/******************************************************************************\ * * * SimpleCUDD library (www.cs.kuleuven.be/~theo/tools/simplecudd.html) * * SimpleCUDD was developed at Katholieke Universiteit Leuven(www.kuleuven.be) * * * * Copyright Katholieke Universiteit Leuven 2008, 2009, 2010 * * * * Author: Theofrastos Mantadelis, Angelika Kimmig, Bernd Gutmann * * File: problogbdd.c * * * ******************************************************************************** * * * Artistic License 2.0 * * * * Copyright (c) 2000-2006, The Perl Foundation. * * * * Everyone is permitted to copy and distribute verbatim copies of this license * * document, but changing it is not allowed. * * * * Preamble * * * * This license establishes the terms under which a given free software Package * * may be copied, modified, distributed, and/or redistributed. 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THE * * IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, OR * * NON-INFRINGEMENT ARE DISCLAIMED TO THE EXTENT PERMITTED BY YOUR LOCAL LAW. * * UNLESS REQUIRED BY LAW, NO COPYRIGHT HOLDER OR CONTRIBUTOR WILL BE LIABLE * * FOR ANY DIRECT, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING IN * * ANY WAY OUT OF THE USE OF THE PACKAGE, EVEN IF ADVISED OF THE POSSIBILITY OF * * SUCH DAMAGE. * * * * The End * * * \******************************************************************************/ //#include //#include #include "simplecudd.h" #include "problogmath.h" #include #include #define VERSION "2.0.1" #ifndef max #define max( a, b ) ( ((a) > (b)) ? (a) : (b) ) #endif // INFINITY macro does not work on trantor (64-bit linux of some kind) const double my_infinity = 1.0/0.0; typedef struct _parameters { int loadfile; int savedfile; int exportfile; int inputfile; int debug; int errorcnt; int *error; int method; int queryid; int timeout; double sigmoid_slope; int online; int maxbufsize; char *ppid; int orderfile; int utilfile; int independent_forest; int local_search; int dynreorder; int staticorder; } parameters; typedef struct _gradientpair { double probability; double gradient; } gradientpair; typedef struct _extmanager { DdManager *manager; DdNode *t, *f; hisqueue *his; namedvars varmap; } extmanager; typedef struct _bdd_mgr { extmanager extmanager; DdNode *root; } bdd_mgr; int argtype(const char *arg); void printhelp(int argc, char **arg); parameters loadparam(int argc, char **arg); parameters params; void handler(int num); void pidhandler(int num); void termhandler(int num); void myexpand(extmanager MyManager, DdNode *Current); double CalcProbability(extmanager MyManager, DdNode *Current); double CalcProbabilitySigmoid(extmanager MyManager, DdNode *Current); gradientpair CalcGradient(extmanager MyManager, DdNode *Current, int TargetVar, char *TargetPattern, int type); int patterncalculated(char *pattern, extmanager MyManager, int loc); char * extractpattern(char *thestr); // added by GUY double* read_util_file(char * filename); int forestSize(DdNode **forest); int compare_util_adds(const void* A, const void* B); void exact_strategy_search(extmanager* MyManager, DdNode **forest, double* utilities); DdNode* buildADDfromBDD(extmanager* MyManager, DdNode *Current, DdManager* addmgr); void ReInitAndUnrefHistory(hisqueue *HisQueue, int varcnt, DdManager* mgr); char* GetAddNodeVarNameDisp(namedvars varmap, DdNode *node); int extractstrategy(extmanager* MyManager, DdManager * add_mgr, DdNode *Current, DdNode *max_node); DdNode * setLowerBound(DdManager * dd, DdNode * f, double lowerBound); DdNode * setLowerBoundRecur(DdManager * dd, DdNode * f, double lowerBound); void local_strategy_search(extmanager* MyManager, DdNode **forest, double* utilities); void local_strategy_search_independent(bdd_mgr* bdd_mgrs, double* utilities, int nb_bdds, namedvars globalvars); double expected_value(extmanager* MyManager, DdNode **forest, double* utilities); void print_strategy(namedvars varmap); void newManager(extmanager* MyManager,bddfileheader fileheader, int nbManagers); bdd_mgr* generateIndependentBDDForest(bddfileheader fileheader); int LoadVariableDataForForest(namedvars varmap, char *filename); int printTime(void); int main(int argc, char **arg) { extmanager MyManager; DdNode *bdd, **forest, *bakbdd; bddfileheader fileheader; int i, ivarcnt, code, curbdd; gradientpair tvalue; double probability = -1.0; char *varpattern; bdd_mgr* bdd_mgrs; varpattern = NULL; code = -1; params = loadparam(argc, arg); //Initializin to NULL to be safe? bdd = NULL; bakbdd = NULL; forest = NULL; bdd_mgrs = NULL; if (params.errorcnt > 0) { printhelp(argc, arg); for (i = 0; i < params.errorcnt; i++) { fprintf(stderr, "Error: not known or error at parameter %s.\n", arg[params.error[i]]); } return -1; } if (params.online == 0 && params.loadfile == -1) { printhelp(argc, arg); fprintf(stderr, "Error: you must specify a loading file.\n"); return -1; } if (params.method != 0 && arg[params.method][0] != 'g' && arg[params.method][0] != 'p' && arg[params.method][0] != 'o' && arg[params.method][0] != 'l' && arg[params.method][0] != 's') { printhelp(argc, arg); fprintf(stderr, "Error: you must choose a calculation method beetween [p]robability, [g]radient, [l]ine search, [s]earch for strategy, [o]nline.\n"); return -1; } if (params.method != 0 && (arg[params.method][0] == 'g' || arg[params.method][0] == 'p' || arg[params.method][0] == 'l') && params.inputfile == -1) { printhelp(argc, arg); fprintf(stderr, "Error: an input file is necessary for probability, gradient or line search calculation methods.\n"); return -1; } if (params.debug) DEBUGON; RAPIDLOADON; SETMAXBUFSIZE(params.maxbufsize); signal(SIGINT, termhandler); if (params.ppid != NULL) { signal(SIGALRM, pidhandler); alarm(5); } else { signal(SIGALRM, handler); alarm(params.timeout); } if (params.online) { if (params.dynreorder == 1) MyManager.manager = simpleBDDinit(0); else MyManager.manager = simpleBDDinitNoReOrder(0); MyManager.t = HIGH(MyManager.manager); MyManager.f = LOW(MyManager.manager); MyManager.varmap = InitNamedVars(1, 0); bdd = OnlineGenerateBDD(MyManager.manager, &MyManager.varmap); ivarcnt = GetVarCount(MyManager.manager); } else if(params.independent_forest>0){ // the flag to create a forest of independent bdds is set fileheader = ReadFileHeader(arg[params.loadfile]); if (_debug) fprintf(stderr,"Generating forest of independent BDDs.