/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: absmi.c * * comments: Portable abstract machine interpreter * * Last rev: $Date: 2008-08-13 01:16:26 $,$Author: vsc $ * * $Log: not supported by cvs2svn $ * Revision 1.246 2008/08/12 01:27:22 vsc * MaxOS fixes * Avoid a thread deadlock * improvements to SWI predicates. * make variables_in_term system builtin. * * Revision 1.245 2008/08/07 20:51:15 vsc * more threadin fixes * * Revision 1.244 2008/08/06 23:05:49 vsc * fix debugging info * * Revision 1.243 2008/08/06 17:32:18 vsc * more thread fixes * * Revision 1.242 2008/06/17 13:37:48 vsc * fix c_interface not to crash when people try to recover slots that are * not there. * fix try_logical and friends to handle case where predicate has arity 0. * * Revision 1.241 2008/06/04 14:47:18 vsc * make sure we do trim_trail whenever we mess with B! * * Revision 1.240 2008/04/04 16:11:40 vsc * yapor had gotten broken with recent thread changes * * Revision 1.239 2008/04/03 13:26:37 vsc * protect signal handling with locks for threaded version. * fix close/1 entry in manual (obs from Nicos). * fix -f option in chr Makefile. * * Revision 1.238 2008/04/03 10:50:23 vsc * term_variables could store local variable in global. * * Revision 1.237 2008/03/26 14:37:07 vsc * more icc fixes * * Revision 1.236 2008/03/25 16:45:52 vsc * make or-parallelism compile again * * Revision 1.235 2008/02/12 17:03:50 vsc * SWI-portability changes * * Revision 1.234 2008/01/27 11:01:06 vsc * make thread code more stable * * Revision 1.233 2008/01/23 17:57:44 vsc * valgrind it! * enable atom garbage collection. * * Revision 1.232 2007/11/28 23:52:14 vsc * junction tree algorithm * * Revision 1.231 2007/11/26 23:43:07 vsc * fixes to support threads and assert correctly, even if inefficiently. * * Revision 1.230 2007/11/08 15:52:15 vsc * fix some bugs in new dbterm code. * * Revision 1.229 2007/11/07 09:25:27 vsc * speedup meta-calls * * Revision 1.228 2007/11/06 17:02:08 vsc * compile ground terms away. * * Revision 1.227 2007/10/28 11:23:39 vsc * fix overflow * * Revision 1.226 2007/10/28 00:54:09 vsc * new version of viterbi implementation * fix all:atvars reporting bad info * fix bad S info in x86_64 * * Revision 1.225 2007/10/17 09:18:26 vsc * growtrail assumed SREG meant ASP? * * Revision 1.224 2007/09/24 09:02:31 vsc * minor bug fixes * * Revision 1.223 2007/06/04 12:28:01 vsc * interface speedups * bad error message in X is foo>>2. * * Revision 1.222 2007/05/01 21:18:19 vsc * fix bug in saving P at p_eq (obs from Frabrizio Riguzzi) * * Revision 1.221 2007/04/10 22:13:20 vsc * fix max modules limitation * * Revision 1.220 2007/03/21 18:32:49 vsc * fix memory expansion bugs. * * Revision 1.219 2007/01/24 09:57:25 vsc * fix glist_void_varx * * Revision 1.218 2006/12/31 01:50:34 vsc * fix some bugs in call_cleanup: the result of action should not matter, * and !,fail would not wakeup the delayed goal. * * Revision 1.217 2006/12/30 03:25:44 vsc * call_cleanup/2 and 3 * * Revision 1.216 2006/12/29 01:57:50 vsc * allow coroutining plus tabling, this means fixing some trouble with the * gc and a bug in global variable handling. * * Revision 1.215 2006/12/27 01:32:37 vsc * diverse fixes * * Revision 1.214 2006/11/28 00:46:28 vsc * fix bug in threaded implementation * * Revision 1.213 2006/11/27 17:42:02 vsc * support for UNICODE, and other bug fixes. * * Revision 1.212 2006/11/21 16:21:30 vsc * fix I/O mess * fix spy/reconsult mess * * Revision 1.211 2006/11/15 00:13:36 vsc * fixes for indexing code. * * Revision 1.210 2006/10/25 02:31:07 vsc * fix emulation of trust_logical * * Revision 1.209 2006/10/18 13:47:31 vsc * index.c implementation of trust_logical was decrementing the wrong * cp_tr * * Revision 1.208 2006/10/11 14:53:57 vsc * fix memory leak * fix overflow handling * VS: ---------------------------------------------------------------------- * * Revision 1.207 2006/10/10 20:21:42 vsc * fix new indexing code to actually recover space * fix predicate info to work for LUs * * Revision 1.206 2006/10/10 14:08:15 vsc * small fixes on threaded implementation. * * Revision 1.205 2006/09/28 16:15:54 vsc * make GMPless version compile. * * Revision 1.204 2006/09/20 20:03:51 vsc * improve indexing on floats * fix sending large lists to DB * * Revision 1.203 2006/08/07 18:51:44 vsc * fix garbage collector not to try to garbage collect when we ask for large * chunks of stack in a single go. * * Revision 1.202 2006/05/24 02:35:39 vsc * make chr work and other minor fixes. * * Revision 1.201 2006/04/27 14:11:57 rslopes * *** empty log message *** * * Revision 1.200 2006/04/12 17:14:58 rslopes * fix needed by the EAM engine * * Revision 1.199 2006/04/12 15:51:23 rslopes * small fixes * * Revision 1.198 2006/03/30 01:11:09 vsc * fix nasty variable shunting bug in garbage collector :-(:wq * * Revision 1.197 2006/03/24 17:13:41 rslopes * New update to BEAM engine. * BEAM now uses YAP Indexing (JITI) * * Revision 1.196 2006/03/03 23:10:47 vsc * fix MacOSX interrupt handling * fix using Yap files as Yap scripts. * * Revision 1.195 2006/02/01 13:28:56 vsc * bignum support fixes * * Revision 1.194 2006/01/26 19:13:24 vsc * avoid compilation issues with lack of gmp (Remko Troncon) * * Revision 1.193 2006/01/18 15:34:53 vsc * avoid sideffects from MkBigInt * * Revision 1.192 2006/01/17 14:10:40 vsc * YENV may be an HW register (breaks some tabling code) * All YAAM instructions are now brackedted, so Op introduced an { and EndOp introduces an }. This is because Ricardo assumes that. * Fix attvars when COROUTING is undefined. * * Revision 1.191 2006/01/02 02:16:17 vsc * support new interface between YAP and GMP, so that we don't rely on our own * allocation routines. * Several big fixes. * * Revision 1.190 2005/12/23 00:20:13 vsc * updates to gprof * support for __POWER__ * Try to saveregs before longjmp. * * Revision 1.189 2005/12/17 03:25:38 vsc * major changes to support online event-based profiling * improve error discovery and restart on scanner. * * Revision 1.188 2005/12/05 17:16:10 vsc * write_depth/3 * overflow handlings and garbage collection * Several ipdates to CLPBN * dif/2 could be broken in the presence of attributed variables. * * Revision 1.187 2005/11/26 02:57:25 vsc * improvements to debugger * overflow fixes * reading attvars from DB was broken. * * Revision 1.186 2005/11/23 03:01:32 vsc * fix several bugs in save/restore.b * * Revision 1.185 2005/11/18 18:48:51 tiagosoares * support for executing c code when a cut occurs * * Revision 1.184 2005/11/15 00:50:49 vsc * fixes for stack expansion and garbage collection under tabling. * * Revision 1.183 2005/11/07 15:35:47 vsc * fix bugs in garbage collection of tabling. * * Revision 1.182 2005/11/05 03:02:33 vsc * get rid of unnecessary ^ in setof * Found bug in comparisons * * Revision 1.181 2005/11/04 15:39:14 vsc * absmi should PREG, never P!! * * Revision 1.180 2005/10/28 17:38:49 vsc * sveral updates * * Revision 1.179 2005/10/18 17:04:43 vsc * 5.1: * - improvements to GC * 2 generations * generic speedups * - new scheme for attvars * - hProlog like interface also supported * - SWI compatibility layer * - extra predicates * - global variables * - moved to Prolog module * - CLP(R) by Leslie De Koninck, Tom Schrijvers, Cristian Holzbaur, Bart * Demoen and Jan Wielemacker * - load_files/2 * * from 5.0.1 * * - WIN32 missing include files (untested) * - -L trouble (my thanks to Takeyuchi Shiramoto-san)! * - debugging of backtrable user-C preds would core dump. * - redeclaring a C-predicate as Prolog core dumps. * - badly protected YapInterface.h. * - break/0 was failing at exit. * - YAP_cut_fail and YAP_cut_succeed were different from manual. * - tracing through data-bases could core dump. * - cut could break on very large computations. * - first pass at BigNum issues (reported by Roberto). * - debugger could get go awol after fail port. * - weird message on wrong debugger option. * * Revision 1.178 2005/10/15 17:05:23 rslopes * enable profiling on amd64 * * Revision 1.177 2005/09/09 17:24:37 vsc * a new and hopefully much better implementation of atts. * * Revision 1.176 2005/09/08 22:06:44 rslopes * BEAM for YAP update... * * Revision 1.175 2005/08/12 17:00:00 ricroc * TABLING FIX: support for incomplete tables * * Revision 1.174 2005/08/05 14:55:02 vsc * first steps to allow mavars with tabling * fix trailing for tabling with multiple get_cons * * Revision 1.173 2005/08/04 15:45:49 ricroc * TABLING NEW: support to limit the table space size * * Revision 1.172 2005/08/02 03:09:48 vsc * fix debugger to do well nonsource predicates. * * Revision 1.171 2005/08/01 15:40:36 ricroc * TABLING NEW: better support for incomplete tabling * * Revision 1.170 2005/07/06 19:33:51 ricroc * TABLING: answers for completed calls can now be obtained by loading (new option) or executing (default) them from the trie data structure. * * Revision 1.169 2005/07/06 15:10:01 vsc * improvements to compiler: merged instructions and fixes for -> * * Revision 1.168 2005/06/04 07:27:33 ricroc * long int support for tabling * * Revision 1.167 2005/06/03 08:26:31 ricroc * float support for tabling * * Revision 1.166 2005/06/01 20:25:22 vsc * == and \= should not need a choice-point in -> * * Revision 1.165 2005/06/01 14:02:45 vsc * get_rid of try_me?, retry_me? and trust_me? instructions: they are not * significantly used nowadays. * * Revision 1.164 2005/05/26 18:07:32 vsc * fix warning * * Revision 1.163 2005/04/10 04:01:07 vsc * bug fixes, I hope! * * Revision 1.162 2005/04/07 17:48:53 ricroc * Adding tabling support for mixed strategy evaluation (batched and local scheduling) * UPDATE: compilation flags -DTABLING_BATCHED_SCHEDULING and -DTABLING_LOCAL_SCHEDULING removed. To support tabling use -DTABLING in the Makefile or --enable-tabling in configure. * NEW: yap_flag(tabling_mode,MODE) changes the tabling execution mode of all tabled predicates to MODE (batched, local or default). * NEW: tabling_mode(PRED,MODE) changes the default tabling execution mode of predicate PRED to MODE (batched or local). * * Revision 1.161 2005/03/13 06:26:09 vsc * fix excessive pruning in meta-calls * fix Term->int breakage in compiler * improve JPL (at least it does something now for amd64). * * Revision 1.160 2005/03/07 17:49:14 vsc * small fixes * * Revision 1.159 2005/03/04 20:29:55 ricroc * bug fixes for YapTab support * * Revision 1.158 2005/03/01 22:25:07 vsc * fix pruning bug * make DL_MALLOC less enthusiastic about walking through buckets. * * Revision 1.157 2005/02/08 18:04:17 vsc * library_directory may not be deterministic (usually it isn't). * * Revision 1.156 2005/01/13 05:47:25 vsc * lgamma broke arithmetic optimisation * integer_y has type y * pass original source to checker (and maybe even use option in parser) * use warning mechanism for checker messages. * * Revision 1.155 2004/12/28 22:20:34 vsc * some extra bug fixes for trail overflows: some cannot be recovered that easily, * some can. * * Revision 1.154 2004/12/05 05:01:21 vsc * try to reduce overheads when running with goal expansion enabled. * CLPBN fixes * Handle overflows when allocating big clauses properly. * * Revision 1.153 2004/11/19 22:08:35 vsc * replace SYSTEM_ERROR by out OUT_OF_WHATEVER_ERROR whenever appropriate. * * Revision 1.152 2004/11/19 17:14:12 vsc * a few fixes for 64 bit compiling. * * Revision 1.151 2004/11/04 18:22:28 vsc * don't ever use memory that has been freed (that was done by LU). * generic fixes for WIN32 libraries * * Revision 1.150 2004/10/26 20:15:36 vsc * More bug fixes for overflow handling * * Revision 1.149 2004/10/14 22:14:52 vsc * don't use a cached version of ARG1 in choice-points * * Revision 1.148 2004/09/30 21:37:40 vsc * fixes for thread support * * Revision 1.147 2004/09/30 19:51:53 vsc * fix overflow from within clause/2 * * Revision 1.146 2004/09/27 20:45:02 vsc * Mega clauses * Fixes to sizeof(expand_clauses) which was being overestimated * Fixes to profiling+indexing * Fixes to reallocation of memory after restoring * Make sure all clauses, even for C, end in _Ystop * Don't reuse space for Streams * Fix Stream_F on StreaNo+1 * * Revision 1.145 2004/09/17 20:47:35 vsc * fix some overflows recorded. * * Revision 1.144 2004/09/17 19:34:49 vsc * simplify frozen/2 * * Revision 1.143 2004/08/16 21:02:04 vsc * more fixes for ! * * Revision 1.142 2004/08/11 16:14:51 vsc * whole lot of fixes: * - memory leak in indexing * - memory management in WIN32 now supports holes * - extend Yap interface, more support for SWI-Interface * - new predicate mktime in system * - buffer console I/O in WIN32 * * Revision 1.141 2004/07/23 21:08:44 vsc * windows fixes * * Revision 1.140 2004/07/22 21:32:20 vsc * debugger fixes * initial support for JPL * bad calls to garbage collector and gc * debugger fixes * * Revision 1.139 2004/07/03 03:29:24 vsc * make it compile again on non-linux machines * * Revision 1.138 2004/06/29 19:04:40 vsc * fix multithreaded version * include new version of Ricardo's profiler * new predicat atomic_concat * allow multithreaded-debugging * small fixes * * Revision 1.137 2004/06/23 17:24:19 vsc * New comment-based message style * Fix thread support (at least don't deadlock with oneself) * small fixes for coroutining predicates * force Yap to recover space in arrays of dbrefs * use private predicates in debugger. * * Revision 1.136 2004/06/17 22:07:22 vsc * bad bug in indexing code. * * Revision 1.135 2004/06/09 03:32:02 vsc * fix bugs * * Revision 1.134 2004/06/05 03:36:59 vsc * coroutining is now a part of attvars. * some more fixes. * * Revision 1.133 2004/05/13 20:54:57 vsc * debugger fixes * make sure we always go back to current module, even during initizlization. * * Revision 1.132 2004/04/29 03:45:49 vsc * fix garbage collection in execute_tail * * Revision 1.131 2004/04/22 20:07:02 vsc * more fixes for USE_SYSTEM_MEMORY * * Revision 1.130 2004/04/22 03:24:17 vsc * trust_logical should protect the last clause, otherwise it cannot * jump there. * * Revision 1.129 2004/04/16 19:27:30 vsc * more bug fixes * * Revision 1.128 2004/04/14 19:10:22 vsc * expand_clauses: keep a list of clauses to expand * fix new trail scheme for multi-assignment variables * * Revision 1.127 2004/03/31 01:03:09 vsc * support expand group of clauses * * Revision 1.126 2004/03/19 11:35:42 vsc * trim_trail for default machine * be more aggressive about try-retry-trust chains. * - handle cases where block starts with a wait * - don't use _killed instructions, just let the thing rot by itself. * * Revision 1.125 2004/03/10 14:59:54 vsc * optimise -> for type tests * * Revision 1.124 2004/03/08 19:31:01 vsc * move