996
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1 /*
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2 * cipple the c kipple interpreter
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3 * version 0.2.1
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4 * by Jannis Harder (jix)
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5 *
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6 * Usage: cipple [program]
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7 * if program is omitted, cipple reads from stdin.
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8 *
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9 * compile using: gcc -O3 cipple.c -o cipple
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10 * optional flags:
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11 * -DNOINLINE disable inlineing
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12 * -DINCR <int value> sets memory increment for stacks
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13 * -DDECR <int value> sets memory decrement for stacks (should be a multiply of INCR)
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14 * -DSTARTS <int value> sets initial stack size (should be less than DECR and a multiply of INCR)
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15 * -DINSPECT enables instruction dumping (generating kipple code form the internal representation)
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16 */
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17 /*
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18 * Copyright (c) 2005 Jannis Harder
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19 *
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20 * Permission is hereby granted, free of charge, to any person obtaining a copy
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21 * of this software and associated documentation files (the "Software"), to deal
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22 * in the Software without restriction, including without limitation the rights
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23 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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24 * copies of the Software, and to permit persons to whom the Software is
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25 * furnished to do so, subject to the following conditions:
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26 *
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27 * The above copyright notice and this permission notice shall be included in
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28 * all copies or substantial portions of the Software.
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29 *
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30 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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31 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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32 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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33 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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34 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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35 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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36 * SOFTWARE.
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37 */
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38
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39 #include <stdlib.h>
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40 #include <stdio.h>
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41 #include <string.h>
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42
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43
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44 #ifndef INCR
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45 #define INCR 262144
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46 #endif
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47 #ifndef DECR
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48 #define DECR (INCR*4)
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49 #endif
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50
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51 #ifndef STARTS
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52 #define STARTS (INCR*2)
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53 #endif
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54
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55
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56
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57
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58 #ifdef NOINLINE
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59 #define ILINE /*ignore*/
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60 #else
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61 #define ILINE inline
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62 #endif
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63
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64
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65
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66
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67 enum {
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68 PuNone = 0,
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69 PuItoa
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70 };
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71
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72 enum {
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73 PoNone = 0,
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74 };
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75
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76
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77 typedef struct {
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78 int *data;
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79 int usize;
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80 int msize;
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81 int puspecial;
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82 /*int pospecial;
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83 int clrspecial;*/
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84 } stack;
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85
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86 ILINE void push(stack *cstack,int value) {
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87 char temp[13];
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88 int ccount, i;
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89 if(cstack->puspecial) {
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90 ccount = sprintf(temp,"%i",value);
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91 if(cstack->usize+ccount+1 > cstack->msize){
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92 cstack->msize+=INCR;
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93 cstack->data = realloc(cstack->data, cstack->msize*sizeof(int));
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94 }
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95 for(i=0;i<ccount;i++)
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96 cstack->data[++(cstack->usize)]=temp[i];
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97 }
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98 else {
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99
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100 if(cstack->usize+1 == cstack->msize){
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101 cstack->msize+=INCR;
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102 cstack->data = realloc(cstack->data, cstack->msize*sizeof(int));
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103 }
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104 cstack->data[++(cstack->usize)]=value;
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105 }
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106
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107 }
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108
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109 ILINE int pop(stack *cstack) {
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110 int rv;
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111 /*switch(cstack->pospecial) {
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112 case 0:*/
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113 if(cstack->usize == 0)
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114 return 0;
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115 rv = cstack->data[cstack->usize--];
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116 if(cstack->usize < cstack->msize-DECR){
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117 cstack->msize-=DECR;
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118 cstack->data = realloc(cstack->data, cstack->msize*sizeof(int));
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119 }
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120 /* break;
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121 }*/
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122 return rv;
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123 }