\n"); bdd_mgrs = generateIndependentBDDForest(fileheader); ivarcnt = fileheader.varcnt; MyManager.varmap = InitNamedVars(fileheader.varcnt, fileheader.varstart); } else{ fileheader = ReadFileHeader(arg[params.loadfile]); switch(fileheader.filetype) { case BDDFILE_SCRIPT: if (params.dynreorder == 1) MyManager.manager = simpleBDDinit(fileheader.varcnt); else MyManager.manager = simpleBDDinitNoReOrder(fileheader.varcnt); MyManager.t = HIGH(MyManager.manager); MyManager.f = LOW(MyManager.manager); MyManager.varmap = InitNamedVars(fileheader.varcnt, fileheader.varstart); if (params.staticorder > 0) { char **Order = GetVariableOrder(arg[params.staticorder], MyManager.varmap.varcnt); for (i = 0; i < MyManager.varmap.varcnt; i++) if (Order[i] != NULL) AddNamedVarAt(MyManager.varmap, Order[i], i); } if (fileheader.version > 1) { forest = FileGenerateBDDForest(MyManager.manager, MyManager.varmap, fileheader); bdd = forest[0]; bakbdd = bdd; } else { forest = NULL; bdd = FileGenerateBDD(MyManager.manager, MyManager.varmap, fileheader); bakbdd = bdd; } ivarcnt = fileheader.varcnt; break; case BDDFILE_NODEDUMP: if (params.dynreorder == 1) MyManager.manager = simpleBDDinit(fileheader.varcnt); else MyManager.manager = simpleBDDinitNoReOrder(fileheader.varcnt); MyManager.t = HIGH(MyManager.manager); MyManager.f = LOW(MyManager.manager); MyManager.varmap = InitNamedVars(fileheader.varcnt, fileheader.varstart); bdd = LoadNodeDump(MyManager.manager, MyManager.varmap, fileheader.inputfile); ivarcnt = fileheader.varcnt; break; default: fprintf(stderr, "Error: not a valid file format to load.\n"); return -1; break; } } alarm(0); // problem specifics if (params.method == 0 || arg[params.method][0] != 's') { if (bdd != NULL || bdd_mgrs != NULL) { ivarcnt = RepairVarcnt(&MyManager.varmap); code = 0; if (params.inputfile != -1) { if (LoadVariableData(MyManager.varmap, arg[params.inputfile]) == -1) return -1; if (!all_loaded(MyManager.varmap, 1)) return -1; } // impose a predifined order good for debugging // can be used with a partial number of variables to impose ordering at beggining of BDD if (params.orderfile != -1) { ImposeOrder(MyManager.manager, MyManager.varmap, GetVariableOrder(arg[params.orderfile], MyManager.varmap.varcnt)); } curbdd = 0; do { MyManager.his = InitHistory(ivarcnt); if (params.method != 0) { switch(arg[params.method][0]) { case 'g': for (i = 0; i < MyManager.varmap.varcnt; i++) { if (MyManager.varmap.vars[i] != NULL) { // check whether this is a continues fact if (MyManager.varmap.dynvalue[i] == NULL) { // nope, regular fact varpattern = extractpattern(MyManager.varmap.vars[i]); if ((varpattern == NULL) || (!patterncalculated(varpattern, MyManager, i))) { tvalue = CalcGradient(MyManager, bdd, i + MyManager.varmap.varstart, varpattern, 0); probability = tvalue.probability; if (varpattern == NULL) { printf("query_gradient(%s,%s,p,%e).\n", arg[params.queryid], MyManager.varmap.vars[i], tvalue.gradient); } else { varpattern[strlen(varpattern) - 2] = '\0'; printf("query_gradient(%s,%s,p,%e).\n", arg[params.queryid], varpattern, tvalue.gradient); } ReInitHistory(MyManager.his, MyManager.varmap.varcnt); if (varpattern != NULL) free(varpattern); } } else { // it is! let's do the Hybrid Problog Magic // first for mu varpattern = extractpattern(MyManager.varmap.vars[i]); if ((varpattern == NULL) || (!patterncalculated(varpattern, MyManager, i))) { tvalue = CalcGradient(MyManager, bdd, i + MyManager.varmap.varstart, varpattern, 1); probability = tvalue.probability; if (varpattern == NULL) { printf("query_gradient(%s,%s,mu,%e).\n", arg[params.queryid], MyManager.varmap.vars[i], tvalue.gradient); } else { varpattern[strlen(varpattern) - 2] = '\0'; printf("query_gradient(%s,%s,mu,%e).\n", arg[params.queryid], varpattern, tvalue.gradient); } } ReInitHistory(MyManager.his, MyManager.varmap.varcnt); if (varpattern != NULL) free(varpattern); // then for sigma varpattern = extractpattern(MyManager.varmap.vars[i]); if ((varpattern == NULL) || (!patterncalculated(varpattern, MyManager, i))) { tvalue = CalcGradient(MyManager, bdd, i + MyManager.varmap.varstart, varpattern, 2); probability = tvalue.probability; if (varpattern == NULL) { printf("query_gradient(%s,%s,sigma,%e).\n", arg[params.queryid], MyManager.varmap.vars[i], tvalue.gradient); } else { varpattern[strlen(varpattern) - 2] = '\0'; printf("query_gradient(%s,%s,sigma,%e).\n", arg[params.queryid], varpattern, tvalue.gradient); } } ReInitHistory(MyManager.his, MyManager.varmap.varcnt); if (varpattern != NULL) free(varpattern); } } else { fprintf(stderr, "Error: no variable name given for parameter.\n"); } } if (probability < 0.0) { // no nodes, so we have to calculate probability ourself tvalue = CalcGradient(MyManager, bdd, 0 + MyManager.varmap.varstart, NULL, 0); probability = tvalue.probability; } printf("query_probability(%s,%e).\n", arg[params.queryid], probability); break; case 'l': tvalue = CalcGradient(MyManager, bdd, 0 + MyManager.varmap.varstart, NULL, 0); probability = tvalue.probability; printf("query_probability(%s,%e).\n", arg[params.queryid], probability); break; case 'p': printf("probability(%e).\n", CalcProbability(MyManager, bdd)); break; case 'o': onlinetraverse(MyManager.manager, MyManager.varmap, MyManager.his, bdd); break; default: myexpand(MyManager, bdd); break; } } else { myexpand(MyManager, bdd); } if (forest != NULL) { curbdd++; bdd = forest[curbdd]; } else { bdd = NULL; } // Guy: I removed it, why is it here? // ReInitHistory(MyManager.his, MyManager.varmap.varcnt); } while(bdd != NULL); bdd = bakbdd; if (params.savedfile > -1) SaveNodeDump(MyManager.manager, MyManager.varmap, bdd, arg[params.savedfile]); if (params.exportfile > -1) simpleNamedBDDtoDot(MyManager.manager, MyManager.varmap, bdd, arg[params.exportfile]); } }else{ // param "s" is set // do strategy search on the forest code = 0; if(params.independent_forest>0){ //the forest consists of independent bdds LoadVariableDataForForest(MyManager.varmap,arg[params.inputfile]); if(bdd_mgrs[0].root == NULL){ fprintf(stderr, "Error: No BDDs were generated.\n"); return -1; } if (_debug) fprintf(stderr,"Initializing histories.\n"); if(params.local_search>0){ if (_debug) fprintf(stderr,"Independent local search.\n"); local_strategy_search_independent(bdd_mgrs, read_util_file(arg[params.utilfile]), fileheader.intercnt, MyManager.varmap); }else{ if (_debug) fprintf(stderr,"Independent exact search.\n"); fprintf(stderr, "Error: independent exact search not supported yet.