annotate src/sdl/exprNode.cpp @ 565:bb1dc927859b

saving progress.
author Robert McIntyre <rlm@mit.edu>
date Fri, 31 Aug 2012 12:14:47 -0500
parents f9f4f1b99eed
children
rev   line source
rlm@1 1 // VisualBoyAdvance - Nintendo Gameboy/GameboyAdvance (TM) emulator.
rlm@1 2 // Copyright (C) 1999-2003 Forgotten
rlm@1 3 // Copyright (C) 2004 Forgotten and the VBA development team
rlm@1 4
rlm@1 5 // This program is free software; you can redistribute it and/or modify
rlm@1 6 // it under the terms of the GNU General Public License as published by
rlm@1 7 // the Free Software Foundation; either version 2, or(at your option)
rlm@1 8 // any later version.
rlm@1 9 //
rlm@1 10 // This program is distributed in the hope that it will be useful,
rlm@1 11 // but WITHOUT ANY WARRANTY; without even the implied warranty of
rlm@1 12 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
rlm@1 13 // GNU General Public License for more details.
rlm@1 14 //
rlm@1 15 // You should have received a copy of the GNU General Public License
rlm@1 16 // along with this program; if not, write to the Free Software Foundation,
rlm@1 17 // Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
rlm@1 18
rlm@1 19 #include <string.h>
rlm@1 20 #include <stdio.h>
rlm@1 21 #include <stdlib.h>
rlm@1 22
rlm@1 23 #include "Port.h"
rlm@1 24 #include "gba/GBAGlobals.h"
rlm@1 25 #include "gba/elf.h"
rlm@1 26 #include "exprNode.h"
rlm@1 27
rlm@1 28 extern char *yytext;
rlm@1 29
rlm@1 30 #define debuggerReadMemory(addr) \
rlm@1 31 READ32LE((&map[(addr)>>24].address[(addr) & map[(addr)>>24].mask]))
rlm@1 32
rlm@1 33 void *exprNodeCleanUpList[100];
rlm@1 34 int exprNodeCleanUpCount = 0;
rlm@1 35 Type exprNodeType = { 0, TYPE_base, "int", DW_ATE_signed, 4, 0, {0}, 0 };
rlm@1 36
rlm@1 37 void exprNodeClean(void *m)
rlm@1 38 {
rlm@1 39 exprNodeCleanUpList[exprNodeCleanUpCount++] = m;
rlm@1 40 }
rlm@1 41
rlm@1 42 void exprNodeCleanUp()
rlm@1 43 {
rlm@1 44 for(int i = 0; i < exprNodeCleanUpCount; i++) {
rlm@1 45 free(exprNodeCleanUpList[i]);
rlm@1 46 }
rlm@1 47 exprNodeCleanUpCount = 0;
rlm@1 48 }
rlm@1 49
rlm@1 50 Node *exprNodeIdentifier()
rlm@1 51 {
rlm@1 52 Node *n = (Node *)calloc(1, sizeof(Node));
rlm@1 53 n->name = strdup(yytext);
rlm@1 54
rlm@1 55 exprNodeClean(n->name);
rlm@1 56 exprNodeClean(n);
rlm@1 57
rlm@1 58 n->print = exprNodeIdentifierPrint;
rlm@1 59 n->resolve = exprNodeIdentifierResolve;
rlm@1 60 return n;
rlm@1 61 }
rlm@1 62
rlm@1 63 bool exprNodeIdentifierResolve(Node *n, Function *f, CompileUnit *u)
rlm@1 64 {
rlm@1 65 Object *o;
rlm@1 66 if(elfGetObject(n->name, f, u, &o)) {
rlm@1 67 n->type = o->type;
rlm@1 68 n->location = elfDecodeLocation(f, o->location, &n->locType);
rlm@1 69 return true;
rlm@1 70 } else {
rlm@1 71 printf("Object %s not found\n", n->name);
rlm@1 72 }
rlm@1 73 return false;
rlm@1 74 }
rlm@1 75
rlm@1 76 void exprNodeIdentifierPrint(Node *n)
rlm@1 77 {
rlm@1 78 printf("%s", n->name);
rlm@1 79 }
rlm@1 80
rlm@1 81 Node *exprNodeNumber()
rlm@1 82 {
rlm@1 83 Node *n = (Node *)calloc(1, sizeof(Node));
rlm@1 84
rlm@1 85 exprNodeClean(n);
rlm@1 86 n->location = atoi(yytext);
rlm@1 87 n->type = &exprNodeType;
rlm@1 88 n->locType = LOCATION_value;
rlm@1 89 n->print = exprNodeNumberPrint;
