
3970 | *
|
---|
3971 | * By convention, PEND points just past the end of the uncompiled pattern,
|
---|
3972 | * P points to the read position in the pattern. `translate' is the name
|
---|
3973 | * of the translation table (`TRANSLATE' is the name of a macro that looks
|
---|
3974 | * things up in `translate').
|
---|
3975 | */
|
---|
3976 |
|
---|
3977 |
|
---|
3978 | /*
|
---|
3979 | * Fetch the next character in the uncompiled pattern---translating it
|
---|
3980 | * if necessary. *Also cast from a signed character in the constant
|
---|
3981 | * string passed to us by the user to an unsigned char that we can use
|
---|
3982 | * as an array index (in, e.g., `translate').
|
---|
3983 | */
|
---|
3984 | #define PATFETCH(c) \
|
---|
3985 | do {if (p == pend) return REG_EEND; \
|
---|
3986 | c = (unsigned char) *p++; \
|
---|
3987 | c = translate[c]; \
|
---|
3988 | } while (0)
|
---|
3989 |
|
---|
3990 | /*
|
---|
3991 | * Fetch the next character in the uncompiled pattern, with no
|
---|
3992 | * translation.
|
---|
3993 | */
|
---|
3994 | #define PATFETCH_RAW(c) \
|
---|
3995 | do {if (p == pend) return REG_EEND; \
|
---|
3996 | c = (unsigned char) *p++; \
|
---|
3997 | } while (0)
|
---|
3998 |
|
---|
3999 | /* Go backwards one character in the pattern. */
|
---|
4000 | #define PATUNFETCH p--
|
---|
4001 |
|
---|
4002 |
|
---|
4003 | #define TRANSLATE(d) translate[(unsigned char) (d)]
|
---|
4004 |
|
---|
4005 | typedef unsigned regnum_t;
|
---|
4006 |
|
---|
4007 | /* Since offsets can go either forwards or backwards, this type needs to
|
---|
4008 | * be able to hold values from -(MAX_BUF_SIZE - 1) to MAX_BUF_SIZE - 1.
|
---|
4009 | */
|
---|
4010 | typedef int pattern_offset_t;
|
---|
4011 |
|
---|
4012 | typedef struct
|
---|
4013 | {
|
---|
4014 | struct rexp_node ** top_expression; /* was begalt */
|
---|
4015 | struct rexp_node ** last_expression; /* was laststart */
|
---|
4016 | pattern_offset_t inner_group_offset;
|
---|
4017 | regnum_t regnum;
|
---|
4018 | } compile_stack_elt_t;
|
---|
4019 |
|
---|
4020 | typedef struct
|
---|
4021 | {
|
---|
4022 | compile_stack_elt_t *stack;
|
---|
4023 | unsigned size;
|
---|
4024 | unsigned avail; /* Offset of next open position. */
|
---|
4025 | } compile_stack_type;
|
---|
4026 |
|
---|
4027 |
|
---|
4028 | #define INIT_COMPILE_STACK_SIZE 32
|
---|
4029 |
|
---|
4030 | #define COMPILE_STACK_EMPTY (compile_stack.avail == 0)
|
---|
4031 | #define COMPILE_STACK_FULL (compile_stack.avail == compile_stack.size)
|
---|
4032 |
|
---|
4033 | /* The next available element. */
|
---|
4034 | #define COMPILE_STACK_TOP (compile_stack.stack[compile_stack.avail])
|
---|
4035 |
|
---|
4036 |
|
---|
4037 | /* Set the bit for character C in a list. */
|
---|
4038 | #define SET_LIST_BIT(c) \
|
---|
4039 | (b[((unsigned char) (c)) / CHARBITS] \
|
---|
4040 | |= 1 << (((unsigned char) c) % CHARBITS))
|
---|
4041 |
|
---|
4042 | /* Get the next unsigned number in the uncompiled pattern. */
|
---|
4043 | #define GET_UNSIGNED_NUMBER(num) \
|
---|
4044 | { if (p != pend) \
|
---|
4045 | { \
|
---|
4046 | PATFETCH (c); \
|
---|
4047 | while (isdigit (c)) \
|
---|
4048 | { \
|
---|
4049 | if (num < 0) \
|
---|
4050 | num = 0; \
|
---|
4051 | num = num * 10 + c - '0'; \
|
---|
4052 | if (p == pend) \
|
---|
4053 | break; \
|
---|
4054 | PATFETCH (c); \
|
---|
4055 | } \
|
---|
4056 | } \
|
---|
4057 | }
|
---|
4058 |
|
---|
4059 | #define CHAR_CLASS_MAX_LENGTH 6 /* Namely, `xdigit'. */
|
---|
4060 |
|
---|
4061 | #define IS_CHAR_CLASS(string) \
|
---|
4062 | (!strcmp (string, "alpha") || !strcmp (string, "upper") \
|
---|
4063 | || !strcmp (string, "lower") || !strcmp (string, "digit") \
|
---|
4064 | || !strcmp (string, "alnum") || !strcmp (string, "xdigit") \
|
---|
4065 | || !strcmp (string, "space") || !strcmp (string, "print") \
|
---|
4066 | || !strcmp (string, "punct") || !strcmp (string, "graph") \
|
---|
4067 | || !strcmp (string, "cntrl") || !strcmp (string, "blank"))
|
---|
4068 |
|
---|
4069 | |
---|
4070 |
|
---|
4071 | /* These predicates are used in regex_compile. */
|
---|
4072 |
|
---|
4073 | /* P points to just after a ^ in PATTERN. Return true if that ^ comes
|
---|
4074 | * after an alternative or a begin-subexpression. We assume there is at
|
---|
4075 | * least one character before the ^.
|
---|
4076 | */
|
---|
4077 |
|
---|
4078 | #ifdef __STDC__
|
---|
4079 | static boolean
|
---|
4080 | at_begline_loc_p (__const__ char *pattern, __const__ char * p, reg_syntax_t syntax)
|
---|
4081 | #else
|
---|
4082 | static boolean
|
---|
4083 | at_begline_loc_p (pattern, p, syntax)
|
---|
4084 | __const__ char *pattern;
|
---|
4085 | __const__ char * p;
|
---|
4086 | reg_syntax_t syntax;
|
---|
4087 | #endif
|
---|
4088 | {
|
---|
4089 | __const__ char *prev = p - 2;
|
---|
4090 | boolean prev_prev_backslash = ((prev > pattern) && (prev[-1] == '\\'));
|
---|
4091 |
|
---|
4092 | return
|
---|
4093 |
|
---|
4094 | (/* After a subexpression? */
|
---|
4095 | ((*prev == '(') && ((syntax & RE_NO_BK_PARENS) || prev_prev_backslash))
|
---|
4096 | ||
|
---|
4097 | /* After an alternative? */
|
---|
4098 | ((*prev == '|') && ((syntax & RE_NO_BK_VBAR) || prev_prev_backslash))
|
---|
4099 | );
|
---|
4100 | }
|
---|
4101 |
|
---|
4102 | /* The dual of at_begline_loc_p. This one is for $. We assume there is
|
---|
4103 | * at least one character after the $, i.e., `P < PEND'.
|
---|
4104 | */
|
---|
4105 |
|
---|
4106 | #ifdef __STDC__
|
---|
4107 | static boolean
|
---|
4108 | at_endline_loc_p (__const__ char *p, __const__ char *pend, int syntax)
|
---|
4109 | #else
|
---|
4110 | static boolean
|
---|
4111 | at_endline_loc_p (p, pend, syntax)
|
---|
4112 | __const__ char *p;
|
---|
4113 | __const__ char *pend;
|
---|
4114 | int syntax;
|
---|
4115 | #endif
|
---|
4116 | {
|
---|
4117 | __const__ char *next = p;
|
---|
4118 | boolean next_backslash = (*next == '\\');
|
---|
4119 | __const__ char *next_next = (p + 1 < pend) ? (p + 1) : 0;
|
---|
4120 |
|
---|
4121 | return
|
---|
4122 | (
|
---|
4123 | /* Before a subexpression? */
|
---|
4124 | ((syntax & RE_NO_BK_PARENS)
|
---|
4125 | ? (*next == ')')
|
---|
4126 | : (next_backslash && next_next && (*next_next == ')')))
|
---|
4127 | ||
|
---|
4128 | /* Before an alternative? */
|
---|
4129 | ((syntax & RE_NO_BK_VBAR)
|
---|
4130 | ? (*next == '|')
|
---|
4131 | : (next_backslash && next_next && (*next_next == '|')))
|
---|
4132 | );
|
---|
4133 | }
|
---|
4134 | |
---|
4135 |
|
---|
4136 |
|
---|
4137 | unsigned char rx_id_translation[256] =
|
---|
4138 | {
|
---|
4139 | 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,
|
---|
4140 | 10, 11, 12, 13, 14, 15, 16, 17, 18, 19,
|
---|
4141 | 20, 21, 22, 23, 24, 25, 26, 27, 28, 29,
|
---|
4142 | 30, 31, 32, 33, 34, 35, 36, 37, 38, 39,
|
---|
4143 | 40, 41, 42, 43, 44, 45, 46, 47, 48, 49,
|
---|
4144 | 50, 51, 52, 53, 54, 55, 56, 57, 58, 59,
|
---|
4145 | 60, 61, 62, 63, 64, 65, 66, 67, 68, 69,
|
---|
4146 | 70, 71, 72, 73, 74, 75, 76, 77, 78, 79,
|
---|
4147 | 80, 81, 82, 83, 84, 85, 86, 87, 88, 89,
|
---|
4148 | 90, 91, 92, 93, 94, 95, 96, 97, 98, 99,
|
---|
4149 |
|
---|
4150 | 100, 101, 102, 103, 104, 105, 106, 107, 108, 109,
|
---|
4151 | 110, 111, 112, 113, 114, 115, 116, 117, 118, 119,
|
---|
4152 | 120, 121, 122, 123, 124, 125, 126, 127, 128, 129,
|
---|
4153 | 130, 131, 132, 133, 134, 135, 136, 137, 138, 139,
|
---|
4154 | 140, 141, 142, 143, 144, 145, 146, 147, 148, 149,
|
---|
4155 | 150, 151, 152, 153, 154, 155, 156, 157, 158, 159,
|
---|
4156 | 160, 161, 162, 163, 164, 165, 166, 167, 168, 169,
|
---|
4157 | 170, 171, 172, 173, 174, 175, 176, 177, 178, 179,
|
---|
4158 | 180, 181, 182, 183, 184, 185, 186, 187, 188, 189,
|
---|
4159 | 190, 191, 192, 193, 194, 195, 196, 197, 198, 199,
|
---|
4160 |
|
---|
4161 | 200, 201, 202, 203, 204, 205, 206, 207, 208, 209,
|
---|
4162 | 210, 211, 212, 213, 214, 215, 216, 217, 218, 219,
|
---|
4163 | 220, 221, 222, 223, 224, 225, 226, 227, 228, 229,
|
---|
4164 | 230, 231, 232, 233, 234, 235, 236, 237, 238, 239,
|
---|
4165 | 240, 241, 242, 243, 244, 245, 246, 247, 248, 249,
|
---|
4166 | 250, 251, 252, 253, 254, 255
|
---|
4167 | };
|
---|
4168 |
|
---|
4169 | /* The compiler keeps an inverted translation table.
|
---|
4170 | * This looks up/inititalize elements.
|
---|
4171 | * VALID is an array of booleans that validate CACHE.
|
---|
4172 | */
|
---|
4173 |
|
---|
4174 | #ifdef __STDC__
|
---|
4175 | static rx_Bitset
|
---|
4176 | inverse_translation (struct re_pattern_buffer * rxb,
|
---|
4177 | char * valid, rx_Bitset cache,
|
---|
4178 | unsigned char * translate, int c)
|
---|
4179 | #else
|
---|
4180 | static rx_Bitset
|
---|
4181 | inverse_translation (rxb, valid, cache, translate, c)
|
---|
4182 | struct re_pattern_buffer * rxb;
|
---|
4183 | char * valid;
|
---|
4184 | rx_Bitset cache;
|
---|
4185 | unsigned char * translate;
|
---|
4186 | int c;
|
---|
4187 | #endif
|
---|
4188 | {
|
---|
4189 | rx_Bitset cs
|
---|
4190 | = cache + c * rx_bitset_numb_subsets (rxb->rx.local_cset_size);
|
---|
4191 |
|
---|
4192 | if (!valid[c])
|
---|
4193 | {
|
---|
4194 | int x;
|
---|
4195 | int c_tr = TRANSLATE(c);
|
---|
4196 | rx_bitset_null (rxb->rx.local_cset_size, cs);
|
---|
4197 | for (x = 0; x < 256; ++x) /* &&&& 13.37 */
|
---|
4198 | if (TRANSLATE(x) == c_tr)
|
---|
4199 | RX_bitset_enjoin (cs, x);
|
---|
4200 | valid[c] = 1;
|
---|
4201 | }
|
---|
4202 | return cs;
|
---|
4203 | }
|
---|
4204 |
|
---|
4205 | |
---|
4206 |
|
---|
4207 |
|
---|
4208 |
|
---|
4209 | /* More subroutine declarations and macros for regex_compile. */
|
---|
4210 |
|
---|
4211 | /* Returns true if REGNUM is in one of COMPILE_STACK's elements and
|
---|
4212 | false if it's not. */
|
---|
4213 |
|
---|
4214 | #ifdef __STDC__
|
---|
4215 | static boolean
|
---|
4216 | group_in_compile_stack (compile_stack_type compile_stack, regnum_t regnum)
|
---|
4217 | #else
|
---|
4218 | static boolean
|
---|
4219 | group_in_compile_stack (compile_stack, regnum)
|
---|
4220 | compile_stack_type compile_stack;
|
---|
4221 | regnum_t regnum;
|
---|
4222 | #endif
|
---|
4223 | {
|
---|
4224 | int this_element;
|
---|
4225 |
|
---|
4226 | for (this_element = compile_stack.avail - 1;
|
---|
4227 | this_element >= 0;
|
---|
4228 | this_element--)
|
---|
4229 | if (compile_stack.stack[this_element].regnum == regnum)
|
---|
4230 | return true;
|
---|
4231 |
|
---|
4232 | return false;
|
---|
4233 | }
|
---|
4234 |
|
---|
4235 |
|
---|
4236 | /*
|
---|
4237 | * Read the ending character of a range (in a bracket expression) from the
|
---|
4238 | * uncompiled pattern *P_PTR (which ends at PEND). We assume the
|
---|
4239 | * starting character is in `P[-2]'. (`P[-1]' is the character `-'.)
|
---|
4240 | * Then we set the translation of all bits between the starting and
|
---|
4241 | * ending characters (inclusive) in the compiled pattern B.
|
---|
4242 | *
|
---|
4243 | * Return an error code.
|
---|
4244 | *
|
---|
4245 | * We use these short variable names so we can use the same macros as
|
---|
4246 | * `regex_compile' itself.
|
---|
4247 | */
|
---|
4248 |
|
---|
4249 | #ifdef __STDC__
|
---|
4250 | static reg_errcode_t
|
---|
4251 | compile_range (struct re_pattern_buffer * rxb, rx_Bitset cs,
|
---|
4252 | __const__ char ** p_ptr, __const__ char * pend,
|
---|
4253 | unsigned char * translate, reg_syntax_t syntax,
|
---|
4254 | rx_Bitset inv_tr, char * valid_inv_tr)
|
---|
4255 | #else
|
---|
4256 | static reg_errcode_t
|
---|
4257 | compile_range (rxb, cs, p_ptr, pend, translate, syntax, inv_tr, valid_inv_tr)
|
---|
4258 | struct re_pattern_buffer * rxb;
|
---|
4259 | rx_Bitset cs;
|
---|
4260 | __const__ char ** p_ptr;
|
---|
4261 | __const__ char * pend;
|
---|
4262 | unsigned char * translate;
|
---|
4263 | reg_syntax_t syntax;
|
---|
4264 | rx_Bitset inv_tr;
|
---|
4265 | char * valid_inv_tr;
|
---|
4266 | #endif
|
---|
4267 | {
|
---|
4268 | unsigned this_char;
|
---|
4269 |
|
---|
4270 | __const__ char *p = *p_ptr;
|
---|
4271 |
|
---|
4272 | unsigned char range_end;
|
---|
4273 | unsigned char range_start = TRANSLATE(p[-2]);
|
---|
4274 |
|
---|
4275 | if (p == pend)
|
---|
4276 | return REG_ERANGE;
|
---|
4277 |
|
---|
4278 | PATFETCH (range_end);
|
---|
4279 |
|
---|
4280 | (*p_ptr)++;
|
---|
4281 |
|
---|
4282 | if (range_start > range_end)
|
---|
4283 | return syntax & RE_NO_EMPTY_RANGES ? REG_ERANGE : REG_NOERROR;
|
---|
4284 |
|
---|
4285 | for (this_char = range_start; this_char <= range_end; this_char++)
|
---|
4286 | {
|
---|
4287 | rx_Bitset it =
|
---|
4288 | inverse_translation (rxb, valid_inv_tr, inv_tr, translate, this_char);
|
---|
4289 | rx_bitset_union (rxb->rx.local_cset_size, cs, it);
|
---|
4290 | }
|
---|
4291 |
|
---|
4292 | return REG_NOERROR;
|
---|
4293 | }
|
---|
4294 | |
---|
4295 |
|
---|
4296 |
|
---|
4297 | /* This searches a regexp for backreference side effects.
|
---|
4298 | * It fills in the array OUT with 1 at the index of every register pair
|
---|
4299 | * referenced by a backreference.
|
---|
4300 | *
|
---|
4301 | * This is used to help optimize patterns for searching. The information is
|
---|
4302 | * useful because, if the caller doesn't want register values, backreferenced
|
---|
4303 | * registers are the only registers for which we need rx_backtrack.
|
---|
4304 | */
|
---|
4305 |
|
---|
4306 | #ifdef __STDC__
|
---|
4307 | static void
|
---|
4308 | find_backrefs (char * out, struct rexp_node * rexp,
|
---|
4309 | struct re_se_params * params)
|
---|
4310 | #else
|
---|
4311 | static void
|
---|
4312 | find_backrefs (out, rexp, params)
|
---|
4313 | char * out;
|
---|
4314 | struct rexp_node * rexp;
|
---|
4315 | struct re_se_params * params;
|
---|
4316 | #endif
|
---|
4317 | {
|
---|
4318 | if (rexp)
|
---|
4319 | switch (rexp->type)
|
---|
4320 | {
|
---|
4321 | case r_cset:
|
---|
4322 | case r_data:
|
---|
4323 | return;
|
---|
4324 | case r_alternate:
|
---|
4325 | case r_concat:
|
---|
4326 | case r_opt:
|
---|
4327 | case r_star:
|
---|
4328 | case r_2phase_star:
|
---|
4329 | find_backrefs (out, rexp->params.pair.left, params);
|
---|
4330 | find_backrefs (out, rexp->params.pair.right, params);
|
---|
4331 | return;
|
---|
4332 | case r_side_effect:
|
---|
4333 | if ( ((long)rexp->params.side_effect >= 0)
|
---|
4334 | && (params [(long)rexp->params.side_effect].se == re_se_backref))
|
---|
4335 | out[ params [(long)rexp->params.side_effect].op1] = 1;
|
---|
4336 | return;
|
---|
4337 | }
|
---|
4338 | }
|
---|
4339 |
|
---|
4340 | |
---|
4341 |
|
---|
4342 |
|
---|
4343 | /* Returns 0 unless the pattern can match the empty string. */
|
---|
4344 |
|
---|
4345 | #ifdef __STDC__
|
---|
4346 | static int
|
---|
4347 | compute_fastset (struct re_pattern_buffer * rxb, struct rexp_node * rexp)
|
---|
4348 | #else
|
---|
4349 | static int
|
---|
4350 | compute_fastset (rxb, rexp)
|
---|
4351 | struct re_pattern_buffer * rxb;
|
---|
4352 | struct rexp_node * rexp;
|
---|
4353 | #endif
|
---|
4354 | {
|
---|
4355 | if (!rexp)
|
---|
4356 | return 1;
|
---|
4357 | switch (rexp->type)
|
---|
4358 | {
|
---|
4359 | case r_data:
|
---|
4360 | return 1;
|
---|
4361 | case r_cset:
|
---|
4362 | {
|
---|
4363 | rx_bitset_union (rxb->rx.local_cset_size,
|
---|
4364 | rxb->fastset, rexp->params.cset);
|
---|
4365 | }
|
---|
4366 | return 0;
|
---|
4367 | case r_concat:
|
---|
4368 | return (compute_fastset (rxb, rexp->params.pair.left)
|
---|
4369 | && compute_fastset (rxb, rexp->params.pair.right));
|
---|
4370 | case r_2phase_star:
|
---|
4371 | compute_fastset (rxb, rexp->params.pair.left);
|
---|
4372 | /* compute_fastset (rxb, rexp->params.pair.right); nope... */
|
---|
4373 | return 1;
|
---|
4374 | case r_alternate:
|
---|
4375 | return !!(compute_fastset (rxb, rexp->params.pair.left)
|
---|
4376 | + compute_fastset (rxb, rexp->params.pair.right));
|
---|
4377 | case r_opt:
|
---|
4378 | case r_star:
|
---|
4379 | compute_fastset (rxb, rexp->params.pair.left);
|
---|
4380 | return 1;
|
---|
4381 | case r_side_effect:
|
---|
4382 | return 1;
|
---|
4383 | }
|
---|
4384 |
|
---|
4385 | /* this should never happen */
|
---|
4386 | return 0;
|
---|
4387 | }
|
---|
4388 | |
---|
4389 |
|
---|
4390 |
|
---|
4391 | /* returns
|
---|
4392 | * 1 -- yes, definately anchored by the given side effect.