\n"); return -1; } }else{ ivarcnt = RepairVarcnt(&MyManager.varmap); //the forest is a bdd with multiple entry points if (params.inputfile != -1) { if (LoadVariableData(MyManager.varmap, arg[params.inputfile]) == -1) return -1; if (!all_loaded(MyManager.varmap, 1)) return -1; } // impose a predifined order good for debugging // can be used with a partial number of variables to impose ordering at beggining of BDD if (params.orderfile != -1) { ImposeOrder(MyManager.manager, MyManager.varmap, GetVariableOrder(arg[params.orderfile], MyManager.varmap.varcnt)); } MyManager.his = InitHistory(ivarcnt); if (_debug) fprintf(stderr,"Initialized shared history with %i variables.\n", ivarcnt); if(params.local_search>0){ if (_debug) fprintf(stderr,"Local search.\n"); local_strategy_search(&MyManager, forest, read_util_file(arg[params.utilfile])); }else{ if (_debug) fprintf(stderr,"Exact search.\n"); exact_strategy_search(&MyManager, forest, read_util_file(arg[params.utilfile])); } free(MyManager.his); } print_strategy(MyManager.varmap); } if (_debug) fprintf(stderr,"Cleaning up.\n"); if(params.independent_forest>0){ // TODO clean up memory - the existing code gives an invalid pointer problem }else{ if (MyManager.manager != NULL) { KillBDD(MyManager.manager); free(MyManager.varmap.dvalue); free(MyManager.varmap.ivalue); if (MyManager.varmap.dynvalue != NULL) { for(i = 0; i < MyManager.varmap.varcnt; i++) if (MyManager.varmap.dynvalue[i] != NULL) { free(MyManager.varmap.dynvalue[i]); } free(MyManager.varmap.dynvalue); } for (i = 0; i < MyManager.varmap.varcnt; i++) free(MyManager.varmap.vars[i]); free(MyManager.varmap.vars); } } if (params.error != NULL) free(params.error); return code; } ////////////////// // Added by Guy // ////////////////// double* read_util_file(char *filename){ FILE* file; double line; int nb_lines; double *utils; int i=0; if ((file = fopen(filename, "r")) == NULL) { perror(filename); return NULL; } // Read file fscanf(file, "%i\n", &nb_lines); utils = (double *) malloc(sizeof(double)*nb_lines); //utils = new double[nb_lines]; while (!feof(file)) { fscanf(file, "%lf\n", &line); //fprintf(stderr,"read %g.\n", line); if(i>nb_lines) { fprintf(stderr,"The number of lines field of %i does not match the number of lines in the file.\n",nb_lines); fclose(file); exit(1); } utils[i++] = line; } fclose(file); if(i!=nb_lines) { fprintf(stderr,"The number of lines field of %i does not match the number of lines in the file %i.\n",nb_lines,i); fclose(file); exit(1); } if (params.debug) for(i=0;iutil_spread < ((const util_add*) B)->util_spread) return 1; else if (((const util_add*) A)->util_spread > ((const util_add*) B)->util_spread) return -1; else return 0; } void exact_strategy_search(extmanager* MyManager, DdNode **forest, double* utilities){ DdManager* add_mgr; DdNode *sum, *temp, *add_ps, *constant; DdNode *max_node; FILE *outfile; //output file pointer for .dot file int i; char filename[128]; char** names; int n = forestSize(forest); double utility_to_go = 0.000001; util_add * util_adds = (util_add *) malloc(sizeof(util_add)*n); names = NULL; if (params.debug) { fprintf(stderr, "init add\n"); } if (params.dynreorder == 1) { add_mgr = simpleBDDinit(MyManager->varmap.varcnt); }else{ add_mgr = simpleBDDinitNoReOrder(MyManager->varmap.varcnt); } if (params.debug){ fprintf(stderr, "end init add\n"); } if (params.debug) { names= malloc(sizeof(char*)*MyManager->varmap.varcnt); for(i = MyManager->varmap.varstart ;i < MyManager->varmap.varcnt; i++){ names[i- MyManager->varmap.varstart] = MyManager->varmap.vars[i]; } } for(i=n-1;i>=0;i--){ if (params.debug) { // write BDD file snprintf(filename, sizeof(filename), "bdd-total.dot"); outfile = fopen(filename,"w"); Cudd_DumpDot(MyManager->manager, n, forest, names, NULL, outfile); fclose(outfile); temp = Cudd_BddToAdd(MyManager->manager,forest[i]); Cudd_Ref(temp); snprintf(filename, sizeof(filename), "bdd-%i.dot", i+1); outfile = fopen(filename,"w"); Cudd_DumpDot(MyManager->manager, 1, &temp,names, NULL, outfile); fclose(outfile); Cudd_RecursiveDeref(MyManager->manager,temp); } // create ADD for Ps add_ps = buildADDfromBDD(MyManager,forest[i],add_mgr); Cudd_Ref(add_ps); if (params.debug) fprintf(stderr, "built add_ps\n"); ReInitAndUnrefHistory(MyManager->his, MyManager->varmap.varcnt,add_mgr); Cudd_RecursiveDeref(MyManager->manager,forest[i]); if (params.debug) { // write ADD-Ps file snprintf(filename, sizeof(filename), "add-ps-%i.dot", i+1); outfile = fopen(filename,"w"); Cudd_DumpDot(add_mgr, 1, &add_ps, names, NULL, outfile); fclose(outfile); } //if (1 || _debug) fprintf(stderr,"best terminal of add_ps after %i now %g.\n", i,cuddV(Cudd_addFindMax(add_mgr,add_ps))); //create ADD for u constant = Cudd_addConst(add_mgr,utilities[i]); Cudd_Ref(constant); util_adds[i].root = Cudd_addApply(add_mgr,Cudd_addTimes,add_ps,constant); Cudd_Ref(util_adds[i].root); Cudd_RecursiveDeref(add_mgr,constant); Cudd_RecursiveDeref(add_mgr,add_ps); //add_ps can only be dereferenced when the history is cleared or when referenced twice. if (params.debug) { // write ADD-U file snprintf(filename, sizeof(filename), "add-u-%i.dot", i+1); outfile = fopen(filename,"w"); Cudd_DumpDot(add_mgr, 1, &util_adds[i].root, names, NULL, outfile); fclose(outfile); } // compute the maximum achievable utility to set useless terminals to -inf max_node = Cudd_addFindMax(add_mgr,util_adds[i].root); util_adds[i].util_spread = cuddV(max_node); max_node = Cudd_addFindMin(add_mgr,util_adds[i].root); util_adds[i].util_spread += -cuddV(max_node); utility_to_go += util_adds[i].util_spread; //if (1 || _debug) fprintf(stderr,"best terminal of util_add after %i now %g.\n", i,cuddV(Cudd_addFindMax(add_mgr,util_adds[i].root))); } qsort(util_adds, (size_t)n, sizeof(util_add), compare_util_adds); sum = Cudd_addConst(add_mgr,0); Cudd_Ref(sum); for(i=0;ihis, MyManager->varmap.varcnt); extractstrategy(MyManager, add_mgr, sum, max_node); Cudd_RecursiveDeref(add_mgr,sum); } DdNode* buildADDfromBDD(extmanager* MyManager, DdNode *Current, DdManager* addmgr) { // the created adds are not dereferenced // must be done based on the dynamic programming table DdNode *h, *l; hisnode *Found; char *curnode; double fact_prob; int isDecision; DdNode *lowvalue, *highvalue, *thisvalue; DdNode *lowAdd, *highAdd; DdNode* var; DdNode *posprob, *negprob; curnode = NULL; //if (_debug && Cudd_DebugCheck(addmgr)!=0) exit(-1); if (_debug) { fprintf(stderr, "(%p) ", Current); curnode = GetNodeVarNameDisp(MyManager->manager, MyManager->varmap, Current); fprintf(stderr, " aka %s\n", curnode); } // base cases if (Current == MyManager->t){ thisvalue = Cudd_ReadOne(addmgr); Cudd_Ref(thisvalue); //if(_debug && Cudd_DebugCheck(addmgr)!