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124
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125 ILINE void clear(stack *cstack) {
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126 /*if(!cstack->clrspecial){*/
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127 /*free(cstack->data);
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128 cstack->data = malloc(STARTS*sizeof(int));*/
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129 cstack->usize = 0;
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130 /*cstack->msize = STARTS;*/
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131 /*}*/
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132 }
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133
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134 ILINE void init(stack *cstack) {
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135 cstack->data = malloc(STARTS*sizeof(int)+1);
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136 cstack->usize = 0;
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137 cstack->msize = STARTS;
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138 cstack->puspecial = 0;
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139 /*cstack->pospecial = 0;
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140 cstack->clrspecial = 0;*/
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141 }
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142
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143 ILINE void freestack(stack *cstack) {
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144 free(cstack->data);
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145 free(cstack);
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146 }
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147
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148 ILINE int empty(stack *cstack) {
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149 return cstack->usize == 0;
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150 }
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151
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152 ILINE int last(stack *cstack) {
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153 return cstack->data[cstack->usize];
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154 }
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155
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156 enum {
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157 Inoop = 0,
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158 Ipush,
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159 Imove,
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160 Iaddv,
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161 Iadds,
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162 Isubv,
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163 Isubs,
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164 Izclr,
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165 Iloop,
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166 };
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167
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168 typedef struct s_ins {
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169 int instruction;
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170 union {
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171 stack* s;
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172 int i;
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173 } op_a;
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174 union {
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175 stack* s;
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176 int i;
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177 struct s_ins *p;
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178 } op_b;
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179 struct s_ins *next;
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180 } instruction;
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181
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182 void freeprog (instruction *program) {
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183 instruction *cins = program;
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184 instruction *tins;
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185 while(cins){
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186 if(cins->instruction == Iloop)
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187 freeprog(cins->op_b.p);
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188 tins = cins;
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189 cins = cins->next;
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190 free(tins);
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191 }
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192 }
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193
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194 void run (instruction *program) {
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195 instruction *cins = program;
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196 while(cins) {
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197 switch(cins->instruction){
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198 case Inoop:
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199 break;
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200 case Ipush:
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201 push(cins->op_a.s,cins->op_b.i);
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202 break;
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203 case Imove:
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204 push(cins->op_a.s,pop(cins->op_b.s));
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205 break;
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206 case Iaddv:
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207 push(cins->op_a.s,last(cins->op_a.s)+cins->op_b.i);
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208 break;
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209 case Iadds:
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210 push(cins->op_a.s,last(cins->op_a.s)+pop(cins->op_b.s));
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211 break;
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212 case Isubv:
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213 push(cins->op_a.s,last(cins->op_a.s)-cins->op_b.i);
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214 break;
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215 case Isubs:
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216 push(cins->op_a.s,last(cins->op_a.s)-pop(cins->op_b.s));
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217 break;
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218 case Izclr:
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219 if(!last(cins->op_a.s))
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220 clear(cins->op_a.s);
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221 break;
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222 case Iloop:
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223 while(!empty(cins->op_a.s))
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224 run(cins->op_b.p);
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225 break;
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226 }
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227 cins = cins->next;
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228 }
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229 }
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230
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231
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232
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233
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234
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235 #define UCASE(X) (((X)>96)?((X)-32):(X))
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236 #define CRANGE(X) ((X)>63 && (X)<91)
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237 #define NRANGE(X) ((X)>47 && (X)<58)
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238
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239 #define MALLOCI nins = malloc(sizeof(instruction)); \
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240 nins->next = NULL;\
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241 if(!first) first = nins; \
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242 if(current) current->next = nins; \
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243 current = nins;
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244
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245
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246
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247 instruction * iparse(stack *stacks,int length, char *ldata) {
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248 instruction *first = NULL;
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249 instruction *current = NULL;
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250 instruction *nins = NULL;
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251 int isstring = 0;
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252
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253 char *lchr = ldata;
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254 char *mchr = ldata+length;