rlm@1 90 n->resolve = exprNodeNumberResolve;
rlm@1 91 return n;
rlm@1 92 }
rlm@1 93
rlm@1 94 bool exprNodeNumberResolve(Node *n, Function *f, CompileUnit *u)
rlm@1 95 {
rlm@1 96 return true;
rlm@1 97 }
rlm@1 98
rlm@1 99 void exprNodeNumberPrint(Node *n)
rlm@1 100 {
rlm@1 101 printf("%d", n->location);
rlm@1 102 }
rlm@1 103
rlm@1 104 Node *exprNodeStar(Node *exp)
rlm@1 105 {
rlm@1 106 Node *n = (Node *)calloc(1, sizeof(Node));
rlm@1 107 exprNodeClean(n);
rlm@1 108
rlm@1 109 n->expression = exp;
rlm@1 110
rlm@1 111 n->print = exprNodeStarPrint;
rlm@1 112 n->resolve = exprNodeStarResolve;
rlm@1 113 return n;
rlm@1 114 }
rlm@1 115
rlm@1 116 bool exprNodeStarResolve(Node *n, Function *f, CompileUnit *u)
rlm@1 117 {
rlm@1 118 if(n->expression->resolve(n->expression, f, u)) {
rlm@1 119 if(n->expression->type->type == TYPE_pointer) {
rlm@1 120 n->location = n->expression->location;
rlm@1 121 if(n->expression->locType == LOCATION_memory) {
rlm@1 122 n->location = debuggerReadMemory(n->location);
rlm@1 123 } else if(n->expression->locType == LOCATION_register) {
rlm@1 124 n->location = reg[n->expression->location].I;
rlm@1 125 } else {
rlm@1 126 n->location = n->expression->location;
rlm@1 127 }
rlm@1 128 n->type = n->expression->type->pointer;
rlm@1 129 n->locType = LOCATION_memory;
rlm@1 130 return true;
rlm@1 131 } else {
rlm@1 132 printf("Object is not of pointer type\n");
rlm@1 133 }
rlm@1 134 }
rlm@1 135 return false;
rlm@1 136 }
rlm@1 137
rlm@1 138 void exprNodeStarPrint(Node *n)
rlm@1 139 {
rlm@1 140 printf("*");
rlm@1 141 n->expression->print(n->expression);
rlm@1 142 }
rlm@1 143
rlm@1 144 Node *exprNodeDot(Node *exp, Node *ident)
rlm@1 145 {
rlm@1 146 Node *n = (Node *)calloc(1, sizeof(Node));
rlm@1 147 exprNodeClean(n);
rlm@1 148
rlm@1 149 n->expression = exp;
rlm@1 150 n->name = ident->name;
rlm@1 151
rlm@1 152 n->print = exprNodeDotPrint;
rlm@1 153 n->resolve = exprNodeDotResolve;
rlm@1 154 return n;
rlm@1 155 }
rlm@1 156
rlm@1 157 bool exprNodeDotResolve(Node *n, Function *f, CompileUnit *u)
rlm@1 158 {
rlm@1 159 if(n->expression->resolve(n->expression, f, u)) {
rlm@1 160 TypeEnum tt = n->expression->type->type;
rlm@1 161
rlm@1 162 if(tt == TYPE_struct ||
rlm@1 163 tt == TYPE_union) {
rlm@1 164 u32 loc = n->expression->location;
rlm@1 165 Type *t = n->expression->type;
rlm@1 166 int count = t->structure->memberCount;
rlm@1 167 int i = 0;
rlm@1 168 while(i < count) {
rlm@1 169 Member *m = &t->structure->members[i];
rlm@1 170 if(strcmp(m->name, n->name) == 0) {
rlm@1 171 // found member
rlm@1 172 n->type = m->type;
rlm@1 173 if(tt == TYPE_struct) {
rlm@1 174 n->location = elfDecodeLocation(f, m->location, &n->locType,
rlm@1 175 loc);
rlm@1 176 n->objLocation = loc;
rlm@1 177 } else {
rlm@1 178 n->location = loc;
rlm@1 179 n->locType = n->expression->locType;
rlm@1 180 n->objLocation = loc;
rlm@1 181 }
rlm@1 182 n->member = m;
rlm@1 183 return true;
rlm@1 184 }
rlm@1 185 i++;
rlm@1 186 }
rlm@1 187 printf("Member %s not found\n", n->name);
rlm@1 188 } else {
rlm@1 189 printf("Object is not of structure type\n");
rlm@1 190 }
rlm@1 191 }
rlm@1 192 return false;
rlm@1 193 }
rlm@1 194
rlm@1 195 void exprNodeDotPrint(Node *n)
rlm@1 196 {
rlm@1 197 n->expression->print(n->expression);
