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4061 | svoboda | 1 | /* |
2 | * Copyright (c) 2009 Jiri Svoboda |
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3 | * All rights reserved. |
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4 | * |
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5 | * Redistribution and use in source and binary forms, with or without |
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6 | * modification, are permitted provided that the following conditions |
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7 | * are met: |
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8 | * |
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9 | * - Redistributions of source code must retain the above copyright |
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10 | * notice, this list of conditions and the following disclaimer. |
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11 | * - Redistributions in binary form must reproduce the above copyright |
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12 | * notice, this list of conditions and the following disclaimer in the |
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13 | * documentation and/or other materials provided with the distribution. |
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14 | * - The name of the author may not be used to endorse or promote products |
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15 | * derived from this software without specific prior written permission. |
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16 | * |
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17 | * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
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18 | * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
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19 | * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
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20 | * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
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21 | * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
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22 | * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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23 | * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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24 | * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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25 | * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
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26 | * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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27 | */ |
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28 | |||
29 | /** |
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30 | * @addtogroup kbdgen generic |
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31 | * @ingroup kbd |
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32 | * @{ |
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33 | */ |
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34 | /** @file |
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35 | * @brief Generic scancode parser. |
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36 | * |
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37 | * The scancode parser is a simple finite state machine. It is described |
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38 | * using sequences of input symbols (scancodes) and the corresponding output |
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39 | * value (mods, key pair). When the parser recognizes a sequence, |
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40 | * it outputs the value and restarts. If a transition is undefined, |
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41 | * the parser restarts, too. |
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42 | * |
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43 | * Apart from precise values, GSP_DEFAULT allows to catch general cases. |
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44 | * I.e. if we knew that after 0x1b 0x4f there always follow two more |
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45 | * scancodes, we can define (0x1b, 0x4f, GSP_DEFAULT, GSP_DEFAULT, GSP_END) |
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46 | * with null output. This will force the parser to read the entire sequence, |
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47 | * not leaving garbage on the input if it does not recognize the specific |
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48 | * sequence. |
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49 | */ |
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50 | |||
51 | #include <gsp.h> |
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4691 | svoboda | 52 | #include <adt/hash_table.h> |
4061 | svoboda | 53 | #include <stdlib.h> |
54 | #include <stdio.h> |
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55 | |||
56 | #define TRANS_TABLE_CHAINS 256 |
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57 | |||
58 | /* |
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59 | * Hash table operations for the transition function. |
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60 | */ |
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61 | |||
62 | static hash_index_t trans_op_hash(unsigned long key[]); |
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63 | static int trans_op_compare(unsigned long key[], hash_count_t keys, |
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64 | link_t *item); |
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65 | static void trans_op_remove_callback(link_t *item); |
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66 | |||
67 | static hash_table_operations_t trans_ops = { |
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68 | .hash = trans_op_hash, |
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69 | .compare = trans_op_compare, |
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70 | .remove_callback = trans_op_remove_callback |
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71 | }; |
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72 | |||
73 | static gsp_trans_t *trans_lookup(gsp_t *p, int state, int input); |
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74 | static void trans_insert(gsp_t *p, gsp_trans_t *t); |
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75 | static gsp_trans_t *trans_new(void); |
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76 | |||
77 | /** Initialise scancode parser. */ |
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78 | void gsp_init(gsp_t *p) |
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79 | { |
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80 | p->states = 1; |
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81 | hash_table_create(&p->trans, TRANS_TABLE_CHAINS, 2, &trans_ops); |
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82 | } |
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83 | |||
84 | /** Insert a series of definitions into the parser. |
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85 | * |
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86 | * @param p The parser. |
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87 | * @param defs Definition list. Each definition starts with two output values |
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88 | * (mods, key) and continues with a sequence of input values |
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89 | * terminated with GSP_END. The definition list is terminated |
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90 | * with two zeroes (0, 0) for output values. |
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91 | */ |
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92 | int gsp_insert_defs(gsp_t *p, const int *defs) |
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93 | { |
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94 | unsigned mods, key; |
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95 | const int *dp; |
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96 | int rc; |
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97 | |||
98 | dp = defs; |
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99 | |||
100 | while (1) { |
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101 | /* Read the output values. */ |
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102 | mods = *dp++; |
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103 | key = *dp++; |
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104 | if (key == 0) break; |
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105 | |||
106 | /* Insert one sequence. */ |
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107 | rc = gsp_insert_seq(p, dp, mods, key); |
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108 | if (rc != 0) |
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109 | return rc; |
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110 | |||
111 | /* Skip to the next definition. */ |
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112 | while (*dp != GSP_END) |
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113 | ++dp; |
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114 | ++dp; |
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115 | } |
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116 | |||
117 | return 0; |
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118 | } |
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119 | |||
120 | /** Insert one sequence into the parser. |
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121 | * |
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122 | * @param p The parser. |
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123 | * @param seq Sequence of input values terminated with GSP_END. |
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124 | * @param mods Corresponsing output value. |
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125 | * @param key Corresponsing output value. |
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126 | */ |
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127 | int gsp_insert_seq(gsp_t *p, const int *seq, unsigned mods, unsigned key) |
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128 | { |
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129 | int state; |
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130 | gsp_trans_t *t; |
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131 | |||
132 | state = 0; |
