Changeset 41 for vis_dev/vis-2.3
- Timestamp:
- Jan 10, 2012, 6:51:23 PM (13 years ago)
- Location:
- vis_dev/vis-2.3
- Files:
-
- 8 edited
Legend:
- Unmodified
- Added
- Removed
-
vis_dev/vis-2.3/models/debug/and2.ltl
r39 r41 1 X(c = 1);1 X(c = 0); -
vis_dev/vis-2.3/models/debug/test.script
r40 r41 1 rlmv and2.mv1 rlmv new_and.mv 2 2 init 3 3 _createAbn 4 4 aig 5 _sat_debug -k 1 -p and2.ltl -o and2_prop.cnf -v 15 _sat_debug -k 1 -v 1 -o new_and_prop.cnf and2.ltl -
vis_dev/vis-2.3/src/bmc/bmcInt.h
r14 r41 184 184 EXTERN Ltl_Automaton_t * BmcAutLtlToAutomaton(Ntk_Network_t *network, Ctlsp_Formula_t *ltlFormula); 185 185 EXTERN void BmcAutTerminationFree(BmcCheckForTermination_t *result); 186 EXTERN int BmcBddSat(Ntk_Network_t *network, array_t *formulaArray, BmcOption_t * options);186 EXTERN int BmcBddSat(Ntk_Network_t *network, array_t *formulaArray, BmcOption_t *savons); 187 187 EXTERN Bmc_PropertyStatus BmcBddSatCheckLtlFormula(Ntk_Network_t *network, mdd_t *initialStates, mdd_t *targetStates, BmcOption_t *options, st_table *CoiTable); 188 188 EXTERN void BmcLtlVerifyProp(Ntk_Network_t *network, Ctlsp_Formula_t *ltlFormula, st_table *CoiTable, BmcOption_t *options); -
vis_dev/vis-2.3/src/debug/debug.c
r40 r41 65 65 static int CommandTransition(Hrc_Manager_t ** hmgr,int argc, char ** argv); 66 66 static int CommandCreateAbnormal(Hrc_Manager_t ** hmgr,int argc, char ** argv); 67 static int CommandGenerateNetworkCNF(Hrc_Manager_t ** hmgr,int argc, char ** argv); 67 68 68 69 … … 94 95 Cmd_CommandAdd("_sat_debug", CommandSatDebug, 0); 95 96 Cmd_CommandAdd("_createAbn", CommandCreateAbnormal, 1); 97 Cmd_CommandAdd("print_network_cnf", CommandGenerateNetworkCNF, 0); 96 98 97 99 } … … 176 178 177 179 ******************************************************************************/ 178 static int179 checkIndex(180 int index,181 BmcCnfClauses_t *cnfClauses)182 {183 int rtnValue = -1; /* it is not TRUE or FALSE*/184 185 if (index == 0){ /* TRUE or FALSE*/186 if (cnfClauses->emptyClause){ /* last added clause was empty = FALSE*/187 rtnValue = 0; /* FALSE */188 } else {189 /*190 if (cnfClauses->noOfClauses == 0)191 rtnValue = 1;192 }193 */194 rtnValue = 1; /* TRUE */195 }196 }197 return rtnValue;198 }199 200 201 180 static int 202 181 CommandSatDebug( … … 206 185 int c,i; 207 186 int verbose = 0; /* default value */ 208 BmcOption_t *options = BmcOptionAlloc(); 209 Ntk_Network_t * network; 210 bAig_Manager_t *manager; 211 array_t *formulaArray; 212 array_t *LTLformulaArray; 213 char *ltlFileName = NIL(char); 187 BmcOption_t * options = BmcOptionAlloc(); 188 Ntk_Network_t * network; 189 bAig_Manager_t * manager; 190 array_t * formulaArray; 191 array_t * LTLformulaArray; 192 char * ltlFileName = NIL(char); 193 214 194 215 195 /* 216 196 * Parse command line options. 