|
---|
4393 | * 2 -- maybe anchored, maybe the empty string.
|
---|
4394 | * 0 -- definately not anchored
|
---|
4395 | * There is simply no other possibility.
|
---|
4396 | */
|
---|
4397 |
|
---|
4398 | #ifdef __STDC__
|
---|
4399 | static int
|
---|
4400 | is_anchored (struct rexp_node * rexp, rx_side_effect se)
|
---|
4401 | #else
|
---|
4402 | static int
|
---|
4403 | is_anchored (rexp, se)
|
---|
4404 | struct rexp_node * rexp;
|
---|
4405 | rx_side_effect se;
|
---|
4406 | #endif
|
---|
4407 | {
|
---|
4408 | if (!rexp)
|
---|
4409 | return 2;
|
---|
4410 | switch (rexp->type)
|
---|
4411 | {
|
---|
4412 | case r_cset:
|
---|
4413 | case r_data:
|
---|
4414 | return 0;
|
---|
4415 | case r_concat:
|
---|
4416 | case r_2phase_star:
|
---|
4417 | {
|
---|
4418 | int l = is_anchored (rexp->params.pair.left, se);
|
---|
4419 | return (l == 2 ? is_anchored (rexp->params.pair.right, se) : l);
|
---|
4420 | }
|
---|
4421 | case r_alternate:
|
---|
4422 | {
|
---|
4423 | int l = is_anchored (rexp->params.pair.left, se);
|
---|
4424 | int r = l ? is_anchored (rexp->params.pair.right, se) : 0;
|
---|
4425 |
|
---|
4426 | if (l == r)
|
---|
4427 | return l;
|
---|
4428 | else if ((l == 0) || (r == 0))
|
---|
4429 | return 0;
|
---|
4430 | else
|
---|
4431 | return 2;
|
---|
4432 | }
|
---|
4433 | case r_opt:
|
---|
4434 | case r_star:
|
---|
4435 | return is_anchored (rexp->params.pair.left, se) ? 2 : 0;
|
---|
4436 |
|
---|
4437 | case r_side_effect:
|
---|
4438 | return ((rexp->params.side_effect == se)
|
---|
4439 | ? 1 : 2);
|
---|
4440 | }
|
---|
4441 |
|
---|
4442 | /* this should never happen */
|
---|
4443 | return 0;
|
---|
4444 | }
|
---|
4445 |
|
---|
4446 | |
---|
4447 |
|
---|
4448 | /* This removes register assignments that aren't required by backreferencing.
|
---|
4449 | * This can speed up explore_future, especially if it eliminates
|
---|
4450 | * non-determinism in the superstate NFA.
|
---|
4451 | *
|
---|
4452 | * NEEDED is an array of characters, presumably filled in by FIND_BACKREFS.
|
---|
4453 | * The non-zero elements of the array indicate which register assignments
|
---|
4454 | * can NOT be removed from the expression.
|
---|
4455 | */
|
---|
4456 |
|
---|
4457 | #ifdef __STDC__
|
---|
4458 | static struct rexp_node *
|
---|
4459 | remove_unecessary_side_effects (struct rx * rx, char * needed,
|
---|
4460 | struct rexp_node * rexp,
|
---|
4461 | struct re_se_params * params)
|
---|
4462 | #else
|
---|
4463 | static struct rexp_node *
|
---|
4464 | remove_unecessary_side_effects (rx, needed, rexp, params)
|
---|
4465 | struct rx * rx;
|
---|
4466 | char * needed;
|
---|
4467 | struct rexp_node * rexp;
|
---|
4468 | struct re_se_params * params;
|
---|
4469 | #endif
|
---|
4470 | {
|
---|
4471 | struct rexp_node * l;
|
---|
4472 | struct rexp_node * r;
|
---|
4473 | if (!rexp)
|
---|
4474 | return 0;
|
---|
4475 | else
|
---|
4476 | switch (rexp->type)
|
---|
4477 | {
|
---|
4478 | case r_cset:
|
---|
4479 | case r_data:
|
---|
4480 | return rexp;
|
---|
4481 | case r_alternate:
|
---|
4482 | case r_concat:
|
---|
4483 | case r_2phase_star:
|
---|
4484 | l = remove_unecessary_side_effects (rx, needed,
|
---|
4485 | rexp->params.pair.left, params);
|
---|
4486 | r = remove_unecessary_side_effects (rx, needed,
|
---|
4487 | rexp->params.pair.right, params);
|
---|
4488 | if ((l && r) || (rexp->type != r_concat))
|
---|
4489 | {
|
---|
4490 | rexp->params.pair.left = l;
|
---|
4491 | rexp->params.pair.right = r;
|
---|
4492 | return rexp;
|
---|
4493 | }
|
---|
4494 | else
|
---|
4495 | {
|
---|
4496 | rexp->params.pair.left = rexp->params.pair.right = 0;
|
---|
4497 | rx_free_rexp (rx, rexp);
|
---|
4498 | return l ? l : r;
|
---|
4499 | }
|
---|
4500 | case r_opt:
|
---|
4501 | case r_star:
|
---|
4502 | l = remove_unecessary_side_effects (rx, needed,
|
---|
4503 | rexp->params.pair.left, params);
|
---|
4504 | if (l)
|
---|
4505 | {
|
---|
4506 | rexp->params.pair.left = l;
|
---|
4507 | return rexp;
|
---|
4508 | }
|
---|
4509 | else
|
---|
4510 | {
|
---|
4511 | rexp->params.pair.left = 0;
|
---|
4512 | rx_free_rexp (rx, rexp);
|
---|
4513 | return 0;
|
---|
4514 | }
|
---|
4515 | case r_side_effect:
|
---|
4516 | {
|
---|
4517 | int se = (long)rexp->params.side_effect;
|
---|
4518 | if ( (se >= 0)
|
---|
4519 | && ( ((enum re_side_effects)params[se].se == re_se_lparen)
|
---|
4520 | || ((enum re_side_effects)params[se].se == re_se_rparen))
|
---|
4521 | && (params [se].op1 > 0)
|
---|
4522 | && (!needed [params [se].op1]))
|
---|
4523 | {
|
---|
4524 | rx_free_rexp (rx, rexp);
|
---|
4525 | return 0;
|
---|
4526 | }
|
---|
4527 | else
|
---|
4528 | return rexp;
|
---|
4529 | }
|
---|
4530 | }
|
---|
4531 |
|
---|
4532 | /* this should never happen */
|
---|
4533 | return 0;
|
---|
4534 | }
|
---|
4535 |
|
---|
4536 | |
---|
4537 |
|
---|
4538 |
|
---|
4539 | #ifdef __STDC__
|
---|
4540 | static int
|
---|
4541 | pointless_if_repeated (struct rexp_node * node, struct re_se_params * params)
|
---|
4542 | #else
|
---|
4543 | static int
|
---|
4544 | pointless_if_repeated (node, params)
|
---|
4545 | struct rexp_node * node;
|
---|
4546 | struct re_se_params * params;
|
---|
4547 | #endif
|
---|
4548 | {
|
---|
4549 | if (!node)
|
---|
4550 | return 1;
|
---|
4551 | switch (node->type)
|
---|
4552 | {
|
---|
4553 | case r_cset:
|
---|
4554 | return 0;
|
---|
4555 | case r_alternate:
|
---|
4556 | case r_concat:
|
---|
4557 | case r_2phase_star:
|
---|
4558 | return (pointless_if_repeated (node->params.pair.left, params)
|
---|
4559 | && pointless_if_repeated (node->params.pair.right, params));
|
---|
4560 | case r_opt:
|
---|
4561 | case r_star:
|
---|
4562 | return pointless_if_repeated (node->params.pair.left, params);
|
---|
4563 | case r_side_effect:
|
---|
4564 | switch ((enum re_side_effects) (((long)node->params.side_effect < 0)
|
---|
4565 | ? (enum re_side_effects) (long) node->params.side_effect
|
---|
4566 | : (enum re_side_effects)params[(long)node->params.side_effect].se))
|
---|
4567 | {
|
---|
4568 | case re_se_try:
|
---|
4569 | case re_se_at_dot:
|
---|
4570 | case re_se_begbuf:
|
---|
4571 | case re_se_hat:
|
---|
4572 | case re_se_wordbeg:
|
---|
4573 | case re_se_wordbound:
|
---|
4574 | case re_se_notwordbound:
|
---|
4575 | case re_se_wordend:
|
---|
4576 | case re_se_endbuf:
|
---|
4577 | case re_se_dollar:
|
---|
4578 | case re_se_fail:
|
---|
4579 | case re_se_win:
|
---|
4580 | return 1;
|
---|
4581 | case re_se_lparen:
|
---|
4582 | case re_se_rparen:
|
---|
4583 | case re_se_iter:
|
---|
4584 | case re_se_end_iter:
|
---|
4585 | case re_se_syntax:
|
---|
4586 | case re_se_not_syntax:
|
---|
4587 | case re_se_backref:
|
---|
4588 | return 0;
|
---|
4589 | }
|
---|
4590 | case r_data:
|
---|
4591 | default:
|
---|
4592 | return 0;
|
---|
4593 | }
|
---|
4594 | }
|
---|
4595 |
|
---|
4596 | |
---|
4597 |
|
---|
4598 |
|
---|
4599 | #ifdef __STDC__
|
---|
4600 | static int
|
---|
4601 | registers_on_stack (struct re_pattern_buffer * rxb,
|
---|
4602 | struct rexp_node * rexp, int in_danger,
|
---|
4603 | struct re_se_params * params)
|
---|
4604 | #else
|
---|
4605 | static int
|
---|
4606 | registers_on_stack (rxb, rexp, in_danger, params)
|
---|
4607 | struct re_pattern_buffer * rxb;
|
---|
4608 | struct rexp_node * rexp;
|
---|
4609 | int in_danger;
|
---|
4610 | struct re_se_params * params;
|
---|
4611 | #endif
|
---|
4612 | {
|
---|
4613 | if (!rexp)
|
---|
4614 | return 0;
|
---|
4615 | else
|
---|
4616 | switch (rexp->type)
|
---|
4617 | {
|
---|
4618 | case r_cset:
|
---|
4619 | case r_data:
|
---|
4620 | return 0;
|
---|
4621 | case r_alternate:
|
---|
4622 | case r_concat:
|
---|
4623 | return ( registers_on_stack (rxb, rexp->params.pair.left,
|
---|
4624 | in_danger, params)
|
---|
4625 | || (registers_on_stack
|
---|
4626 | (rxb, rexp->params.pair.right,
|
---|
4627 | in_danger, params)));
|
---|
4628 | case r_opt:
|
---|
4629 | return registers_on_stack (rxb, rexp->params.pair.left, 0, params);
|
---|
4630 | case r_star:
|
---|
4631 | return registers_on_stack (rxb, rexp->params.pair.left, 1, params);
|
---|
4632 | case r_2phase_star:
|
---|
4633 | return
|
---|
4634 | ( registers_on_stack (rxb, rexp->params.pair.left, 1, params)
|
---|
4635 | || registers_on_stack (rxb, rexp->params.pair.right, 1, params));
|
---|
4636 | case r_side_effect:
|
---|
4637 | {
|
---|
4638 | int se = (long)rexp->params.side_effect;
|
---|
4639 | if ( in_danger
|
---|
4640 | && (se >= 0)
|
---|
4641 | && (params [se].op1 > 0)
|
---|
4642 | && ( ((enum re_side_effects)params[se].se == re_se_lparen)
|
---|
4643 | || ((enum re_side_effects)params[se].se == re_se_rparen)))
|
---|
4644 | return 1;
|
---|
4645 | else
|
---|
4646 | return 0;
|
---|
4647 | }
|
---|
4648 | }
|
---|
4649 |
|
---|
4650 | /* this should never happen */
|
---|
4651 | return 0;
|
---|
4652 | }
|
---|
4653 |
|
---|
4654 | |
---|
4655 |
|
---|
4656 |
|
---|
4657 | static char idempotent_complex_se[] =
|
---|
4658 | {
|
---|
4659 | #define RX_WANT_SE_DEFS 1
|
---|
4660 | #undef RX_DEF_SE
|
---|
4661 | #undef RX_DEF_CPLX_SE
|
---|
4662 | #define RX_DEF_SE(IDEM, NAME, VALUE)
|
---|
4663 | #define RX_DEF_CPLX_SE(IDEM, NAME, VALUE) IDEM,
|
---|
4664 | #include "rx.h"
|
---|
4665 | #undef RX_DEF_SE
|
---|
4666 | #undef RX_DEF_CPLX_SE
|
---|
4667 | #undef RX_WANT_SE_DEFS
|
---|
4668 | 23
|
---|
4669 | };
|
---|
4670 |
|
---|
4671 | static char idempotent_se[] =
|
---|
4672 | {
|
---|
4673 | 13,
|
---|
4674 | #define RX_WANT_SE_DEFS 1
|
---|
4675 | #undef RX_DEF_SE
|
---|
4676 | #undef RX_DEF_CPLX_SE
|
---|
4677 | #define RX_DEF_SE(IDEM, NAME, VALUE) IDEM,
|
---|
4678 | #define RX_DEF_CPLX_SE(IDEM, NAME, VALUE)
|
---|
4679 | #include "rx.h"
|
---|
4680 | #undef RX_DEF_SE
|
---|
4681 | #undef RX_DEF_CPLX_SE
|
---|
4682 | #undef RX_WANT_SE_DEFS
|
---|
4683 | 42
|
---|
4684 | };
|
---|
4685 |
|
---|
4686 | |
---|
4687 |
|
---|
4688 |
|
---|
4689 |
|
---|
4690 | #ifdef __STDC__
|
---|
4691 | static int
|
---|
4692 | has_any_se (struct rx * rx,
|
---|
4693 | struct rexp_node * rexp)
|
---|
4694 | #else
|
---|
4695 | static int
|
---|
4696 | has_any_se (rx, rexp)
|
---|
4697 | struct rx * rx;
|
---|
4698 | struct rexp_node * rexp;
|
---|
4699 | #endif
|
---|
4700 | {
|
---|
4701 | if (!rexp)
|
---|
4702 | return 0;
|
---|
4703 |
|
---|
4704 | switch (rexp->type)
|
---|
4705 | {
|
---|
4706 | case r_cset:
|
---|
4707 | case r_data:
|
---|
4708 | return 0;
|
---|
4709 |
|
---|
4710 | case r_side_effect:
|
---|
4711 | return 1;
|
---|
4712 |
|
---|
4713 | case r_2phase_star:
|
---|
4714 | case r_concat:
|
---|
4715 | case r_alternate:
|
---|
4716 | return
|
---|
4717 | ( has_any_se (rx, rexp->params.pair.left)
|
---|
4718 | || has_any_se (rx, rexp->params.pair.right));
|
---|
4719 |
|
---|
4720 | case r_opt:
|
---|
4721 | case r_star:
|
---|
4722 | return has_any_se (rx, rexp->params.pair.left);
|
---|
4723 | }
|
---|
4724 |
|
---|
4725 | /* this should never happen */
|
---|
4726 | return 0;
|
---|
4727 | }
|
---|
4728 |
|
---|
4729 | |
---|
4730 |
|
---|
4731 |
|
---|
4732 | /* This must be called AFTER `convert_hard_loops' for a given REXP. */
|
---|
4733 | #ifdef __STDC__
|
---|
4734 | static int
|
---|
4735 | has_non_idempotent_epsilon_path (struct rx * rx,
|
---|
4736 | struct rexp_node * rexp,
|
---|
4737 | struct re_se_params * params)
|
---|
4738 | #else
|
---|
4739 | static int
|
---|
4740 | has_non_idempotent_epsilon_path (rx, rexp, params)
|
---|
4741 | struct rx * rx;
|
---|
4742 | struct rexp_node * rexp;
|
---|
4743 | struct re_se_params * params;
|
---|
4744 | #endif
|
---|
4745 | {
|
---|
4746 | if (!rexp)
|
---|
4747 | return 0;
|
---|
4748 |
|
---|
4749 | switch (rexp->type)
|
---|
4750 | {
|
---|
4751 | case r_cset:
|
---|
4752 | case r_data:
|
---|
4753 | case r_star:
|
---|
4754 | return 0;
|
---|
4755 |
|
---|
4756 | case r_side_effect:
|
---|
4757 | return
|
---|
4758 | !((long)rexp->params.side_effect > 0
|
---|
4759 | ? idempotent_complex_se [ params [(long)rexp->params.side_effect].se ]
|
---|
4760 | : idempotent_se [-(long)rexp->params.side_effect]);
|
---|
4761 |
|
---|
4762 | case r_alternate:
|
---|
4763 | return
|
---|
4764 | ( has_non_idempotent_epsilon_path (rx,
|
---|
4765 | rexp->params.pair.left, params)
|
---|
4766 | || has_non_idempotent_epsilon_path (rx,
|
---|
4767 | rexp->params.pair.right, params));
|
---|
4768 |
|
---|
4769 | case r_2phase_star:
|
---|
4770 | case r_concat:
|
---|
4771 | return
|
---|
4772 | ( has_non_idempotent_epsilon_path (rx,
|
---|
4773 | rexp->params.pair.left, params)
|
---|
4774 | && has_non_idempotent_epsilon_path (rx,
|
---|
4775 | rexp->params.pair.right, params));
|
---|
4776 |
|
---|
4777 | case r_opt:
|
---|
4778 | return has_non_idempotent_epsilon_path (rx,
|
---|
4779 | rexp->params.pair.left, params);
|
---|
4780 | }
|
---|
4781 |
|
---|
4782 | /* this should never happen */
|
---|
4783 | return 0;
|
---|
4784 | }
|
---|
4785 |
|
---|
4786 | |
---|
4787 |
|
---|
4788 |
|
---|
4789 | /* This computes rougly what it's name suggests. It can (and does) go wrong
|
---|
4790 | * in the direction of returning spurious 0 without causing disasters.