rlm@1 198 printf(".%s", n->name);
rlm@1 199 }
rlm@1 200
rlm@1 201 Node *exprNodeArrow(Node *exp, Node *ident)
rlm@1 202 {
rlm@1 203 Node *n = (Node *)calloc(1, sizeof(Node));
rlm@1 204 exprNodeClean(n);
rlm@1 205
rlm@1 206 n->expression = exp;
rlm@1 207 n->name = ident->name;
rlm@1 208
rlm@1 209 n->print = exprNodeArrowPrint;
rlm@1 210 n->resolve = exprNodeArrowResolve;
rlm@1 211 return n;
rlm@1 212 }
rlm@1 213
rlm@1 214 bool exprNodeArrowResolve(Node *n, Function *f, CompileUnit *u)
rlm@1 215 {
rlm@1 216 if(n->expression->resolve(n->expression, f, u)) {
rlm@1 217 TypeEnum tt = n->expression->type->type;
rlm@1 218 if(tt != TYPE_pointer) {
rlm@1 219 printf("Object not of pointer type\n");
rlm@1 220 return false;
rlm@1 221 }
rlm@1 222 tt = n->expression->type->pointer->type;
rlm@1 223
rlm@1 224 if(tt == TYPE_struct ||
rlm@1 225 tt == TYPE_union) {
rlm@1 226 u32 loc = debuggerReadMemory(n->expression->location);
rlm@1 227 Type *t = n->expression->type->pointer;
rlm@1 228 int count = t->structure->memberCount;
rlm@1 229 int i = 0;
rlm@1 230 while(i < count) {
rlm@1 231 Member *m = &t->structure->members[i];
rlm@1 232 if(strcmp(m->name, n->name) == 0) {
rlm@1 233 // found member
rlm@1 234 n->type = m->type;
rlm@1 235 if(tt == TYPE_struct) {
rlm@1 236 n->location = elfDecodeLocation(f, m->location, &n->locType,
rlm@1 237 loc);
rlm@1 238 n->objLocation = loc;
rlm@1 239 } else {
rlm@1 240 n->location = loc;
rlm@1 241 n->objLocation = loc;
rlm@1 242 }
rlm@1 243 n->locType = LOCATION_memory;
rlm@1 244 n->member = m;
rlm@1 245 return true;
rlm@1 246 }
rlm@1 247 i++;
rlm@1 248 }
rlm@1 249 printf("Member %s not found\n", n->name);
rlm@1 250 } else {
rlm@1 251 printf("Object is not of structure type\n");
rlm@1 252 }
rlm@1 253 }
rlm@1 254 return false;
rlm@1 255 }
rlm@1 256
rlm@1 257 void exprNodeArrowPrint(Node *n)
rlm@1 258 {
rlm@1 259 n->expression->print(n->expression);
rlm@1 260 printf("->%s", n->name);
rlm@1 261 }
rlm@1 262
rlm@1 263 Node *exprNodeAddr(Node *exp)
rlm@1 264 {
rlm@1 265 Node *n = (Node *)calloc(1, sizeof(Node));
rlm@1 266 exprNodeClean(n);
rlm@1 267
rlm@1 268 n->expression = exp;
rlm@1 269
rlm@1 270 n->print = exprNodeAddrPrint;
rlm@1 271 n->resolve = exprNodeAddrResolve;
rlm@1 272 return n;
rlm@1 273 }
rlm@1 274
rlm@1 275 bool exprNodeAddrResolve(Node *n, Function *f, CompileUnit *u)
rlm@1 276 {
rlm@1 277 if(n->expression->resolve(n->expression, f, u)) {
rlm@1 278 if(n->expression->locType == LOCATION_memory) {
rlm@1 279 n->location = n->expression->location;
rlm@1 280 n->locType = LOCATION_value;
rlm@1 281 n->type = &exprNodeType;
rlm@1 282 } else if(n->expression->locType == LOCATION_register) {
rlm@1 283 printf("Value is in register %d\n", n->expression->location);
rlm@1 284 } else {
rlm@1 285 printf("Direct value is %d\n", n->location);
rlm@1 286 }
rlm@1 287 return true;
rlm@1 288 }
rlm@1 289 return false;
rlm@1 290 }
rlm@1 291
rlm@1 292 void exprNodeAddrPrint(Node *n)
rlm@1 293 {
rlm@1 294 printf("*");
rlm@1 295 n->expression->print(n->expression);
rlm@1 296 }
rlm@1 297
rlm@1 298 Node *exprNodeSizeof(Node *exp)
rlm@1 299 {
rlm@1 300 Node *n = (Node *)calloc(1, sizeof(Node));
rlm@1 301 exprNodeClean(n);
rlm@1 302
rlm@1 303 n->expression = exp;