217 197 */ 218 util_getopt_reset(); 219 while ((c = util_getopt(argc, argv, "vhp:m:k:o:")) != EOF) { 220 switch(c) { 221 case 'v': 222 verbose = 1; 223 options->verbosityLevel = verbose; 224 break; 225 case 'h': 226 goto usage; 227 case 'm': 228 for (i = 0; i < strlen(util_optarg); i++) { 229 if (!isdigit((int)util_optarg[i])) { 230 goto usage; 231 } 232 } 233 options->minK = atoi(util_optarg); 234 break; 235 case 'k': 236 for (i = 0; i < strlen(util_optarg); i++) { 237 if (!isdigit((int)util_optarg[i])) { 238 goto usage; 239 } 240 } 241 options->maxK = atoi(util_optarg); 242 break; 243 case 'o': 244 options->cnfFileName = util_strsav(util_optarg); 245 break; 246 case 'p': 247 ltlFileName = util_strsav(util_optarg); 248 break; 249 250 default: 251 goto usage; 252 } 253 } 198 if ((options = ParseBmcOptions(argc, argv)) == NIL(BmcOption_t)) { 199 return 1; 200 } 201 202 254 203 printf("MAX K %d", options->maxK); 255 if (options->minK > options->maxK){256 (void) fprintf(vis_stderr, "** bmc error: value for -m option must not be greater than vlaue for -k option\n");257 goto usage;258 }259 204 260 205 if (verbose) { 261 206 (void) fprintf(vis_stdout, "The _sat_debug command is under construction.\n"); 262 207 } 263 /* create SAT Solver input file */ 264 if (options->cnfFileName == NIL(char)) { 265 options->satInFile = BmcCreateTmpFile(); 266 } 267 else { 268 options->satInFile = options->cnfFileName; 269 } 270 271 /* create SAT Solver output file */ 272 options->satOutFile = BmcCreateTmpFile(); 273 if (options->satOutFile == NIL(char)){ 208 /* 209 * Read the network 210 */ 211 network = Ntk_HrcManagerReadCurrentNetwork(*hmgr); 212 if (network == NIL(Ntk_Network_t)) { 213 (void) fprintf(vis_stdout, "** _sat_debug error: No network\n"); 274 214 BmcOptionFree(options); 275 (void) fprintf(vis_stdout, "The _sat_debug problem.\n");276 215 return 1; 277 216 } 278 279 options->verbosityLevel = 1; 280 //options->satSolver 281 //options->clauses 282 283 /* 284 * Read the network 285 */ 286 network = Ntk_HrcManagerReadCurrentNetwork(*hmgr); 287 if (network == NIL(Ntk_Network_t)) { 288 (void) fprintf(vis_stdout, "** bmc error: No network\n"); 289 BmcOptionFree(options); 290 return 1; 291 } 292 manager = Ntk_NetworkReadMAigManager(network); 293 if (manager == NIL(mAig_Manager_t)) { 294 (void) fprintf(vis_stdout, "** bmc error: run build_partition_maigs command first\n"); 295 BmcOptionFree(options); 296 return 1; 297 } 298 299 /* 300 We need the bdd when building the transition relation of the automaton 301 */ 302 if(options->inductiveStep !=0){ 303 Fsm_Fsm_t *designFsm = NIL(Fsm_Fsm_t); 304 305 designFsm = Fsm_HrcManagerReadCurrentFsm(*hmgr); 306 if (designFsm == NIL(Fsm_Fsm_t)) { 307 (void) fprintf(vis_stdout, "The _sat_debug : Build FSM.