|
---|
4791 | */
|
---|
4792 | #ifdef __STDC__
|
---|
4793 | static int
|
---|
4794 | begins_with_complex_se (struct rx * rx, struct rexp_node * rexp)
|
---|
4795 | #else
|
---|
4796 | static int
|
---|
4797 | begins_with_complex_se (rx, rexp)
|
---|
4798 | struct rx * rx;
|
---|
4799 | struct rexp_node * rexp;
|
---|
4800 | #endif
|
---|
4801 | {
|
---|
4802 | if (!rexp)
|
---|
4803 | return 0;
|
---|
4804 |
|
---|
4805 | switch (rexp->type)
|
---|
4806 | {
|
---|
4807 | case r_cset:
|
---|
4808 | case r_data:
|
---|
4809 | return 0;
|
---|
4810 |
|
---|
4811 | case r_side_effect:
|
---|
4812 | return ((long)rexp->params.side_effect >= 0);
|
---|
4813 |
|
---|
4814 | case r_alternate:
|
---|
4815 | return
|
---|
4816 | ( begins_with_complex_se (rx, rexp->params.pair.left)
|
---|
4817 | && begins_with_complex_se (rx, rexp->params.pair.right));
|
---|
4818 |
|
---|
4819 |
|
---|
4820 | case r_concat:
|
---|
4821 | return has_any_se (rx, rexp->params.pair.left);
|
---|
4822 | case r_opt:
|
---|
4823 | case r_star:
|
---|
4824 | case r_2phase_star:
|
---|
4825 | return 0;
|
---|
4826 | }
|
---|
4827 |
|
---|
4828 | /* this should never happen */
|
---|
4829 | return 0;
|
---|
4830 | }
|
---|
4831 |
|
---|
4832 | |
---|
4833 |
|
---|
4834 | /* This destructively removes some of the re_se_tv side effects from
|
---|
4835 | * a rexp tree. In particular, during parsing re_se_tv was inserted on the
|
---|
4836 | * right half of every | to guarantee that posix path preference could be
|
---|
4837 | * honored. This function removes some which it can be determined aren't
|
---|
4838 | * needed.
|
---|
4839 | */
|
---|
4840 |
|
---|
4841 | #ifdef __STDC__
|
---|
4842 | static void
|
---|
4843 | speed_up_alt (struct rx * rx,
|
---|
4844 | struct rexp_node * rexp,
|
---|
4845 | int unposix)
|
---|
4846 | #else
|
---|
4847 | static void
|
---|
4848 | speed_up_alt (rx, rexp, unposix)
|
---|
4849 | struct rx * rx;
|
---|
4850 | struct rexp_node * rexp;
|
---|
4851 | int unposix;
|
---|
4852 | #endif
|
---|
4853 | {
|
---|
4854 | if (!rexp)
|
---|
4855 | return;
|
---|
4856 |
|
---|
4857 | switch (rexp->type)
|
---|
4858 | {
|
---|
4859 | case r_cset:
|
---|
4860 | case r_data:
|
---|
4861 | case r_side_effect:
|
---|
4862 | return;
|
---|
4863 |
|
---|
4864 | case r_opt:
|
---|
4865 | case r_star:
|
---|
4866 | speed_up_alt (rx, rexp->params.pair.left, unposix);
|
---|
4867 | return;
|
---|
4868 |
|
---|
4869 | case r_2phase_star:
|
---|
4870 | case r_concat:
|
---|
4871 | speed_up_alt (rx, rexp->params.pair.left, unposix);
|
---|
4872 | speed_up_alt (rx, rexp->params.pair.right, unposix);
|
---|
4873 | return;
|
---|
4874 |
|
---|
4875 | case r_alternate:
|
---|
4876 | /* the right child is guaranteed to be (concat re_se_tv <subexp>) */
|
---|
4877 |
|
---|
4878 | speed_up_alt (rx, rexp->params.pair.left, unposix);
|
---|
4879 | speed_up_alt (rx, rexp->params.pair.right->params.pair.right, unposix);
|
---|
4880 |
|
---|
4881 | if ( unposix
|
---|
4882 | || (begins_with_complex_se
|
---|
4883 | (rx, rexp->params.pair.right->params.pair.right))
|
---|
4884 | || !( has_any_se (rx, rexp->params.pair.right->params.pair.right)
|
---|
4885 | || has_any_se (rx, rexp->params.pair.left)))
|
---|
4886 | {
|
---|
4887 | struct rexp_node * conc = rexp->params.pair.right;
|
---|
4888 | rexp->params.pair.right = conc->params.pair.right;
|
---|
4889 | conc->params.pair.right = 0;
|
---|
4890 | rx_free_rexp (rx, conc);
|
---|
4891 | }
|
---|
4892 | }
|
---|
4893 | }
|
---|
4894 |
|
---|
4895 |
|
---|
4896 | |
---|
4897 |
|
---|
4898 |
|
---|
4899 |
|
---|
4900 | /* `regex_compile' compiles PATTERN (of length SIZE) according to SYNTAX.
|
---|
4901 | Returns one of error codes defined in `regex.h', or zero for success.
|
---|
4902 |
|
---|
4903 | Assumes the `allocated' (and perhaps `buffer') and `translate'
|
---|
4904 | fields are set in BUFP on entry.
|
---|
4905 |
|
---|
4906 | If it succeeds, results are put in BUFP (if it returns an error, the
|
---|
4907 | contents of BUFP are undefined):
|
---|
4908 | `buffer' is the compiled pattern;
|
---|
4909 | `syntax' is set to SYNTAX;
|
---|
4910 | `used' is set to the length of the compiled pattern;
|
---|
4911 | `fastmap_accurate' is set to zero;
|
---|
4912 | `re_nsub' is set to the number of groups in PATTERN;
|
---|
4913 | `not_bol' and `not_eol' are set to zero.
|
---|
4914 |
|
---|
4915 | The `fastmap' and `newline_anchor' fields are neither
|
---|
4916 | examined nor set. */
|
---|
4917 |
|
---|
4918 |
|
---|
4919 |
|
---|
4920 | #ifdef __STDC__
|
---|
4921 | RX_DECL reg_errcode_t
|
---|
4922 | rx_compile (__const__ char *pattern, int size,
|
---|
4923 | reg_syntax_t syntax,
|
---|
4924 | struct re_pattern_buffer * rxb)
|
---|
4925 | #else
|
---|
4926 | RX_DECL reg_errcode_t
|
---|
4927 | rx_compile (pattern, size, syntax, rxb)
|
---|
4928 | __const__ char *pattern;
|
---|
4929 | int size;
|
---|
4930 | reg_syntax_t syntax;
|
---|
4931 | struct re_pattern_buffer * rxb;
|
---|
4932 | #endif
|
---|
4933 | {
|
---|
4934 | RX_subset
|
---|
4935 | inverse_translate [CHAR_SET_SIZE * rx_bitset_numb_subsets(CHAR_SET_SIZE)];
|
---|
4936 | char
|
---|
4937 | validate_inv_tr [CHAR_SET_SIZE * rx_bitset_numb_subsets(CHAR_SET_SIZE)];
|
---|
4938 |
|
---|
4939 | /* We fetch characters from PATTERN here. Even though PATTERN is
|
---|
4940 | `char *' (i.e., signed), we declare these variables as unsigned, so
|
---|
4941 | they can be reliably used as array indices. */
|
---|
4942 | register unsigned char c, c1;
|
---|
4943 |
|
---|
4944 | /* A random tempory spot in PATTERN. */
|
---|
4945 | __const__ char *p1;
|
---|
4946 |
|
---|
4947 | /* Keeps track of unclosed groups. */
|
---|
4948 | compile_stack_type compile_stack;
|
---|
4949 |
|
---|
4950 | /* Points to the current (ending) position in the pattern. */
|
---|
4951 | __const__ char *p = pattern;
|
---|
4952 | __const__ char *pend = pattern + size;
|
---|
4953 |
|
---|
4954 | /* How to translate the characters in the pattern. */
|
---|
4955 | unsigned char *translate = (rxb->translate
|
---|
4956 | ? rxb->translate
|
---|
4957 | : rx_id_translation);
|
---|
4958 |
|
---|
4959 | /* When parsing is done, this will hold the expression tree. */
|
---|
4960 | struct rexp_node * rexp = 0;
|
---|
4961 |
|
---|
4962 | /* In the midst of compilation, this holds onto the regexp
|
---|
4963 | * first parst while rexp goes on to aquire additional constructs.
|
---|
4964 | */
|
---|
4965 | struct rexp_node * orig_rexp = 0;
|
---|
4966 | struct rexp_node * fewer_side_effects = 0;
|
---|
4967 |
|
---|
4968 | /* This and top_expression are saved on the compile stack. */
|
---|
4969 | struct rexp_node ** top_expression = &rexp;
|
---|
4970 | struct rexp_node ** last_expression = top_expression;
|
---|
4971 |
|
---|
4972 | /* Parameter to `goto append_node' */
|
---|
4973 | struct rexp_node * append;
|
---|
4974 |
|
---|
4975 | /* Counts open-groups as they are encountered. This is the index of the
|
---|
4976 | * innermost group being compiled.
|
---|
4977 | */
|
---|
4978 | regnum_t regnum = 0;
|
---|
4979 |
|
---|
4980 | /* Place in the uncompiled pattern (i.e., the {) to
|
---|
4981 | * which to go back if the interval is invalid.
|
---|
4982 | */
|
---|
4983 | __const__ char *beg_interval;
|
---|
4984 |
|
---|
4985 | struct re_se_params * params = 0;
|
---|
4986 | int paramc = 0; /* How many complex side effects so far? */
|
---|
4987 |
|
---|
4988 | rx_side_effect side; /* param to `goto add_side_effect' */
|
---|
4989 |
|
---|
4990 | bzero (validate_inv_tr, sizeof (validate_inv_tr));
|
---|
4991 |
|
---|
4992 | rxb->rx.instruction_table = rx_id_instruction_table;
|
---|
4993 |
|
---|
4994 |
|
---|
4995 | /* Initialize the compile stack. */
|
---|
4996 | compile_stack.stack = (( compile_stack_elt_t *) malloc ((INIT_COMPILE_STACK_SIZE) * sizeof ( compile_stack_elt_t)));
|
---|
4997 | if (compile_stack.stack == 0)
|
---|
4998 | return REG_ESPACE;
|
---|
4999 |
|
---|
5000 | compile_stack.size = INIT_COMPILE_STACK_SIZE;
|
---|
5001 | compile_stack.avail = 0;
|
---|
5002 |
|
---|
5003 | /* Initialize the pattern buffer. */
|
---|
5004 | rxb->rx.cache = &default_cache;
|
---|
5005 | rxb->syntax = syntax;
|
---|
5006 | rxb->fastmap_accurate = 0;
|
---|
5007 | rxb->not_bol = rxb->not_eol = 0;
|
---|
5008 | rxb->least_subs = 0;
|
---|
5009 |
|
---|
5010 | /* Always count groups, whether or not rxb->no_sub is set.
|
---|
5011 | * The whole pattern is implicitly group 0, so counting begins
|
---|
5012 | * with 1.
|
---|
5013 | */
|
---|
5014 | rxb->re_nsub = 0;
|
---|
5015 |
|
---|
5016 | #if !defined (emacs) && !defined (SYNTAX_TABLE)
|
---|
5017 | /* Initialize the syntax table. */
|
---|
5018 | init_syntax_once ();
|
---|
5019 | #endif
|
---|
5020 |
|
---|
5021 | /* Loop through the uncompiled pattern until we're at the end. */
|
---|
5022 | while (p != pend)
|
---|
5023 | {
|
---|
5024 | PATFETCH (c);
|
---|
5025 |
|
---|
5026 | switch (c)
|
---|
5027 | {
|
---|
5028 | case '^':
|
---|
5029 | {
|
---|
5030 | if ( /* If at start of pattern, it's an operator. */
|
---|
5031 | p == pattern + 1
|
---|
5032 | /* If context independent, it's an operator. */
|
---|
5033 | || syntax & RE_CONTEXT_INDEP_ANCHORS
|
---|
5034 | /* Otherwise, depends on what's come before. */
|
---|
5035 | || at_begline_loc_p (pattern, p, syntax))
|
---|
5036 | {
|
---|
5037 | struct rexp_node * n
|
---|
5038 | = rx_mk_r_side_effect (&rxb->rx, (rx_side_effect)re_se_hat);
|
---|
5039 | if (!n)
|
---|
5040 | return REG_ESPACE;
|
---|
5041 | append = n;
|
---|
5042 | goto append_node;
|
---|
5043 | }
|
---|
5044 | else
|
---|
5045 | goto normal_char;
|
---|
5046 | }
|
---|
5047 | break;
|
---|
5048 |
|
---|
5049 |
|
---|
5050 | case '$':
|
---|
5051 | {
|
---|
5052 | if ( /* If at end of pattern, it's an operator. */
|
---|
5053 | p == pend
|
---|
5054 | /* If context independent, it's an operator. */
|
---|
5055 | || syntax & RE_CONTEXT_INDEP_ANCHORS
|
---|
5056 | /* Otherwise, depends on what's next. */
|
---|
5057 | || at_endline_loc_p (p, pend, syntax))
|
---|
5058 | {
|
---|
5059 | struct rexp_node * n
|
---|
5060 | = rx_mk_r_side_effect (&rxb->rx, (rx_side_effect)re_se_dollar);
|
---|
5061 | if (!n)
|
---|
5062 | return REG_ESPACE;
|
---|
5063 | append = n;
|
---|
5064 | goto append_node;
|
---|
5065 | }
|
---|
5066 | else
|
---|
5067 | goto normal_char;
|
---|
5068 | }
|
---|
5069 | break;
|
---|
5070 |
|
---|
5071 |
|
---|
5072 | case '+':
|
---|
5073 | case '?':
|
---|
5074 | if ((syntax & RE_BK_PLUS_QM)
|
---|
5075 | || (syntax & RE_LIMITED_OPS))
|
---|
5076 | goto normal_char;
|
---|
5077 |
|
---|
5078 | handle_plus:
|
---|
5079 | case '*':
|
---|
5080 | /* If there is no previous pattern... */
|
---|
5081 | if (pointless_if_repeated (*last_expression, params))
|
---|
5082 | {
|
---|
5083 | if (syntax & RE_CONTEXT_INVALID_OPS)
|
---|
5084 | return REG_BADRPT;
|
---|
5085 | else if (!(syntax & RE_CONTEXT_INDEP_OPS))
|
---|
5086 | goto normal_char;
|
---|
5087 | }
|
---|
5088 |
|
---|
5089 | {
|
---|
5090 | /* 1 means zero (many) matches is allowed. */
|
---|
5091 | char zero_times_ok = 0, many_times_ok = 0;
|
---|
5092 |
|
---|
5093 | /* If there is a sequence of repetition chars, collapse it
|
---|
5094 | down to just one (the right one). We can't combine
|
---|
5095 | interval operators with these because of, e.g., `a{2}*',
|
---|
5096 | which should only match an even number of `a's. */
|
---|
5097 |
|
---|
5098 | for (;;)
|
---|
5099 | {
|
---|
5100 | zero_times_ok |= c != '+';
|
---|
5101 | many_times_ok |= c != '?';
|
---|
5102 |
|
---|
5103 | if (p == pend)
|
---|
5104 | break;
|
---|
5105 |
|
---|
5106 | PATFETCH (c);
|
---|
5107 |
|
---|
5108 | if (c == '*'
|
---|
5109 | || (!(syntax & RE_BK_PLUS_QM) && (c == '+' || c == '?')))
|
---|
5110 | ;
|
---|
5111 |
|
---|
5112 | else if (syntax & RE_BK_PLUS_QM && c == '\\')
|
---|
5113 | {
|
---|
5114 | if (p == pend) return REG_EESCAPE;
|
---|
5115 |
|
---|
5116 | PATFETCH (c1);
|
---|
5117 | if (!(c1 == '+' || c1 == '?'))
|
---|
5118 | {
|
---|
5119 | PATUNFETCH;
|
---|
5120 | PATUNFETCH;
|
---|
5121 | break;
|
---|
5122 | }
|
---|
5123 |
|
---|
5124 | c = c1;
|
---|
5125 | }
|
---|
5126 | else
|
---|
5127 | {
|
---|
5128 | PATUNFETCH;
|
---|
5129 | break;
|
---|
5130 | }
|
---|
5131 |
|
---|
5132 | /* If we get here, we found another repeat character. */
|
---|
5133 | }
|
---|
5134 |
|
---|
5135 | /* Star, etc. applied to an empty pattern is equivalent
|
---|
5136 | to an empty pattern. */
|
---|
5137 | if (!last_expression)
|
---|
5138 | break;
|
---|
5139 |
|
---|
5140 | /* Now we know whether or not zero matches is allowed
|
---|
5141 | * and also whether or not two or more matches is allowed.
|
---|
5142 | */
|
---|
5143 |
|
---|
5144 | {
|
---|
5145 | struct rexp_node * inner_exp = *last_expression;
|
---|
5146 | int need_sync = 0;
|
---|
5147 |
|
---|
5148 | if (many_times_ok
|
---|
5149 | && has_non_idempotent_epsilon_path (&rxb->rx,
|
---|
5150 | inner_exp, params))
|
---|
5151 | {
|
---|
5152 | struct rexp_node * pusher
|
---|
5153 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5154 | (rx_side_effect)re_se_pushpos);
|
---|
5155 | struct rexp_node * checker
|
---|
5156 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5157 | (rx_side_effect)re_se_chkpos);
|
---|
5158 | struct rexp_node * pushback
|
---|
5159 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5160 | (rx_side_effect)re_se_pushback);
|
---|
5161 | rx_Bitset cs = rx_cset (&rxb->rx);
|
---|
5162 | struct rexp_node * lit_t = rx_mk_r_cset (&rxb->rx, cs);
|
---|
5163 | struct rexp_node * fake_state
|
---|
5164 | = rx_mk_r_concat (&rxb->rx, pushback, lit_t);
|
---|
5165 | struct rexp_node * phase2
|
---|
5166 | = rx_mk_r_concat (&rxb->rx, checker, fake_state);
|
---|
5167 | struct rexp_node * popper
|
---|
5168 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5169 | (rx_side_effect)re_se_poppos);
|
---|
5170 | struct rexp_node * star
|
---|
5171 | = rx_mk_r_2phase_star (&rxb->rx, inner_exp, phase2);
|
---|
5172 | struct rexp_node * a
|
---|
5173 | = rx_mk_r_concat (&rxb->rx, pusher, star);
|
---|
5174 | struct rexp_node * whole_thing
|
---|
5175 | = rx_mk_r_concat (&rxb->rx, a, popper);
|
---|
5176 | if (!(pusher && star && pushback && lit_t && fake_state
|
---|
5177 | && lit_t && phase2 && checker && popper
|
---|
5178 | && a && whole_thing))
|
---|
5179 | return REG_ESPACE;
|
---|
5180 | RX_bitset_enjoin (cs, 't');
|
---|
5181 | *last_expression = whole_thing;
|
---|
5182 | }
|
---|
5183 | else
|
---|
5184 | {
|
---|
5185 | struct rexp_node * star =
|
---|
5186 | (many_times_ok ? rx_mk_r_star : rx_mk_r_opt)
|
---|
5187 | (&rxb->rx, *last_expression);
|
---|
5188 | if (!star)
|
---|
5189 | return REG_ESPACE;
|
---|
5190 | *last_expression = star;
|
---|
5191 | need_sync = has_any_se (&rxb->rx, *last_expression);
|
---|
5192 | }
|
---|
5193 | if (!zero_times_ok)
|
---|
5194 | {
|
---|
5195 | struct rexp_node * concat
|
---|
5196 | = rx_mk_r_concat (&rxb->rx, inner_exp,
|
---|
5197 | rx_copy_rexp (&rxb->rx,
|
---|
5198 | *last_expression));
|
---|
5199 | if (!concat)
|
---|
5200 | return REG_ESPACE;
|
---|
5201 | *last_expression = concat;
|
---|
5202 | }
|
---|
5203 | if (need_sync)
|
---|
5204 | {
|
---|
5205 | int sync_se = paramc;
|
---|
5206 | params = (params
|
---|
5207 | ? ((struct re_se_params *)
|
---|
5208 | realloc (params,
|
---|
5209 | sizeof (*params) * (1 + paramc)))
|
---|
5210 | : ((struct re_se_params *)
|
---|
5211 | malloc (sizeof (*params))));
|
---|
5212 | if (!params)
|
---|
5213 | return REG_ESPACE;
|
---|
5214 | ++paramc;
|
---|
5215 | params [sync_se].se = re_se_tv;
|
---|
5216 | side = (rx_side_effect)sync_se;
|
---|
5217 | goto add_side_effect;
|
---|
5218 | }
|
---|
5219 | }
|
---|
5220 | /* The old regex.c used to optimize `.*\n'.