=0) exit(-1); return thisvalue; } if (Current == MyManager->f){ thisvalue = Cudd_ReadZero(addmgr); Cudd_Ref(thisvalue); //if(_debug && Cudd_DebugCheck(addmgr)!=0) exit(-1); return thisvalue; } //node is in cache if ((Found = GetNode(MyManager->his, MyManager->varmap.varstart, Current)) != NULL){ if (_debug) fprintf(stderr, "found node %p (%s) in history\n", Current,curnode); return (DdNode*)(Found->dynvalue); } //inductive case l = LowNodeOf(MyManager->manager, Current); if (_debug) fprintf(stderr, "l(%s)->%p", curnode,l); lowvalue = buildADDfromBDD(MyManager,l,addmgr); h = HighNodeOf(MyManager->manager, Current); if (_debug) fprintf(stderr, "h(%s)->%p", curnode,h); highvalue = buildADDfromBDD(MyManager,h,addmgr); //if(params.debug && Cudd_DebugCheck(addmgr)!=0) exit(-1); isDecision = MyManager->varmap.ivalue[GetIndex(Current) - MyManager->varmap.varstart]; if(isDecision){ //decision if (_debug) fprintf(stderr,"%p (%s) is a decision\n",Current,curnode); var = Cudd_addIthVar(addmgr,(int)GetIndex(Current)); Cudd_Ref(var); thisvalue=Cudd_addIte(addmgr,var,highvalue,lowvalue); Cudd_Ref(thisvalue); Cudd_RecursiveDeref(addmgr,var); } else { //probabilistic node if (_debug) fprintf(stderr,"%p (%s) is a probabilistic fact",Current,curnode); fact_prob = MyManager->varmap.dvalue[GetIndex(Current) - MyManager->varmap.varstart]; if (_debug) fprintf(stderr, " with probability %lf \n", fact_prob); posprob = Cudd_addConst(addmgr,fact_prob); Cudd_Ref(posprob); highAdd=Cudd_addApply(addmgr,Cudd_addTimes,posprob,highvalue); Cudd_Ref(highAdd); Cudd_RecursiveDeref(addmgr,posprob); negprob=Cudd_addConst(addmgr,1-fact_prob); Cudd_Ref(negprob); lowAdd= Cudd_addApply(addmgr,Cudd_addTimes,negprob,lowvalue); Cudd_Ref(lowAdd); Cudd_RecursiveDeref(addmgr,negprob); thisvalue = Cudd_addApply(addmgr,Cudd_addPlus,highAdd,lowAdd); Cudd_Ref(thisvalue); Cudd_RecursiveDeref(addmgr,lowAdd); Cudd_RecursiveDeref(addmgr,highAdd); } AddNode(MyManager->his, MyManager->varmap.varstart, Current, 0, 0, thisvalue); return thisvalue; } void ReInitAndUnrefHistory(hisqueue *HisQueue, int varcnt, DdManager* mgr) { int i, j; for (i = 0; i < varcnt; i++) { if (HisQueue[i].thenode != NULL) { for (j = 0; j < HisQueue[i].cnt; j++){ if(HisQueue[i].thenode[j].ivalue != 0){ //if (_debug) fprintf(stderr,"At (%i,%i), unreffing node %i",i,j,HisQueue[i].thenode[j].ivalue); Cudd_RecursiveDeref(mgr,(DdNode*)(HisQueue[i].thenode[j].dynvalue)); } } free(HisQueue[i].thenode); HisQueue[i].thenode = NULL; } HisQueue[i].cnt = 0; } } char* GetAddNodeVarNameDisp(namedvars varmap, DdNode *node) { unsigned int index; char *buffer = malloc(sizeof(char)*128); if (Cudd_IsConstant(node)) { snprintf(buffer, 128, "%lf", cuddV(node)); return buffer; } if (NULL == node) return "(null)"; index = GetIndex(node); return varmap.vars[index - varmap.varstart]; } int extractstrategy(extmanager* MyManager, DdManager * add_mgr, DdNode *Current, DdNode *max_node) { char *curnode; int result; hisnode *Found; if (params.debug) { fprintf(stderr, "handling node %p", Current); curnode = GetAddNodeVarNameDisp(MyManager->varmap, Current); fprintf(stderr, " aka %s\n", curnode); } if(max_node == Current) return 1; else if (Cudd_IsConstant(Current)) return 0; else{ if ((Found = GetNode(MyManager->his, MyManager->varmap.varstart, Current)) != NULL) { return Found->ivalue; } if(extractstrategy(MyManager,add_mgr,LowNodeOf(add_mgr, Current),max_node)){ // set strategy to 0 MyManager->varmap.dvalue[GetIndex(Current) - MyManager->varmap.varstart] = 0; result = 1; }else if(extractstrategy(MyManager,add_mgr,HighNodeOf(add_mgr, Current),max_node)){ // set strategy to 1 MyManager->varmap.dvalue[GetIndex(Current) - MyManager->varmap.varstart] = 1; result = 1; }else result = 0; AddNode(MyManager->his, MyManager->varmap.varstart, Current, 0, result, NULL); return result; } } DdNode * setLowerBound(DdManager * dd, DdNode * f, double lowerBound) { DdNode *res; do { res = setLowerBoundRecur(dd,f,lowerBound); } while (dd->reordered == 1); return(res); } DdNode * setLowerBoundRecur(DdManager * dd, DdNode * f, double lowerBound) { DdNode *res, *fv, *fvn, *T, *E; DD_CTFP1 cacheOp; statLine(dd); if (cuddIsConstant(f)) { if(cuddV(f)index,T,E); if (res == NULL) { Cudd_RecursiveDeref(dd,T); Cudd_RecursiveDeref(dd,E); return(NULL); } cuddDeref(T); cuddDeref(E); /* Store result. */ cuddCacheInsert1(dd,cacheOp,f,res); return(res); } // TODO extmanager* or extmanager ??????? // Is copying the varmap not too inefficient? void local_strategy_search(extmanager* MyManager, DdNode **forest, double* utilities){ double tempev; int i; int j = 0; int changed = 1; double bestev = expected_value(MyManager, forest, utilities); if (_debug) fprintf(stderr,"Initial strategy has reward %g.\n", bestev); while(changed){ j++; if (_debug) fprintf(stderr,"starting iteration %i.\n", j); changed = 0; for(i = 0; i < MyManager->varmap.varcnt; i++){ if (MyManager->varmap.ivalue[i] == 1) { //it's a decision, flip it' MyManager->varmap.dvalue[i] = 1-MyManager->varmap.dvalue[i]; tempev = expected_value(MyManager, forest, utilities); if(tempev > bestev){ if (_debug) fprintf(stderr,"found new best strategy (%g > %g).\n", tempev, bestev); bestev = tempev; changed = 1; }else{ if (_debug) fprintf(stderr,"keeping old strategy (%g < %g).\n", tempev, bestev); MyManager->varmap.dvalue[i] = 1-MyManager->varmap.dvalue[i]; } } } } if (_debug) fprintf(stderr,"expected_value(%g).\n", bestev); printf("expected_value(%g).\n", bestev); } typedef struct _decision{ int var; int nb_rel_bdds; int alloc_rel_bdds; int* rel_bdds; int* rel_bdds_var; } decision; void local_strategy_search_independent(bdd_mgr* bdd_mgrs, double* utilities, int nb_bdds, namedvars globalvars){ int i, j, index; int changed; double* bdd_ev = malloc(sizeof(double)*nb_bdds); double* bdd_ev_temp = malloc(sizeof(double)*nb_bdds); double difference; double new_strategy; int nb_dec_vars = 0; decision* decs = (decision*) malloc(sizeof(decision)*globalvars.varcnt); decision* decision; // Initialize all BDDs and compute their utility if (_debug) fprintf(stderr,"Initializing BDDs and computing the starting utility\n"); for(i=0;ivar = i; decision->nb_rel_bdds = 0; decision->alloc_rel_bdds = 8; decision->rel_bdds = (int*) malloc(sizeof(int)*8); decision->rel_bdds_var = (int*)malloc(sizeof(int)*8); for(j=0;j=0){ if (_debug) fprintf(stderr," %i", j); bdd_mgrs[j].extmanager.varmap.dvalue[index] = globalvars.dvalue[i]; if(decision->nb_rel_bdds == decision->alloc_rel_bdds){ // increase array size decision->alloc_rel_bdds = 2*decision->alloc_rel_bdds; decision->rel_bdds = (int*) realloc(decision->rel_bdds,sizeof(int)*decision->alloc_rel_bdds); decision->rel_bdds_var = (int*) realloc(decision->rel_bdds_var,sizeof(int)*decision->alloc_rel_bdds); } decision->rel_bdds[decision->nb_rel_bdds] = j; decision->rel_bdds_var[decision->nb_rel_bdds] = index; decision->nb_rel_bdds++; } } }else{ if (_debug) fprintf(stderr," is not a decision, affecting bdds"); for(j=0;j=0){ if (_debug) fprintf(stderr," %i", j); bdd_mgrs[j].extmanager.varmap.dvalue[index] = globalvars.dvalue[i]; } } } if (_debug) fprintf(stderr,".