\n"); 308 return 1; 309 } 310 } 217 manager = Ntk_NetworkReadMAigManager(network); 218 if (manager == NIL(mAig_Manager_t)) { 219 (void) fprintf(vis_stdout, "** _sat_debug error: run build_partition_maigs command first\n"); 220 BmcOptionFree(options); 221 return 1; 222 } 223 311 224 Dbg_Abnormal_t * abn = Dbg_NetworkReadAbnormal(network); 312 printf("abnormal %d \n",array_n(Dbg_ReadAbn(abn))); 313 /* 314 * Read the formula 315 */ 316 /* Read LTL Formulae */ 317 if (!ltlFileName) 318 goto usage; 319 320 options->ltlFile = Cmd_FileOpen(ltlFileName, "r", NIL(char *), 0); 321 if (options->ltlFile == NIL(FILE)) { 322 (void) fprintf(vis_stdout,"** _sat_debug error: Cannot open the file %s\n", ltlFileName); 323 FREE(ltlFileName); 324 BmcOptionFree(options); 325 } 326 FREE(ltlFileName); 327 328 formulaArray = Ctlsp_FileParseFormulaArray(options->ltlFile); 329 if (formulaArray == NIL(array_t)) { 330 (void) fprintf(vis_stderr, 331 "** bmc error: error in parsing CTL* Fromula from file\n"); 332 BmcOptionFree(options); 333 return 1; 334 } 335 if (array_n(formulaArray) == 0) { 336 (void) fprintf(vis_stderr, "** bmc error: No formula in file\n"); 337 BmcOptionFree(options); 338 Ctlsp_FormulaArrayFree(formulaArray); 339 return 1; 340 } 341 LTLformulaArray = Ctlsp_FormulaArrayConvertToLTL(formulaArray); 225 if(abn == NIL(Dbg_Abnormal_t)){ 226 (void) fprintf(vis_stdout, "_sat_debug error: Build Abnormal predicate.\n"); 227 return 1; 228 } 229 if(verbose) 230 printf("abnormal %d \n",array_n(Dbg_ReadAbn(abn))); 231 232 233 formulaArray = Ctlsp_FileParseFormulaArray(options->ltlFile); 234 if (formulaArray == NIL(array_t)) { 235 (void) fprintf(vis_stderr, 236 "** bmc error: error in parsing CTL* Fromula from file\n"); 237 BmcOptionFree(options); 238 return 1; 239 } 240 if (array_n(formulaArray) == 0) { 241 (void) fprintf(vis_stderr, "** bmc error: No formula in file\n"); 242 BmcOptionFree(options); 342 243 Ctlsp_FormulaArrayFree(formulaArray); 343 if (LTLformulaArray == NIL(array_t)){ 344 (void) fprintf(vis_stdout, "** bmc error: Invalid LTL formula\n"); 345 BmcOptionFree(options); 346 return 1; 347 } 348 Ctlsp_Formula_t *ltlFormula = array_fetch(Ctlsp_Formula_t *, LTLformulaArray, 0); 244 return 1; 245 } 246 LTLformulaArray = Ctlsp_FormulaArrayConvertToLTL(formulaArray); 247 Ctlsp_FormulaArrayFree(formulaArray); 248 if (LTLformulaArray == NIL(array_t)){ 249 (void) fprintf(vis_stdout, "** bmc error: Invalid LTL formula\n"); 250 BmcOptionFree(options); 251 return 1; 252 } 253 Ctlsp_Formula_t *ltlFormula = array_fetch(Ctlsp_Formula_t *, LTLformulaArray, 0); 349 254 350 255 … … 353 258 Compute the cone of influence 354 259 here : a list of state variables (latches) 260 TODO refine to COI of the property 355 261 */ 356 262 st_table *CoiTable = generateAllLatches(network); … … 359 265 clauses in BMC. 360 266 */ 361 st_table *nodeToMvfAigTable = NIL(st_table); /* node to mvfAig */ 362 BmcCnfClauses_t *cnfClauses = NIL(BmcCnfClauses_t); 363 FILE *cnfFile = Cmd_FileOpen(options->satInFile, "w", NIL(char *), 0); 364 /* 365 nodeToMvfAigTable maps each node to its multi-function And/Inv graph 366 */ 367 nodeToMvfAigTable = 368 (st_table *) Ntk_NetworkReadApplInfo(network, MVFAIG_NETWORK_APPL_KEY); 369 assert(nodeToMvfAigTable != NIL(st_table)); 370 371 if(verbose) 267 if(verbose) 372 268 { 