|
---|
5221 | * Maybe rx should too?
|
---|
5222 | */
|
---|
5223 | }
|
---|
5224 | break;
|
---|
5225 |
|
---|
5226 |
|
---|
5227 | case '.':
|
---|
5228 | {
|
---|
5229 | rx_Bitset cs = rx_cset (&rxb->rx);
|
---|
5230 | struct rexp_node * n = rx_mk_r_cset (&rxb->rx, cs);
|
---|
5231 | if (!(cs && n))
|
---|
5232 | return REG_ESPACE;
|
---|
5233 |
|
---|
5234 | rx_bitset_universe (rxb->rx.local_cset_size, cs);
|
---|
5235 | if (!(rxb->syntax & RE_DOT_NEWLINE))
|
---|
5236 | RX_bitset_remove (cs, '\n');
|
---|
5237 | if (!(rxb->syntax & RE_DOT_NOT_NULL))
|
---|
5238 | RX_bitset_remove (cs, 0);
|
---|
5239 |
|
---|
5240 | append = n;
|
---|
5241 | goto append_node;
|
---|
5242 | break;
|
---|
5243 | }
|
---|
5244 |
|
---|
5245 |
|
---|
5246 | case '[':
|
---|
5247 | if (p == pend) return REG_EBRACK;
|
---|
5248 | {
|
---|
5249 | boolean had_char_class = false;
|
---|
5250 | rx_Bitset cs = rx_cset (&rxb->rx);
|
---|
5251 | struct rexp_node * node = rx_mk_r_cset (&rxb->rx, cs);
|
---|
5252 | int is_inverted = *p == '^';
|
---|
5253 |
|
---|
5254 | if (!(node && cs))
|
---|
5255 | return REG_ESPACE;
|
---|
5256 |
|
---|
5257 | /* This branch of the switch is normally exited with
|
---|
5258 | *`goto append_node'
|
---|
5259 | */
|
---|
5260 | append = node;
|
---|
5261 |
|
---|
5262 | if (is_inverted)
|
---|
5263 | p++;
|
---|
5264 |
|
---|
5265 | /* Remember the first position in the bracket expression. */
|
---|
5266 | p1 = p;
|
---|
5267 |
|
---|
5268 | /* Read in characters and ranges, setting map bits. */
|
---|
5269 | for (;;)
|
---|
5270 | {
|
---|
5271 | if (p == pend) return REG_EBRACK;
|
---|
5272 |
|
---|
5273 | PATFETCH (c);
|
---|
5274 |
|
---|
5275 | /* \ might escape characters inside [...] and [^...]. */
|
---|
5276 | if ((syntax & RE_BACKSLASH_ESCAPE_IN_LISTS) && c == '\\')
|
---|
5277 | {
|
---|
5278 | if (p == pend) return REG_EESCAPE;
|
---|
5279 |
|
---|
5280 | PATFETCH (c1);
|
---|
5281 | {
|
---|
5282 | rx_Bitset it = inverse_translation (rxb,
|
---|
5283 | validate_inv_tr,
|
---|
5284 | inverse_translate,
|
---|
5285 | translate,
|
---|
5286 | c1);
|
---|
5287 | rx_bitset_union (rxb->rx.local_cset_size, cs, it);
|
---|
5288 | }
|
---|
5289 | continue;
|
---|
5290 | }
|
---|
5291 |
|
---|
5292 | /* Could be the end of the bracket expression. If it's
|
---|
5293 | not (i.e., when the bracket expression is `[]' so
|
---|
5294 | far), the ']' character bit gets set way below. */
|
---|
5295 | if (c == ']' && p != p1 + 1)
|
---|
5296 | goto finalize_class_and_append;
|
---|
5297 |
|
---|
5298 | /* Look ahead to see if it's a range when the last thing
|
---|
5299 | was a character class. */
|
---|
5300 | if (had_char_class && c == '-' && *p != ']')
|
---|
5301 | return REG_ERANGE;
|
---|
5302 |
|
---|
5303 | /* Look ahead to see if it's a range when the last thing
|
---|
5304 | was a character: if this is a hyphen not at the
|
---|
5305 | beginning or the end of a list, then it's the range
|
---|
5306 | operator. */
|
---|
5307 | if (c == '-'
|
---|
5308 | && !(p - 2 >= pattern && p[-2] == '[')
|
---|
5309 | && !(p - 3 >= pattern && p[-3] == '[' && p[-2] == '^')
|
---|
5310 | && *p != ']')
|
---|
5311 | {
|
---|
5312 | reg_errcode_t ret
|
---|
5313 | = compile_range (rxb, cs, &p, pend, translate, syntax,
|
---|
5314 | inverse_translate, validate_inv_tr);
|
---|
5315 | if (ret != REG_NOERROR) return ret;
|
---|
5316 | }
|
---|
5317 |
|
---|
5318 | else if (p[0] == '-' && p[1] != ']')
|
---|
5319 | { /* This handles ranges made up of characters only. */
|
---|
5320 | reg_errcode_t ret;
|
---|
5321 |
|
---|
5322 | /* Move past the `-'. */
|
---|
5323 | PATFETCH (c1);
|
---|
5324 |
|
---|
5325 | ret = compile_range (rxb, cs, &p, pend, translate, syntax,
|
---|
5326 | inverse_translate, validate_inv_tr);
|
---|
5327 | if (ret != REG_NOERROR) return ret;
|
---|
5328 | }
|
---|
5329 |
|
---|
5330 | /* See if we're at the beginning of a possible character
|
---|
5331 | class. */
|
---|
5332 |
|
---|
5333 | else if ((syntax & RE_CHAR_CLASSES)
|
---|
5334 | && (c == '[') && (*p == ':'))
|
---|
5335 | {
|
---|
5336 | char str[CHAR_CLASS_MAX_LENGTH + 1];
|
---|
5337 |
|
---|
5338 | PATFETCH (c);
|
---|
5339 | c1 = 0;
|
---|
5340 |
|
---|
5341 | /* If pattern is `[[:'. */
|
---|
5342 | if (p == pend) return REG_EBRACK;
|
---|
5343 |
|
---|
5344 | for (;;)
|
---|
5345 | {
|
---|
5346 | PATFETCH (c);
|
---|
5347 | if (c == ':' || c == ']' || p == pend
|
---|
5348 | || c1 == CHAR_CLASS_MAX_LENGTH)
|
---|
5349 | break;
|
---|
5350 | str[c1++] = c;
|
---|
5351 | }
|
---|
5352 | str[c1] = '\0';
|
---|
5353 |
|
---|
5354 | /* If isn't a word bracketed by `[:' and:`]':
|
---|
5355 | undo the ending character, the letters, and leave
|
---|
5356 | the leading `:' and `[' (but set bits for them). */
|
---|
5357 | if (c == ':' && *p == ']')
|
---|
5358 | {
|
---|
5359 | int ch;
|
---|
5360 | boolean is_alnum = !strcmp (str, "alnum");
|
---|
5361 | boolean is_alpha = !strcmp (str, "alpha");
|
---|
5362 | boolean is_blank = !strcmp (str, "blank");
|
---|
5363 | boolean is_cntrl = !strcmp (str, "cntrl");
|
---|
5364 | boolean is_digit = !strcmp (str, "digit");
|
---|
5365 | boolean is_graph = !strcmp (str, "graph");
|
---|
5366 | boolean is_lower = !strcmp (str, "lower");
|
---|
5367 | boolean is_print = !strcmp (str, "print");
|
---|
5368 | boolean is_punct = !strcmp (str, "punct");
|
---|
5369 | boolean is_space = !strcmp (str, "space");
|
---|
5370 | boolean is_upper = !strcmp (str, "upper");
|
---|
5371 | boolean is_xdigit = !strcmp (str, "xdigit");
|
---|
5372 |
|
---|
5373 | if (!IS_CHAR_CLASS (str)) return REG_ECTYPE;
|
---|
5374 |
|
---|
5375 | /* Throw away the ] at the end of the character
|
---|
5376 | class. */
|
---|
5377 | PATFETCH (c);
|
---|
5378 |
|
---|
5379 | if (p == pend) return REG_EBRACK;
|
---|
5380 |
|
---|
5381 | for (ch = 0; ch < 1 << CHARBITS; ch++)
|
---|
5382 | {
|
---|
5383 | if ( (is_alnum && isalnum (ch))
|
---|
5384 | || (is_alpha && isalpha (ch))
|
---|
5385 | || (is_blank && isblank (ch))
|
---|
5386 | || (is_cntrl && iscntrl (ch))
|
---|
5387 | || (is_digit && isdigit (ch))
|
---|
5388 | || (is_graph && isgraph (ch))
|
---|
5389 | || (is_lower && islower (ch))
|
---|
5390 | || (is_print && isprint (ch))
|
---|
5391 | || (is_punct && ispunct (ch))
|
---|
5392 | || (is_space && isspace (ch))
|
---|
5393 | || (is_upper && isupper (ch))
|
---|
5394 | || (is_xdigit && isxdigit (ch)))
|
---|
5395 | {
|
---|
5396 | rx_Bitset it =
|
---|
5397 | inverse_translation (rxb,
|
---|
5398 | validate_inv_tr,
|
---|
5399 | inverse_translate,
|
---|
5400 | translate,
|
---|
5401 | ch);
|
---|
5402 | rx_bitset_union (rxb->rx.local_cset_size,
|
---|
5403 | cs, it);
|
---|
5404 | }
|
---|
5405 | }
|
---|
5406 | had_char_class = true;
|
---|
5407 | }
|
---|
5408 | else
|
---|
5409 | {
|
---|
5410 | c1++;
|
---|
5411 | while (c1--)
|
---|
5412 | PATUNFETCH;
|
---|
5413 | {
|
---|
5414 | rx_Bitset it =
|
---|
5415 | inverse_translation (rxb,
|
---|
5416 | validate_inv_tr,
|
---|
5417 | inverse_translate,
|
---|
5418 | translate,
|
---|
5419 | '[');
|
---|
5420 | rx_bitset_union (rxb->rx.local_cset_size,
|
---|
5421 | cs, it);
|
---|
5422 | }
|
---|
5423 | {
|
---|
5424 | rx_Bitset it =
|
---|
5425 | inverse_translation (rxb,
|
---|
5426 | validate_inv_tr,
|
---|
5427 | inverse_translate,
|
---|
5428 | translate,
|
---|
5429 | ':');
|
---|
5430 | rx_bitset_union (rxb->rx.local_cset_size,
|
---|
5431 | cs, it);
|
---|
5432 | }
|
---|
5433 | had_char_class = false;
|
---|
5434 | }
|
---|
5435 | }
|
---|
5436 | else
|
---|
5437 | {
|
---|
5438 | had_char_class = false;
|
---|
5439 | {
|
---|
5440 | rx_Bitset it = inverse_translation (rxb,
|
---|
5441 | validate_inv_tr,
|
---|
5442 | inverse_translate,
|
---|
5443 | translate,
|
---|
5444 | c);
|
---|
5445 | rx_bitset_union (rxb->rx.local_cset_size, cs, it);
|
---|
5446 | }
|
---|
5447 | }
|
---|
5448 | }
|
---|
5449 |
|
---|
5450 | finalize_class_and_append:
|
---|
5451 | if (is_inverted)
|
---|
5452 | {
|
---|
5453 | rx_bitset_complement (rxb->rx.local_cset_size, cs);
|
---|
5454 | if (syntax & RE_HAT_LISTS_NOT_NEWLINE)
|
---|
5455 | RX_bitset_remove (cs, '\n');
|
---|
5456 | }
|
---|
5457 | goto append_node;
|
---|
5458 | }
|
---|
5459 | break;
|
---|
5460 |
|
---|
5461 |
|
---|
5462 | case '(':
|
---|
5463 | if (syntax & RE_NO_BK_PARENS)
|
---|
5464 | goto handle_open;
|
---|
5465 | else
|
---|
5466 | goto normal_char;
|
---|
5467 |
|
---|
5468 |
|
---|
5469 | case ')':
|
---|
5470 | if (syntax & RE_NO_BK_PARENS)
|
---|
5471 | goto handle_close;
|
---|
5472 | else
|
---|
5473 | goto normal_char;
|
---|
5474 |
|
---|
5475 |
|
---|
5476 | case '\n':
|
---|
5477 | if (syntax & RE_NEWLINE_ALT)
|
---|
5478 | goto handle_alt;
|
---|
5479 | else
|
---|
5480 | goto normal_char;
|
---|
5481 |
|
---|
5482 |
|
---|
5483 | case '|':
|
---|
5484 | if (syntax & RE_NO_BK_VBAR)
|
---|
5485 | goto handle_alt;
|
---|
5486 | else
|
---|
5487 | goto normal_char;
|
---|
5488 |
|
---|
5489 |
|
---|
5490 | case '{':
|
---|
5491 | if ((syntax & RE_INTERVALS) && (syntax & RE_NO_BK_BRACES))
|
---|
5492 | goto handle_interval;
|
---|
5493 | else
|
---|
5494 | goto normal_char;
|
---|
5495 |
|
---|
5496 |
|
---|
5497 | case '\\':
|
---|
5498 | if (p == pend) return REG_EESCAPE;
|
---|
5499 |
|
---|
5500 | /* Do not translate the character after the \, so that we can
|
---|
5501 | distinguish, e.g., \B from \b, even if we normally would
|
---|
5502 | translate, e.g., B to b. */
|
---|
5503 | PATFETCH_RAW (c);
|
---|
5504 |
|
---|
5505 | switch (c)
|
---|
5506 | {
|
---|
5507 | case '(':
|
---|
5508 | if (syntax & RE_NO_BK_PARENS)
|
---|
5509 | goto normal_backslash;
|
---|
5510 |
|
---|
5511 | handle_open:
|
---|
5512 | rxb->re_nsub++;
|
---|
5513 | regnum++;
|
---|
5514 | if (COMPILE_STACK_FULL)
|
---|
5515 | {
|
---|
5516 | ((compile_stack.stack) =
|
---|
5517 | (compile_stack_elt_t *) realloc (compile_stack.stack, ( compile_stack.size << 1) * sizeof (
|
---|
5518 | compile_stack_elt_t)));
|
---|
5519 | if (compile_stack.stack == 0) return REG_ESPACE;
|
---|
5520 |
|
---|
5521 | compile_stack.size <<= 1;
|
---|
5522 | }
|
---|
5523 |
|
---|
5524 | if (*last_expression)
|
---|
5525 | {
|
---|
5526 | struct rexp_node * concat
|
---|
5527 | = rx_mk_r_concat (&rxb->rx, *last_expression, 0);
|
---|
5528 | if (!concat)
|
---|
5529 | return REG_ESPACE;
|
---|
5530 | *last_expression = concat;
|
---|
5531 | last_expression = &concat->params.pair.right;
|
---|
5532 | }
|
---|
5533 |
|
---|
5534 | /*
|
---|
5535 | * These are the values to restore when we hit end of this
|
---|
5536 | * group.