to 4.5.3 * * * * *************************************************************************/ #define IN_ABSMI_C 1 #define HAS_CACHE_REGS 1 #include "absmi.h" #include "heapgc.h" #ifdef CUT_C #include "cut_c.h" #endif #ifdef PUSH_X #else /* keep X as a global variable */ Term Yap_XREGS[MaxTemps]; /* 29 */ #endif #include "arith2.h" #ifdef COROUTINING /* Imagine we are interrupting the execution, say, because we have a spy point or because we have goals to wake up. This routine saves the current live temporary registers into a structure pointed to by register ARG1. The registers are then recovered by a nasty builtin called */ static Term push_live_regs(yamop *pco) { CACHE_REGS CELL *lab = (CELL *)(pco->u.l.l); CELL max = lab[0]; CELL curr = lab[1]; CELL *start = H; Int tot = 0; if (max) { CELL i; lab += 2; H++; for (i=0; i <= max; i++) { if (i == 8*CellSize) { curr = lab[0]; lab++; } if (curr & 1) { CELL d1; tot+=2; H[0] = MkIntTerm(i); d1 = XREGS[i]; deref_head(d1, wake_up_unk); wake_up_nonvar: /* just copy it to the heap */ H[1] = d1; H += 2; continue; { CELL *pt0; deref_body(d1, pt0, wake_up_unk, wake_up_nonvar); /* bind it, in case it is a local variable */ if (pt0 <= H) { /* variable is safe */ H[1] = (CELL)pt0; } else { d1 = Unsigned(H+1); RESET_VARIABLE(H+1); Bind_Local(pt0, d1); } } H += 2; } curr >>= 1; } start[0] = (CELL)Yap_MkFunctor(AtomTrue, tot); return(AbsAppl(start)); } else { return(TermNil); } } #endif #if defined(ANALYST) || defined(DEBUG) char *Yap_op_names[_std_top + 1] = { #define OPCODE(OP,TYPE) #OP #include "YapOpcodes.h" #undef OPCODE }; #endif Int Yap_absmi(int inp) { CACHE_REGS #if BP_FREE /* some function might be using bp for an internal variable, it is the callee's responsability to save it */ yamop* PCBACKUP = P1REG; #endif #ifdef LONG_LIVED_REGISTERS register CELL d0, d1; register CELL *pt0, *pt1; #endif /* LONG_LIVED_REGISTERS */ #ifdef SHADOW_P register yamop *PREG = P; #endif /* SHADOW_P */ #ifdef SHADOW_CP register yamop *CPREG = CP; #endif /* SHADOW_CP */ #ifdef SHADOW_HB register CELL *HBREG = HB; #endif /* SHADOW_HB */ #ifdef SHADOW_Y register CELL *YREG = Yap_REGS.YENV_; #endif /* SHADOW_Y */ #ifdef SHADOW_S register CELL *SREG = Yap_REGS.S_; #else #define SREG S #endif /* SHADOW_S */ /* The indexing register so that we will not destroy ARG1 without * reason */ #define I_R (XREGS[0]) #if USE_THREADED_CODE /************************************************************************/ /* Abstract Machine Instruction Address Table */ /* This must be declared inside the function. We use the asm directive */ /* to make it available outside this function */ /************************************************************************/ static void *OpAddress[] = { #define OPCODE(OP,TYPE) && OP #include "YapOpcodes.h" #undef OPCODE }; #endif /* USE_THREADED_CODE */ #ifdef SHADOW_REGS /* work with a local pointer to the registers */ register REGSTORE *regp = &Yap_REGS; #endif /* SHADOW_REGS */ #if PUSH_REGS /* useful on a X86 with -fomit-frame-pointer optimisation */ /* The idea is to push REGS onto the X86 stack frame */ /* first allocate local space */ REGSTORE absmi_regs; REGSTORE *old_regs = Yap_regp; #endif /* PUSH_REGS */ #ifdef BEAM CELL OLD_B=B; extern PredEntry *bpEntry; if (inp==-9000) { #if PUSH_REGS old_regs = &Yap_REGS; init_absmi_regs(&absmi_regs); #if THREADS regcache = Yap_regp #else Yap_regp = &absmi_regs; #endif #endif CACHE_A1(); PREG=bpEntry->CodeOfPred; JMPNext(); /* go execute instruction at PREG */ } #endif #if USE_THREADED_CODE /* absmadr */ if (inp > 0) { Yap_ABSMI_OPCODES = OpAddress; #if BP_FREE P1REG = PCBACKUP; #endif return(0); } #endif /* USE_THREADED_CODE */ #if PUSH_REGS old_regs = &Yap_REGS; /* done, let us now initialise this space */ init_absmi_regs(&absmi_regs); /* the registers are all set up, let's swap */ #ifdef THREADS pthread_setspecific(Yap_yaamregs_key, (const void *)&absmi_regs); LOCAL_ThreadHandle.current_yaam_regs = &absmi_regs; regcache = &absmi_regs; #else Yap_regp = &absmi_regs; #endif #undef Yap_REGS #define Yap_REGS absmi_regs #endif /* PUSH_REGS */ #ifdef SHADOW_REGS /* use regp as a copy of REGS */ regp = &Yap_REGS; #ifdef REGS #undef REGS #endif #define REGS (*regp) #endif /* SHADOW_REGS */ setregs(); CACHE_A1(); reset_absmi: SP = SP0; #if USE_THREADED_CODE JMPNext(); /* go execute instruction at P */ #else /* when we start we are not in write mode */ { op_numbers opcode = _Ystop; op_numbers old_op; #ifdef DEBUG_XX unsigned long ops_done; #endif goto nextop; nextop_write: old_op = opcode; opcode = PREG->u.o.opcw; goto op_switch; nextop: old_op = opcode; opcode = PREG->opc; op_switch: #ifdef ANALYST GLOBAL_opcount[opcode]++; GLOBAL_2opcount[old_op][opcode]++; #ifdef DEBUG_XX ops_done++; /* if (B->cp_b > 0x103fff90) fprintf(stderr,"(%ld) doing %s, done %s, B is %p, HB is %p, H is %p\n", ops_done,Yap_op_names[opcode],Yap_op_names[old_op],B,B->cp_h,H);*/ #endif #endif /* ANALYST */ switch (opcode) { #endif /* USE_THREADED_CODE */ noheapleft: { CELL cut_b = LCL0-(CELL *)(SREG[E_CB]); #ifdef SHADOW_S S = SREG; #endif saveregs(); /* do a garbage collection first to check if we can recover memory */ if (!Yap_growheap(FALSE, 0, NULL)) { Yap_NilError(OUT_OF_HEAP_ERROR, "YAP failed to grow heap: %s", LOCAL_ErrorMessage); setregs(); FAIL(); } setregs(); CACHE_A1(); #ifdef SHADOW_S SREG = S; #endif if (SREG == ASP) { SREG[E_CB] = (CELL)(LCL0-cut_b); } } goto reset_absmi; #if !OS_HANDLES_TR_OVERFLOW notrailleft: /* if we are within indexing code, the system may have to * update a S */ { CELL cut_b; #ifdef SHADOW_S S = SREG; #endif /* YREG was pointing to where we were going to build the * next choice-point. The stack shifter will need to know this * to move the local stack */ SET_ASP(YREG, E_CB*sizeof(CELL)); cut_b = LCL0-(CELL *)(ASP[E_CB]); saveregs(); if(!Yap_growtrail (0, FALSE)) { Yap_NilError(OUT_OF_TRAIL_ERROR,"YAP failed to reserve %ld bytes in growtrail",sizeof(CELL) * K16); setregs(); FAIL(); } setregs(); #ifdef SHADOW_S SREG = S; #endif if (SREG == ASP) { SREG[E_CB] = (CELL)(LCL0-cut_b); } } goto reset_absmi; #endif /* OS_HANDLES_TR_OVERFLOW */ BOp(Ystop, l); SET_ASP(YREG, E_CB*sizeof(CELL)); /* make sure ASP is initialised */ saveregs(); #if PUSH_REGS restore_absmi_regs(old_regs); #endif #if BP_FREE P1REG = PCBACKUP; #endif return 1; ENDBOp(); BOp(Nstop, e); SET_ASP(YREG, E_CB*sizeof(CELL)); saveregs(); #if PUSH_REGS restore_absmi_regs(old_regs); #endif #if BP_FREE P1REG = PCBACKUP; #endif return 0; ENDBOp(); /***************************************************************** * Plain try - retry - trust instructions * *****************************************************************/ /* try_me Label,NArgs */ Op(try_me, Otapl); /* check if enough space between trail and codespace */ check_trail(TR); /* I use YREG =to go through the choicepoint. Usually YREG =is in a * register, but sometimes (X86) not. In this case, have a * new register to point at YREG =*/ CACHE_Y(YREG); /* store arguments for procedure */ store_at_least_one_arg(PREG->u.Otapl.s); /* store abstract machine registers */ store_yaam_regs(PREG->u.Otapl.d, 0); /* On a try_me, set cut to point at previous choicepoint, * that is, to the B before the cut. */ set_cut(S_YREG, B); /* now, install the new YREG =*/ B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ PREG = NEXTOP(PREG, Otapl); SET_BB(B_YREG); ENDCACHE_Y(); GONext(); ENDOp(); /* retry_me Label,NArgs */ Op(retry_me, Otapl); CACHE_Y(B); /* After retry, cut should be pointing at the parent * choicepoint for the current B */ restore_yaam_regs(PREG->u.Otapl.d); restore_at_least_one_arg(PREG->u.Otapl.s); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); PREG = NEXTOP(PREG, Otapl); GONext(); ENDOp(); /* trust_me UnusedLabel,NArgs */ Op(trust_me, Otapl); CACHE_Y(B); #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_at_least_one_arg(PREG->u.Otapl.s); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_at_least_one_arg(PREG->u.Otapl.s); /* After trust, cut should be pointing at the new top * choicepoint */ #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } PREG = NEXTOP(PREG, Otapl); SET_BB(B_YREG); ENDCACHE_Y(); GONext(); ENDOp(); /***************************************************************** * EXO try - retry instructions * *****************************************************************/ /* enter_exo Pred,Label */ BOp(enter_exo, e); { yamop *pt; saveregs(); pt = Yap_ExoLookup(PredFromDefCode(PREG) PASS_REGS); setregs(); #ifdef SHADOW_S SREG = S; #endif PREG = pt; } JMPNext(); ENDBOp(); /* check if enough space between trail and codespace */ /* try_exo Pred,Label */ Op(try_exo, lp); /* check if enough space between trail and codespace */ check_trail(TR); /* I use YREG =to go through the choicepoint. Usually YREG =is in a * register, but sometimes (X86) not. In this case, have a * new register to point at YREG =*/ CACHE_Y(YREG); { struct index_t *i = (struct index_t *)(PREG->u.lp.l); S_YREG[-1] = (CELL)EXO_OFFSET_TO_ADDRESS(i,i->links[(CELL)(SREG-i->cls)/i->arity]); } S_YREG--; /* store arguments for procedure */ store_at_least_one_arg(PREG->u.lp.p->ArityOfPE); /* store abstract machine registers */ store_yaam_regs(NEXTOP(PREG,lp), 0); /* On a try_me, set cut to point at previous choicepoint, * that is, to the B before the cut. */ set_cut(S_YREG, B); /* now, install the new YREG =*/ B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ PREG = NEXTOP(NEXTOP(PREG, lp),lp); SET_BB(B_YREG); ENDCACHE_Y(); GONext(); ENDOp(); /* try_udi Pred,Label */ Op(try_udi, p); /* check if enough space between trail and codespace */ check_trail(TR); /* I use YREG =to go through the choicepoint. Usually YREG =is in a * register, but sometimes (X86) not. In this case, have a * new register to point at YREG =*/ CACHE_Y(YREG); { S_YREG[-1] = (CELL)SREG; /* the udi code did S = (CELL*)judyp; */ } S_YREG--; /* store arguments for procedure */ store_at_least_one_arg(PREG->u.lp.p->ArityOfPE); /* store abstract machine registers */ store_yaam_regs(NEXTOP(PREG,lp), 0); /* On a try_me, set cut to point at previous choicepoint, * that is, to the B before the cut. */ set_cut(S_YREG, B); /* now, install the new YREG =*/ B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ PREG = NEXTOP(NEXTOP(PREG, lp),lp); SET_BB(B_YREG); ENDCACHE_Y(); GONext(); ENDOp(); /* check if enough space between trail and codespace */ /* try_exo Pred,Label */ Op(try_all_exo, lp); /* check if enough space between trail and codespace */ check_trail(TR); /* I use YREG =to go through the choicepoint. Usually YREG =is in a * register, but sometimes (X86) not. In this case, have a * new register to point at YREG =*/ CACHE_Y(YREG); { struct index_t *i = (struct index_t *)(PREG->u.lp.l); SREG = i->cls; S_YREG[-2] = (CELL)(SREG+i->arity); S_YREG[-1] = (CELL)(SREG+i->arity*i->nels); } S_YREG-=2; /* store arguments for procedure */ store_at_least_one_arg(PREG->u.lp.p->ArityOfPE); /* store abstract machine registers */ store_yaam_regs(NEXTOP(PREG,lp), 0); /* On a try_me, set cut to point at previous choicepoint, * that is, to the B before the cut. */ set_cut(S_YREG, B); /* now, install the new YREG =*/ B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ PREG = NEXTOP(NEXTOP(PREG, lp),lp); SET_BB(B_YREG); ENDCACHE_Y(); GONext(); ENDOp(); /* retry_exo Pred */ Op(retry_exo, lp); BEGD(d0); CACHE_Y(B); { struct index_t *it = (struct index_t *)(PREG->u.lp.l); CELL offset = EXO_ADDRESS_TO_OFFSET(it,(CELL *)((CELL *)(B+1))[it->arity]); d0 = it->links[offset]; ((CELL *)(B+1))[it->arity] = (CELL)EXO_OFFSET_TO_ADDRESS(it, d0); SREG = it->cls+it->arity*offset; } if (d0) { /* After retry, cut should be pointing at the parent * choicepoint for the current B */ restore_yaam_regs(PREG); restore_at_least_one_arg(PREG->u.lp.p->ArityOfPE); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); } else { #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_at_least_one_arg(PREG->u.lp.p->ArityOfPE); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_at_least_one_arg(PREG->u.lp.p->ArityOfPE); /* After trust, cut should be pointing at the new top * choicepoint */ #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } } PREG = NEXTOP(PREG, lp); ENDCACHE_Y(); ENDD(D0); GONext(); ENDOp(); /* retry_exo Pred */ Op(retry_udi, p); BEGD(d0); CACHE_Y(B); { // struct udi_index_t *jp = (struct udi_index_t *)((CELL *)(B+1))[it->arity]; /* operation has a side-effect: S = (CELL*)NextClause */ saveregs(); d0 = 0L; // Yap_UDI_NextAlt(jp); setregs(); #ifdef SHADOW_S SREG = S; #endif /* d0 says if we're last */ } if (d0) { /* After retry, cut should be pointing at the parent * choicepoint for the current B */ restore_yaam_regs(PREG); restore_at_least_one_arg(PREG->u.lp.p->ArityOfPE); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); } else { #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_at_least_one_arg(PREG->u.lp.p->ArityOfPE); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_at_least_one_arg(PREG->u.lp.p->ArityOfPE); /* After trust, cut should be pointing at the new top * choicepoint */ #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } } PREG = (yamop *)SREG; ENDCACHE_Y(); ENDD(D0); GONext(); ENDOp(); /* retry_exo Pred */ Op(retry_all_exo, lp); BEGD(d0); CACHE_Y(B); { UInt arity = ((struct index_t *)PREG->u.lp.l)->arity; CELL *extras = (CELL *)(B+1); SREG = (CELL *)extras[arity]; d0 = (SREG+arity != (CELL *)extras[arity+1]); if (d0) { extras[arity] = (CELL)(SREG+arity); /* After retry, cut should be pointing at the parent * choicepoint for the current B */ restore_yaam_regs(PREG); restore_at_least_one_arg(arity); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); } else { #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_at_least_one_arg(arity); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_at_least_one_arg(arity); /* After trust, cut should be pointing at the new top * choicepoint */ #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } } } PREG = NEXTOP(PREG, lp); ENDCACHE_Y(); ENDD(D0); GONext(); ENDOp(); /***************************************************************** * Profiled try - retry - trust instructions * *****************************************************************/ /* profiled_enter_me Pred */ Op(enter_profiling, p); LOCK(PREG->u.p.p->StatisticsForPred.lock); PREG->u.p.p->StatisticsForPred.NOfEntries++; UNLOCK(PREG->u.p.p->StatisticsForPred.lock); PREG = NEXTOP(PREG, p); GONext(); ENDOp(); /* profiled_retry Label,NArgs */ Op(retry_profiled, p); LOCK(PREG->u.p.p->StatisticsForPred.lock); PREG->u.p.p->StatisticsForPred.NOfRetries++; UNLOCK(PREG->u.p.p->StatisticsForPred.lock); PREG = NEXTOP(PREG, p); GONext(); ENDOp(); /* profiled_retry_me