373 (void) fprintf(vis_stdout, "------ node to mvfaig ----\n");374 printLatch(nodeToMvfAigTable);375 269 (void) fprintf(vis_stdout, "------ COI ----\n"); 376 270 printLatch(CoiTable); 377 271 (void) fprintf(vis_stdout, "--------------------------\n"); 378 272 } 379 /* 380 Create a clause database 381 */ 382 cnfClauses = BmcCnfClausesAlloc(); 383 /* 384 Generate clauses for an initialized path of length k 385 */ 386 Ctlsp_FormulaPrint(vis_stdout, ltlFormula); 387 fprintf(vis_stdout, "\n"); 388 BmcCnfGenerateClausesForPath(network, 0, options->maxK, BMC_INITIAL_STATES, 389 cnfClauses, nodeToMvfAigTable, CoiTable); 273 BmcCnfClauses_t* cnfClauses = Dbg_GenerateCNF(network,options,CoiTable); 274 390 275 391 276 //Generate ltl CNF … … 393 278 // aprÚs il faut ajouter l'objectif de l'index avec boucle ou pas ... 394 279 // cf. BmcLtlVerifyGeneralLtl 280 Ctlsp_FormulaPrint(vis_stdout, ltlFormula); 281 fprintf(vis_stdout, "\n"); 395 282 int k = options->maxK; 396 283 int l; … … 398 285 int noLoopIndex = BmcGenerateCnfForLtl(network, ltlFormula, 0, k, k, cnfClauses); 399 286 400 int leftValue = checkIndex(noLoopIndex, cnfClauses); 401 printf("noLoopIndex %d , leftValue %d \n", noLoopIndex,leftValue); 287 402 288 array_t *objClause = NIL(array_t); 403 289 objClause = array_alloc(int, 0); … … 406 292 array_free(objClause); 407 293 408 409 //TODO Add abnormal formula 410 411 412 413 294 //Add Abnormal 295 st_table * nodeToMvfAigTable = NIL(st_table); 296 nodeToMvfAigTable = 297 (st_table *) Ntk_NetworkReadApplInfo(network, MVFAIG_NETWORK_APPL_KEY); 298 assert(nodeToMvfAigTable != NIL(st_table)); 299 300 Dbg_InitAbn(abn,manager, nodeToMvfAigTable,cnfClauses); 301 302 //loop abnormal 303 int aIndex; 304 Ntk_Node_t * abnNode; 305 Dbg_ForEachAbnormal(abn,aIndex,abnNode){ 306 if(aIndex<=0){ 307 //set abnormal 308 int cnfIndex = array_fetch(int,abn->abnCnfIndexArray, aIndex); 309 bAigEdge_t* abnBAig = array_fetch(bAigEdge_t*,abn->abnAigArray, aIndex); 310 int abnIndex = BmcGenerateCnfFormulaForAigFunction(manager,abnBAig[1],0,cnfClauses); 311 array_insert(int,cnfClauses->clauseArray,cnfIndex,abnIndex); 312 313 FILE *cnfFile = Cmd_FileOpen(options->satInFile, "w", NIL(char *), 0); 314 BmcWriteClauses(manager, cnfFile, cnfClauses, options); 315 fclose(cnfFile); 316 317 //SAT procedure 318 int res = Dbg_SatCheck("assig",options->cnfFileName); 319 320 array_insert(int,cnfClauses->clauseArray,cnfIndex,-abnIndex); 321 } 322 } 414 323 415 324 if(verbose) … … 417 326 latches %d nodetomvf.\n",cnfClauses->noOfClauses,st_count(CoiTable),st_count(nodeToMvfAigTable)); 418 327 419 Ctlsp_FormulaArrayFree(LTLformulaArray); 420 BmcWriteClauses(manager, cnfFile, cnfClauses, options); 421 fclose(cnfFile); 328 Ctlsp_FormulaArrayFree(LTLformulaArray); 422 329 BmcCnfClausesFree(cnfClauses); 423 330 BmcOptionFree(options); 424 331 return 0; 425 usage: 426 (void) fprintf(vis_stderr, "usage: _sat_debug [-h] [-v] [-k max length] [-m \ 427 minimum