|
---|
5537 | */
|
---|
5538 | COMPILE_STACK_TOP.top_expression = top_expression;
|
---|
5539 | COMPILE_STACK_TOP.last_expression = last_expression;
|
---|
5540 | COMPILE_STACK_TOP.regnum = regnum;
|
---|
5541 |
|
---|
5542 | compile_stack.avail++;
|
---|
5543 |
|
---|
5544 | top_expression = last_expression;
|
---|
5545 | break;
|
---|
5546 |
|
---|
5547 |
|
---|
5548 | case ')':
|
---|
5549 | if (syntax & RE_NO_BK_PARENS) goto normal_backslash;
|
---|
5550 |
|
---|
5551 | handle_close:
|
---|
5552 | /* See similar code for backslashed left paren above. */
|
---|
5553 | if (COMPILE_STACK_EMPTY)
|
---|
5554 | if (syntax & RE_UNMATCHED_RIGHT_PAREN_ORD)
|
---|
5555 | goto normal_char;
|
---|
5556 | else
|
---|
5557 | return REG_ERPAREN;
|
---|
5558 |
|
---|
5559 | /* Since we just checked for an empty stack above, this
|
---|
5560 | ``can't happen''. */
|
---|
5561 |
|
---|
5562 | {
|
---|
5563 | /* We don't just want to restore into `regnum', because
|
---|
5564 | later groups should continue to be numbered higher,
|
---|
5565 | as in `(ab)c(de)' -- the second group is #2. */
|
---|
5566 | regnum_t this_group_regnum;
|
---|
5567 | struct rexp_node ** inner = top_expression;
|
---|
5568 |
|
---|
5569 | compile_stack.avail--;
|
---|
5570 | top_expression = COMPILE_STACK_TOP.top_expression;
|
---|
5571 | last_expression = COMPILE_STACK_TOP.last_expression;
|
---|
5572 | this_group_regnum = COMPILE_STACK_TOP.regnum;
|
---|
5573 | {
|
---|
5574 | int left_se = paramc;
|
---|
5575 | int right_se = paramc + 1;
|
---|
5576 |
|
---|
5577 | params = (params
|
---|
5578 | ? ((struct re_se_params *)
|
---|
5579 | realloc (params,
|
---|
5580 | (paramc + 2) * sizeof (params[0])))
|
---|
5581 | : ((struct re_se_params *)
|
---|
5582 | malloc (2 * sizeof (params[0]))));
|
---|
5583 | if (!params)
|
---|
5584 | return REG_ESPACE;
|
---|
5585 | paramc += 2;
|
---|
5586 |
|
---|
5587 | params[left_se].se = re_se_lparen;
|
---|
5588 | params[left_se].op1 = this_group_regnum;
|
---|
5589 | params[right_se].se = re_se_rparen;
|
---|
5590 | params[right_se].op1 = this_group_regnum;
|
---|
5591 | {
|
---|
5592 | struct rexp_node * left
|
---|
5593 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5594 | (rx_side_effect)left_se);
|
---|
5595 | struct rexp_node * right
|
---|
5596 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5597 | (rx_side_effect)right_se);
|
---|
5598 | struct rexp_node * c1
|
---|
5599 | = (*inner
|
---|
5600 | ? rx_mk_r_concat (&rxb->rx, left, *inner) : left);
|
---|
5601 | struct rexp_node * c2
|
---|
5602 | = rx_mk_r_concat (&rxb->rx, c1, right);
|
---|
5603 | if (!(left && right && c1 && c2))
|
---|
5604 | return REG_ESPACE;
|
---|
5605 | *inner = c2;
|
---|
5606 | }
|
---|
5607 | }
|
---|
5608 | break;
|
---|
5609 | }
|
---|
5610 |
|
---|
5611 | case '|': /* `\|'. */
|
---|
5612 | if ((syntax & RE_LIMITED_OPS) || (syntax & RE_NO_BK_VBAR))
|
---|
5613 | goto normal_backslash;
|
---|
5614 | handle_alt:
|
---|
5615 | if (syntax & RE_LIMITED_OPS)
|
---|
5616 | goto normal_char;
|
---|
5617 |
|
---|
5618 | {
|
---|
5619 | struct rexp_node * alt
|
---|
5620 | = rx_mk_r_alternate (&rxb->rx, *top_expression, 0);
|
---|
5621 | if (!alt)
|
---|
5622 | return REG_ESPACE;
|
---|
5623 | *top_expression = alt;
|
---|
5624 | last_expression = &alt->params.pair.right;
|
---|
5625 | {
|
---|
5626 | int sync_se = paramc;
|
---|
5627 |
|
---|
5628 | params = (params
|
---|
5629 | ? ((struct re_se_params *)
|
---|
5630 | realloc (params,
|
---|
5631 | (paramc + 1) * sizeof (params[0])))
|
---|
5632 | : ((struct re_se_params *)
|
---|
5633 | malloc (sizeof (params[0]))));
|
---|
5634 | if (!params)
|
---|
5635 | return REG_ESPACE;
|
---|
5636 | ++paramc;
|
---|
5637 |
|
---|
5638 | params[sync_se].se = re_se_tv;
|
---|
5639 | {
|
---|
5640 | struct rexp_node * sync
|
---|
5641 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5642 | (rx_side_effect)sync_se);
|
---|
5643 | struct rexp_node * conc
|
---|
5644 | = rx_mk_r_concat (&rxb->rx, sync, 0);
|
---|
5645 |
|
---|
5646 | if (!sync || !conc)
|
---|
5647 | return REG_ESPACE;
|
---|
5648 |
|
---|
5649 | *last_expression = conc;
|
---|
5650 | last_expression = &conc->params.pair.right;
|
---|
5651 | }
|
---|
5652 | }
|
---|
5653 | }
|
---|
5654 | break;
|
---|
5655 |
|
---|
5656 |
|
---|
5657 | case '{':
|
---|
5658 | /* If \{ is a literal. */
|
---|
5659 | if (!(syntax & RE_INTERVALS)
|
---|
5660 | /* If we're at `\{' and it's not the open-interval
|
---|
5661 | operator. */
|
---|
5662 | || ((syntax & RE_INTERVALS) && (syntax & RE_NO_BK_BRACES))
|
---|
5663 | || (p - 2 == pattern && p == pend))
|
---|
5664 | goto normal_backslash;
|
---|
5665 |
|
---|
5666 | handle_interval:
|
---|
5667 | {
|
---|
5668 | /* If got here, then the syntax allows intervals. */
|
---|
5669 |
|
---|
5670 | /* At least (most) this many matches must be made. */
|
---|
5671 | int lower_bound = -1, upper_bound = -1;
|
---|
5672 |
|
---|
5673 | beg_interval = p - 1;
|
---|
5674 |
|
---|
5675 | if (p == pend)
|
---|
5676 | {
|
---|
5677 | if (syntax & RE_NO_BK_BRACES)
|
---|
5678 | goto unfetch_interval;
|
---|
5679 | else
|
---|
5680 | return REG_EBRACE;
|
---|
5681 | }
|
---|
5682 |
|
---|
5683 | GET_UNSIGNED_NUMBER (lower_bound);
|
---|
5684 |
|
---|
5685 | if (c == ',')
|
---|
5686 | {
|
---|
5687 | GET_UNSIGNED_NUMBER (upper_bound);
|
---|
5688 | if (upper_bound < 0) upper_bound = RE_DUP_MAX;
|
---|
5689 | }
|
---|
5690 | else
|
---|
5691 | /* Interval such as `{1}' => match exactly once. */
|
---|
5692 | upper_bound = lower_bound;
|
---|
5693 |
|
---|
5694 | if (lower_bound < 0 || upper_bound > RE_DUP_MAX
|
---|
5695 | || lower_bound > upper_bound)
|
---|
5696 | {
|
---|
5697 | if (syntax & RE_NO_BK_BRACES)
|
---|
5698 | goto unfetch_interval;
|
---|
5699 | else
|
---|
5700 | return REG_BADBR;
|
---|
5701 | }
|
---|
5702 |
|
---|
5703 | if (!(syntax & RE_NO_BK_BRACES))
|
---|
5704 | {
|
---|
5705 | if (c != '\\') return REG_EBRACE;
|
---|
5706 | PATFETCH (c);
|
---|
5707 | }
|
---|
5708 |
|
---|
5709 | if (c != '}')
|
---|
5710 | {
|
---|
5711 | if (syntax & RE_NO_BK_BRACES)
|
---|
5712 | goto unfetch_interval;
|
---|
5713 | else
|
---|
5714 | return REG_BADBR;
|
---|
5715 | }
|
---|
5716 |
|
---|
5717 | /* We just parsed a valid interval. */
|
---|
5718 |
|
---|
5719 | /* If it's invalid to have no preceding re. */
|
---|
5720 | if (pointless_if_repeated (*last_expression, params))
|
---|
5721 | {
|
---|
5722 | if (syntax & RE_CONTEXT_INVALID_OPS)
|
---|
5723 | return REG_BADRPT;
|
---|
5724 | else if (!(syntax & RE_CONTEXT_INDEP_OPS))
|
---|
5725 | goto unfetch_interval;
|
---|
5726 | /* was: else laststart = b; */
|
---|
5727 | }
|
---|
5728 |
|
---|
5729 | /* If the upper bound is zero, don't want to iterate
|
---|
5730 | * at all.
|
---|
5731 | */
|
---|
5732 | if (upper_bound == 0)
|
---|
5733 | {
|
---|
5734 | if (*last_expression)
|
---|
5735 | {
|
---|
5736 | rx_free_rexp (&rxb->rx, *last_expression);
|
---|
5737 | *last_expression = 0;
|
---|
5738 | }
|
---|
5739 | }
|
---|
5740 | else
|
---|
5741 | /* Otherwise, we have a nontrivial interval. */
|
---|
5742 | {
|
---|
5743 | int iter_se = paramc;
|
---|
5744 | int end_se = paramc + 1;
|
---|
5745 | params = (params
|
---|
5746 | ? ((struct re_se_params *)
|
---|
5747 | realloc (params,
|
---|
5748 | sizeof (*params) * (2 + paramc)))
|
---|
5749 | : ((struct re_se_params *)
|
---|
5750 | malloc (2 * sizeof (*params))));
|
---|
5751 | if (!params)
|
---|
5752 | return REG_ESPACE;
|
---|
5753 | paramc += 2;
|
---|
5754 | params [iter_se].se = re_se_iter;
|
---|
5755 | params [iter_se].op1 = lower_bound;
|
---|
5756 | params[iter_se].op2 = upper_bound;
|
---|
5757 |
|
---|
5758 | params[end_se].se = re_se_end_iter;
|
---|
5759 | params[end_se].op1 = lower_bound;
|
---|
5760 | params[end_se].op2 = upper_bound;
|
---|
5761 | {
|
---|
5762 | struct rexp_node * push0
|
---|
5763 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5764 | (rx_side_effect)re_se_push0);
|
---|
5765 | struct rexp_node * start_one_iter
|
---|
5766 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5767 | (rx_side_effect)iter_se);
|
---|
5768 | struct rexp_node * phase1
|
---|
5769 | = rx_mk_r_concat (&rxb->rx, start_one_iter,
|
---|
5770 | *last_expression);
|
---|
5771 | struct rexp_node * pushback
|
---|
5772 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5773 | (rx_side_effect)re_se_pushback);
|
---|
5774 | rx_Bitset cs = rx_cset (&rxb->rx);
|
---|
5775 | struct rexp_node * lit_t
|
---|
5776 | = rx_mk_r_cset (&rxb->rx, cs);
|
---|
5777 | struct rexp_node * phase2
|
---|
5778 | = rx_mk_r_concat (&rxb->rx, pushback, lit_t);
|
---|
5779 | struct rexp_node * loop
|
---|
5780 | = rx_mk_r_2phase_star (&rxb->rx, phase1, phase2);
|
---|
5781 | struct rexp_node * push_n_loop
|
---|
5782 | = rx_mk_r_concat (&rxb->rx, push0, loop);
|
---|
5783 | struct rexp_node * final_test
|
---|
5784 | = rx_mk_r_side_effect (&rxb->rx,
|
---|
5785 | (rx_side_effect)end_se);
|
---|
5786 | struct rexp_node * full_exp
|
---|
5787 | = rx_mk_r_concat (&rxb->rx, push_n_loop, final_test);
|
---|
5788 |
|
---|
5789 | if (!(push0 && start_one_iter && phase1
|
---|
5790 | && pushback && lit_t && phase2
|
---|
5791 | && loop && push_n_loop && final_test && full_exp))
|
---|
5792 | return REG_ESPACE;
|
---|
5793 |
|
---|
5794 | RX_bitset_enjoin(cs, 't');
|
---|
5795 |
|
---|
5796 | *last_expression = full_exp;
|
---|
5797 | }
|
---|
5798 | }
|
---|
5799 | beg_interval = 0;
|
---|
5800 | }
|
---|
5801 | break;
|
---|
5802 |
|
---|
5803 | unfetch_interval:
|
---|
5804 | /* If an invalid interval, match the characters as literals. */
|
---|
5805 | p = beg_interval;
|
---|
5806 | beg_interval = 0;
|
---|
5807 |
|
---|
5808 | /* normal_char and normal_backslash need `c'. */
|
---|
5809 | PATFETCH (c);
|
---|
5810 |
|
---|
5811 | if (!(syntax & RE_NO_BK_BRACES))
|
---|
5812 | {
|
---|
5813 | if (p > pattern && p[-1] == '\\')
|
---|
5814 | goto normal_backslash;
|
---|
5815 | }
|
---|
5816 | goto normal_char;
|
---|
5817 |
|
---|
5818 | #ifdef emacs
|
---|
5819 | /* There is no way to specify the before_dot and after_dot
|
---|
5820 | operators. rms says this is ok. --karl */
|
---|
5821 | case '=':
|
---|
5822 | side = (rx_side_effect)rx_se_at_dot;
|
---|
5823 | goto add_side_effect;
|
---|
5824 | break;
|
---|
5825 |
|
---|
5826 | case 's':
|
---|
5827 | case 'S':
|
---|
5828 | {
|
---|
5829 | rx_Bitset cs = rx_cset (&rxb->rx);
|
---|
5830 | struct rexp_node * set = rx_mk_r_cset (&rxb->rx, cs);
|
---|
5831 | if (!(cs && set))
|
---|
5832 | return REG_ESPACE;
|
---|
5833 | if (c == 'S')
|
---|
5834 | rx_bitset_universe (rxb->rx.local_cset_size, cs);
|
---|
5835 |
|
---|
5836 | PATFETCH (c);
|
---|
5837 | {
|
---|
5838 | int x;
|
---|
5839 | enum syntaxcode code = syntax_spec_code [c];
|
---|
5840 | for (x = 0; x < 256; ++x)
|
---|
5841 | {
|
---|
5842 |
|
---|
5843 | if (SYNTAX (x) == code)
|
---|
5844 | {
|
---|
5845 | rx_Bitset it =
|
---|
5846 | inverse_translation (rxb, validate_inv_tr,
|
---|
5847 | inverse_translate,
|
---|
5848 | translate, x);
|
---|
5849 | rx_bitset_xor (rxb->rx.local_cset_size, cs, it);
|
---|
5850 | }
|
---|
5851 | }
|
---|
5852 | }
|
---|
5853 | append = set;
|
---|
5854 | goto append_node;
|
---|
5855 | }
|
---|
5856 | break;
|
---|
5857 | #endif /* emacs */
|
---|
5858 |
|
---|
5859 |
|
---|
5860 | case 'w':
|
---|
5861 | case 'W':
|
---|
5862 | {
|
---|
5863 | rx_Bitset cs = rx_cset (&rxb->rx);
|
---|
5864 | struct rexp_node * n = (cs ? rx_mk_r_cset (&rxb->rx, cs) : 0);
|
---|
5865 | if (!(cs && n))
|
---|
5866 | return REG_ESPACE;
|
---|
5867 | if (c == 'W')
|
---|
5868 | rx_bitset_universe (rxb->rx.local_cset_size ,cs);
|
---|
5869 | {
|
---|
5870 | int x;
|
---|
5871 | for (x = rxb->rx.local_cset_size - 1; x > 0; --x)
|
---|
5872 | if (SYNTAX(x) & Sword)
|
---|
5873 | RX_bitset_toggle (cs, x);
|
---|
5874 | }
|
---|
5875 | append = n;
|
---|
5876 | goto append_node;
|
---|
5877 | }
|
---|
5878 | break;
|
---|
5879 |
|
---|
5880 | /* With a little extra work, some of these side effects could be optimized
|
---|
5881 | * away (basicly by looking at what we already know about the surrounding
|
---|
5882 | * chars).
|
---|
5883 | */
|
---|
5884 | case '<':
|
---|
5885 | side = (rx_side_effect)re_se_wordbeg;
|
---|
5886 | goto add_side_effect;
|
---|
5887 | break;
|
---|
5888 |
|
---|
5889 | case '>':
|
---|
5890 | side = (rx_side_effect)re_se_wordend;
|
---|
5891 | goto add_side_effect;
|
---|
5892 | break;
|
---|
5893 |
|
---|
5894 | case 'b':
|
---|
5895 | side = (rx_side_effect)re_se_wordbound;
|
---|
5896 | goto add_side_effect;
|
---|
5897 | break;
|
---|
5898 |
|
---|
5899 | case 'B':
|
---|
5900 | side = (rx_side_effect)re_se_notwordbound;
|
---|
5901 | goto add_side_effect;
|
---|
5902 | break;
|
---|
5903 |
|
---|
5904 | case '`':
|
---|
5905 | side = (rx_side_effect)re_se_begbuf;
|
---|
5906 | goto add_side_effect;
|
---|
5907 | break;
|
---|
5908 |
|
---|
5909 | case '\'':
|
---|
5910 | side = (rx_side_effect)re_se_endbuf;
|
---|
5911 | goto add_side_effect;
|
---|
5912 | break;
|
---|
5913 |
|
---|
5914 | add_side_effect:
|
---|
5915 | {
|
---|
5916 | struct rexp_node * se
|
---|
5917 | = rx_mk_r_side_effect (&rxb->rx, side);
|
---|
5918 | if (!se)
|
---|
5919 | return REG_ESPACE;
|
---|
5920 | append = se;
|
---|
5921 | goto append_node;
|
---|
5922 | }
|
---|
5923 | break;
|
---|
5924 |
|
---|
5925 | case '1': case '2': case '3': case '4': case '5':
|
---|
5926 | case '6': case '7': case '8': case '9':
|
---|
5927 | if (syntax & RE_NO_BK_REFS)
|
---|
5928 | goto normal_char;
|
---|
5929 |
|
---|
5930 | c1 = c - '0';
|
---|
5931 |
|
---|
5932 | if (c1 > regnum)
|
---|
5933 | return REG_ESUBREG;
|
---|
5934 |
|
---|
5935 | /* Can't back reference to a subexpression if inside of it. */
|
---|
5936 | if (group_in_compile_stack (compile_stack, c1))
|
---|
5937 | return REG_ESUBREG;
|
---|
5938 |
|
---|
5939 | {
|
---|
5940 | int backref_se = paramc;
|
---|
5941 | params = (params
|
---|
5942 | ? ((struct re_se_params *)
|
---|
5943 | realloc (params,
|
---|
5944 | sizeof (*params) * (1 + paramc)))
|
---|
5945 | : ((struct re_se_params *)
|
---|
5946 | malloc (sizeof (*params))));
|
---|
5947 | if (!params)
|
---|
5948 | return REG_ESPACE;
|
---|
5949 | ++paramc;
|
---|
5950 | params[backref_se].se = re_se_backref;
|
---|
5951 | params[backref_se].op1 = c1;
|
---|
5952 | side = (rx_side_effect)backref_se;
|
---|
5953 | goto add_side_effect;
|
---|
5954 | }
|
---|
5955 | break;
|
---|
5956 |
|
---|
5957 | case '+':
|
---|
5958 | case '?':
|
---|
5959 | if (syntax & RE_BK_PLUS_QM)
|
---|
5960 | goto handle_plus;
|
---|
5961 | else
|
---|
5962 | goto normal_backslash;
|
---|
5963 |
|
---|
5964 | default:
|
---|
5965 | normal_backslash:
|
---|
5966 | /* You might think it would be useful for \ to mean
|
---|
5967 | not to translate; but if we don't translate it
|
---|
5968 | it will never match anything. */
|
---|
5969 | c = TRANSLATE (c);
|
---|
5970 | goto normal_char;
|
---|
5971 | }
|
---|
5972 | break;
|
---|
5973 |
|
---|
5974 |
|
---|
5975 | default:
|
---|
5976 | /* Expects the character in `c'. */
|
---|
5977 | normal_char:
|
---|
5978 | {
|
---|
5979 | rx_Bitset cs = rx_cset(&rxb->rx);
|
---|
5980 | struct rexp_node * match = rx_mk_r_cset (&rxb->rx, cs);
|
---|
5981 | rx_Bitset it;
|
---|
5982 | if (!(cs && match))
|
---|
5983 | return REG_ESPACE;
|
---|
5984 | it = inverse_translation (rxb, validate_inv_tr,
|
---|
5985 | inverse_translate, translate, c);
|
---|
5986 | rx_bitset_union (CHAR_SET_SIZE, cs, it);
|
---|
5987 | append = match;
|
---|
5988 |
|
---|
5989 | append_node:
|
---|
5990 | /* This genericly appends the rexp APPEND to *LAST_EXPRESSION
|
---|
5991 | * and then parses the next character normally.
|
---|
5992 | */
|
---|
5993 | if (*last_expression)
|
---|
5994 | {
|
---|
5995 | struct rexp_node * concat
|
---|
5996 | = rx_mk_r_concat (&rxb->rx, *last_expression, append);
|
---|
5997 | if (!concat)
|
---|
5998 | return REG_ESPACE;
|
---|
5999 | *last_expression = concat;
|
---|
6000 | last_expression = &concat->params.pair.right;
|
---|
6001 | }
|
---|
6002 | else
|
---|
6003 | *last_expression = append;
|
---|
6004 | }
|
---|
6005 | } /* switch (c) */
|
---|
6006 | } /* while p != pend */
|
---|
6007 |
|
---|
6008 |
|
---|
6009 | {
|
---|
6010 | int win_se = paramc;
|
---|
6011 | params = (params
|
---|
6012 | ? ((struct re_se_params *)
|
---|
6013 | realloc (params,
|
---|
6014 | sizeof (*params) * (1 + paramc)))
|
---|
6015 | : ((struct re_se_params *)
|
---|
6016 | malloc (sizeof (*params))));
|
---|
6017 | if (!params)
|
---|
6018 | return REG_ESPACE;
|
---|
6019 | ++paramc;
|
---|
6020 | params[win_se].se = re_se_win;
|
---|
6021 | {
|
---|
6022 | struct rexp_node * se
|
---|
6023 | = rx_mk_r_side_effect (&rxb->rx, (rx_side_effect)win_se);
|
---|
6024 | struct rexp_node * concat
|
---|
6025 | = rx_mk_r_concat (&rxb->rx, rexp, se);
|
---|
6026 | if (!(se && concat))
|
---|
6027 | return REG_ESPACE;
|
---|
6028 | rexp = concat;
|
---|
6029 | }
|
---|
6030 | }
|
---|
6031 |
|
---|
6032 |
|
---|
6033 | /* Through the pattern now. */
|
---|
6034 |
|
---|
6035 | if (!COMPILE_STACK_EMPTY)
|
---|
6036 | return REG_EPAREN;
|
---|
6037 |
|
---|
6038 | free (compile_stack.stack);
|
---|
6039 |
|
---|
6040 | orig_rexp = rexp;
|
---|
6041 | #ifdef RX_DEBUG
|
---|
6042 | if (rx_debug_compile)
|
---|
6043 | {
|
---|
6044 | dbug_rxb = rxb;
|
---|
6045 | fputs ("\n\nCompiling ", stdout);
|
---|
6046 | fwrite (pattern, 1, size, stdout);
|
---|
6047 | fputs (":\n", stdout);
|
---|
6048 | rxb->se_params = params;
|
---|
6049 | print_rexp (&rxb->rx, orig_rexp, 2, re_seprint, stdout);
|
---|
6050 | }
|
---|
6051 | #endif
|
---|
6052 | {
|
---|
6053 | rx_Bitset cs = rx_cset(&rxb->rx);
|
---|
6054 | rx_Bitset cs2 = rx_cset(&rxb->rx);
|
---|
6055 | #ifdef __WIN32__ /* [RPAP - Feb 97: WIN32 Port] */
|
---|
6056 | char * se_map = (char *) _alloca (paramc);
|
---|
6057 | #else
|
---|
6058 | char * se_map = (char *) alloca (paramc);
|
---|
6059 | #endif
|
---|
6060 | struct rexp_node * new_rexp = 0;
|
---|
6061 |
|
---|
6062 |
|
---|
6063 | bzero (se_map, paramc);
|
---|
6064 | find_backrefs (se_map, rexp, params);
|
---|
6065 | fewer_side_effects =
|
---|
6066 | remove_unecessary_side_effects (&rxb->rx, se_map,
|
---|
6067 | rx_copy_rexp (&rxb->rx, rexp), params);
|
---|
6068 |
|
---|
6069 | speed_up_alt (&rxb->rx, rexp, 0);
|
---|
6070 | speed_up_alt (&rxb->rx, fewer_side_effects, 1);
|
---|
6071 |
|
---|
6072 | {
|
---|
6073 | char * syntax_parens = rxb->syntax_parens;
|
---|
6074 | if (syntax_parens == (char *)0x1)
|
---|
6075 | rexp = remove_unecessary_side_effects
|
---|
6076 | (&rxb->rx, se_map, rexp, params);
|
---|
6077 | else if (syntax_parens)
|
---|
6078 | {
|
---|
6079 | int x;
|
---|
6080 | for (x = 0; x < paramc; ++x)
|
---|
6081 | if (( (params[x].se == re_se_lparen)
|
---|
6082 | || (params[x].se == re_se_rparen))
|
---|
6083 | && (!syntax_parens [params[x].op1]))
|
---|
6084 | se_map [x] = 1;
|
---|
6085 | rexp = remove_unecessary_side_effects
|
---|
6086 | (&rxb->rx, se_map, rexp, params);
|
---|
6087 | }
|
---|
6088 | }
|
---|
6089 |
|
---|
6090 | /* At least one more optimization would be nice to have here but i ran out
|
---|
6091 | * of time. The idea would be to delay side effects.