Label,NArgs */ Op(profiled_retry_me, Otapl); CACHE_Y(B); /* After retry, cut should be pointing at the parent * choicepoint for the current B */ LOCK(PREG->u.Otapl.p->StatisticsForPred.lock); PREG->u.Otapl.p->StatisticsForPred.NOfRetries++; UNLOCK(PREG->u.Otapl.p->StatisticsForPred.lock); restore_yaam_regs(PREG->u.Otapl.d); restore_args(PREG->u.Otapl.s); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); PREG = NEXTOP(PREG, Otapl); GONext(); ENDOp(); /* profiled_trust_me UnusedLabel,NArgs */ Op(profiled_trust_me, Otapl); CACHE_Y(B); #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_args(PREG->u.Otapl.s); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_args(PREG->u.Otapl.s); /* After trust, cut should be pointing at the new top * choicepoint */ #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } SET_BB(B_YREG); ENDCACHE_Y(); LOCK(PREG->u.Otapl.p->StatisticsForPred.lock); PREG->u.Otapl.p->StatisticsForPred.NOfRetries++; UNLOCK(PREG->u.Otapl.p->StatisticsForPred.lock); PREG = NEXTOP(PREG, Otapl); GONext(); ENDOp(); BOp(profiled_retry_logical, OtaLl); check_trail(TR); { UInt timestamp; CACHE_Y(B); timestamp = IntegerOfTerm(((CELL *)(B_YREG+1))[PREG->u.OtaLl.s]); if (!VALID_TIMESTAMP(timestamp, PREG->u.OtaLl.d)) { /* jump to next instruction */ PREG=PREG->u.OtaLl.n; JMPNext(); } restore_yaam_regs(PREG->u.OtaLl.n); restore_args(PREG->u.OtaLl.s); LOCK(PREG->u.OtaLl.d->ClPred->StatisticsForPred.lock); PREG->u.OtaLl.d->ClPred->StatisticsForPred.NOfRetries++; UNLOCK(PREG->u.OtaLl.d->ClPred->StatisticsForPred.lock); #ifdef THREADS PP = PREG->u.OtaLl.d->ClPred; #endif PREG = PREG->u.OtaLl.d->ClCode; #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); } JMPNext(); ENDBOp(); BOp(profiled_trust_logical, OtILl); CACHE_Y(B); { LogUpdIndex *cl = PREG->u.OtILl.block; PredEntry *ap = cl->ClPred; LogUpdClause *lcl = PREG->u.OtILl.d; UInt timestamp = IntegerOfTerm(((CELL *)(B_YREG+1))[ap->ArityOfPE]); if (!VALID_TIMESTAMP(timestamp, lcl)) { /* jump to next alternative */ PREG = FAILCODE; } else { LOCK(ap->StatisticsForPred.lock); ap->StatisticsForPred.NOfRetries++; UNLOCK(ap->StatisticsForPred.lock); PREG = lcl->ClCode; } /* HEY, leave indexing block alone!! */ /* check if we are the ones using this code */ #if MULTIPLE_STACKS PELOCK(1, ap); PP = ap; DEC_CLREF_COUNT(cl); /* clear the entry from the trail */ B->cp_tr--; TR = B->cp_tr; /* actually get rid of the code */ if (cl->ClRefCount == 0 && (cl->ClFlags & (ErasedMask|DirtyMask))) { if (PREG != FAILCODE) { /* I am the last one using this clause, hence I don't need a lock to dispose of it */ if (lcl->ClRefCount == 1) { /* make sure the clause isn't destroyed */ /* always add an extra reference */ INC_CLREF_COUNT(lcl); TRAIL_CLREF(lcl); } } if (cl->ClFlags & ErasedMask) { saveregs(); Yap_ErLogUpdIndex(cl); setregs(); } else { saveregs(); Yap_CleanUpIndex(cl); setregs(); } save_pc(); } #else if (TrailTerm(B->cp_tr-1) == CLREF_TO_TRENTRY(cl) && B->cp_tr != B->cp_b->cp_tr) { cl->ClFlags &= ~InUseMask; --B->cp_tr; #if FROZEN_STACKS if (B->cp_tr > TR_FZ) #endif { TR = B->cp_tr; } /* next, recover space for the indexing code if it was erased */ if (cl->ClFlags & (ErasedMask|DirtyMask)) { if (PREG != FAILCODE) { /* make sure we don't erase the clause we are jumping to, notice that we can erase a number of refs in one go. */ if (!(lcl->ClFlags & InUseMask)) { lcl->ClFlags |= InUseMask; TRAIL_CLREF(lcl); } } if (cl->ClFlags & ErasedMask) { saveregs(); Yap_ErLogUpdIndex(cl); setregs(); } else { saveregs(); Yap_CleanUpIndex(cl); setregs(); } save_pc(); } } #endif #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_args(ap->ArityOfPE); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #else S_YREG++; #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_args(ap->ArityOfPE); S_YREG--; #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } SET_BB(B_YREG); ENDCACHE_Y(); JMPNext(); } ENDBOp(); /***************************************************************** * Call count instructions * *****************************************************************/ /* count_enter_me Label,NArgs */ Op(count_call, p); LOCK(PREG->u.p.p->StatisticsForPred.lock); PREG->u.p.p->StatisticsForPred.NOfEntries++; UNLOCK(PREG->u.p.p->StatisticsForPred.lock); LOCAL_ReductionsCounter--; if (LOCAL_ReductionsCounter == 0 && LOCAL_ReductionsCounterOn) { saveregs(); Yap_NilError(CALL_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCAL_PredEntriesCounter--; if (LOCAL_PredEntriesCounter == 0 && LOCAL_PredEntriesCounterOn) { saveregs(); Yap_NilError(PRED_ENTRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } PREG = NEXTOP(PREG, p); GONext(); ENDOp(); /* count_retry Label,NArgs */ Op(count_retry, p); LOCK(PREG->u.p.p->StatisticsForPred.lock); PREG->u.p.p->StatisticsForPred.NOfRetries++; UNLOCK(PREG->u.p.p->StatisticsForPred.lock); LOCAL_RetriesCounter--; if (LOCAL_RetriesCounter == 0 && LOCAL_RetriesCounterOn) { /* act as if we had backtracked */ ENV = B->cp_env; saveregs(); Yap_NilError(RETRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCAL_PredEntriesCounter--; if (LOCAL_PredEntriesCounter == 0 && LOCAL_PredEntriesCounterOn) { ENV = B->cp_env; saveregs(); Yap_NilError(PRED_ENTRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } PREG = NEXTOP(PREG, p); GONext(); ENDOp(); /* count_retry_me Label,NArgs */ Op(count_retry_me, Otapl); CACHE_Y(B); restore_yaam_regs(PREG->u.Otapl.d); restore_args(PREG->u.Otapl.s); /* After retry, cut should be pointing at the parent * choicepoint for the current B */ #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); LOCK(((PredEntry *)(PREG->u.Otapl.p))->StatisticsForPred.lock); ((PredEntry *)(PREG->u.Otapl.p))->StatisticsForPred.NOfRetries++; UNLOCK(((PredEntry *)(PREG->u.Otapl.p))->StatisticsForPred.lock); LOCAL_RetriesCounter--; if (LOCAL_RetriesCounter == 0 && LOCAL_RetriesCounterOn) { saveregs(); Yap_NilError(RETRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCAL_PredEntriesCounter--; if (LOCAL_PredEntriesCounter == 0 && LOCAL_PredEntriesCounterOn) { saveregs(); Yap_NilError(PRED_ENTRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } PREG = NEXTOP(PREG, Otapl); GONext(); ENDOp(); /* count_trust_me UnusedLabel,NArgs */ Op(count_trust_me, Otapl); CACHE_Y(B); #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_args(PREG->u.Otapl.s); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_args(PREG->u.Otapl.s); /* After trust, cut should be pointing at the new top * choicepoint */ #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } SET_BB(B_YREG); ENDCACHE_Y(); LOCAL_RetriesCounter--; if (LOCAL_RetriesCounter == 0) { saveregs(); Yap_NilError(RETRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCAL_PredEntriesCounter--; if (LOCAL_PredEntriesCounter == 0) { saveregs(); Yap_NilError(PRED_ENTRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCK(((PredEntry *)(PREG->u.Otapl.p))->StatisticsForPred.lock); ((PredEntry *)(PREG->u.Otapl.p))->StatisticsForPred.NOfRetries++; UNLOCK(((PredEntry *)(PREG->u.Otapl.p))->StatisticsForPred.lock); PREG = NEXTOP(PREG, Otapl); GONext(); ENDOp(); BOp(count_retry_logical, OtaLl); check_trail(TR); { UInt timestamp; CACHE_Y(B); timestamp = IntegerOfTerm(((CELL *)(B_YREG+1))[PREG->u.OtaLl.s]); if (!VALID_TIMESTAMP(timestamp, PREG->u.OtaLl.d)) { /* jump to next instruction */ PREG=PREG->u.OtaLl.n; JMPNext(); } restore_yaam_regs(PREG->u.OtaLl.n); restore_args(PREG->u.OtaLl.s); LOCAL_RetriesCounter--; if (LOCAL_RetriesCounter == 0) { saveregs(); Yap_NilError(RETRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCAL_PredEntriesCounter--; if (LOCAL_PredEntriesCounter == 0) { saveregs(); Yap_NilError(PRED_ENTRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCK(PREG->u.OtaLl.d->ClPred->StatisticsForPred.lock); PREG->u.OtaLl.d->ClPred->StatisticsForPred.NOfRetries++; UNLOCK(PREG->u.OtaLl.d->ClPred->StatisticsForPred.lock); #ifdef THREADS PP = PREG->u.OtaLl.d->ClPred; #endif PREG = PREG->u.OtaLl.d->ClCode; #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); } JMPNext(); ENDBOp(); BOp(count_trust_logical, OtILl); CACHE_Y(B); { LogUpdIndex *cl = PREG->u.OtILl.block; PredEntry *ap = cl->ClPred; LogUpdClause *lcl = PREG->u.OtILl.d; UInt timestamp = IntegerOfTerm(((CELL *)(B_YREG+1))[ap->ArityOfPE]); if (!VALID_TIMESTAMP(timestamp, lcl)) { /* jump to next alternative */ PREG = FAILCODE; } else { LOCAL_RetriesCounter--; if (LOCAL_RetriesCounter == 0) { saveregs(); Yap_NilError(RETRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCAL_PredEntriesCounter--; if (LOCAL_PredEntriesCounter == 0) { saveregs(); Yap_NilError(PRED_ENTRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCK(ap->StatisticsForPred.lock); ap->StatisticsForPred.NOfRetries++; UNLOCK(ap->StatisticsForPred.lock); PREG = lcl->ClCode; } /* HEY, leave indexing block alone!! */ /* check if we are the ones using this code */ #if MULTIPLE_STACKS PELOCK(2, ap); PP = ap; DEC_CLREF_COUNT(cl); /* clear the entry from the trail */ --B->cp_tr; TR = B->cp_tr; /* actually get rid of the code */ if (cl->ClRefCount == 0 && (cl->ClFlags & (ErasedMask|DirtyMask))) { if (PREG != FAILCODE) { /* I am the last one using this clause, hence I don't need a lock to dispose of it */ if (lcl->ClRefCount == 1) { /* make sure the clause isn't destroyed */ /* always add an extra reference */ INC_CLREF_COUNT(lcl); TRAIL_CLREF(lcl); } } if (cl->ClFlags & ErasedMask) { saveregs(); Yap_ErLogUpdIndex(cl); setregs(); } else { saveregs(); Yap_CleanUpIndex(cl); setregs(); } save_pc(); } #else if (TrailTerm(B->cp_tr-1) == CLREF_TO_TRENTRY(cl) && B->cp_tr != B->cp_b->cp_tr) { cl->ClFlags &= ~InUseMask; --B->cp_tr; #if FROZEN_STACKS if (B->cp_tr > TR_FZ) #endif { TR = B->cp_tr; } /* next, recover space for the indexing code if it was erased */ if (cl->ClFlags & (ErasedMask|DirtyMask)) { if (PREG != FAILCODE) { /* make sure we don't erase the clause we are jumping too */ if (!(lcl->ClFlags & InUseMask)) { lcl->ClFlags |= InUseMask; TRAIL_CLREF(lcl); } } if (cl->ClFlags & ErasedMask) { saveregs(); Yap_ErLogUpdIndex(cl); setregs(); } else { saveregs(); Yap_CleanUpIndex(cl); setregs(); } save_pc(); } } #endif #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_args(ap->ArityOfPE); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #else S_YREG++; #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_args(ap->ArityOfPE); S_YREG--; #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } SET_BB(B_YREG); ENDCACHE_Y(); JMPNext(); } ENDBOp(); /***************************************************************** * enter a logical semantics dynamic predicate * *****************************************************************/ /* only meaningful with THREADS on! */ /* lock logical updates predicate. */ Op(lock_lu, p); #if PARALLEL_YAP if (PP) { GONext(); } PP = PREG->u.p.p; PELOCK(3, PP); #endif PREG = NEXTOP(PREG, p); GONext(); ENDOp(); /* only meaningful with THREADS on! */ /* lock logical updates predicate. */ Op(unlock_lu, e); #if defined(YAPOR) || defined(THREADS) UNLOCKPE(1,PP); PP = NULL; #endif PREG = NEXTOP(PREG, e); GONext(); ENDOp(); /* enter logical pred */ BOp(alloc_for_logical_pred, L); check_trail(TR); /* say that an environment is using this clause */ /* we have our own copy for the clause */ #if MULTIPLE_STACKS { LogUpdClause *cl = PREG->u.L.ClBase; #if PARALLEL_YAP PredEntry *ap = cl->ClPred; #endif /* always add an extra reference */ INC_CLREF_COUNT(cl); TRAIL_CLREF(cl); UNLOCKPE(2,ap); PP = NULL; } #else { LogUpdClause *cl = (LogUpdClause *)PREG->u.L.ClBase; if (!(cl->ClFlags & InUseMask)) { cl->ClFlags |= InUseMask; TRAIL_CLREF(cl); } } #endif PREG = NEXTOP(PREG, L); JMPNext(); ENDBOp(); /* copy database term */ BOp(copy_idb_term, e); { LogUpdClause *cl = ClauseCodeToLogUpdClause(PREG); Term t; SET_ASP(YREG, E_CB*sizeof(CELL)); saveregs(); while ((t = Yap_FetchTermFromDB(cl->ClSource)) == 0L) { if (LOCAL_Error_TYPE == OUT_OF_ATTVARS_ERROR) { LOCAL_Error_TYPE = YAP_NO_ERROR; if (!Yap_growglobal(NULL)) { UNLOCKPE(3,PP); #if defined(YAPOR) || defined(THREADS) PP = NULL; #endif Yap_NilError(OUT_OF_ATTVARS_ERROR, LOCAL_ErrorMessage); FAIL(); } } else { LOCAL_Error_TYPE = YAP_NO_ERROR; if (!Yap_gc(3, ENV, CP)) { UNLOCKPE(4,PP); #if defined(YAPOR) || defined(THREADS) PP = NULL; #endif Yap_NilError(OUT_OF_STACK_ERROR, LOCAL_ErrorMessage); FAIL(); } } } if (!Yap_IUnify(ARG2, t)) { setregs(); UNLOCKPE(5,PP); #if defined(YAPOR) || defined(THREADS) PP = NULL; #endif FAIL(); } if (!Yap_IUnify(ARG3, MkDBRefTerm((DBRef)cl))) { setregs(); UNLOCKPE(6,PP); #if defined(YAPOR) || defined(THREADS) PP = NULL; #endif FAIL(); } setregs(); #if MULTIPLE_STACKS /* always add an extra reference */ INC_CLREF_COUNT(cl); TRAIL_CLREF(cl); UNLOCKPE(7,PP); PP = NULL; #else if (!(cl->ClFlags & InUseMask)) { /* Clause *cl = (Clause *)PREG->u.EC.ClBase; PREG->u.EC.ClTrail = TR-(tr_fr_ptr)LOCAL_TrailBase; PREG->u.EC.ClENV = LCL0-YREG;*/ cl->ClFlags |= InUseMask; TRAIL_CLREF(cl); } #endif } PREG = CPREG; YREG = ENV; #ifdef DEPTH_LIMIT DEPTH = YREG[E_DEPTH]; #endif JMPNext(); ENDBOp(); /* unify with database term */ BOp(unify_idb_term, e); { LogUpdClause *cl = ClauseCodeToLogUpdClause(PREG); saveregs(); if (!Yap_IUnify(ARG2, cl->ClSource->Entry)) { setregs(); UNLOCKPE(8,PP); #if defined(YAPOR) || defined(THREADS) PP = NULL; #endif FAIL(); } if (!Yap_IUnify(ARG3, MkDBRefTerm((DBRef)cl))) { setregs(); UNLOCKPE(9,PP); #if defined(YAPOR) || defined(THREADS) PP = NULL; #endif FAIL(); } setregs(); /* say that an environment is using this clause */ /* we have our own copy for the clause */ #if MULTIPLE_STACKS /* always add an extra reference */ INC_CLREF_COUNT(cl); TRAIL_CLREF(cl); UNLOCKPE(10,PP); PP = NULL; #else if (!