length] [-o cnf_file] [-p ltl_file]\n"); 428 (void) fprintf(vis_stderr, " -h\t\tprint the command usage\n"); 429 (void) fprintf(vis_stderr, " -v\t\tverbose\n"); 430 (void) fprintf(vis_stderr, " -m \tminimum length of counterexample to be checked (default is 0)\n"); 332 333 } 334 /**Function******************************************************************** 335 336 Synopsis [Implements the generate_network_cnf.] 337 338 CommandName [generate_network_cnf] 339 340 CommandSynopsis [generate a CNF view of the network] 341 342 CommandArguments [\[-h\] \[-v\] \[-k\] [fileName] ] 343 344 CommandDescription [This command geerate a CNF of the network in DMACS form. 345 The network may be unroll within k steps. 346 <p> 347 348 Command options:<p> 349 350 <dl> 351 <dt> -h 352 <dd> Print the command usage. 353 </dl> 354 355 <dt> -v 356 <dd> Verbose mode. 357 </dl> 358 359 <dt> -k 360 <dd> number of steps (default 1). 361 </dl> 362 ] 363 364 SideEffects [] 365 366 ******************************************************************************/ 367 368 static int CommandGenerateNetworkCNF(Hrc_Manager_t ** hmgr,int argc, char ** argv) 369 { 370 BmcOption_t *options = BmcOptionAlloc(); 371 int c; 372 unsigned int i; 373 Ntk_Network_t * network; 374 bAig_Manager_t * manager; 375 char * outName = NIL(char); 376 FILE *cnfFile; 377 if (!options){ 378 return 1; 379 } 380 options->dbgOut = 0; 381 /* 382 * Parse command line options. 383 */ 384 util_getopt_reset(); 385 while ((c = util_getopt(argc, argv, "hv:k:")) != EOF) { 386 switch(c) { 387 case 'h': 388 goto usage; 389 case 'k': 390 options->maxK = atoi(util_optarg); 391 break; 392 case 'v': 393 for (i = 0; i < strlen(util_optarg); i++) { 394 if (!isdigit((int)util_optarg[i])) { 395 goto usage; 396 } 397 } 398 options->verbosityLevel = (Bmc_VerbosityLevel) atoi(util_optarg); 399 break; 400 default: 401 goto usage; 402 } 403 } 404 if (argc - util_optind != 0) 405 { 406 outName = util_strsav(argv[util_optind]); 407 /* create SAT Solver input file */ 408 options->cnfFileName= outName; 409 options->satInFile = options->cnfFileName; 410 cnfFile = Cmd_FileOpen(options->satInFile, "w", NIL(char *), 0); 411 } 412 413 414 /* 415 * Read the network 416 */ 417 network = Ntk_HrcManagerReadCurrentNetwork(*hmgr); 418 if (network == NIL(Ntk_Network_t)) { 419 (void) fprintf(vis_stdout, "** generate_network_cnf error: No network\n"); 420 BmcOptionFree(options); 421 return 1; 422 } 423 manager = Ntk_NetworkReadMAigManager(network); 424 if (manager == NIL(mAig_Manager_t)) { 425 (void) fprintf(vis_stdout, "** generate_network_cnf error: run build_partition_maigs command first\n"); 426 BmcOptionFree(options); 427 return 1; 428 } 429 430 /* 431 Compute the cone of influence 432 here : a list of state variables (latches) 433 */ 434 st_table *CoiTable = generateAllLatches(network); 435 436 if(options->verbosityLevel) 437 { 438 (void) fprintf(vis_stdout, "------ COI ----\n"); 439 printLatch(CoiTable); 440 (void) fprintf(vis_stdout, "--------------------------\n"); 441 } 442 BmcCnfClauses_t* cnfClauses = Dbg_GenerateCNF(network,options,CoiTable); 443 if(outName != NIL(char)) 444 { 445 BmcWriteClauses(manager, cnfFile, cnfClauses, options); 446 fclose(cnfFile); 447 } 448 else 449 BmcWriteClauses(manager, vis_stdout, cnfClauses, options); 450 451 if(options->verbosityLevel) 452 { 453 (void) fprintf(vis_stdout, "CNF generated for %d steps", options->maxK); 454 (void) fprintf(vis_stdout, " %d clauses with %d latche(s).\n",cnfClauses->noOfClauses, 455 st_count(CoiTable)); 456 } 457 458 BmcOptionFree(options); 459 return 0; 460 usage: 461 (void) fprintf(vis_stderr, "usage: bmc [-h][-k maximum_length][-v verbosity_level] <cnf_file>\n"); 462 (void) fprintf(vis_stderr, " -h \tprint the command usage\n"); 431 463 (void) fprintf(vis_stderr, " -k \tmaximum length of counterexample to be checked (default is 1)\n"); 432 (void) fprintf(vis_stderr, " -o <cnf_file> contains CNF of the debug instance\n"); 433 (void) fprintf(vis_stderr, " -p <ltl_file> contains the ltl formula\n"); 434 return 1; /* error exit */ 435 436 } 464 (void) fprintf(vis_stderr, " -v <verbosity_level>\n"); 465 (void) fprintf(vis_stderr, " verbosity_level = 0 => no feedback (Default)\n"); 466 (void) fprintf(vis_stderr, " verbosity_level = 1 => code status\n"); 467 (void) fprintf(vis_stderr, " verbosity_level = 2 => code status and CPU usage profile\n"); 468 (void) fprintf(vis_stderr, " <cnf_file> The output file containing CNF of the network.\n"); 469 470 BmcOptionFree(options); 471 return 1; 472 } 473 437 474 /**Function******************************************************************** 438 475 -
vis_dev/vis-2.3/src/debug/debug.h
r40 r41 132 132 EXTERN array_t* Dbg_ReadAbn(Dbg_Abnormal_t *abnormal); 133 133 EXTERN Dbg_Abnormal_t * Dbg_NetworkReadAbnormal(Ntk_Network_t * network); 134 EXTERN void Dbg_InitAbn(Dbg_Abnormal_t * abn, bAig_Manager_t * manager, 135 st_table * nodeToMvfAigTable, BmcCnfClauses_t *cnfClauses); 136 EXTERN int Dbg_SatCheck(char * forceAssigName, char * cnfFileName); 137 EXTERN BmcCnfClauses_t* Dbg_GenerateCNF(Ntk_Network_t * network, 138 BmcOption_t * option, st_table *CoiTable); 139 140 141 134 142 /**AutomaticEnd***************************************************************/ 135 143 -
vis_dev/vis-2.3/src/debug/debugAbnormal.c
r40 r41 138 138 abn->abnormal = array_alloc(Ntk_Node_t*,0); 139 139 abn->freeInputs = array_alloc(Ntk_Node_t*,0); 140 abn->abnAigArray = NIL(array_t); 141 abn->abnCnfIndexArray = NIL(array_t); 140 142 abn->verbose = 0; 141 143 return abn; … … 158 160 array_free(abn->abnormal); 159 161 array_free(abn->freeInputs); 162 array_free(abn->abnCnfIndexArray); 163 array_free(abn->abnAigArray); 160 164 FREE(abn); 161 165 } … … 267 271 return abn; 268 272 } 273 /**Function******************************************************************** 274 275 Synopsis [Initialize the abnormal predicate in the clauses array abni =0] 276 