|
---|
6092 | * For examle, `(abc)' is the same thing as `abc()' except that the
|
---|
6093 | * left paren is offset by 3 (which we know at compile time).
|
---|
6094 | * (In this comment, write that second pattern `abc(:3:)'
|
---|
6095 | * where `(:3:' is a syntactic unit.)
|
---|
6096 | *
|
---|
6097 | * Trickier: `(abc|defg)' is the same as `(abc(:3:|defg(:4:))'
|
---|
6098 | * (The paren nesting may be hard to follow -- that's an alternation
|
---|
6099 | * of `abc(:3:' and `defg(:4:' inside (purely syntactic) parens
|
---|
6100 | * followed by the closing paren from the original expression.)
|
---|
6101 | *
|
---|
6102 | * Neither the expression tree representation nor the the nfa make
|
---|
6103 | * this very easy to write. :(
|
---|
6104 | */
|
---|
6105 |
|
---|
6106 | /* What we compile is different than what the parser returns.
|
---|
6107 | * Suppose the parser returns expression R.
|
---|
6108 | * Let R' be R with unnecessary register assignments removed
|
---|
6109 | * (see REMOVE_UNECESSARY_SIDE_EFFECTS, above).
|
---|
6110 | *
|
---|
6111 | * What we will compile is the expression:
|
---|
6112 | *
|
---|
6113 | * m{try}R{win}\|s{try}R'{win}
|
---|
6114 | *
|
---|
6115 | * {try} and {win} denote side effect epsilons (see EXPLORE_FUTURE).
|
---|
6116 | *
|
---|
6117 | * When trying a match, we insert an `m' at the beginning of the
|
---|
6118 | * string if the user wants registers to be filled, `s' if not.
|
---|
6119 | */
|
---|
6120 | new_rexp =
|
---|
6121 | rx_mk_r_alternate
|
---|
6122 | (&rxb->rx,
|
---|
6123 | rx_mk_r_concat (&rxb->rx, rx_mk_r_cset (&rxb->rx, cs2), rexp),
|
---|
6124 | rx_mk_r_concat (&rxb->rx,
|
---|
6125 | rx_mk_r_cset (&rxb->rx, cs), fewer_side_effects));
|
---|
6126 |
|
---|
6127 | if (!(new_rexp && cs && cs2))
|
---|
6128 | return REG_ESPACE;
|
---|
6129 | RX_bitset_enjoin (cs2, '\0'); /* prefixed to the rexp used for matching. */
|
---|
6130 | RX_bitset_enjoin (cs, '\1'); /* prefixed to the rexp used for searching. */
|
---|
6131 | rexp = new_rexp;
|
---|
6132 | }
|
---|
6133 |
|
---|
6134 | #ifdef RX_DEBUG
|
---|
6135 | if (rx_debug_compile)
|
---|
6136 | {
|
---|
6137 | fputs ("\n...which is compiled as:\n", stdout);
|
---|
6138 | print_rexp (&rxb->rx, rexp, 2, re_seprint, stdout);
|
---|
6139 | }
|
---|
6140 | #endif
|
---|
6141 | {
|
---|
6142 | struct rx_nfa_state *start = 0;
|
---|
6143 | struct rx_nfa_state *end = 0;
|
---|
6144 |
|
---|
6145 | if (!rx_build_nfa (&rxb->rx, rexp, &start, &end))
|
---|
6146 | return REG_ESPACE; /* */
|
---|
6147 | else
|
---|
6148 | {
|
---|
6149 | void * mem = (void *)rxb->buffer;
|
---|
6150 | unsigned long size = rxb->allocated;
|
---|
6151 | int start_id;
|
---|
6152 | char * perm_mem;
|
---|
6153 | int iterator_size = paramc * sizeof (params[0]);
|
---|
6154 |
|
---|
6155 | end->is_final = 1;
|
---|
6156 | start->is_start = 1;
|
---|
6157 | rx_name_nfa_states (&rxb->rx);
|
---|
6158 | start_id = start->id;
|
---|
6159 | #ifdef RX_DEBUG
|
---|
6160 | if (rx_debug_compile)
|
---|
6161 | {
|
---|
6162 | fputs ("...giving the NFA: \n", stdout);
|
---|
6163 | dbug_rxb = rxb;
|
---|
6164 | print_nfa (&rxb->rx, rxb->rx.nfa_states, re_seprint, stdout);
|
---|
6165 | }
|
---|
6166 | #endif
|
---|
6167 | if (!rx_eclose_nfa (&rxb->rx))
|
---|
6168 | return REG_ESPACE;
|
---|
6169 | else
|
---|
6170 | {
|
---|
6171 | rx_delete_epsilon_transitions (&rxb->rx);
|
---|
6172 |
|
---|
6173 | /* For compatability reasons, we need to shove the
|
---|
6174 | * compiled nfa into one chunk of malloced memory.
|
---|
6175 | */
|
---|
6176 | rxb->rx.reserved = ( sizeof (params[0]) * paramc
|
---|
6177 | + rx_sizeof_bitset (rxb->rx.local_cset_size));
|
---|
6178 | #ifdef RX_DEBUG
|
---|
6179 | if (rx_debug_compile)
|
---|
6180 | {
|
---|
6181 | dbug_rxb = rxb;
|
---|
6182 | fputs ("...which cooks down (uncompactified) to: \n", stdout);
|
---|
6183 | print_nfa (&rxb->rx, rxb->rx.nfa_states, re_seprint, stdout);
|
---|
6184 | }
|
---|
6185 | #endif
|
---|
6186 | if (!rx_compactify_nfa (&rxb->rx, &mem, &size))
|
---|
6187 | return REG_ESPACE;
|
---|
6188 | rxb->buffer = mem;
|
---|
6189 | rxb->allocated = size;
|
---|
6190 | rxb->rx.buffer = mem;
|
---|
6191 | rxb->rx.allocated = size;
|
---|
6192 | perm_mem = ((char *)rxb->rx.buffer
|
---|
6193 | + rxb->rx.allocated - rxb->rx.reserved);
|
---|
6194 | rxb->se_params = ((struct re_se_params *)perm_mem);
|
---|
6195 | bcopy (params, rxb->se_params, iterator_size);
|
---|
6196 | perm_mem += iterator_size;
|
---|
6197 | rxb->fastset = (rx_Bitset) perm_mem;
|
---|
6198 | rxb->start = rx_id_to_nfa_state (&rxb->rx, start_id);
|
---|
6199 | }
|
---|
6200 | rx_bitset_null (rxb->rx.local_cset_size, rxb->fastset);
|
---|
6201 | rxb->can_match_empty = compute_fastset (rxb, orig_rexp);
|
---|
6202 | rxb->match_regs_on_stack =
|
---|
6203 | registers_on_stack (rxb, orig_rexp, 0, params);
|
---|
6204 | rxb->search_regs_on_stack =
|
---|
6205 | registers_on_stack (rxb, fewer_side_effects, 0, params);
|
---|
6206 | if (rxb->can_match_empty)
|
---|
6207 | rx_bitset_universe (rxb->rx.local_cset_size, rxb->fastset);
|
---|
6208 | rxb->is_anchored = is_anchored (orig_rexp, (rx_side_effect) re_se_hat);
|
---|
6209 | rxb->begbuf_only = is_anchored (orig_rexp,
|
---|
6210 | (rx_side_effect) re_se_begbuf);
|
---|
6211 | }
|
---|
6212 | rx_free_rexp (&rxb->rx, rexp);
|
---|
6213 | if (params)
|
---|
6214 | free (params);
|
---|
6215 | #ifdef RX_DEBUG
|
---|
6216 | if (rx_debug_compile)
|
---|
6217 | {
|
---|
6218 | dbug_rxb = rxb;
|
---|
6219 | fputs ("...which cooks down to: \n", stdout);
|
---|
6220 | print_nfa (&rxb->rx, rxb->rx.nfa_states, re_seprint, stdout);
|
---|
6221 | }
|
---|
6222 | #endif
|
---|
6223 | }
|
---|
6224 | return REG_NOERROR;
|
---|
6225 | }
|
---|
6226 |
|
---|
6227 | |
---|
6228 |
|
---|
6229 |
|
---|
6230 | /* This table gives an error message for each of the error codes listed
|
---|
6231 | in regex.h. Obviously the order here has to be same as there. */
|
---|
6232 |
|
---|
6233 | __const__ char * rx_error_msg[] =
|
---|
6234 | { 0, /* REG_NOERROR */
|
---|
6235 | "No match", /* REG_NOMATCH */
|
---|
6236 | "Invalid regular expression", /* REG_BADPAT */
|
---|
6237 | "Invalid collation character", /* REG_ECOLLATE */
|
---|
6238 | "Invalid character class name", /* REG_ECTYPE */
|
---|
6239 | "Trailing backslash", /* REG_EESCAPE */
|
---|
6240 | "Invalid back reference", /* REG_ESUBREG */
|
---|
6241 | "Unmatched [ or [^", /* REG_EBRACK */
|
---|
6242 | "Unmatched ( or \\(", /* REG_EPAREN */
|
---|
6243 | "Unmatched \\{", /* REG_EBRACE */
|
---|
6244 | "Invalid content of \\{\\}", /* REG_BADBR */
|
---|
6245 | "Invalid range end", /* REG_ERANGE */
|
---|
6246 | "Memory exhausted", /* REG_ESPACE */
|
---|
6247 | "Invalid preceding regular expression", /* REG_BADRPT */
|
---|
6248 | "Premature end of regular expression", /* REG_EEND */
|
---|
6249 | "Regular expression too big", /* REG_ESIZE */
|
---|
6250 | "Unmatched ) or \\)", /* REG_ERPAREN */
|
---|
6251 | };
|
---|
6252 |
|
---|
6253 | |
---|
6254 |
|
---|
6255 |
|
---|
6256 |
|
---|
6257 | char rx_slowmap [256] =
|
---|
6258 | {
|
---|
6259 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6260 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6261 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6262 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6263 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6264 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6265 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6266 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6267 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6268 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6269 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6270 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6271 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6272 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6273 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6274 | 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1,
|
---|
6275 | };
|
---|
6276 |
|
---|
6277 | #ifdef __STDC__
|
---|
6278 | RX_DECL void
|
---|
6279 | rx_blow_up_fastmap (struct re_pattern_buffer * rxb)
|
---|
6280 | #else
|
---|
6281 | RX_DECL void
|
---|
6282 | rx_blow_up_fastmap (rxb)
|
---|
6283 | struct re_pattern_buffer * rxb;
|
---|
6284 | #endif
|
---|
6285 | {
|
---|
6286 | int x;
|
---|
6287 | for (x = 0; x < 256; ++x) /* &&&& 3.6 % */
|
---|
6288 | rxb->fastmap [x] = !!RX_bitset_member (rxb->fastset, x);
|
---|
6289 | rxb->fastmap_accurate = 1;
|
---|
6290 | }
|
---|
6291 |
|
---|
6292 |
|
---|
6293 | |
---|
6294 |
|
---|
6295 |
|
---|
6296 | #if !defined(REGEX_MALLOC) && !defined(__GNUC__)
|
---|
6297 | #define RE_SEARCH_2_FN inner_re_search_2
|
---|
6298 | #define RE_S2_QUAL static
|
---|
6299 | #else
|
---|
6300 | #define RE_SEARCH_2_FN re_search_2
|
---|
6301 | #define RE_S2_QUAL
|
---|
6302 | #endif
|
---|
6303 |
|
---|
6304 | struct re_search_2_closure
|
---|
6305 | {
|
---|
6306 | __const__ char * string1;
|
---|
6307 | int size1;
|
---|
6308 | __const__ char * string2;
|
---|
6309 | int size2;
|
---|
6310 | };
|
---|
6311 |
|
---|
6312 |
|
---|
6313 | static __inline__ enum rx_get_burst_return
|
---|
6314 | re_search_2_get_burst (pos, vclosure, stop)
|
---|
6315 | struct rx_string_position * pos;
|
---|
6316 | void * vclosure;
|
---|
6317 | int stop;
|
---|
6318 | {
|
---|
6319 | struct re_search_2_closure * closure;
|
---|
6320 | closure = (struct re_search_2_closure *)vclosure;
|
---|
6321 | if (!closure->string2)
|
---|
6322 | {
|
---|
6323 | int inset;
|
---|
6324 |
|
---|
6325 | inset = pos->pos - pos->string;
|
---|
6326 | if ((inset < -1) || (inset > closure->size1))
|
---|
6327 | return rx_get_burst_no_more;
|
---|
6328 | else
|
---|
6329 | {
|
---|
6330 | pos->pos = (__const__ unsigned char *) closure->string1 + inset;
|
---|
6331 | pos->string = (__const__ unsigned char *) closure->string1;
|
---|
6332 | pos->size = closure->size1;
|
---|
6333 | pos->end = ((__const__ unsigned char *)
|
---|
6334 | MIN(closure->string1 + closure->size1,
|
---|
6335 | closure->string1 + stop));
|
---|
6336 | pos->offset = 0;
|
---|
6337 | return ((pos->pos < pos->end)
|
---|
6338 | ? rx_get_burst_ok
|
---|
6339 | : rx_get_burst_no_more);
|
---|
6340 | }
|
---|
6341 | }
|
---|
6342 | else if (!closure->string1)
|
---|
6343 | {
|
---|
6344 | int inset;
|
---|
6345 |
|
---|
6346 | inset = pos->pos - pos->string;
|
---|
6347 | pos->pos = (__const__ unsigned char *) closure->string2 + inset;
|
---|
6348 | pos->string = (__const__ unsigned char *) closure->string2;
|
---|
6349 | pos->size = closure->size2;
|
---|
6350 | pos->end = ((__const__ unsigned char *)
|
---|
6351 | MIN(closure->string2 + closure->size2,
|
---|
6352 | closure->string2 + stop));
|
---|
6353 | pos->offset = 0;
|
---|
6354 | return ((pos->pos < pos->end)
|
---|
6355 | ? rx_get_burst_ok
|
---|
6356 | : rx_get_burst_no_more);
|
---|
6357 | }
|
---|
6358 | else
|
---|
6359 | {
|
---|
6360 | int inset;
|
---|
6361 |
|
---|
6362 | inset = pos->pos - pos->string + pos->offset;
|
---|
6363 | if (inset < closure->size1)
|
---|
6364 | {
|
---|
6365 | pos->pos = (__const__ unsigned char *) closure->string1 + inset;
|
---|
6366 | pos->string = (__const__ unsigned char *) closure->string1;
|
---|
6367 | pos->size = closure->size1;
|
---|
6368 | pos->end = ((__const__ unsigned char *)
|
---|
6369 | MIN(closure->string1 + closure->size1,
|
---|
6370 | closure->string1 + stop));
|
---|
6371 | pos->offset = 0;
|
---|
6372 | return rx_get_burst_ok;
|
---|
6373 | }
|
---|
6374 | else
|
---|
6375 | {
|
---|
6376 | pos->pos = ((__const__ unsigned char *)
|
---|
6377 | closure->string2 + inset - closure->size1);
|
---|
6378 | pos->string = (__const__ unsigned char *) closure->string2;
|
---|
6379 | pos->size = closure->size2;
|
---|
6380 | pos->end = ((__const__ unsigned char *)
|
---|
6381 | MIN(closure->string2 + closure->size2,
|
---|
6382 | closure->string2 + stop - closure->size1));
|
---|
6383 | pos->offset = closure->size1;
|
---|
6384 | return ((pos->pos < pos->end)
|
---|
6385 | ? rx_get_burst_ok
|
---|
6386 | : rx_get_burst_no_more);
|
---|
6387 | }
|
---|
6388 | }
|
---|
6389 | }
|
---|
6390 |
|
---|
6391 |
|
---|
6392 | static __inline__ enum rx_back_check_return
|
---|
6393 | re_search_2_back_check (pos, lparen, rparen, translate, vclosure, stop)
|
---|
6394 | struct rx_string_position * pos;
|
---|
6395 | int lparen;
|
---|
6396 | int rparen;
|
---|
6397 | unsigned char * translate;
|
---|
6398 | void * vclosure;
|
---|
6399 | int stop;
|
---|
6400 | {
|
---|
6401 | struct rx_string_position there;
|
---|
6402 | struct rx_string_position past;
|
---|
6403 |
|
---|
6404 | there = *pos;
|
---|
6405 | there.pos = there.string + lparen - there.offset;
|
---|
6406 | re_search_2_get_burst (&there, vclosure, stop);
|
---|
6407 |
|
---|
6408 | past = *pos;
|
---|
6409 | past.pos = past.string + rparen - there.offset;
|
---|
6410 | re_search_2_get_burst (&past, vclosure, stop);
|
---|
6411 |
|
---|
6412 | ++pos->pos;
|
---|
6413 | re_search_2_get_burst (pos, vclosure, stop);
|
---|
6414 |
|
---|
6415 | while ( (there.pos != past.pos)
|
---|
6416 | && (pos->pos != pos->end))
|
---|
6417 | if (TRANSLATE(*there.pos) != TRANSLATE(*pos->pos))
|
---|
6418 | return rx_back_check_fail;
|
---|
6419 | else
|
---|
6420 | {
|
---|
6421 | ++there.pos;
|
---|
6422 | ++pos->pos;
|
---|
6423 | if (there.pos == there.end)
|
---|
6424 | re_search_2_get_burst (&there, vclosure, stop);
|
---|
6425 | if (pos->pos == pos->end)
|
---|
6426 | re_search_2_get_burst (pos, vclosure, stop);
|
---|
6427 | }
|
---|
6428 |
|
---|
6429 | if (there.pos != past.pos)
|
---|
6430 | return rx_back_check_fail;
|
---|
6431 | --pos->pos;
|
---|
6432 | re_search_2_get_burst (pos, vclosure, stop);
|
---|
6433 | return rx_back_check_pass;
|
---|
6434 | }
|
---|
6435 |
|
---|
6436 | static __inline__ int
|
---|
6437 | re_search_2_fetch_char (pos, offset, app_closure, stop)
|
---|
6438 | struct rx_string_position * pos;
|
---|
6439 | int offset;
|
---|
6440 | void * app_closure;
