/************************************************************************* * * * YAP Prolog @(#)amidefs.h 1.3 3/15/90 * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: tracer.h * * Last rev: * * mods: * * comments: definitions for low level tracer * * * *************************************************************************/ #include "Yap.h" #ifdef LOW_LEVEL_TRACER #include "Yatom.h" #include "Heap.h" #include "yapio.h" #include "tracer.h" STATIC_PROTO(int TracePutchar, (int, int)); STATIC_PROTO(void send_tracer_message, (char *, char *, Int, char *, CELL *)); static int do_trace_primitives = TRUE; static int TracePutchar(int sno, int ch) { return(putc(ch, Yap_stderr)); /* use standard error stream, which is supposed to be 2*/ } static void send_tracer_message(char *start, char *name, Int arity, char *mname, CELL *args) { if (name == NULL) { #ifdef YAPOR fprintf(Yap_stderr, "(%d)%s", worker_id, start); #else fprintf(Yap_stderr, "%s", start); #endif } else { int i; if (arity) { fprintf(Yap_stderr, "%s %s:%s(", start, mname, name); } else { fprintf(Yap_stderr, "%s %s:%s", start, mname, name); } for (i= 0; i < arity; i++) { if (i > 0) fprintf(Yap_stderr, ","); #if DEBUG #if COROUTINING /* Yap_Portray_delays = TRUE; */ #endif #endif Yap_plwrite(args[i], TracePutchar, Handle_vars_f); #if DEBUG #if COROUTINING Yap_Portray_delays = FALSE; #endif #endif } if (arity) fprintf(Yap_stderr, ")"); } fprintf(Yap_stderr, "\n"); } #if defined(__GNUC__) unsigned long long vsc_count; #else unsigned long vsc_count; #endif #if THREADS static int thread_trace; #endif /* static int check_trail_consistency(void) { tr_fr_ptr ptr = TR; while (ptr > (CELL *)Yap_TrailBase) { ptr = --ptr; if (!IsVarTerm(TrailTerm(ptr))) { if (IsApplTerm(TrailTerm(ptr))) { CELL *cptr = (CELL *)ptr; ptr = (tr_fr_ptr)(cptr-1); } else { if (IsPairTerm(TrailTerm(ptr))) { CELL *p = RepPair(TrailTerm(ptr)); if (p < H0) continue; } printf("Oops at call %ld, B->cp(%p) TR(%p) pt(%p)\n", vsc_count,B->cp_tr, TR, ptr); return(FALSE); } } } return(TRUE); } */ CELL old_value = 0L, old_value2 = 0L; void jmp_deb(int); void jmp_deb(int i) {if (i) printf("Here we go\n"); else jmp_deb(0);} struct various_codes *sc; void low_level_trace(yap_low_level_port port, PredEntry *pred, CELL *args) { char *s; char *mname; Int arity; /* extern int gc_calls; */ sc = Yap_heap_regs; vsc_count++; #ifdef COMMENTED // if (vsc_count == 218280) // vsc_xstop = 1; if (vsc_count < 1468068888) { UNLOCK(Yap_heap_regs->low_level_trace_lock); return; } if (port != enter_pred || !pred || pred->ArityOfPE != 4 || strcmp(RepAtom(NameOfFunctor(pred->FunctorOfPred))->StrOfAE,"in_between_target_phrases")) return; if (vsc_count < 1246949400LL) return; if (vsc_count == 1246949493LL) vsc_xstop = TRUE; if (vsc_count < 5646100000LL) return; if (vsc_count == 5646100441LL) vsc_xstop = TRUE; if (vsc_count < 2923351500LL) { return; } if (vsc_count == 123536441LL) vsc_xstop = 1; if (vsc_count < 5530257LL) { return; } if (vsc_count == 9414280LL) { vsc_xstop = TRUE; } if (vsc_count < 3399741LL) { return; } if (vsc_count == 51021) { printf("Here I go\n"); } if (vsc_count < 52000) return; if (vsc_count > 52000) exit(0); return; if (vsc_count == 837074) { printf("Here I go\n"); } if (gc_calls < 1) return; { CELL *env_ptr = ENV; PredEntry *p; while (env_ptr) { PredEntry *pe = EnvPreg(env_ptr[E_CP]); printf("%p->",env_ptr,pe); if (vsc_count == 52LL) printf("\n"); if (p == pe) return(TRUE); if (env_ptr != NULL) env_ptr = (CELL *)(env_ptr[E_E]); } printf("\n"); } #endif fprintf(Yap_stderr,"%lld ", vsc_count); #if defined(THREADS) || defined(YAPOR) fprintf(Yap_stderr,"(%d)", worker_id); #endif /* check_trail_consistency(); */ if (pred == NULL) return; if (pred->ModuleOfPred == 0 && !do_trace_primitives) return; switch (port) { case enter_pred: mname = RepAtom(AtomOfTerm(Yap_Module_Name(pred)))->StrOfAE; arity = pred->ArityOfPE; if (arity == 0) s = RepAtom((Atom)pred->FunctorOfPred)->StrOfAE; else s = RepAtom(NameOfFunctor((pred->FunctorOfPred)))->StrOfAE; /* if ((pred->ModuleOfPred == 0) && (s[0] == '$')) return; */ send_tracer_message("CALL: ", s, arity, mname, args); break; case try_or: send_tracer_message("TRY_OR ", NULL, 0, NULL, args); break; case retry_or: send_tracer_message("FAIL ", NULL, 0, NULL, args); send_tracer_message("RETRY_OR ", NULL, 0, NULL, args); break; case retry_table_generator: send_tracer_message("FAIL ", NULL, 0, NULL, args); mname = RepAtom(AtomOfTerm(Yap_Module_Name(pred)))->StrOfAE; arity = pred->ArityOfPE; if (arity == 0) s = RepAtom((Atom)pred->FunctorOfPred)->StrOfAE; else s = RepAtom(NameOfFunctor((pred->FunctorOfPred)))->StrOfAE; send_tracer_message("RETRY GENERATOR: ", s, arity, mname, args); break; case retry_table_consumer: send_tracer_message("FAIL ", NULL, 0, NULL, args); mname = RepAtom(AtomOfTerm(Yap_Module_Name(pred)))->StrOfAE; arity = pred->ArityOfPE; if (arity == 0) s = RepAtom((Atom)pred->FunctorOfPred)->StrOfAE; else s = RepAtom(NameOfFunctor((pred->FunctorOfPred)))->StrOfAE; send_tracer_message("RETRY CONSUMER: ", s, 0, mname, NULL); break; case retry_table_loader: send_tracer_message("FAIL ", NULL, 0, NULL, args); if (pred == UndefCode) { send_tracer_message("RETRY LOADER ", NULL, 0, NULL, NULL); } else { mname = RepAtom(AtomOfTerm(Yap_Module_Name(pred)))->StrOfAE; arity = pred->ArityOfPE; if (arity == 0) s = RepAtom((Atom)pred->FunctorOfPred)->StrOfAE; else s = RepAtom(NameOfFunctor((pred->FunctorOfPred)))->StrOfAE; send_tracer_message("RETRY LOADER: ", s, 0, mname, NULL); } break; case retry_pred: send_tracer_message("FAIL ", NULL, 0, NULL, args); if (pred != NULL) { mname = RepAtom(AtomOfTerm(Yap_Module_Name(pred)))->StrOfAE; arity = pred->ArityOfPE; if (pred->ModuleOfPred == IDB_MODULE) { s = "recorded"; arity = 3; } else if (arity == 0) { s = RepAtom((Atom)pred->FunctorOfPred)->StrOfAE; } else { s = RepAtom(NameOfFunctor((pred->FunctorOfPred)))->StrOfAE; } send_tracer_message("RETRY: ", s, arity, mname, args); } break; } UNLOCK(Yap_heap_regs->low_level_trace_lock); } void toggle_low_level_trace(void) { Yap_do_low_level_trace = !Yap_do_low_level_trace; } static Int p_start_low_level_trace(void) { Yap_do_low_level_trace = TRUE; return(TRUE); } #ifdef THREADS static Int p_start_low_level_trace2(void) { thread_trace = IntegerOfTerm(Deref(ARG1))+1; Yap_do_low_level_trace = TRUE; return(TRUE); } #endif static Int p_stop_low_level_trace(void) { Yap_do_low_level_trace = FALSE; do_trace_primitives = TRUE; return(TRUE); } void Yap_InitLowLevelTrace(void) { Yap_InitCPred("start_low_level_trace", 0, p_start_low_level_trace, SafePredFlag); #if THREADS Yap_InitCPred("start_low_level_trace", 1, p_start_low_level_trace2, SafePredFlag); #endif Yap_InitCPred("stop_low_level_trace", 0, p_stop_low_level_trace, SafePredFlag); } #endif