\n"); } if (_debug) fprintf(stderr,"Starting Search\n"); if (_debug) fprintf(stderr,"There are %i decisions.\n",nb_dec_vars); do{ changed = 0; if (_debug) fprintf(stderr,"New Iteration\n"); for(i=0;i0){ // it's an improvement globalvars.dvalue[decs[i].var] = new_strategy; changed = 1; for(j=0;jhis, MyManager->varmap.varcnt); //printf("final sum is %e.\n", sum); return sum; } void print_strategy(namedvars varmap){ int i; for(i = 0; i < varmap.varcnt; i++){ if (varmap.ivalue[i] == 1) { // it's a decision, print it // if it contains an '_', it must be quoted, // otherwise don't quote because it must parsed as an integer in prolog if(strchr(varmap.vars[i]+1,'_')==NULL){ if (_debug) fprintf(stderr,"strategy(%s,%g).\n",varmap.vars[i]+1, varmap.dvalue[i]); printf("strategy(%s,%g).\n",varmap.vars[i]+1, varmap.dvalue[i]); }else{ if (_debug) fprintf(stderr,"strategy('%s',%g).\n",varmap.vars[i]+1, varmap.dvalue[i]); printf("strategy('%s',%g).\n",varmap.vars[i]+1, varmap.dvalue[i]); } } } } // new manager for bdd forest needs very low memory requirements! -l void newManager(extmanager* MyManager, bddfileheader fileheader, int nbManagers){ // MyManager->manager; if (_debug) fprintf(stderr,"Creating new BDD manager.\n\n"); if (_debug) fprintf(stderr,"Setting BDD manager memory consumption to %i.\n", max(1024,(512*1024*1024)/nbManagers)); MyManager->manager = Cudd_Init((unsigned int)fileheader.varcnt, 0, (unsigned int)max(32,CUDD_UNIQUE_SLOTS/nbManagers), (unsigned int)max(512,CUDD_CACHE_SLOTS/nbManagers), (unsigned int)max(5000,(1024*1024*1024)/nbManagers)); Cudd_AutodynEnable(MyManager->manager, CUDD_REORDER_GROUP_SIFT); //Cudd_SetMaxCacheHard(MyManager->manager, 1024*1024*1024); //Cudd_SetLooseUpTo(MyManager->manager, 1024*1024*512); if (_debug) Cudd_EnableReorderingReporting(MyManager->manager); MyManager->t = HIGH(MyManager->manager); MyManager->f = LOW(MyManager->manager); MyManager->varmap = InitNamedVars(fileheader.varcnt, fileheader.varstart); if (_debug) Cudd_PrintInfo(MyManager->manager,stderr); MyManager->his = InitHistory(fileheader.varcnt); } int printTime(void){ struct tm *current; time_t now; time(&now); current = localtime(&now); fprintf(stderr, "%i:%i:%i: ", current->tm_hour, current->tm_min, current->tm_sec); return 1; } bdd_mgr* generateIndependentBDDForest(bddfileheader fileheader) { int icomment, maxlinesize, icur, iline, curinter, iequal; DdNode *Line; bdd_mgr * bdd_mgrs; char buf, *inputline, *filename, *subl; bddfileheader interfileheader; subl = NULL; // This addition might hide a real bug GUY you need to check your free(subl) instructions // Initialization of intermediate steps //Guy: +1 to delimit array???? bdd_mgrs = (bdd_mgr *) malloc(sizeof(bdd_mgr) * (fileheader.intercnt+1)); for (icur = 0; icur < fileheader.intercnt+1; icur++) { bdd_mgrs[icur].extmanager.manager = NULL; bdd_mgrs[icur].root = NULL; } // Read file data interfileheader.inputfile = NULL; filename = NULL; // For nested files iequal = 0; // Flag for encountered = sign icur = 0; // Pointer for inputline buffer location iline = 5; // Current file line (first after header) icomment = 0; // Flag for comments maxlinesize = 80; // inputline starting buffer size inputline = (char *) malloc(sizeof(char) * maxlinesize); while(!feof(fileheader.inputfile)) { fread(&buf, 1, 1, fileheader.inputfile); if (buf == ';' || buf == '%' || buf == '$') icomment = 1; if (buf == '\n') { if (icomment) icomment = 0; if (iequal > 1) { fprintf(stderr, "Error at line: %i. Line contains more than 1 equal(=) signs.\n", iline); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); return NULL; } else iequal = 0; if (icur > 0) { inputline[icur] = '\0'; if (inputline[0] != 'L') { fprintf(stderr, "Error at line: %i. Intermediate results should start with L.\n", iline); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); return NULL; } curinter = getInterBDD(inputline); if (curinter == -1) { if (fileheader.version < 2) { if (inputline[0] == 'L' && IsPosNumber(inputline + 1)) { curinter = atoi(inputline + 1) - 1; if (curinter > -1 && curinter < fileheader.intercnt && bdd_mgrs[curinter].extmanager.manager != NULL) { if (_debug) fprintf(stderr, "Returned: %s\n", inputline); fclose(fileheader.inputfile); free(inputline); //changed: just return every intermediate BDD return bdd_mgrs; } else { fprintf(stderr, "Error at line: %i. Return result asked doesn't exist.\n", iline); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); return NULL; } } else { fprintf(stderr, "Error at line: %i. Invalid intermediate result format.\n", iline); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); return NULL; } } else { // Support for forest maxlinesize = 10; iline = -1; for (subl = strtok(inputline, ","); subl != NULL; subl = strtok(NULL, ",")) { if (subl[0] == 'L' && IsPosNumber(subl + 1)) { curinter = atoi(subl + 1) - 1; if (curinter > -1 && curinter < fileheader.intercnt && bdd_mgrs[curinter].extmanager.manager != NULL) { iline++; if (iline >= (maxlinesize - 1)) { maxlinesize *= 2; } } else { fprintf(stderr, "Error at line: %i. Return result asked(%s) doesn't exist.\n", iline, subl); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); free(subl); return NULL; } } else { fprintf(stderr, "Error at line: %i. Invalid intermediate result format.\n", iline); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); free(subl); return NULL; } } if (_debug) fprintf(stderr, "Returned: %s\n", inputline); fclose(fileheader.inputfile); free(inputline); free(subl); iline++; //changed: just return every intermediate BDD return bdd_mgrs; } } else if (curinter > -1 && curinter < fileheader.intercnt && bdd_mgrs[curinter].extmanager.manager == NULL) { if (_debug) fprintf(stderr, "%i %s\n", curinter, inputline); if (_debug) printTime(); if (_debug) fprintf(stderr, "At line %i reading %s\n", (curinter+1), inputline); filename = getFileName(inputline); if (filename == NULL) { fprintf(stderr, "Error at line: %i. A forest of independent BDDs cannot have formulas.