|
---|
6441 | int stop;
|
---|
6442 | {
|
---|
6443 | struct re_search_2_closure * closure;
|
---|
6444 | closure = (struct re_search_2_closure *)app_closure;
|
---|
6445 | if (offset == 0)
|
---|
6446 | {
|
---|
6447 | if (pos->pos >= pos->string)
|
---|
6448 | return *pos->pos;
|
---|
6449 | else
|
---|
6450 | {
|
---|
6451 | if ( (pos->string == (__const__ unsigned char *) closure->string2)
|
---|
6452 | && (closure->string1)
|
---|
6453 | && (closure->size1))
|
---|
6454 | return closure->string1[closure->size1 - 1];
|
---|
6455 | else
|
---|
6456 | return 0; /* sure, why not. */
|
---|
6457 | }
|
---|
6458 | }
|
---|
6459 | if (pos->pos == pos->end)
|
---|
6460 | return *closure->string2;
|
---|
6461 | else
|
---|
6462 | return pos->pos[1];
|
---|
6463 | }
|
---|
6464 |
|
---|
6465 |
|
---|
6466 | #ifdef __STDC__
|
---|
6467 | RE_S2_QUAL int
|
---|
6468 | RE_SEARCH_2_FN (struct re_pattern_buffer *rxb,
|
---|
6469 | __const__ char * string1, int size1,
|
---|
6470 | __const__ char * string2, int size2,
|
---|
6471 | int startpos, int range,
|
---|
6472 | struct re_registers *regs,
|
---|
6473 | int stop)
|
---|
6474 | #else
|
---|
6475 | RE_S2_QUAL int
|
---|
6476 | RE_SEARCH_2_FN (rxb,
|
---|
6477 | string1, size1, string2, size2, startpos, range, regs, stop)
|
---|
6478 | struct re_pattern_buffer *rxb;
|
---|
6479 | __const__ char * string1;
|
---|
6480 | int size1;
|
---|
6481 | __const__ char * string2;
|
---|
6482 | int size2;
|
---|
6483 | int startpos;
|
---|
6484 | int range;
|
---|
6485 | struct re_registers *regs;
|
---|
6486 | int stop;
|
---|
6487 | #endif
|
---|
6488 | {
|
---|
6489 | int answer;
|
---|
6490 | struct re_search_2_closure closure;
|
---|
6491 | closure.string1 = string1;
|
---|
6492 | closure.size1 = size1;
|
---|
6493 | closure.string2 = string2;
|
---|
6494 | closure.size2 = size2;
|
---|
6495 | answer = rx_search (rxb, startpos, range, stop, size1 + size2,
|
---|
6496 | re_search_2_get_burst,
|
---|
6497 | re_search_2_back_check,
|
---|
6498 | re_search_2_fetch_char,
|
---|
6499 | (void *)&closure,
|
---|
6500 | regs,
|
---|
6501 | 0,
|
---|
6502 | 0);
|
---|
6503 | switch (answer)
|
---|
6504 | {
|
---|
6505 | case rx_search_continuation:
|
---|
6506 | abort ();
|
---|
6507 | case rx_search_error:
|
---|
6508 | return -2;
|
---|
6509 | case rx_search_soft_fail:
|
---|
6510 | case rx_search_fail:
|
---|
6511 | return -1;
|
---|
6512 | default:
|
---|
6513 | return answer;
|
---|
6514 | }
|
---|
6515 | }
|
---|
6516 |
|
---|
6517 | /* Export rx_search to callers outside this file. */
|
---|
6518 |
|
---|
6519 | int
|
---|
6520 | re_rx_search (rxb, startpos, range, stop, total_size,
|
---|
6521 | get_burst, back_check, fetch_char,
|
---|
6522 | app_closure, regs, resume_state, save_state)
|
---|
6523 | struct re_pattern_buffer * rxb;
|
---|
6524 | int startpos;
|
---|
6525 | int range;
|
---|
6526 | int stop;
|
---|
6527 | int total_size;
|
---|
6528 | rx_get_burst_fn get_burst;
|
---|
6529 | rx_back_check_fn back_check;
|
---|
6530 | rx_fetch_char_fn fetch_char;
|
---|
6531 | void * app_closure;
|
---|
6532 | struct re_registers * regs;
|
---|
6533 | struct rx_search_state * resume_state;
|
---|
6534 | struct rx_search_state * save_state;
|
---|
6535 | {
|
---|
6536 | return rx_search (rxb, startpos, range, stop, total_size,
|
---|
6537 | get_burst, back_check, fetch_char, app_closure,
|
---|
6538 | regs, resume_state, save_state);
|
---|
6539 | }
|
---|
6540 |
|
---|
6541 | #if !defined(REGEX_MALLOC) && !defined(__GNUC__)
|
---|
6542 | #ifdef __STDC__
|
---|
6543 | int
|
---|
6544 | re_search_2 (struct re_pattern_buffer *rxb,
|
---|
6545 | __const__ char * string1, int size1,
|
---|
6546 | __const__ char * string2, int size2,
|
---|
6547 | int startpos, int range,
|
---|
6548 | struct re_registers *regs,
|
---|
6549 | int stop)
|
---|
6550 | #else
|
---|
6551 | int
|
---|
6552 | re_search_2 (rxb, string1, size1, string2, size2, startpos, range, regs, stop)
|
---|
6553 | struct re_pattern_buffer *rxb;
|
---|
6554 | __const__ char * string1;
|
---|
6555 | int size1;
|
---|
6556 | __const__ char * string2;
|
---|
6557 | int size2;
|
---|
6558 | int startpos;
|
---|
6559 | int range;
|
---|
6560 | struct re_registers *regs;
|
---|
6561 | int stop;
|
---|
6562 | #endif
|
---|
6563 | {
|
---|
6564 | int ret;
|
---|
6565 | ret = inner_re_search_2 (rxb, string1, size1, string2, size2, startpos,
|
---|
6566 | range, regs, stop);
|
---|
6567 | #ifdef __WIN32__ /* [RPAP - Feb 97: WIN32 Port] */
|
---|
6568 | _alloca (0);
|
---|
6569 | #else
|
---|
6570 | alloca (0);
|
---|
6571 | #endif
|
---|
6572 | return ret;
|
---|
6573 | }
|
---|
6574 | #endif
|
---|
6575 |
|
---|
6576 |
|
---|
6577 | /* Like re_search_2, above, but only one string is specified, and
|
---|
6578 | * doesn't let you say where to stop matching.
|
---|
6579 | */
|
---|
6580 |
|
---|
6581 | #ifdef __STDC__
|
---|
6582 | int
|
---|
6583 | re_search (struct re_pattern_buffer * rxb, __const__ char *string,
|
---|
6584 | int size, int startpos, int range,
|
---|
6585 | struct re_registers *regs)
|
---|
6586 | #else
|
---|
6587 | int
|
---|
6588 | re_search (rxb, string, size, startpos, range, regs)
|
---|
6589 | struct re_pattern_buffer * rxb;
|
---|
6590 | __const__ char * string;
|
---|
6591 | int size;
|
---|
6592 | int startpos;
|
---|
6593 | int range;
|
---|
6594 | struct re_registers *regs;
|
---|
6595 | #endif
|
---|
6596 | {
|
---|
6597 | return re_search_2 (rxb, 0, 0, string, size, startpos, range, regs, size);
|
---|
6598 | }
|
---|
6599 |
|
---|
6600 | #ifdef __STDC__
|
---|
6601 | int
|
---|
6602 | re_match_2 (struct re_pattern_buffer * rxb,
|
---|
6603 | __const__ char * string1, int size1,
|
---|
6604 | __const__ char * string2, int size2,
|
---|
6605 | int pos, struct re_registers *regs, int stop)
|
---|
6606 | #else
|
---|
6607 | int
|
---|
6608 | re_match_2 (rxb, string1, size1, string2, size2, pos, regs, stop)
|
---|
6609 | struct re_pattern_buffer * rxb;
|
---|
6610 | __const__ char * string1;
|
---|
6611 | int size1;
|
---|
6612 | __const__ char * string2;
|
---|
6613 | int size2;
|
---|
6614 | int pos;
|
---|
6615 | struct re_registers *regs;
|
---|
6616 | int stop;
|
---|
6617 | #endif
|
---|
6618 | {
|
---|
6619 | struct re_registers some_regs;
|
---|
6620 | regoff_t start;
|
---|
6621 | regoff_t end;
|
---|
6622 | int srch;
|
---|
6623 | int save = rxb->regs_allocated;
|
---|
6624 | struct re_registers * regs_to_pass = regs;
|
---|
6625 |
|
---|
6626 | if (!regs)
|
---|
6627 | {
|
---|
6628 | some_regs.start = &start;
|
---|
6629 | some_regs.end = &end;
|
---|
6630 | some_regs.num_regs = 1;
|
---|
6631 | regs_to_pass = &some_regs;
|
---|
6632 | rxb->regs_allocated = REGS_FIXED;
|
---|
6633 | }
|
---|
6634 |
|
---|
6635 | srch = re_search_2 (rxb, string1, size1, string2, size2,
|
---|
6636 | pos, 1, regs_to_pass, stop);
|
---|
6637 | if (regs_to_pass != regs)
|
---|
6638 | rxb->regs_allocated = save;
|
---|
6639 | if (srch < 0)
|
---|
6640 | return srch;
|
---|
6641 | return regs_to_pass->end[0] - regs_to_pass->start[0];
|
---|
6642 | }
|
---|
6643 |
|
---|
6644 | /* re_match is like re_match_2 except it takes only a single string. */
|
---|
6645 |
|
---|
6646 | #ifdef __STDC__
|
---|
6647 | int
|
---|
6648 | re_match (struct re_pattern_buffer * rxb,
|
---|
6649 | __const__ char * string,
|
---|
6650 | int size, int pos,
|
---|
6651 | struct re_registers *regs)
|
---|
6652 | #else
|
---|
6653 | int
|
---|
6654 | re_match (rxb, string, size, pos, regs)
|
---|
6655 | struct re_pattern_buffer * rxb;
|
---|
6656 | __const__ char *string;
|
---|
6657 | int size;
|
---|
6658 | int pos;
|
---|
6659 | struct re_registers *regs;
|
---|
6660 | #endif
|
---|
6661 | {
|
---|
6662 | return re_match_2 (rxb, string, size, 0, 0, pos, regs, size);
|
---|
6663 | }
|
---|
6664 |
|
---|
6665 |
|
---|
6666 | |
---|
6667 |
|
---|
6668 | /* Set by `re_set_syntax' to the current regexp syntax to recognize. Can
|
---|
6669 | also be assigned to arbitrarily: each pattern buffer stores its own
|
---|
6670 | syntax, so it can be changed between regex compilations. */
|
---|
6671 | reg_syntax_t re_syntax_options = RE_SYNTAX_EMACS;
|
---|
6672 |
|
---|
6673 |
|
---|
6674 | /* Specify the precise syntax of regexps for compilation. This provides
|
---|
6675 | for compatibility for various utilities which historically have
|
---|
6676 | different, incompatible syntaxes.
|
---|
6677 |
|
---|
6678 | The argument SYNTAX is a bit mask comprised of the various bits
|
---|
6679 | defined in regex.h. We return the old syntax. */
|
---|
6680 |
|
---|
6681 | #ifdef __STDC__
|
---|
6682 | reg_syntax_t
|
---|
6683 | re_set_syntax (reg_syntax_t syntax)
|
---|
6684 | #else
|
---|
6685 | reg_syntax_t
|
---|
6686 | re_set_syntax (syntax)
|
---|
6687 | reg_syntax_t syntax;
|
---|
6688 | #endif
|
---|
6689 | {
|
---|
6690 | reg_syntax_t ret = re_syntax_options;
|
---|
6691 |
|
---|
6692 | re_syntax_options = syntax;
|
---|
6693 | return ret;
|
---|
6694 | }
|
---|
6695 | |
---|
6696 |
|
---|
6697 |
|
---|
6698 | /* Set REGS to hold NUM_REGS registers, storing them in STARTS and
|
---|
6699 | ENDS. Subsequent matches using PATTERN_BUFFER and REGS will use
|
---|
6700 | this memory for recording register information. STARTS and ENDS
|
---|
6701 | must be allocated using the malloc library routine, and must each
|
---|
6702 | be at least NUM_REGS * sizeof (regoff_t) bytes long.
|
---|
6703 |
|
---|
6704 | If NUM_REGS == 0, then subsequent matches should allocate their own
|
---|
6705 | register data.
|
---|
6706 |
|
---|
6707 | Unless this function is called, the first search or match using
|
---|
6708 | PATTERN_BUFFER will allocate its own register data, without
|
---|
6709 | freeing the old data. */
|
---|
6710 |
|
---|
6711 | #ifdef __STDC__
|
---|
6712 | void
|
---|
6713 | re_set_registers (struct re_pattern_buffer *bufp,
|
---|
6714 | struct re_registers *regs,
|
---|
6715 | unsigned num_regs,
|
---|
6716 | regoff_t * starts, regoff_t * ends)
|
---|
6717 | #else
|
---|
6718 | void
|
---|
6719 | re_set_registers (bufp, regs, num_regs, starts, ends)
|
---|
6720 | struct re_pattern_buffer *bufp;
|
---|
6721 | struct re_registers *regs;
|
---|
6722 | unsigned num_regs;
|
---|
6723 | regoff_t * starts;
|
---|
6724 | regoff_t * ends;
|
---|
6725 | #endif
|
---|
6726 | {
|
---|
6727 | if (num_regs)
|
---|
6728 | {
|
---|
6729 | bufp->regs_allocated = REGS_REALLOCATE;
|
---|
6730 | regs->num_regs = num_regs;
|
---|
6731 | regs->start = starts;
|
---|
6732 | regs->end = ends;
|
---|
6733 | }
|
---|
6734 | else
|
---|
6735 | {
|
---|
6736 | bufp->regs_allocated = REGS_UNALLOCATED;
|
---|
6737 | regs->num_regs = 0;
|
---|
6738 | regs->start = regs->end = (regoff_t) 0;
|
---|
6739 | }
|
---|
6740 | }
|
---|
6741 |
|
---|
6742 |
|
---|
6743 | |
---|
6744 |
|
---|
6745 |
|
---|
6746 | #ifdef __STDC__
|
---|
6747 | static int
|
---|
6748 | cplx_se_sublist_len (struct rx_se_list * list)
|
---|
6749 | #else
|
---|
6750 | static int
|
---|
6751 | cplx_se_sublist_len (list)
|
---|
6752 | struct rx_se_list * list;
|
---|
6753 | #endif
|
---|
6754 | {
|
---|
6755 | int x = 0;
|
---|
6756 | while (list)
|
---|
6757 | {
|
---|
6758 | if ((long)list->car >= 0)
|
---|
6759 | ++x;
|
---|
6760 | list = list->cdr;
|
---|
6761 | }
|
---|
6762 | return x;
|
---|
6763 | }
|
---|
6764 |
|
---|
6765 |
|
---|
6766 | /* For rx->se_list_cmp */
|
---|
6767 |
|
---|
6768 | #ifdef __STDC__
|
---|
6769 | static int
|
---|
6770 | posix_se_list_order (struct rx * rx,
|
---|
6771 | struct rx_se_list * a, struct rx_se_list * b)
|
---|
6772 | #else
|
---|
6773 | static int
|
---|
6774 | posix_se_list_order (rx, a, b)
|
---|
6775 | struct rx * rx;
|
---|
6776 | struct rx_se_list * a;
|
---|
6777 | struct rx_se_list * b;
|
---|
6778 | #endif
|
---|
6779 | {
|
---|
6780 | int al = cplx_se_sublist_len (a);
|
---|
6781 | int bl = cplx_se_sublist_len (b);
|
---|
6782 |
|
---|
6783 | if (!al && !bl)
|
---|
6784 | return ((a == b)
|
---|
6785 | ? 0
|
---|
6786 | : ((a < b) ? -1 : 1));
|
---|
6787 |
|
---|
6788 | else if (!al)
|
---|
6789 | return -1;
|
---|
6790 |
|
---|
6791 | else if (!bl)
|
---|
6792 | return 1;
|
---|
6793 |
|
---|
6794 | else
|
---|
6795 | {
|
---|
6796 | #ifdef __WIN32__ /* [RPAP - Feb 97: WIN32 Port] */
|
---|
6797 | rx_side_effect * av = ((rx_side_effect *)
|
---|
6798 | _alloca (sizeof (rx_side_effect) * (al + 1)));
|
---|
6799 | rx_side_effect * bv = ((rx_side_effect *)
|
---|
6800 | _alloca (sizeof (rx_side_effect) * (bl + 1)));
|
---|
6801 | #else
|
---|
6802 | rx_side_effect * av = ((rx_side_effect *)
|
---|
6803 | alloca (sizeof (rx_side_effect) * (al + 1)));
|
---|
6804 | rx_side_effect * bv = ((rx_side_effect *)
|
---|
6805 | alloca (sizeof (rx_side_effect) * (bl + 1)));
|
---|
6806 | #endif
|
---|
6807 | struct rx_se_list * ap = a;
|
---|
6808 | struct rx_se_list * bp = b;
|
---|
6809 | int ai, bi;
|
---|
6810 |
|
---|
6811 | for (ai = al - 1; ai >= 0; --ai)
|
---|
6812 | {
|
---|
6813 | while ((long)ap->car < 0)
|
---|
6814 | ap = ap->cdr;
|
---|
6815 | av[ai] = ap->car;
|
---|
6816 | ap = ap->cdr;
|
---|
6817 | }
|
---|
6818 | av[al] = (rx_side_effect)-2;
|
---|
6819 | for (bi = bl - 1; bi >= 0; --bi)
|
---|
6820 | {
|
---|
6821 | while ((long)bp->car < 0)
|
---|
6822 | bp = bp->cdr;
|
---|
6823 | bv[bi] = bp->car;
|
---|
6824 | bp = bp->cdr;
|
---|
6825 | }
|
---|
6826 | bv[bl] = (rx_side_effect)-1;
|
---|
6827 |
|
---|
6828 | {
|
---|
6829 | int ret;
|
---|
6830 | int x = 0;
|
---|
6831 | while (av[x] == bv[x])
|
---|
6832 | ++x;
|
---|
6833 | ret = (((unsigned *)(av[x]) < (unsigned *)(bv[x])) ? -1 : 1);
|
---|
6834 | return ret;
|
---|
6835 | }
|
---|
6836 | }
|
---|
6837 | }
|
---|
6838 |
|
---|
6839 |
|
---|
6840 |
|
---|
6841 | |
---|
6842 |
|
---|
6843 | /* re_compile_pattern is the GNU regular expression compiler: it
|
---|
6844 | compiles PATTERN (of length SIZE) and puts the result in RXB.
|
---|
6845 | Returns 0 if the pattern was valid, otherwise an error string.
|
---|
6846 |
|
---|
6847 | Assumes the `allocated' (and perhaps `buffer') and `translate' fields
|
---|
6848 | are set in RXB on entry.