(cl->ClFlags & InUseMask)) { /* Clause *cl = (Clause *)PREG->u.EC.ClBase; PREG->u.EC.ClTrail = TR-(tr_fr_ptr)LOCAL_TrailBase; PREG->u.EC.ClENV = LCL0-YREG;*/ cl->ClFlags |= InUseMask; TRAIL_CLREF(cl); } #endif } PREG = CPREG; YREG = ENV; #ifdef DEPTH_LIMIT DEPTH = YREG[E_DEPTH]; #endif JMPNext(); ENDBOp(); /***************************************************************** * check for enough room * *****************************************************************/ /* ensure_space */ BOp(ensure_space, Osbpa); { Int sz = PREG->u.Osbpa.i; UInt arity = PREG->u.Osbpa.p->ArityOfPE; if (Unsigned(H) + sz > Unsigned(YREG)-CreepFlag) { YENV[E_CP] = (CELL) CPREG; YENV[E_E] = (CELL) ENV; #ifdef DEPTH_LIMIT YENV[E_DEPTH] = DEPTH; #endif /* DEPTH_LIMIT */ SET_ASP(YREG, PREG->u.Osbpa.s); PREG = NEXTOP(PREG,Osbpa); saveregs(); if (!Yap_gcl(sz, arity, YENV, PREG)) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); setregs(); FAIL(); } else { setregs(); } } else { PREG = NEXTOP(PREG,Osbpa); } } JMPNext(); ENDBOp(); /***************************************************************** * try and retry of dynamic predicates * *****************************************************************/ /* spy_or_trymark */ BOp(spy_or_trymark, Otapl); PELOCK(5, ((PredEntry *)(PREG->u.Otapl.p))); PREG = (yamop *)(&(((PredEntry *)(PREG->u.Otapl.p))->OpcodeOfPred)); UNLOCKPE(11,(PredEntry *)(PREG->u.Otapl.p)); goto dospy; ENDBOp(); /* try_and_mark Label,NArgs */ BOp(try_and_mark, Otapl); check_trail(TR); #if defined(YAPOR) || defined(THREADS) #ifdef YAPOR /* The flags I check here should never change during execution */ CUT_wait_leftmost(); #endif /* YAPOR */ if (PREG->u.Otapl.p->PredFlags & LogUpdatePredFlag) { PELOCK(6,PREG->u.Otapl.p); PP = PREG->u.Otapl.p; } if (PREG->u.Otapl.p->CodeOfPred != PREG) { /* oops, someone changed the procedure under our feet, fortunately this is no big deal because we haven't done anything yet */ PP = NULL; PREG = PREG->u.Otapl.p->CodeOfPred; UNLOCKPE(12,PREG->u.Otapl.p); /* for profiler */ save_pc(); JMPNext(); } #endif CACHE_Y(YREG); PREG = PREG->u.Otapl.d; /* I've got a read lock on the DB, so I don't need to care... niaaahh.... niahhhh... */ LOCK(DynamicLock(PREG)); /* one can now mess around with the predicate */ UNLOCKPE(13,((PredEntry *)(PREG->u.Otapl.p))); BEGD(d1); d1 = PREG->u.Otapl.s; store_args(d1); store_yaam_regs(PREG, 0); ENDD(d1); set_cut(S_YREG, B); B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ SET_BB(B_YREG); ENDCACHE_Y(); #if MULTIPLE_STACKS INC_CLREF_COUNT(ClauseCodeToDynamicClause(PREG)); UNLOCK(DynamicLock(PREG)); TRAIL_CLREF(ClauseCodeToDynamicClause(PREG)); #else if (FlagOff(InUseMask, DynamicFlags(PREG))) { SetFlag(InUseMask, DynamicFlags(PREG)); TRAIL_CLREF(ClauseCodeToDynamicClause(PREG)); } #endif PREG = NEXTOP(PREG,Otapl); JMPNext(); ENDBOp(); BOp(count_retry_and_mark, Otapl); LOCAL_RetriesCounter--; if (LOCAL_RetriesCounter == 0) { saveregs(); Yap_NilError(RETRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCAL_PredEntriesCounter--; if (LOCAL_PredEntriesCounter == 0) { saveregs(); Yap_NilError(PRED_ENTRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } /* enter a retry dynamic */ ENDBOp(); BOp(profiled_retry_and_mark, Otapl); LOCK(((PredEntry *)(PREG->u.Otapl.p))->StatisticsForPred.lock); ((PredEntry *)(PREG->u.Otapl.p))->StatisticsForPred.NOfRetries++; UNLOCK(((PredEntry *)(PREG->u.Otapl.p))->StatisticsForPred.lock); /* enter a retry dynamic */ ENDBOp(); /* retry_and_mark Label,NArgs */ BOp(retry_and_mark, Otapl); #ifdef YAPOR CUT_wait_leftmost(); #endif /* YAPOR */ /* need to make the DB stable until I get the new clause */ PELOCK(7,PREG->u.Otapl.p); CACHE_Y(B); PREG = PREG->u.Otapl.d; LOCK(DynamicLock(PREG)); UNLOCK(PREG->u.Otapl.p->PELock); restore_yaam_regs(PREG); restore_args(PREG->u.Otapl.s); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); #if MULTIPLE_STACKS INC_CLREF_COUNT(ClauseCodeToDynamicClause(PREG)); TRAIL_CLREF(ClauseCodeToDynamicClause(PREG)); UNLOCK(DynamicLock(PREG)); #else if (FlagOff(InUseMask, DynamicFlags(PREG))) { SetFlag(InUseMask, DynamicFlags(PREG)); TRAIL_CLREF(ClauseCodeToDynamicClause(PREG)); } #endif PREG = NEXTOP(PREG, Otapl); JMPNext(); ENDBOp(); /***************************************************************** * Failure * *****************************************************************/ /* trust_fail */ BOp(trust_fail, e); #ifdef CUT_C { while (POP_CHOICE_POINT(B->cp_b)) { POP_EXECUTE(); } } #endif /* CUT_C */ #ifdef YAPOR { choiceptr cut_pt; cut_pt = B->cp_b; CUT_prune_to(cut_pt); B = cut_pt; } #else B = B->cp_b; #endif /* YAPOR */ goto fail; ENDBOp(); #ifdef YAPOR shared_fail: B = Get_LOCAL_top_cp(); SET_BB(PROTECT_FROZEN_B(B)); goto fail; #endif /* YAPOR */ /* fail */ PBOp(op_fail, e); if (PP) { UNLOCK(PP->PELock); PP = NULL; } #ifdef COROUTINING CACHE_Y_AS_ENV(YREG); check_stack(NoStackFail, H); ENDCACHE_Y_AS_ENV(); #endif fail: { register tr_fr_ptr pt0 = TR; #if defined(YAPOR) || defined(THREADS) if (PP) { UNLOCK(PP->PELock); PP = NULL; } #endif PREG = B->cp_ap; save_pc(); CACHE_TR(B->cp_tr); PREFETCH_OP(PREG); failloop: if (pt0 == S_TR) { SP = SP0; #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { int go_on = TRUE; yamop *ipc = PREG; while (go_on) { op_numbers opnum = Yap_op_from_opcode(ipc->opc); go_on = FALSE; switch (opnum) { #ifdef TABLING case _table_load_answer: low_level_trace(retry_table_loader, LOAD_CP(B)->cp_pred_entry, NULL); break; case _table_try_answer: case _table_retry_me: case _table_trust_me: case _table_retry: case _table_trust: case _table_completion: #ifdef THREADS_CONSUMER_SHARING case _table_answer_resolution_completion: #endif /* THREADS_CONSUMER_SHARING */ #ifdef DETERMINISTIC_TABLING if (IS_DET_GEN_CP(B)) low_level_trace(retry_table_generator, DET_GEN_CP(B)->cp_pred_entry, NULL); else #endif /* DETERMINISTIC_TABLING */ low_level_trace(retry_table_generator, GEN_CP(B)->cp_pred_entry, (CELL *)(GEN_CP(B) + 1)); break; case _table_answer_resolution: low_level_trace(retry_table_consumer, CONS_CP(B)->cp_pred_entry, NULL); break; case _trie_trust_var: case _trie_retry_var: case _trie_trust_var_in_pair: case _trie_retry_var_in_pair: case _trie_trust_val: case _trie_retry_val: case _trie_trust_val_in_pair: case _trie_retry_val_in_pair: case _trie_trust_atom: case _trie_retry_atom: case _trie_trust_atom_in_pair: case _trie_retry_atom_in_pair: case _trie_trust_null: case _trie_retry_null: case _trie_trust_null_in_pair: case _trie_retry_null_in_pair: case _trie_trust_pair: case _trie_retry_pair: case _trie_trust_appl: case _trie_retry_appl: case _trie_trust_appl_in_pair: case _trie_retry_appl_in_pair: case _trie_trust_extension: case _trie_retry_extension: case _trie_trust_double: case _trie_retry_double: case _trie_trust_longint: case _trie_retry_longint: case _trie_trust_gterm: case _trie_retry_gterm: low_level_trace(retry_table_loader, UndefCode, NULL); break; #endif /* TABLING */ case _or_else: case _or_last: low_level_trace(retry_or, (PredEntry *)ipc, &(B->cp_a1)); break; case _retry2: case _retry3: case _retry4: ipc = NEXTOP(ipc,l); go_on = TRUE; break; case _jump: ipc = ipc->u.l.l; go_on = TRUE; break; case _retry_c: case _retry_userc: low_level_trace(retry_pred, ipc->u.OtapFs.p, B->cp_args); break; case _retry_profiled: case _count_retry: ipc = NEXTOP(ipc,p); go_on = TRUE; break; case _retry_me: case _trust_me: case _count_retry_me: case _count_trust_me: case _profiled_retry_me: case _profiled_trust_me: case _retry_and_mark: case _profiled_retry_and_mark: case _retry: case _trust: low_level_trace(retry_pred, ipc->u.Otapl.p, B->cp_args); break; case _try_logical: case _retry_logical: case _profiled_retry_logical: case _count_retry_logical: case _trust_logical: case _profiled_trust_logical: case _count_trust_logical: low_level_trace(retry_pred, ipc->u.OtILl.d->ClPred, B->cp_args); break; case _Nstop: case _Ystop: low_level_trace(retry_pred, NULL, B->cp_args); break; default: break; } } } #endif /* LOW_LEVEL_TRACER */ #ifdef FROZEN_STACKS #ifdef YAPOR_SBA if (pt0 < TR_FZ || pt0 > (ADDR)CurrentTrailTop+MinTrailGap) #else if (pt0 < TR_FZ) #endif /* YAPOR_SBA */ { TR = TR_FZ; TRAIL_LINK(pt0); } else #endif /* FROZEN_STACKS */ RESTORE_TR(); GONext(); } BEGD(d1); d1 = TrailTerm(pt0-1); pt0--; if (IsVarTerm(d1)) { #if