\n", iline); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); free(subl); return NULL; } else { interfileheader = ReadFileHeader(filename); if (interfileheader.inputfile == NULL) { //Line = simpleBDDload(manager, &varmap, filename); Line = NULL; } else { newManager(&(bdd_mgrs[curinter].extmanager),interfileheader,fileheader.intercnt); Line = FileGenerateBDD(bdd_mgrs[curinter].extmanager.manager, bdd_mgrs[curinter].extmanager.varmap, interfileheader); // for(i = 0; imanager); if (_debug) Cudd_PrintInfo(bdd_mgrs[curinter].extmanager.manager,stderr); } if (Line == NULL) fprintf(stderr, "Error at line: %i. Error in nested BDD file: %s.\n", iline, filename); free(filename); filename = NULL; interfileheader.inputfile = NULL; } if (Line == NULL) { fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); return NULL; } bdd_mgrs[curinter].root = Line; icur = 0; } else if (curinter > -1 && curinter < fileheader.intercnt && bdd_mgrs[curinter].extmanager.manager != NULL) { fprintf(stderr, "Error at line: %i. Intermediate results can't be overwritten.\n", iline); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); return NULL; } else { fprintf(stderr, "Error at line: %i. Intermediate result asked doesn't exist.\n", iline); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); return NULL; } } iline++; } else if (buf != ' ' && buf != '\t' && !icomment) { if (buf == '=') iequal++; inputline[icur] = buf; icur += 1; if (icur == _maxbufsize) { fprintf(stderr, "Error: Maximum buffer size(%i) exceeded.\n", _maxbufsize); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); return NULL; } while (icur > maxlinesize - 1) { maxlinesize *= 2; inputline = (char *) realloc(inputline, sizeof(char) * maxlinesize); } } } fprintf(stderr, "Error, file either doesn't end with a blank line or no return result was asked.\n"); fclose(fileheader.inputfile); free(bdd_mgrs); free(inputline); return NULL; } int LoadVariableDataForForest(namedvars varmap, char *filename) { FILE *data; char *dataread, buf, *varname, *dynvalue; double dvalue = 0.0; int icur = 0, maxbufsize = 10, hasvar = 0, index = 0, idat = 0, ivalue = 0; dynvalue = NULL; varname = NULL; if ((data = fopen(filename, "r")) == NULL) { perror(filename); return -1; } dataread = (char *) malloc(sizeof(char) * maxbufsize); while(!feof(data)) { fread(&buf, 1, 1, data); if ((buf == '\n') && icur == 0) { // ignore empty lines } else if (buf == '\n') { dataread[icur] = '\0'; icur = 0; buf = ' '; if (dataread[0] == '@') { if (hasvar) { AddNamedVarAt(varmap,varname,index); varmap.loaded[index] = 1; varmap.dvalue[index] = dvalue; varmap.ivalue[index] = ivalue; if (varmap.dynvalue[index] != NULL) { free(varmap.dynvalue[index]); varmap.dynvalue[index] = NULL; } if (dynvalue != NULL) { varmap.dynvalue[index] = (void *) malloc(sizeof(char) * (strlen(dynvalue) + 1)); strcpy(varmap.dynvalue[index], dynvalue); free(dynvalue); dynvalue = NULL; } index++; dvalue = 0.0; ivalue = 0; free(varname); } varname = (char *) malloc(sizeof(char) * strlen(dataread)); strcpy(varname, dataread + 1); hasvar = 1; idat = 0; } else { if (hasvar >= 0) { switch(idat) { case 0: if (!getRealNumber(dataread, &dvalue)) { fprintf(stderr, "Error at file: %s. Variable: %s can't have non real value: %s.\n", filename, varname, dataread); fclose(data); free(varname); free(dataread); return -2; } idat++; break; case 1: if (!getIntNumber(dataread, &ivalue)) { fprintf(stderr, "Error at file: %s. Variable: %s can't have non integer value: %s.\n", filename, varname, dataread); fclose(data); free(varname); free(dataread); return -2; } idat++; break; case 2: dynvalue = malloc(sizeof(char) * (strlen(dataread) + 1)); strcpy(dynvalue, dataread); break; } } } } else { dataread[icur] = buf; icur++; if (icur == _maxbufsize) { fprintf(stderr, "Error: Maximum buffer size(%i) exceeded.\n", _maxbufsize); fclose(data); free(varname); free(dataread); return -2; } while (icur > maxbufsize - 1) { maxbufsize *= 2; dataread = (char *) realloc(dataread, sizeof(char) * maxbufsize); } } } if (hasvar) { AddNamedVarAt(varmap,varname,index); varmap.loaded[index] = 1; varmap.dvalue[index] = dvalue; varmap.ivalue[index] = ivalue; if (varmap.dynvalue[index] != NULL) { free(varmap.dynvalue[index]); varmap.dynvalue[index] = NULL; } if (dynvalue != NULL) { varmap.dynvalue[index] = (void *) malloc(sizeof(char) * (strlen(dynvalue) + 1)); strcpy(varmap.dynvalue[index], dynvalue); free(dynvalue); } index++; free(varname); } fclose(data); free(dataread); return 0; } /////////////////////// // Stop Added by Guy // /////////////////////// /* Shell Parameters handling */ int argtype(const char *arg) { if (strcmp(arg, "-l") == 0 || strcmp(arg, "--load") == 0) return 0; if (strcmp(arg, "-e") == 0 || strcmp(arg, "--export") == 0) return 2; if (strcmp(arg, "-m") == 0 || strcmp(arg, "--method") == 0) return 3; if (strcmp(arg, "-i") == 0 || strcmp(arg, "--input") == 0) return 4; if (strcmp(arg, "-h") == 0 || strcmp(arg, "--help") == 0) return 5; if (strcmp(arg, "-d") == 0 || strcmp(arg, "--debug") == 0) return 6; if (strcmp(arg, "-id") == 0 || strcmp(arg, "--queryid") == 0) return 7; if (strcmp(arg, "-t") == 0 || strcmp(arg, "--timeout") == 0) return 8; if (strcmp(arg, "-sd") == 0 || strcmp(arg, "--savedump") == 0) return 9; if (strcmp(arg, "-sl") == 0 || strcmp(arg, "--slope") == 0) return 10; if (strcmp(arg, "-o") == 0 || strcmp(arg, "--online") == 0) return 11; if (strcmp(arg, "-bs") == 0 || strcmp(arg, "--bufsize") == 0) return 12; if (strcmp(arg, "-pid") == 0 || strcmp(arg, "--pid") == 0) return 13; if (strcmp(arg, "-ord") == 0 || strcmp(arg, "--order") == 0) return 14; if (strcmp(arg, "-u") == 0 || strcmp(arg, "--utilities") == 0) return 15; if (strcmp(arg, "-if") == 0 || strcmp(arg, "--independent") == 0) return 16; if (strcmp(arg, "-lo") == 0 || strcmp(arg, "--local") == 0) return 17; if (strcmp(arg, "-dreorder") == 0 || strcmp(arg, "--disable-reorder") == 0) return 18; if (strcmp(arg, "-sord") == 0 || strcmp(arg, "--static-order") == 0) return 19; return -1; } void printhelp(int argc, char **arg) { fprintf(stderr, "\n\nProbLogBDD Tool Version: %s\n\n", VERSION); fprintf(stderr, "SimpleCUDD library (www.cs.kuleuven.be/~theo/tools/simplecudd.html)\n"); fprintf(stderr, "SimpleCUDD was developed at Katholieke Universiteit Leuven(www.kuleuven.be)\n"); fprintf(stderr, "Copyright Katholieke Universiteit Leuven 2008\n"); fprintf(stderr, "Authors: Theofrastos