#include #include "Yap.h" #include "YapInterface.h" #include "clause.h" #include "udi.h" #include "utarray.h" /* to keep a vector of udi indexers */ UT_icd udicb_icd = {sizeof(UdiControlBlock), NULL, NULL, NULL}; UT_array *indexing_structures; /* * New user indexed predicate: * first argument is the decl term. * second argument is the init call with the structure */ void Yap_UdiRegister(UdiControlBlock cb){ /*TODO: check structure integrity and duplicates */ utarray_push_back(indexing_structures, &cb); } struct udi_p_args { void *idxstr; //user indexing structure UdiControlBlock control; //user indexing structure functions }; /* a pointer utarray list * This is a hack, becouse I do no know the real type of clauses*/ UT_icd ptr_icd = {sizeof(void *), NULL, NULL, NULL }; #define UDI_MI 10 /****** All the info we need to enter user indexed code: right now, this is just a linked list.... ******/ typedef struct udi_info { PredEntry *p; //predicate (need to identify asserts) UT_array *clauselist; //clause list used on returns struct udi_p_args args[UDI_MI]; //indexed args only the first UDI_MI struct udi_info *next; } *UdiInfo; int Yap_udi_args_init(Term spec, int arity, UdiInfo blk); /****** we now have one extra user indexed predicate. We assume these are few, so we can do with a linked list. ******/ //static int //add_udi_block(PredEntry *p, void *info, UdiControlBlock cmd) //{ // UdiInfo blk = (UdiInfo) Yap_AllocCodeSpace(sizeof(struct udi_info)); // if (!blk) // return FALSE; // blk->next = UdiControlBlocks; // UdiControlBlocks = blk; // blk->p = p; // blk->functions = cmd; // blk->cb = info; // return TRUE; //} /* * New user indexed predicate: * the first argument is the term. */ static Int p_new_udi( USES_REGS1 ) { Term spec = Deref(ARG1); PredEntry *p; // UdiControlBlock cmd; // Atom udi_t; UdiInfo blk; int info; fprintf(stderr,"new pred\n"); /* get the predicate from the spec, copied from cdmgr.c */ if (IsVarTerm(spec)) { Yap_Error(INSTANTIATION_ERROR,spec,"new user index/1"); return FALSE; } else if (!IsApplTerm(spec)) { Yap_Error(TYPE_ERROR_COMPOUND,spec,"new user index/1"); return FALSE; } else { Functor fun = FunctorOfTerm(spec); Term tmod = CurrentModule; while (fun == FunctorModule) { tmod = ArgOfTerm(1,spec); if (IsVarTerm(tmod) ) { Yap_Error(INSTANTIATION_ERROR, spec, "new user index/1"); return FALSE; } if (!IsAtomTerm(tmod) ) { Yap_Error(TYPE_ERROR_ATOM, spec, "new user index/1"); return FALSE; } spec = ArgOfTerm(2, spec); fun = FunctorOfTerm(spec); } p = RepPredProp(PredPropByFunc(fun, tmod)); } if (!p) return FALSE; /* boring, boring, boring! */ if ((p->PredFlags & (DynamicPredFlag|LogUpdatePredFlag|UserCPredFlag|CArgsPredFlag|NumberDBPredFlag|AtomDBPredFlag|TestPredFlag|AsmPredFlag|CPredFlag|BinaryPredFlag)) || (p->ModuleOfPred == PROLOG_MODULE)) { Yap_Error(PERMISSION_ERROR_MODIFY_STATIC_PROCEDURE, spec, "udi/2"); return FALSE; } if (p->PredFlags & (DynamicPredFlag|LogUpdatePredFlag|TabledPredFlag)) { Yap_Error(PERMISSION_ERROR_ACCESS_PRIVATE_PROCEDURE, spec, "udi/2"); return FALSE; } /* TODO: remove AtomRTree from atom list */ /* this is the real work */ blk = (UdiInfo) Yap_AllocCodeSpace(sizeof(struct udi_info)); if (!blk) { Yap_Error(OUT_OF_HEAP_ERROR, spec, "new user index/1"); return FALSE; } blk->next = UdiControlBlocks; blk->clauselist = NULL; blk->p = p; info = Yap_udi_args_init(spec, p->ArityOfPE, blk); if (!info) return FALSE; p->PredFlags |= UDIPredFlag; return TRUE; } /* * Here we initialize the arguments indexing */ int Yap_udi_args_init(Term spec, int arity, UdiInfo blk) { int i; Term arg; Atom idxtype; UdiControlBlock *p; fprintf(stderr,"udi init\n"); for (i = 1; i <= arity && i <= UDI_MI ; i++) { blk->args[i-1].idxstr = NULL; blk->args[i-1].control = NULL; fprintf(stderr,"%d\n",i); arg = ArgOfTerm(i,spec); if (IsAtomTerm(arg)) { idxtype = AtomOfTerm(arg); fprintf(stderr,"%p-%s %p-%s\n",idxtype, YAP_AtomName(idxtype), AtomMinus, YAP_AtomName(AtomMinus)); if (idxtype == AtomMinus) continue; p = NULL; while ((p = (UdiControlBlock *) utarray_next(indexing_structures, p))) { fprintf(stderr,"cb: %p %p-%s\n", *p, (*p)->decl, YAP_AtomName((*p)->decl)); if (idxtype == (*p)->decl){ blk->args[i-1].idxstr = NULL; blk->args[i-1].control = *p; } } if (blk->args[i-1].control == NULL){ /* not "-" and not found*/ fprintf(stderr, "Invalid Spec (%s)\n", AtomName(idxtype)); return FALSE; } } } return TRUE; } /* just pass info to user, called from cdmgr.c */ int Yap_new_udi_clause(PredEntry *p, yamop *cl, Term t) { /* find our structure*/ struct udi_info *info = UdiControlBlocks; while (info->p != p && info) info = info->next; if (!info) return FALSE; /* do the actual insertion */ fprintf(stderr,"udi insert\n"); // info->cb = info->functions->insert(t, info->cb, (void *)cl); return TRUE; } /* index, called from absmi.c */ yamop * Yap_udi_search(PredEntry *p) { struct udi_info *info = UdiControlBlocks; while (info->p != p && info) info = info->next; if (!info) return NULL; return NULL; /*info->functions->search(info->cb);*/ } /* index, called from absmi.c */ void Yap_udi_abolish(PredEntry *p) { /* tell the predicate destroy */ } void Yap_udi_init(void) { UdiControlBlocks = NULL; /*init indexing structures array*/ utarray_new(indexing_structures, &udicb_icd); Yap_InitCPred("$udi_init", 1, p_new_udi, 0); /* TODO: decide if yap.udi should be loaded automaticaly in init.yap */ }