277 Description [Fill the Dbg data structure, abnAigArray conains the set of Aig 278 for the set of abnormal perdicate. Each abnormal are set to zero in the clause 279 array.predicabnCnfIndexArray is the cnf index. The correspondance is made by 280 the index in the table, the index of a node in abnArray is the same in 281 abnAigArray and in abnIndexArray. If this array were alredy computed nothing 282 is done, if the aig or index information either.] 283 284 SideEffects [Fill abnAigArray and abnCnfIndexArray] 285 286 SeeAlso [] 287 288 ******************************************************************************/ 289 void Dbg_InitAbn(Dbg_Abnormal_t * abn, 290 bAig_Manager_t * manager, 291 st_table * nodeToMvfAigTable, 292 BmcCnfClauses_t *cnfClauses) 293 { 294 if(abn->abnAigArray != NIL(array_t)) 295 (void) fprintf(vis_stdout, "Abnormal aig alredy filled\n"); 296 if(abn->abnCnfIndexArray != NIL(array_t)){ 297 (void) fprintf(vis_stdout, "Abnormal index alredy filled\n"); 298 return; 299 } 300 //Fill 301 int size = array_n(abn->abnormal); 302 array_t * abnAigArray = array_alloc(bAigEdge_t *,size); 303 array_t * abnIndexArray = array_alloc(int,size); 304 int aIndex; 305 Ntk_Node_t * abnNode; 306 Dbg_ForEachAbnormal(abn, aIndex,abnNode){ 307 MvfAig_Function_t * abnMvfAig = Bmc_ReadMvfAig(abnNode, nodeToMvfAigTable); 308 if (abnMvfAig == NIL(MvfAig_Function_t)){ 309 (void) fprintf(vis_stdout, "No multi-valued function for this node %s \ 310 create abnormal predicate firs \n", Ntk_NodeReadName(abnNode)); 311 return ; 312 } 313 int mvfSize = array_n(abnMvfAig); 314 int i; 315 bAigEdge_t * abnBAig = ALLOC(bAigEdge_t, mvfSize); 316 317 for(i=0; i< mvfSize; i++) 318 { 319 abnBAig[i] = bAig_GetCanonical(manager, 320 MvfAig_FunctionReadComponent(abnMvfAig, i)); 321 } 322 array_insert(bAigEdge_t*,abnAigArray,aIndex,abnBAig); 323 int abnIndex = BmcGenerateCnfFormulaForAigFunction(manager,abnBAig[0],0,cnfClauses); 324 array_insert(int,abnIndexArray,aIndex,cnfClauses->nextIndex); 325 // Create clause 326 array_t *abnClause = NIL(array_t); 327 abnClause = array_alloc(int, 0); 328 array_insert_last(int, abnClause, abnIndex); 329 BmcCnfInsertClause(cnfClauses, abnClause); 330 array_free(abnClause); 331 } 332 abn->abnAigArray = abnAigArray; 333 abn->abnCnfIndexArray = abnIndexArray; 334 } -
vis_dev/vis-2.3/src/debug/debugInt.h
r36 r41 55 55 array_t * abnormal; /* Array of Ntk_Node_t* */ 56 56 array_t * freeInputs; /* Array of Ntk_Node_t* */ 57 array_t * abnAigArray; /* Array of bAigEdge_t* as many entries as possible value */ 58 array_t * abnCnfIndexArray; /* Array of int */ 57 59 int verbose; 58 60 }; -
vis_dev/vis-2.3/src/debug/debugUtilities.c