|
---|
6849 |
|
---|
6850 | We call rx_compile to do the actual compilation. */
|
---|
6851 |
|
---|
6852 | #ifdef __STDC__
|
---|
6853 | __const__ char *
|
---|
6854 | re_compile_pattern (__const__ char *pattern,
|
---|
6855 | int length,
|
---|
6856 | struct re_pattern_buffer * rxb)
|
---|
6857 | #else
|
---|
6858 | __const__ char *
|
---|
6859 | re_compile_pattern (pattern, length, rxb)
|
---|
6860 | __const__ char *pattern;
|
---|
6861 | int length;
|
---|
6862 | struct re_pattern_buffer * rxb;
|
---|
6863 | #endif
|
---|
6864 | {
|
---|
6865 | reg_errcode_t ret;
|
---|
6866 |
|
---|
6867 | /* GNU code is written to assume at least RE_NREGS registers will be set
|
---|
6868 | (and at least one extra will be -1). */
|
---|
6869 | rxb->regs_allocated = REGS_UNALLOCATED;
|
---|
6870 |
|
---|
6871 | /* And GNU code determines whether or not to get register information
|
---|
6872 | by passing null for the REGS argument to re_match, etc., not by
|
---|
6873 | setting no_sub. */
|
---|
6874 | rxb->no_sub = 0;
|
---|
6875 |
|
---|
6876 | rxb->rx.local_cset_size = 256;
|
---|
6877 |
|
---|
6878 | /* Match anchors at newline. */
|
---|
6879 | rxb->newline_anchor = 1;
|
---|
6880 |
|
---|
6881 | rxb->re_nsub = 0;
|
---|
6882 | rxb->start = 0;
|
---|
6883 | rxb->se_params = 0;
|
---|
6884 | rxb->rx.nodec = 0;
|
---|
6885 | rxb->rx.epsnodec = 0;
|
---|
6886 | rxb->rx.instruction_table = 0;
|
---|
6887 | rxb->rx.nfa_states = 0;
|
---|
6888 | rxb->rx.se_list_cmp = posix_se_list_order;
|
---|
6889 | rxb->rx.start_set = 0;
|
---|
6890 |
|
---|
6891 | ret = rx_compile (pattern, length, re_syntax_options, rxb);
|
---|
6892 | #ifdef __WIN32__ /* [RPAP - Feb 97: WIN32 Port] */
|
---|
6893 | _alloca (0);
|
---|
6894 | #else
|
---|
6895 | alloca (0);
|
---|
6896 | #endif
|
---|
6897 | return rx_error_msg[(int) ret];
|
---|
6898 | }
|
---|
6899 |
|
---|
6900 |
|
---|
6901 |
|
---|
6902 | #ifdef __STDC__
|
---|
6903 | int
|
---|
6904 | re_compile_fastmap (struct re_pattern_buffer * rxb)
|
---|
6905 | #else
|
---|
6906 | int
|
---|
6907 | re_compile_fastmap (rxb)
|
---|
6908 | struct re_pattern_buffer * rxb;
|
---|
6909 | #endif
|
---|
6910 | {
|
---|
6911 | rx_blow_up_fastmap (rxb);
|
---|
6912 | return 0;
|
---|
6913 | }
|
---|
6914 |
|
---|
6915 |
|
---|
6916 |
|
---|
6917 | |
---|
6918 |
|
---|
6919 | /* Entry points compatible with 4.2 BSD regex library. We don't define
|
---|
6920 | them if this is an Emacs or POSIX compilation. */
|
---|
6921 |
|
---|
6922 | #if (!defined (emacs) && !defined (_POSIX_SOURCE)) || defined(USE_BSD_REGEX)
|
---|
6923 |
|
---|
6924 | /* BSD has one and only one pattern buffer. */
|
---|
6925 | static struct re_pattern_buffer rx_comp_buf;
|
---|
6926 |
|
---|
6927 | #ifdef __STDC__
|
---|
6928 | char *
|
---|
6929 | re_comp (__const__ char *s)
|
---|
6930 | #else
|
---|
6931 | char *
|
---|
6932 | re_comp (s)
|
---|
6933 | __const__ char *s;
|
---|
6934 | #endif
|
---|
6935 | {
|
---|
6936 | reg_errcode_t ret;
|
---|
6937 |
|
---|
6938 | if (!s || (*s == '\0'))
|
---|
6939 | {
|
---|
6940 | if (!rx_comp_buf.buffer)
|
---|
6941 | return "No previous regular expression";
|
---|
6942 | return 0;
|
---|
6943 | }
|
---|
6944 |
|
---|
6945 | if (!rx_comp_buf.fastmap)
|
---|
6946 | {
|
---|
6947 | rx_comp_buf.fastmap = (char *) malloc (1 << CHARBITS);
|
---|
6948 | if (!rx_comp_buf.fastmap)
|
---|
6949 | return "Memory exhausted";
|
---|
6950 | }
|
---|
6951 |
|
---|
6952 | /* Since `rx_exec' always passes NULL for the `regs' argument, we
|
---|
6953 | don't need to initialize the pattern buffer fields which affect it. */
|
---|
6954 |
|
---|
6955 | /* Match anchors at newlines. */
|
---|
6956 | rx_comp_buf.newline_anchor = 1;
|
---|
6957 |
|
---|
6958 | rx_comp_buf.re_nsub = 0;
|
---|
6959 | rx_comp_buf.start = 0;
|
---|
6960 | rx_comp_buf.se_params = 0;
|
---|
6961 | rx_comp_buf.rx.nodec = 0;
|
---|
6962 | rx_comp_buf.rx.epsnodec = 0;
|
---|
6963 | rx_comp_buf.rx.instruction_table = 0;
|
---|
6964 | rx_comp_buf.rx.nfa_states = 0;
|
---|
6965 | rx_comp_buf.rx.start = 0;
|
---|
6966 | rx_comp_buf.rx.se_list_cmp = posix_se_list_order;
|
---|
6967 | rx_comp_buf.rx.local_cset_size = 256;
|
---|
6968 |
|
---|
6969 | ret = rx_compile (s, strlen (s), re_syntax_options, &rx_comp_buf);
|
---|
6970 | #ifdef __WIN32__ /* [RPAP - Feb 97: WIN32 Port] */
|
---|
6971 | _alloca (0);
|
---|
6972 | #else
|
---|
6973 | alloca (0);
|
---|
6974 | #endif
|
---|
6975 |
|
---|
6976 | /* Yes, we're discarding `__const__' here. */
|
---|
6977 | return (char *) rx_error_msg[(int) ret];
|
---|
6978 | }
|
---|
6979 |
|
---|
6980 |
|
---|
6981 | #ifdef __STDC__
|
---|
6982 | int
|
---|
6983 | re_exec (__const__ char *s)
|
---|
6984 | #else
|
---|
6985 | int
|
---|
6986 | re_exec (s)
|
---|
6987 | __const__ char *s;
|
---|
6988 | #endif
|
---|
6989 | {
|
---|
6990 | __const__ int len = strlen (s);
|
---|
6991 | return
|
---|
6992 | 0 <= re_search (&rx_comp_buf, s, len, 0, len, (struct re_registers *) 0);
|
---|
6993 | }
|
---|
6994 | #endif /* not emacs and not _POSIX_SOURCE */
|
---|
6995 |
|
---|
6996 | |
---|
6997 |
|
---|
6998 |
|
---|
6999 | /* POSIX.2 functions. Don't define these for Emacs. */
|
---|
7000 |
|
---|
7001 | #if !defined(emacs)
|
---|
7002 |
|
---|
7003 | /* regcomp takes a regular expression as a string and compiles it.
|
---|
7004 |
|
---|
7005 | PREG is a regex_t *. We do not expect any fields to be initialized,
|
---|
7006 | since POSIX says we shouldn't. Thus, we set
|
---|
7007 |
|
---|
7008 | `buffer' to the compiled pattern;
|
---|
7009 | `used' to the length of the compiled pattern;
|
---|
7010 | `syntax' to RE_SYNTAX_POSIX_EXTENDED if the
|
---|
7011 | REG_EXTENDED bit in CFLAGS is set; otherwise, to
|
---|
7012 | RE_SYNTAX_POSIX_BASIC;
|
---|
7013 | `newline_anchor' to REG_NEWLINE being set in CFLAGS;
|
---|
7014 | `fastmap' and `fastmap_accurate' to zero;
|
---|
7015 | `re_nsub' to the number of subexpressions in PATTERN.
|
---|
7016 |
|
---|
7017 | PATTERN is the address of the pattern string.
|
---|
7018 |
|
---|
7019 | CFLAGS is a series of bits which affect compilation.
|
---|
7020 |
|
---|
7021 | If REG_EXTENDED is set, we use POSIX extended syntax; otherwise, we
|
---|
7022 | use POSIX basic syntax.
|
---|
7023 |
|
---|
7024 | If REG_NEWLINE is set, then . and [^...] don't match newline.
|
---|
7025 | Also, regexec will try a match beginning after every newline.
|
---|
7026 |
|
---|
7027 | If REG_ICASE is set, then we considers upper- and lowercase
|
---|
7028 | versions of letters to be equivalent when matching.
|
---|
7029 |
|
---|
7030 | If REG_NOSUB is set, then when PREG is passed to regexec, that
|
---|
7031 | routine will report only success or failure, and nothing about the
|
---|
7032 | registers.
|
---|
7033 |
|
---|
7034 | It returns 0 if it succeeds, nonzero if it doesn't. (See regex.h for
|
---|
7035 | the return codes and their meanings.) */
|
---|
7036 |
|
---|
7037 |
|
---|
7038 | #ifdef __STDC__
|
---|
7039 | int
|
---|
7040 | regcomp (regex_t * preg, __const__ char * pattern, int cflags)
|
---|
7041 | #else
|
---|
7042 | int
|
---|
7043 | regcomp (preg, pattern, cflags)
|
---|
7044 | regex_t * preg;
|
---|
7045 | __const__ char * pattern;
|
---|
7046 | int cflags;
|
---|
7047 | #endif
|
---|
7048 | {
|
---|
7049 | reg_errcode_t ret;
|
---|
7050 | unsigned syntax
|
---|
7051 | = cflags & REG_EXTENDED ? RE_SYNTAX_POSIX_EXTENDED : RE_SYNTAX_POSIX_BASIC;
|
---|
7052 |
|
---|
7053 | /* regex_compile will allocate the space for the compiled pattern. */
|
---|
7054 | preg->buffer = 0;
|
---|
7055 | preg->allocated = 0;
|
---|
7056 | preg->fastmap = malloc (256);
|
---|
7057 | if (!preg->fastmap)
|
---|
7058 | return REG_ESPACE;
|
---|
7059 | preg->fastmap_accurate = 0;
|
---|
7060 |
|
---|
7061 | if (cflags & REG_ICASE)
|
---|
7062 | {
|
---|
7063 | unsigned i;
|
---|
7064 |
|
---|
7065 | preg->translate = (unsigned char *) malloc (256);
|
---|
7066 | if (!preg->translate)
|
---|
7067 | return (int) REG_ESPACE;
|
---|
7068 |
|
---|
7069 | /* Map uppercase characters to corresponding lowercase ones. */
|
---|
7070 | for (i = 0; i < CHAR_SET_SIZE; i++)
|
---|
7071 | preg->translate[i] = isupper (i) ? tolower (i) : i;
|
---|
7072 | }
|
---|
7073 | else
|
---|
7074 | preg->translate = 0;
|
---|
7075 |
|
---|
7076 | /* If REG_NEWLINE is set, newlines are treated differently. */
|
---|
7077 | if (cflags & REG_NEWLINE)
|
---|
7078 | { /* REG_NEWLINE implies neither . nor [^...] match newline. */
|
---|
7079 | syntax &= ~RE_DOT_NEWLINE;
|
---|
7080 | syntax |= RE_HAT_LISTS_NOT_NEWLINE;
|
---|
7081 | /* It also changes the matching behavior. */
|
---|
7082 | preg->newline_anchor = 1;
|
---|
7083 | }
|
---|
7084 | else
|
---|
7085 | preg->newline_anchor = 0;
|
---|
7086 |
|
---|
7087 | preg->no_sub = !!(cflags & REG_NOSUB);
|
---|
7088 |
|
---|
7089 | /* POSIX says a null character in the pattern terminates it, so we
|
---|
7090 | can use strlen here in compiling the pattern. */
|
---|
7091 | preg->re_nsub = 0;
|
---|
7092 | preg->start = 0;
|
---|
7093 | preg->se_params = 0;
|
---|
7094 | preg->syntax_parens = 0;
|
---|
7095 | preg->rx.nodec = 0;
|
---|
7096 | preg->rx.epsnodec = 0;
|
---|
7097 | preg->rx.instruction_table = 0;
|
---|
7098 | preg->rx.nfa_states = 0;
|
---|
7099 | preg->rx.local_cset_size = 256;
|
---|
7100 | preg->rx.start = 0;
|
---|
7101 | preg->rx.se_list_cmp = posix_se_list_order;
|
---|
7102 | preg->rx.start_set = 0;
|
---|
7103 | ret = rx_compile (pattern, strlen (pattern), syntax, preg);
|
---|
7104 |
|
---|
7105 | #ifdef __WIN32__ /* [RPAP - Feb 97: WIN32 Port] */
|
---|
7106 | _alloca (0);
|
---|
7107 | #else
|
---|
7108 | alloca (0);
|
---|
7109 | #endif
|
---|
7110 |
|
---|
7111 | /* POSIX doesn't distinguish between an unmatched open-group and an
|
---|
7112 | unmatched close-group: both are REG_EPAREN. */
|
---|
7113 | if (ret == REG_ERPAREN) ret = REG_EPAREN;
|
---|
7114 |
|
---|
7115 | return (int) ret;
|
---|
7116 | }
|
---|
7117 |
|
---|
7118 |
|
---|
7119 | /* regexec searches for a given pattern, specified by PREG, in the
|
---|
7120 | string STRING.
|
---|
7121 |
|
---|
7122 | If NMATCH is zero or REG_NOSUB was set in the cflags argument to
|
---|
7123 | `regcomp', we ignore PMATCH. Otherwise, we assume PMATCH has at
|
---|
7124 | least NMATCH elements, and we set them to the offsets of the
|
---|
7125 | corresponding matched substrings.
|
---|
7126 |
|
---|
7127 | EFLAGS specifies `execution flags' which affect matching: if
|
---|
7128 | REG_NOTBOL is set, then ^ does not match at the beginning of the
|
---|
7129 | string; if REG_NOTEOL is set, then $ does not match at the end.
|
---|
7130 |
|
---|
7131 | We return 0 if we find a match and REG_NOMATCH if not. */
|
---|
7132 |
|
---|
7133 | #ifdef __STDC__
|
---|
7134 | int
|
---|
7135 | regexec (__const__ regex_t *preg, __const__ char *string,
|
---|
7136 | size_t nmatch, regmatch_t pmatch[],
|
---|
7137 | int eflags)
|
---|
7138 | #else
|
---|
7139 | int
|
---|
7140 | regexec (preg, string, nmatch, pmatch, eflags)
|
---|
7141 | __const__ regex_t *preg;
|
---|
7142 | __const__ char *string;
|
---|
7143 | size_t nmatch;
|
---|
7144 | regmatch_t pmatch[];
|
---|
7145 | int eflags;
|
---|
7146 | #endif
|
---|
7147 | {
|
---|
7148 | int ret;
|
---|
7149 | struct re_registers regs;
|
---|
7150 | regex_t private_preg;
|
---|
7151 | int len = strlen (string);
|
---|
7152 | boolean want_reg_info = !preg->no_sub && nmatch > 0;
|
---|
7153 |
|
---|
7154 | private_preg = *preg;
|
---|
7155 |
|
---|
7156 | private_preg.not_bol = !!(eflags & REG_NOTBOL);
|
---|
7157 | private_preg.not_eol = !!(eflags & REG_NOTEOL);
|
---|
7158 |
|
---|
7159 | /* The user has told us exactly how many registers to return
|
---|
7160 | * information about, via `nmatch'. We have to pass that on to the
|
---|
7161 | * matching routines.
|
---|
7162 | */
|
---|
7163 | private_preg.regs_allocated = REGS_FIXED;
|
---|
7164 |
|
---|
7165 | if (want_reg_info)
|
---|
7166 | {
|
---|
7167 | regs.num_regs = nmatch;
|
---|
7168 | regs.start = (( regoff_t *) malloc ((nmatch) * sizeof ( regoff_t)));
|
---|
7169 | regs.end = (( regoff_t *) malloc ((nmatch) * sizeof ( regoff_t)));
|
---|
7170 | if (regs.start == 0 || regs.end == 0)
|
---|
7171 | return (int) REG_NOMATCH;
|
---|
7172 | }
|
---|
7173 |
|
---|
7174 | /* Perform the searching operation. */
|
---|
7175 | ret = re_search (&private_preg,
|
---|
7176 | string, len,
|
---|
7177 | /* start: */ 0,
|
---|
7178 | /* range: */ len,
|
---|
7179 | want_reg_info ? ®s : (struct re_registers *) 0);
|
---|
7180 |
|
---|
7181 | /* Copy the register information to the POSIX structure. */
|
---|
7182 | if (want_reg_info)
|
---|
7183 | {
|
---|
7184 | if (ret >= 0)
|
---|
7185 | {
|
---|
7186 | unsigned r;
|
---|
7187 |
|
---|
7188 | for (r = 0; r < nmatch; r++)
|
---|
7189 | {
|
---|
7190 | pmatch[r].rm_so = regs.start[r];
|
---|
7191 | pmatch[r].rm_eo = regs.end[r];
|
---|
7192 | }
|
---|
7193 | }
|
---|
7194 |
|
---|
7195 | /* If we needed the temporary register info, free the space now. */
|
---|
7196 | free (regs.start);
|
---|
7197 | free (regs.end);
|
---|
7198 | }
|
---|
7199 |
|
---|
7200 | /* We want zero return to mean success, unlike `re_search'. */
|
---|
7201 | return ret >= 0 ? (int) REG_NOERROR : (int) REG_NOMATCH;
|
---|
7202 | }
|
---|
7203 |
|
---|
7204 |
|
---|
7205 | /* Returns a message corresponding to an error code, ERRCODE, returned
|
---|
7206 | from either regcomp or regexec. */
|
---|
7207 |
|
---|
7208 | #ifdef __STDC__
|
---|
7209 | size_t
|
---|
7210 | regerror (int errcode, __const__ regex_t *preg,
|
---|
7211 | char *errbuf, size_t errbuf_size)
|
---|
7212 | #else
|
---|
7213 | size_t
|
---|
7214 | regerror (errcode, preg, errbuf, errbuf_size)
|
---|
7215 | int errcode;
|
---|
7216 | __const__ regex_t *preg;
|
---|
7217 | char *errbuf;
|
---|
7218 | size_t errbuf_size;
|
---|
7219 | #endif
|
---|
7220 | {
|
---|
7221 | __const__ char *msg
|
---|
7222 | = rx_error_msg[errcode] == 0 ? "Success" : rx_error_msg[errcode];
|
---|
7223 | size_t msg_size = strlen (msg) + 1; /* Includes the 0. */
|
---|
7224 |
|
---|
7225 | if (errbuf_size != 0)
|
---|
7226 | {
|
---|
7227 | if (msg_size > errbuf_size)
|
---|
7228 | {
|
---|
7229 | strncpy (errbuf, msg, errbuf_size - 1);
|
---|
7230 | errbuf[errbuf_size - 1] = 0;
|
---|
7231 | }
|
---|
7232 | else
|
---|
7233 | strcpy (errbuf, msg);
|
---|
7234 | }
|
---|
7235 |
|
---|
7236 | return msg_size;
|
---|
7237 | }
|
---|
7238 |
|
---|
7239 |
|
---|
7240 | /* Free dynamically allocated space used by PREG. */
|
---|
7241 |
|
---|
7242 | #ifdef __STDC__
|
---|
7243 | void
|
---|
7244 | regfree (regex_t *preg)
|
---|
7245 | #else
|
---|
7246 | void
|
---|
7247 | regfree (preg)
|
---|
7248 | regex_t *preg;
|
---|
7249 | #endif
|
---|
7250 | {
|
---|
7251 | if (preg->buffer != 0)
|
---|
7252 | free (preg->buffer);
|
---|
7253 | preg->buffer = 0;
|
---|
7254 | preg->allocated = 0;
|
---|
7255 |
|
---|
7256 | if (preg->fastmap != 0)
|
---|
7257 | free (preg->fastmap);
|
---|
7258 | preg->fastmap = 0;
|
---|
7259 | preg->fastmap_accurate = 0;
|
---|
7260 |
|
---|
7261 | if (preg->translate != 0)
|
---|
7262 | free (preg->translate);
|
---|
7263 | preg->translate = 0;
|
---|
7264 | }
|
---|
7265 |
|
---|
7266 | #endif /* not emacs */
|
---|
7267 |
|
---|
7268 |
|
---|
7269 |
|
---|
7270 |
|
---|
7271 |
|
---|