rlm@1 304
rlm@1 305 n->print = exprNodeSizeofPrint;
rlm@1 306 n->resolve = exprNodeSizeofResolve;
rlm@1 307 return n;
rlm@1 308 }
rlm@1 309
rlm@1 310 bool exprNodeSizeofResolve(Node *n, Function *f, CompileUnit *u)
rlm@1 311 {
rlm@1 312 if(n->expression->resolve(n->expression, f, u)) {
rlm@1 313 n->location = n->expression->type->size;
rlm@1 314 n->locType = LOCATION_value;
rlm@1 315 n->type = &exprNodeType;
rlm@1 316 return true;
rlm@1 317 }
rlm@1 318 return false;
rlm@1 319 }
rlm@1 320
rlm@1 321 void exprNodeSizeofPrint(Node *n)
rlm@1 322 {
rlm@1 323 printf("sizeof(");
rlm@1 324 n->expression->print(n->expression);
rlm@1 325 printf(")");
rlm@1 326 }
rlm@1 327
rlm@1 328 Node *exprNodeArray(Node *exp, Node *number)
rlm@1 329 {
rlm@1 330 Node *n = (Node *)calloc(1, sizeof(Node));
rlm@1 331 exprNodeClean(n);
rlm@1 332
rlm@1 333 n->expression = exp;
rlm@1 334 n->value = number->location;
rlm@1 335
rlm@1 336 n->print = exprNodeArrayPrint;
rlm@1 337 n->resolve = exprNodeArrayResolve;
rlm@1 338 return n;
rlm@1 339 }
rlm@1 340
rlm@1 341 int exprNodeGetSize(Array *a, int index)
rlm@1 342 {
rlm@1 343 index++;
rlm@1 344 if(index == a->maxBounds) {
rlm@1 345 return a->type->size;
rlm@1 346 } else {
rlm@1 347 int size = a->bounds[a->maxBounds-1] * a->type->size;
rlm@1 348
rlm@1 349 for(int i = index; i < a->maxBounds-1; i++) {
rlm@1 350 size *= a->bounds[i];
rlm@1 351 }
rlm@1 352 return size;
rlm@1 353 }
rlm@1 354 }
rlm@1 355
rlm@1 356 bool exprNodeArrayResolve(Node *n, Function *f, CompileUnit *u)
rlm@1 357 {
rlm@1 358 if(n->expression->resolve(n->expression, f, u)) {
rlm@1 359 TypeEnum tt = n->expression->type->type;
rlm@1 360 if(tt != TYPE_array &&
rlm@1 361 tt != TYPE_pointer) {
rlm@1 362 printf("Object not of array or pointer type\n");
rlm@1 363 return false;
rlm@1 364 }
rlm@1 365
rlm@1 366 if(tt == TYPE_array) {
rlm@1 367 Array *a = n->expression->type->array;
rlm@1 368
rlm@1 369 u32 loc = n->expression->location;
rlm@1 370 Type *t = a->type;
rlm@1 371 if(a->maxBounds > 1) {
rlm@1 372 int index = n->expression->index;
rlm@1 373
rlm@1 374 if(index == a->maxBounds) {
rlm@1 375 printf("Too many indices for array\n");
rlm@1 376 return false;
rlm@1 377 }
rlm@1 378
rlm@1 379 if((index+1) < a->maxBounds) {
rlm@1 380 n->type = n->expression->type;
rlm@1 381 n->index = index+1;
rlm@1 382 n->locType = LOCATION_memory;
rlm@1 383 n->location = n->expression->location +
rlm@1 384 n->value * exprNodeGetSize(a, index);
rlm@1 385 return true;
rlm@1 386 }
rlm@1 387 }
rlm@1 388 n->type = t;
rlm@1 389 n->location = loc + n->value * t->size;
rlm@1 390 n->locType = LOCATION_memory;
rlm@1 391 } else {
rlm@1 392 Type *t = n->expression->type->pointer;
rlm@1 393 u32 loc = n->expression->location;
rlm@1 394 if(n->expression->locType == LOCATION_register)
rlm@1 395 loc = reg[loc].I;
rlm@1 396 else
rlm@1 397 loc = debuggerReadMemory(loc);
rlm@1 398 n->type = t;
rlm@1 399 n->location = loc + n->value * t->size;
rlm@1 400 n->locType = LOCATION_memory;
rlm@1 401 }
rlm@1 402 return true;
rlm@1 403 }
rlm@1 404 return false;
rlm@1 405 }
rlm@1 406
rlm@1 407 void exprNodeArrayPrint(Node *n)
rlm@1 408 {
rlm@1 409 n->expression->print(n->expression);
rlm@1 410 printf("[%d]", n->value);
rlm@1 411 }