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255 int i1,i2,i3,i4;
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256
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257 /* search for instructions */
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258 isstring = 0;
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259 for(lchr=ldata;lchr<mchr;lchr++) {
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260 if((*lchr) == '"'){
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261 isstring = !isstring;
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262 }
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263 else if(!isstring){
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264 switch(*lchr){
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265 case '+':
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266 if(lchr==ldata || lchr==mchr-1) break;
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267 i1 = UCASE(*(lchr-1));
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268 i2 = UCASE(*(lchr+1));
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269 if(!(CRANGE(i1) && (CRANGE(i2) || NRANGE(i2))))
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270 break;
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271 MALLOCI;
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272 current->op_a.s = &stacks[i1-'@'];
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273 if(CRANGE(i2)){
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274 current->instruction = Iadds;
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275 current->op_b.s = &stacks[i2-'@'];
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276 }
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277 else {
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278 current->instruction = Iaddv;
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279 current->op_b.i = 0;
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280 for(i3=1;lchr+i3<mchr && NRANGE(lchr[i3]);i3++){
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281 current->op_b.i*=10;
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282 current->op_b.i+=lchr[i3]-'0';
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283 }
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284 }
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285 break;
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286 case '-':
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287 if(lchr==ldata || lchr==mchr-1) break;
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288 i1 = UCASE(*(lchr-1));
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289 i2 = UCASE(*(lchr+1));
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290 if(!(CRANGE(i1) && (CRANGE(i2) || NRANGE(i2))))
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291 break;
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292 MALLOCI;
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293 current->op_a.s = &stacks[i1-'@'];
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294 if(CRANGE(i2)){
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295 current->instruction = Isubs;
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296 current->op_b.s = &stacks[i2-'@'];
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297 }
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298 else {
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299 current->instruction = Isubv;
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300 current->op_b.i = 0;
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301 for(i3=1;lchr+i3<mchr && NRANGE(lchr[i3]);i3++){
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302 current->op_b.i*=10;
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303 current->op_b.i+=lchr[i3]-'0';
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304 }
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305 }
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306 break;
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307 case '?':
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308 if(lchr==ldata) break;
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309 i1 = UCASE(*(lchr-1));
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310 if(!CRANGE(i1))
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311 break;
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312 MALLOCI;
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313 current->instruction = Izclr;
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314 current->op_a.s = &stacks[i1-'@'];
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315 break;
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316 case '<':
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317 if(lchr==ldata || lchr==mchr-1) break;
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318 i1 = UCASE(*(lchr-1));
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319 i2 = UCASE(*(lchr+1));
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320 if(!CRANGE(i1))
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321 break;
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322 if(CRANGE(i2)){
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323 MALLOCI;
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324 current->instruction = Imove;
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325 current->op_a.s = &stacks[i1-'@'];
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326 current->op_b.s = &stacks[i2-'@'];
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327 }
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328 else if(NRANGE(i2)){
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329 MALLOCI;
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330 current->instruction = Ipush;
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331 current->op_a.s = &stacks[i1-'@'];
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332 current->op_b.i = 0;
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333 for(i3=1;lchr+i3<mchr && NRANGE(lchr[i3]);i3++){
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334 current->op_b.i*=10;
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335 current->op_b.i+=lchr[i3]-'0';
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336 }
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337 }
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338 else if(i2=='"'){
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339 for(i3=2;lchr+i3<mchr && (lchr[i3]!='"');i3++){
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340 MALLOCI;
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341 current->instruction = Ipush;
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342 current->op_a.s = &stacks[i1-'@'];
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343 current->op_b.i = lchr[i3];
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344 }
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345 }
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346 break;
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347 case '>':
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348 if(lchr==ldata || lchr==mchr-1) break;
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349 i1 = UCASE(*(lchr-1));
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350 i2 = UCASE(*(lchr+1));
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351 if(!CRANGE(i2))
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352 break;
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353 if(CRANGE(i1)){
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354 MALLOCI;
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355 current->instruction = Imove;
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356 current->op_a.s = &stacks[i2-'@'];
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357 current->op_b.s = &stacks[i1-'@'];
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358 }
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359 else if(NRANGE(i1)){
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360 MALLOCI;
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361 current->instruction = Ipush;
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362 current->op_a.s = &stacks[i2-'@'];
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363 current->op_b.i = 0;
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364 i4=1;
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365 for(i3=-1;lchr+i3>=ldata && NRANGE(lchr[i3]);i3--){
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366 current->op_b.i+= i4 * (lchr[i3]-'0');
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367 i4*=10;
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368 }
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369 }
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370 else if(i1=='"'){
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371 for(i3=-2;lchr+i3>=ldata && (lchr[i3]!='"');i3--){
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372 MALLOCI;
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373 current->instruction = Ipush;
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374 current->op_a.s = &stacks[i2-'@'];
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375 current->op_b.i = lchr[i3];
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376 }
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377 }
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378 break;
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379 case '(':