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133 | t = NULL; |
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134 | |||
135 | /* Input sequence must be non-empty. */ |
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136 | if (*seq == GSP_END) |
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137 | return -1; |
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138 | |||
139 | while (*(seq + 1) != GSP_END) { |
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140 | t = trans_lookup(p, state, *seq); |
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141 | if (t == NULL) { |
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142 | /* Create new state. */ |
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143 | t = trans_new(); |
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144 | t->old_state = state; |
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145 | t->input = *seq; |
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146 | t->new_state = p->states++; |
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147 | |||
148 | t->out_mods = 0; |
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149 | t->out_key = 0; |
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150 | |||
151 | trans_insert(p, t); |
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152 | } |
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153 | state = t->new_state; |
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154 | ++seq; |
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155 | } |
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156 | |||
157 | /* Process the last transition. */ |
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158 | t = trans_lookup(p, state, *seq); |
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159 | if (t != NULL) { |
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160 | exit(1); |
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161 | return -1; /* Conflicting definition. */ |
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162 | } |
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163 | |||
164 | t = trans_new(); |
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165 | t->old_state = state; |
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166 | t->input = *seq; |
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167 | t->new_state = 0; |
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168 | |||
169 | t->out_mods = mods; |
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170 | t->out_key = key; |
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171 | |||
172 | trans_insert(p, t); |
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173 | |||
174 | return 0; |
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175 | } |
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176 | |||
177 | /** Compute one parser step. |
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178 | * |
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179 | * Computes the next state and output values for a given state and input. |
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180 | * This handles everything including restarts and default branches. |
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181 | * |
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182 | * @param p The parser. |
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183 | * @param state Old state. |
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184 | * @param input Input symbol (scancode). |
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185 | * @param mods Output value (modifier). |
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186 | * @param key Output value (key). |
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187 | * @return New state. |
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188 | */ |
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189 | int gsp_step(gsp_t *p, int state, int input, unsigned *mods, unsigned *key) |
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190 | { |
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191 | gsp_trans_t *t; |
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192 | |||
193 | t = trans_lookup(p, state, input); |
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194 | if (t == NULL) { |
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195 | t = trans_lookup(p, state, GSP_DEFAULT); |
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196 | } |
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197 | |||
198 | if (t == NULL) { |
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199 | printf("gsp_step: not found\n"); |
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200 | *mods = NULL; |
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201 | *key = NULL; |
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202 | return 0; |
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203 | } |
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204 | |||
205 | *mods = t->out_mods; |
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206 | *key = t->out_key; |
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207 | return t->new_state; |
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208 | } |
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209 | |||
210 | /** Transition function lookup. |
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211 | * |
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212 | * Returns the value of the transition function for the given state |
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213 | * and input. Note that the transition must be specified precisely, |
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214 | * to obtain the default branch use input = GSP_DEFAULT. |
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215 | * |
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216 | * @param p Parser. |
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217 | * @param state Current state. |
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218 | * @param input Input value. |
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219 | * @return The transition or @c NULL if not defined. |
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220 | */ |
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221 | static gsp_trans_t *trans_lookup(gsp_t *p, int state, int input) |
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222 | { |
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223 | link_t *item; |
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224 | unsigned long key[2]; |
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225 | |||
226 | key[0] = state; |
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227 | key[1] = input; |
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228 | |||
229 | item = hash_table_find(&p->trans, key); |
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230 | if (item == NULL) return NULL; |
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231 | |||
232 | return hash_table_get_instance(item, gsp_trans_t, link); |
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233 | } |
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234 | |||
235 | /** Define a new transition. |
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236 | * |
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237 | * @param p The parser. |
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238 | * @param t Transition with all fields defined. |
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239 | */ |
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240 | static void trans_insert(gsp_t *p, gsp_trans_t *t) |
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241 | { |
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242 | unsigned long key[2]; |
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243 | |||
244 | key[0] = t->old_state; |
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245 | key[1] = t->input; |
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246 | |||
4691 | svoboda | 247 | hash_table_insert(&p->trans, key, &t->link); |
4061 | svoboda | 248 | } |
249 | |||
250 | /** Allocate transition structure. */ |
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251 | static gsp_trans_t *trans_new(void) |
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252 | { |
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253 | gsp_trans_t *t; |
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254 | |||
255 | t = malloc(sizeof(gsp_trans_t)); |
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256 | if (t == NULL) { |
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257 | printf("Memory allocation failed.\n"); |
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258 | exit(1); |
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259 | } |
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260 | |||
261 | return t; |
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262 | } |
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263 | |||
264 | /* |
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265 | * Transition function hash table operations. |
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266 | */ |
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267 | |||
268 | static hash_index_t trans_op_hash(unsigned long key[]) |
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269 | { |
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270 | return (key[0] * 17 + key[1]) % TRANS_TABLE_CHAINS; |
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271 | } |
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272 | |||
273 | static int trans_op_compare(unsigned long key[], hash_count_t keys, |
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274 | link_t *item) |
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275 | { |
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276 | gsp_trans_t *t; |
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277 | |||
278 | t = hash_table_get_instance(item, gsp_trans_t, link); |
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4691 | svoboda | 279 | return ((key[0] == (unsigned long) t->old_state) |
280 | && (key[1] == (unsigned long) t->input)); |
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4061 | svoboda | 281 | } |
282 | |||
283 | static void trans_op_remove_callback(link_t *item) |
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284 | { |
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285 | } |
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286 | |||
287 | /** |
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288 | * @} |
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289 | */ |