Mantadelis, Angelika Kimmig, Bernd Gutmann\n"); fprintf(stderr, "This package falls under the: Artistic License 2.0\n"); fprintf(stderr, "\nUsage: %s -l [filename] -i [filename] -o (-s(d) [filename] -e [filename] -m [method] -id [queryid] -sl [double]) (-t [seconds] -d -h)\n", arg[0]); fprintf(stderr, "Generates and traverses a BDD\nMandatory parameters:\n"); fprintf(stderr, "\t-l [filename]\t->\tfilename to load supports two formats:\n\t\t\t\t\t\t1. script with generation instructions\n\t\t\t\t\t\t2. node dump saved file\n"); fprintf(stderr, "\t-i [filename]\t->\tfilename to input problem specifics (mandatory with file formats 1, 2)\n"); fprintf(stderr, "\t-o\t\t->\tgenerates the BDD in online mode instead from a file can be used instead of -l\n"); fprintf(stderr, "Optional parameters:\n"); fprintf(stderr, "\t-sd [filename]\t->\tfilename to save generated BDD in node dump format (fast loading, traverse valid only)\n"); fprintf(stderr, "\t-e [filename]\t->\tfilename to export generated BDD in dot format\n"); fprintf(stderr, "\t-m [method]\t->\tthe calculation method to be used: none(default), [p]robability, [g]radient, [l]ine search, [o]nline\n"); fprintf(stderr, "\t-id [queryid]\t->\tthe queries identity name (used by gradient) default: %s\n", arg[0]); fprintf(stderr, "\t-sl [double]\t->\tthe sigmoid slope (used by gradient) default: 1.0\n"); fprintf(stderr, "\t-if \t\t->\tbuild a forest of -independent- BDDs where each BDD is in a different manager. \n"); fprintf(stderr, "\t-u [filename]\t->\tfilename where a list of utilities can be found. \n"); fprintf(stderr, "\t-lo \t\t->\t do local strategy search. \n"); fprintf(stderr, "Extra parameters:\n"); fprintf(stderr, "\t-t [seconds]\t->\tthe seconds (int) for BDD generation timeout default 0 = no timeout\n"); fprintf(stderr, "\t-pid [pid]\t->\ta process id (int) to check for termination default 0 = no process to check\n"); fprintf(stderr, "\t-bs [bytes]\t->\tthe bytes (int) to use as a maximum buffer size to read files default 0 = no max\n"); fprintf(stderr, "\t-ord [filename]\t->\tUse the [filename] to define a specific final BDD variable order\n"); fprintf(stderr, "\t-dreorder\t->\tDiseable BDD dynamic variable ordering\n"); fprintf(stderr, "\t-sord [filename]\t->\tDefine a static ordering within [filename]\n"); fprintf(stderr, "\t-d\t\t->\tRun in debug mode (gives extra messages in stderr)\n"); fprintf(stderr, "\t-h\t\t->\tHelp (displays this message)\n"); fprintf(stderr, "Extra notes:\nSupports a forest of BDDs in one shared BDD.\nSelected computational methods will be applied to each BDD seperately.\nFile operations will be applied only to the first BDD.\n"); fprintf(stderr, "\nExample: %s -l testbdd -i input.txt -m g -id testbdd\n", arg[0]); } parameters loadparam(int argc, char **arg) { int i; parameters params; params.loadfile = -1; params.savedfile = -1; params.exportfile = -1; params.method = 0; params.inputfile = -1; params.debug = 0; params.errorcnt = 0; params.queryid = 0; params.timeout = 0; params.sigmoid_slope = 1.0; params.online = 0; params.maxbufsize = 0; params.ppid = NULL; params.orderfile = -1; params.utilfile = -1; params.independent_forest = -1; params.local_search = -1; params.error = (int *) malloc(argc * sizeof(int)); params.dynreorder = 1; params.staticorder = -1; for (i = 1; i < argc; i++) { switch(argtype(arg[i])) { case 0: if (argc > i + 1) { i++; params.loadfile = i; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 2: if (argc > i + 1) { i++; params.exportfile = i; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 3: if (argc > i + 1) { i++; params.method = i; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 4: if (argc > i + 1) { i++; params.inputfile = i; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 5: printhelp(argc, arg); break; case 6: params.debug = 1; break; case 7: if (argc > i + 1) { i++; params.queryid = i; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 8: if ((argc > i + 1) && (IsPosNumber(arg[i + 1]))) { i++; params.timeout = atoi(arg[i]); } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 9: if (argc > i + 1) { i++; params.savedfile = i; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 10: if ((argc > i + 1) && (getRealNumber(arg[i + 1], & params.sigmoid_slope))) { i++; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 11: params.online = 1; break; case 12: if ((argc > i + 1) && (IsPosNumber(arg[i + 1]))) { i++; params.maxbufsize = atoi(arg[i]); } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 13: if ((argc > i + 1) && (IsPosNumber(arg[i + 1]))) { i++; params.ppid = (char *) malloc(sizeof(char) * (strlen(arg[i]) + 1)); strcpy(params.ppid, arg[i]); } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 14: if (argc > i + 1) { i++; params.orderfile = i; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 15: if (argc > i + 1) { i++; params.utilfile = i; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; case 16: params.independent_forest = i; break; case 17: params.local_search = i; break; case 18: params.dynreorder = -1; break; case 19: if (argc > i + 1) { i++; params.staticorder = i; } else { params.error[params.errorcnt] = i; params.errorcnt++; } break; default: params.error[params.errorcnt] = i; params.errorcnt++; break; } } return params; } /* Error Handlers */ void handler(int num) { fprintf(stderr, "Error: Timeout %i exceeded.\n", params.timeout); exit(-1); } void pidhandler(int num) { char *s; if (params.timeout > 0) { params.timeout -= 5; if (params.timeout <= 0) { fprintf(stderr, "Error: Timeout exceeded.