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380 if(lchr==mchr-1) break;
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381 i1 = UCASE(*(lchr+1));
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382 if(!CRANGE(i1))
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383 break;
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384 i3=0;
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385 i4=1;
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386 for(i2=1;lchr+i2<mchr && i4 > 0;i2++){
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387 if(lchr[i2]=='"')
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388 i3=!i3;
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389 if(!i3){
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390 if(lchr[i2]=='(')
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391 i4++;
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392 else if(lchr[i2]==')')
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393 i4--;
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394 }
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395 }
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396 MALLOCI;
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397 current->instruction = Iloop;
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398 current->op_a.s = &stacks[i1-'@'];
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399 current->op_b.p = iparse(stacks,i2-1,lchr+1);
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400 lchr+=i2-1;
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401 break;
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402 }
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403 }
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404 }
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405 return first;
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406 }
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407
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408
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409 instruction * parse(stack *stacks,int length, char *data) {
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410 char *ldata = malloc(length);
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411 instruction *rv;
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412 char *lchr = ldata;
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413 char *mchr = ldata+length;
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414
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415 int isstring = 0;
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416 int comment = 0;
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417 memcpy(ldata,data,length);
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418 /* clear comments */
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419 for(;lchr<mchr;lchr++) {
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420 if(isstring && *lchr == '"')
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421 isstring = 0;
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422 else if((!comment) && *lchr == '"')
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423 isstring = 1;
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424 else if(comment && *lchr == '\n')
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425 comment = 0;
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426 else if((!isstring) && *lchr == '#')
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427 comment = 1;
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428 if(comment)
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429 *lchr = ' ';
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430
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431 }
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432 rv = iparse(stacks,length,ldata);
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433 free(ldata);
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434 return rv;
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435 }
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436 #ifdef INSPECT
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437 void dumpprog(int depth,stack *stacks,instruction *program) {
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438 char *e;
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439 instruction *cins = program;
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440 e = malloc(depth+1);
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441 memset(e,':',depth);
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442 e[depth]=0;
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443 while(cins){
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444 switch(cins->instruction){
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445 case Inoop:
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446 fprintf(stderr,"%s noop\n",e);
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447 break;
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448 case Ipush:
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449 fprintf(stderr,"%s push %c<%i\n",e,'@'+cins->op_a.s-stacks,cins->op_b.i);
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450 break;
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451 case Imove:
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452 fprintf(stderr,"%s move %c<%c\n",e,'@'+cins->op_a.s-stacks,'@'+cins->op_b.s-stacks);
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453 break;
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454 case Iaddv:
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455 fprintf(stderr,"%s addv %c+%i\n",e,'@'+cins->op_a.s-stacks,cins->op_b.i);
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456 break;
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457 case Iadds:
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458 fprintf(stderr,"%s adds %c+%c\n",e,'@'+cins->op_a.s-stacks,'@'+cins->op_b.s-stacks);
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459 break;
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460 case Isubv:
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461 fprintf(stderr,"%s subv %c-%i\n",e,'@'+cins->op_a.s-stacks,cins->op_b.i);
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462 break;
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463 case Isubs:
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464 fprintf(stderr,"%s subs %c-%c\n",e,'@'+cins->op_a.s-stacks,'@'+cins->op_b.s-stacks);
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465 break;
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466 case Izclr:
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467 fprintf(stderr,"%s zclr %c?\n",e,'@'+cins->op_a.s-stacks);
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468 break;
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469 case Iloop:
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470 fprintf(stderr,"%s loop (%c\n",e,'@'+cins->op_a.s-stacks);
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471 dumpprog(depth+2,stacks,cins->op_b.p);
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472 fprintf(stderr,"%s )\n",e);
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473 break;
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474
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475 }
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476 cins = cins->next;
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477 }
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478
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479 }
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480 #endif
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481
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482 void runstring(int length,char *program) {
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483 stack stacks[27];
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484 int i;
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485 int t;
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486 instruction *bc;
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487 for(i=0;i<27;i++)
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488 init(&stacks[i]);
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489 stacks[0].puspecial = PuItoa;
|
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490 bc = parse(stacks,length,program);
|
|
491 #ifdef INSPECT
|
|
492 dumpprog(1,stacks,bc);
|
|
493 #endif
|
|
494 while((t = getchar()) && !feof(stdin)){
|
|
495
|
|
496 push(&stacks[9],t);
|
|
497 }
|
|
498
|
|
499 run(bc);
|
|
500 freeprog(bc);
|
|
501 while(!empty(&stacks[15])){
|
|
502 putchar(pop(&stacks[15]));
|
|
503 }
|
|
504 fflush(stdout);
|
|
505 for(i=0;i<27;i++)
|
|
506 free(stacks[i].data);
|
|
507
|
|
508 }
|
|
509
|
|
510 /*void runcstring(char *program) {
|
|
511 runstring(strlen(program),program);
|
|
512 }*/
|
|
513
|
|
514 int main (int argc, const char * argv[]) {
|
|
515 char *program;
|
|
516 int size = 0;
|
|
517 FILE *infile;
|
|
518 if(argc<2)
|
|
519 infile = stdin;
|
|
520 else
|
|
521 infile= fopen(argv[1],"r");
|
|
522
|
|
523 if(!infile)
|
|
524 return 1;
|
|
525 program = malloc(200);
|
|
526 while(!feof(infile)){
|
|
527 program = realloc(program,size+200);
|
|
528 size+=fread(program+size,1,200,infile);
|
|
529 }
|
|
530 if(argc<2){
|
|
531 clearerr(stdin);
|
|
532 rewind(stdin);
|
|
533 }
|
|
534 runstring(size,program);
|
|
535
|
|
536 return 0;
|
|
537 }
|