r35 r41 87 87 return; 88 88 } 89 /**Function******************************************************************** 90 91 Synopsis [Performs the sat call] 92 93 Description [Retrun the result of SAT call, avec positionnement des options] 94 SideEffects [] 95 96 SeeAlso [] 97 98 ******************************************************************************/ 99 100 int Dbg_SatCheck(char * forceAssigName, char * cnfFileName 101 ) 102 { 103 satManager_t *cm; 104 cm = sat_InitManager(0); 105 cm->comment = ALLOC(char, 2); 106 cm->comment[0] = ' '; 107 cm->comment[1] = '\0'; 108 cm->stdOut = stdout; 109 cm->stdErr = stderr; 110 111 112 satOption_t *satOption; 113 array_t *result = NIL(array_t); 114 int maxSize; 115 116 satOption = sat_InitOption(); 117 satOption->verbose = 2; 118 //satOption->unsatCoreFileName = "Ucore.txt"; 119 satOption->clauseDeletionHeuristic = 0; 120 //satOption->coreGeneration = 1 ; 121 //satOption->minimizeConflictClause = 1; 122 if(forceAssigName != NULL) 123 satOption->forcedAssignArr = sat_ReadForcedAssignment(forceAssigName); 124 cm->option = satOption; 125 cm->each = sat_InitStatistics(); 126 127 cm->unitLits = sat_ArrayAlloc(16); 128 cm->pureLits = sat_ArrayAlloc(16); 129 130 maxSize = 1024 << 8; 131 cm->nodesArray = ALLOC(long, maxSize); 132 cm->maxNodesArraySize = maxSize; 133 cm->nodesArraySize = satNodeSize; 134 135 sat_AllocLiteralsDB(cm); 136 137 sat_ReadCNF(cm,cnfFileName); 138 sat_Main(cm); 139 140 if(cm->status == SAT_UNSAT) { 141 if(cm->option->forcedAssignArr) 142 fprintf(cm->stdOut, "%s UNSAT under given assignment\n", 143 cm->comment); 144 fprintf(cm->stdOut, "%s UNSATISFIABLE\n", cm->comment); 145 fflush(cm->stdOut); 146 sat_ReportStatistics(cm, cm->each); 147 sat_FreeManager(cm); 148 } 149 else if(cm->status == SAT_SAT) { 150 fprintf(cm->stdOut, "%s SATISFIABLE\n", cm->comment); 151 fflush(cm->stdOut); 152 sat_PrintSatisfyingAssignment(cm); 153 sat_ReportStatistics(cm, cm->each); 154 sat_FreeManager(cm); 155 } 156 return cm->status; 157 } 158 /**Function******************************************************************** 159 160 Synopsis [Generate a CNF of the network] 161 162 Description [Generate the set of clauses of the unroll network for a given 163 length and for a given cone of influence] 164 SideEffects [] 165 166 SeeAlso [] 167 168 ******************************************************************************/ 169 BmcCnfClauses_t* 170 Dbg_GenerateCNF(Ntk_Network_t * network, 171 BmcOption_t * options, 172 st_table *CoiTable 173 ){ 174 st_table *nodeToMvfAigTable = NIL(st_table); /* node to mvfAig */ 175 BmcCnfClauses_t *cnfClauses = NIL(BmcCnfClauses_t); 176 /* 177 *nodeToMvfAigTable maps each node to its multi-function And/Inv graph 178 */ 179 nodeToMvfAigTable = 180 (st_table *) Ntk_NetworkReadApplInfo(network, MVFAIG_NETWORK_APPL_KEY); 181 assert(nodeToMvfAigTable != NIL(st_table)); 182 /* 183 * Create a clause database 184 */ 185 cnfClauses = BmcCnfClausesAlloc(); 186 /* 187 * Generate clauses for an initialized path of length k 188 */ 189 BmcCnfGenerateClausesForPath(network, 0, options->maxK, BMC_INITIAL_STATES, 190 cnfClauses, nodeToMvfAigTable, CoiTable); 191 return cnfClauses; 192 193 }
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