\n"); exit(-1); } } s = (char *) malloc(sizeof(char) * (19 + strlen(params.ppid))); strcpy(s, "ps "); strcat(s, params.ppid); strcat(s, " >/dev/null"); if (system(s) != 0) exit(4); signal(SIGALRM, pidhandler); alarm(5); free(s); } void termhandler(int num) { exit(3); } /* Debugging traverse function */ void myexpand(extmanager MyManager, DdNode *Current) { DdNode *h, *l; hisnode *Found; char *curnode; curnode = GetNodeVarNameDisp(MyManager.manager, MyManager.varmap, Current); printf("%s\n", curnode); if ((Current != MyManager.t) && (Current != MyManager.f) && ((Found = GetNode(MyManager.his, MyManager.varmap.varstart, Current)) == NULL)) { l = LowNodeOf(MyManager.manager, Current); h = HighNodeOf(MyManager.manager, Current); printf("l(%s)->", curnode); myexpand(MyManager, l); printf("h(%s)->", curnode); myexpand(MyManager, h); AddNode(MyManager.his, MyManager.varmap.varstart, Current, 0.0, 0, NULL); } } /* Angelicas Algorithm */ double CalcProbability(extmanager MyManager, DdNode *Current) { DdNode *h, *l; hisnode *Found; char *curnode, *dynvalue; double lvalue, hvalue, tvalue; density_integral dynvalue_parsed; dynvalue_parsed.low = 0.0; dynvalue_parsed.high = 0.0; dynvalue_parsed.mu = 0.0; dynvalue_parsed.log_sigma = 0.0; curnode = NULL; if (params.debug) { curnode = GetNodeVarNameDisp(MyManager.manager, MyManager.varmap, Current); fprintf(stderr, "%s\n", curnode); } // base cases: 0 and 1 terminal if (Current == MyManager.t) return 1.0; if (Current == MyManager.f) return 0.0; // case: node is in cache if ((Found = GetNode(MyManager.his, MyManager.varmap.varstart, Current)) != NULL) { return Found->dvalue; } // case: node is not in cache l = LowNodeOf(MyManager.manager, Current); h = HighNodeOf(MyManager.manager, Current); if (params.debug) fprintf(stderr, "l(%s)->", curnode); lvalue = CalcProbability(MyManager, l); if (params.debug) fprintf(stderr, "h(%s)->", curnode); hvalue = CalcProbability(MyManager, h); dynvalue = (char*) MyManager.varmap.dynvalue[GetIndex(Current) - MyManager.varmap.varstart]; if (dynvalue == NULL) { // no dynvalue, node is regular probabilistic fact tvalue = MyManager.varmap.dvalue[GetIndex(Current) - MyManager.varmap.varstart]; } else { // there is a dynvalue, node is continuous fact curnode = GetNodeVarNameDisp(MyManager.manager, MyManager.varmap, Current); dynvalue_parsed = parse_density_integral_string(dynvalue, curnode); if (params.debug) fprintf(stderr, " cont low=%f high=%f mu=%f sigma=%f\n->", dynvalue_parsed.low, dynvalue_parsed.high, dynvalue_parsed.mu,exp(dynvalue_parsed.log_sigma) ); tvalue = cumulative_normal(dynvalue_parsed.low, dynvalue_parsed.high, dynvalue_parsed.mu, exp(dynvalue_parsed.log_sigma))/ (1-cumulative_normal_upper(dynvalue_parsed.low, dynvalue_parsed.mu, exp(dynvalue_parsed.log_sigma))); } tvalue = tvalue * hvalue + lvalue * (1.0 - tvalue); AddNode(MyManager.his, MyManager.varmap.varstart, Current, tvalue, 0, NULL); return tvalue; } /* Bernds Algorithm */ // type=0 regular probabilistic fact // type=1 derive gradient for mu // type=2 derive gradient for sigma gradientpair CalcGradient(extmanager MyManager, DdNode *Current, int TargetVar, char *TargetPattern, int type) { DdNode *h, *l; hisnode *Found; char *curnode, *dynvalue; gradientpair lowvalue, highvalue, tvalue; double this_probability = 0.0; double this_gradient = 0.0; double continuous_denominator = 0.0, continuous_numerator = 0.0; double *gradient; density_integral dynvalue_parsed; dynvalue_parsed.low = 0.0; dynvalue_parsed.high = 0.0; dynvalue_parsed.mu = 0.0; dynvalue_parsed.log_sigma = 0.0; curnode = NULL; if (params.debug) { curnode = GetNodeVarNameDisp(MyManager.manager, MyManager.varmap, Current); fprintf(stderr, "%s\n", curnode); } // base cases if (Current == MyManager.t) { tvalue.probability = 1.0; tvalue.gradient = 0.0; return tvalue; } if (Current == MyManager.f) { tvalue.probability = 0.0; tvalue.gradient = 0.0; return tvalue; } //node is in cache if ((Found = GetNode(MyManager.his, MyManager.varmap.varstart, Current)) != NULL) { tvalue.probability = Found->dvalue; tvalue.gradient = *((double *) Found->dynvalue); return tvalue; } //inductive case l = LowNodeOf(MyManager.manager, Current); h = HighNodeOf(MyManager.manager, Current); if (params.debug) fprintf(stderr, "l(%s)->", curnode); lowvalue = CalcGradient(MyManager, l, TargetVar, TargetPattern,type); if (params.debug) fprintf(stderr, "h(%s)->", curnode); highvalue = CalcGradient(MyManager, h, TargetVar, TargetPattern,type); dynvalue = (char*) MyManager.varmap.dynvalue[GetIndex(Current) - MyManager.varmap.varstart]; if (dynvalue == NULL) { // no dynvalue, it's a regular probabilistic fact this_probability = sigmoid(MyManager.varmap.dvalue[GetIndex(Current) - MyManager.varmap.varstart], params.sigmoid_slope); } else { // there is a dynvalue, it's a continuous fact! let's do the hybrid ProbLog magic here curnode = GetNodeVarNameDisp(MyManager.manager, MyManager.varmap, Current); dynvalue_parsed = parse_density_integral_string(dynvalue, curnode); continuous_denominator = 1-cumulative_normal_upper(dynvalue_parsed.low, dynvalue_parsed.mu, exp(dynvalue_parsed.log_sigma)); continuous_numerator = cumulative_normal(dynvalue_parsed.low, dynvalue_parsed.high, dynvalue_parsed.mu, exp(dynvalue_parsed.log_sigma)); this_probability= continuous_numerator/continuous_denominator; } tvalue.probability = this_probability * highvalue.probability + (1 - this_probability) * lowvalue.probability; tvalue.gradient = this_probability * highvalue.gradient + (1 - this_probability) * lowvalue.gradient; // is this node, the one we want to calculcate the gradient for? if ((GetIndex(Current) == TargetVar) || ((TargetPattern != NULL) && patternmatch(TargetPattern, MyManager.varmap.vars[GetIndex(Current)]))) { if (type == 0) { // current node is normal probabilistic fact this_gradient = this_probability * (1 - this_probability) * params.sigmoid_slope; } else if (type == 1) { // it's a continues fact and we need d/dmu this_gradient = (cumulative_normal_dmu(dynvalue_parsed.low, dynvalue_parsed.high, dynvalue_parsed.mu, exp(dynvalue_parsed.log_sigma))*continuous_denominator+ continuous_numerator*cumulative_normal_upper_dmu(dynvalue_parsed.low, dynvalue_parsed.mu, exp(dynvalue_parsed.log_sigma))) / (continuous_denominator*continuous_denominator); } else if (type == 2) { // it's a continues fact and we need d/dsigma this_gradient = exp(dynvalue_parsed.log_sigma)* (cumulative_normal_dsigma(dynvalue_parsed.low, dynvalue_parsed.high, dynvalue_parsed.mu, exp(dynvalue_parsed.log_sigma))*continuous_denominator + continuous_numerator*cumulative_normal_upper_dsigma(dynvalue_parsed.low, dynvalue_parsed.mu, exp(dynvalue_parsed.log_sigma))) / (continuous_denominator*continuous_denominator); } tvalue.gradient += (highvalue.probability - lowvalue.probability) * this_gradient; } gradient = (double *) malloc(sizeof(double)); *gradient = tvalue.gradient; AddNode(MyManager.his, MyManager.varmap.varstart, Current, tvalue.probability, 0, gradient); return tvalue; } char * extractpattern(char *thestr) { char *p; int i = 0, sl = strlen(thestr); while((thestr[i] != '_') && (i < sl)) i++; if (i == sl) return NULL; i++; p = (char *) malloc(sizeof(char) * (i + 2)); strncpy(p, thestr, i); p[i] = '*'; p[i + 1] = '\0'; return p; } int patterncalculated(char *pattern, extmanager MyManager, int loc) { int i; if (pattern == NULL) return 0; for (i = loc - 1; i > -1; i--) if (patternmatch(pattern, MyManager.varmap.vars[i])) return 1; return 0; }