defined(YAPOR_SBA) && defined(YAPOR) /* clean up the trail when we backtrack */ if (Unsigned((Int)(d1)-(Int)(H_FZ)) > Unsigned((Int)(B_FZ)-(Int)(H_FZ))) { RESET_VARIABLE(STACK_TO_SBA(d1)); } else #endif /* normal variable */ RESET_VARIABLE(d1); goto failloop; } /* pointer to code space */ /* or updatable variable */ #if defined(TERM_EXTENSIONS) || defined(FROZEN_STACKS) || defined(MULTI_ASSIGNMENT_VARIABLES) if (IsPairTerm(d1)) #endif /* TERM_EXTENSIONS || FROZEN_STACKS || MULTI_ASSIGNMENT_VARIABLES */ { register CELL flags; CELL *pt1 = RepPair(d1); #ifdef LIMIT_TABLING if ((ADDR) pt1 == LOCAL_TrailBase) { sg_fr_ptr sg_fr = (sg_fr_ptr) TrailVal(pt0); TrailTerm(pt0) = AbsPair((CELL *)(pt0 - 1)); SgFr_state(sg_fr)--; /* complete_in_use --> complete : compiled_in_use --> compiled */ insert_into_global_sg_fr_list(sg_fr); goto failloop; } #endif /* LIMIT_TABLING */ #ifdef FROZEN_STACKS /* TRAIL */ /* avoid frozen segments */ if ( #ifdef YAPOR_SBA (ADDR) pt1 >= HeapTop #else IN_BETWEEN(LOCAL_TrailBase, pt1, (ADDR)CurrentTrailTop+MinTrailGap) #endif /* YAPOR_SBA */ ) { pt0 = (tr_fr_ptr) pt1; goto failloop; } else #endif /* FROZEN_STACKS */ if (IN_BETWEEN(H0,pt1,H)) { if (IsAttVar(pt1)) { goto failloop; } else if (*pt1 == (CELL)FunctorBigInt) { Yap_CleanOpaqueVariable(pt1); } } #ifdef FROZEN_STACKS /* TRAIL */ /* don't reset frozen variables */ if (pt0 < TR_FZ) goto failloop; #endif flags = *pt1; #if MULTIPLE_STACKS if (FlagOn(DBClMask, flags)) { DBRef dbr = DBStructFlagsToDBStruct(pt1); int erase; LOCK(dbr->lock); DEC_DBREF_COUNT(dbr); erase = (dbr->Flags & ErasedMask) && (dbr->ref_count == 0); UNLOCK(dbr->lock); if (erase) { saveregs(); Yap_ErDBE(dbr); setregs(); } } else { if (flags & LogUpdMask) { if (flags & IndexMask) { LogUpdIndex *cl = ClauseFlagsToLogUpdIndex(pt1); int erase; #if PARALLEL_YAP PredEntry *ap = cl->ClPred; #endif PELOCK(8,ap); DEC_CLREF_COUNT(cl); erase = (cl->ClFlags & ErasedMask) && !(cl->ClRefCount); if (erase) { saveregs(); /* at this point, we are the only ones accessing the clause, hence we don't need to have a lock it */ Yap_ErLogUpdIndex(cl); setregs(); } else if (cl->ClFlags & DirtyMask) { saveregs(); /* at this point, we are the only ones accessing the clause, hence we don't need to have a lock it */ Yap_CleanUpIndex(cl); setregs(); } UNLOCK(ap->PELock); } else { LogUpdClause *cl = ClauseFlagsToLogUpdClause(pt1); int erase; #if PARALLEL_YAP PredEntry *ap = cl->ClPred; #endif PELOCK(9,ap); DEC_CLREF_COUNT(cl); // fprintf(stderr,"%d %p=%lx\n",worker_id, cl, cl->ClRefCount); erase = (cl->ClFlags & ErasedMask) && !(cl->ClRefCount); if (erase) { saveregs(); /* at this point, we are the only ones accessing the clause, hence we don't need to have a lock it */ Yap_ErLogUpdCl(cl); setregs(); } UNLOCK(ap->PELock); } } else { DynamicClause *cl = ClauseFlagsToDynamicClause(pt1); int erase; LOCK(cl->ClLock); DEC_CLREF_COUNT(cl); erase = (cl->ClFlags & ErasedMask) && !(cl->ClRefCount); UNLOCK(cl->ClLock); if (erase) { saveregs(); /* at this point, we are the only ones accessing the clause, hence we don't need to have a lock it */ Yap_ErCl(cl); setregs(); } } } #else ResetFlag(InUseMask, flags); *pt1 = flags; if (FlagOn((ErasedMask|DirtyMask), flags)) { if (FlagOn(DBClMask, flags)) { saveregs(); Yap_ErDBE(DBStructFlagsToDBStruct(pt1)); setregs(); } else { saveregs(); if (flags & LogUpdMask) { if (flags & IndexMask) { if (FlagOn(ErasedMask, flags)) { Yap_ErLogUpdIndex(ClauseFlagsToLogUpdIndex(pt1)); } else { Yap_CleanUpIndex(ClauseFlagsToLogUpdIndex(pt1)); } } else { Yap_ErLogUpdCl(ClauseFlagsToLogUpdClause(pt1)); } } else { Yap_ErCl(ClauseFlagsToDynamicClause(pt1)); } setregs(); } } #endif goto failloop; } #ifdef MULTI_ASSIGNMENT_VARIABLES else /* if (IsApplTerm(d1)) */ { CELL *pt = RepAppl(d1); /* AbsAppl means */ /* multi-assignment variable */ /* so the next cell is the old value */ #ifdef FROZEN_STACKS --pt0; pt[0] = TrailVal(pt0); #else pt[0] = TrailTerm(pt0-1); pt0 -= 2; #endif /* FROZEN_STACKS */ goto failloop; } #endif ENDD(d1); ENDCACHE_TR(); } ENDPBOp(); /************************************************************************\ * Cut & Commit Instructions * \************************************************************************/ /* cut */ Op(cut, s); #ifdef COROUTINING if (FALSE) { CACHE_Y_AS_ENV(YREG); check_stack(NoStackCut, H); ENDCACHE_Y_AS_ENV(); } do_cut: #endif SET_ASP(YREG, PREG->u.s.s); PREG = NEXTOP(NEXTOP(NEXTOP(PREG, s),Osbpp),l); /* assume cut is always in stack */ saveregs(); prune((choiceptr)YREG[E_CB] PASS_REGS); setregs(); GONext(); ENDOp(); /* cut_t */ /* cut_t does the same as cut */ Op(cut_t, s); #ifdef COROUTINING if (FALSE) { CACHE_Y_AS_ENV(YREG); check_stack(NoStackCutT, H); ENDCACHE_Y_AS_ENV(); } do_cut_t: #endif SET_ASP(YREG, PREG->u.s.s); /* assume cut is always in stack */ saveregs(); prune((choiceptr)YREG[E_CB] PASS_REGS); setregs(); PREG = NEXTOP(NEXTOP(NEXTOP(PREG, s),Osbpp),l); GONext(); ENDOp(); /* cut_e */ Op(cut_e, s); #ifdef COROUTINING if (FALSE) { CACHE_Y_AS_ENV(YREG); check_stack(NoStackCutE, H); ENDCACHE_Y_AS_ENV(); } do_cut_e: #endif SET_ASP(YREG, PREG->u.s.s); PREG = NEXTOP(NEXTOP(NEXTOP(PREG, s),Osbpp),l); saveregs(); prune((choiceptr)SREG[E_CB] PASS_REGS); setregs(); GONext(); ENDOp(); /* save_b_x Xi */ Op(save_b_x, x); BEGD(d0); d0 = PREG->u.x.x; #if defined(YAPOR_SBA) && defined(FROZEN_STACKS) XREG(d0) = MkIntegerTerm((Int)B); #else XREG(d0) = MkIntegerTerm(LCL0-(CELL *) (B)); #endif /* YAPOR_SBA && FROZEN_STACKS */ PREG = NEXTOP(PREG, x); ENDD(d0); GONext(); ENDOp(); /* save_b_y Yi */ Op(save_b_y, y); #if defined(YAPOR_SBA) INITIALIZE_PERMVAR(YREG+PREG->u.y.y,MkIntegerTerm((Int)B)); #else INITIALIZE_PERMVAR(YREG+PREG->u.y.y,MkIntegerTerm(LCL0-(CELL *)(B))); #endif /* YAPOR_SBA*/ PREG = NEXTOP(PREG, y); GONext(); ENDOp(); /* commit_b_x Xi */ Op(commit_b_x, xps); #ifdef COROUTINING CACHE_Y_AS_ENV(YREG); check_stack(NoStackCommitX, H); ENDCACHE_Y_AS_ENV(); do_commit_b_x: #endif BEGD(d0); d0 = XREG(PREG->u.xps.x); deref_head(d0, commit_b_x_unk); commit_b_x_nvar: /* skip a void call and a label */ SET_ASP(YREG, PREG->u.xps.s); PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xps),Osbpp),l); { choiceptr pt0; #if defined(YAPOR_SBA) && defined(FROZEN_STACKS) pt0 = (choiceptr)IntegerOfTerm(d0); #else pt0 = (choiceptr)(LCL0-IntegerOfTerm(d0)); #endif /* YAPOR_SBA && FROZEN_STACKS */ saveregs(); prune(pt0 PASS_REGS); setregs(); } GONext(); BEGP(pt1); deref_body(d0, pt1, commit_b_x_unk, commit_b_x_nvar); ENDP(pt1); /* never cut to a variable */ /* Abort */ FAIL(); ENDD(d0); ENDOp(); /* commit_b_y Yi */ Op(commit_b_y, yps); #ifdef COROUTINING CACHE_Y_AS_ENV(YREG); check_stack(NoStackCommitY, H); ENDCACHE_Y_AS_ENV(); do_commit_b_y: #endif BEGD(d0); d0 = YREG[PREG->u.yps.y]; deref_head(d0, commit_b_y_unk); commit_b_y_nvar: SET_ASP(YREG, PREG->u.yps.s); PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yps),Osbpp),l); { choiceptr pt0; #if defined(YAPOR_SBA) && defined(FROZEN_STACKS) pt0 = (choiceptr)IntegerOfTerm(d0); #else pt0 = (choiceptr)(LCL0-IntegerOfTerm(d0)); #endif saveregs(); prune(pt0 PASS_REGS); setregs(); } GONext(); BEGP(pt1); deref_body(d0, pt1, commit_b_y_unk, commit_b_y_nvar); ENDP(pt1); /* never cut to a variable */ /* Abort */ FAIL(); ENDD(d0); ENDOp(); /************************************************************************* * Call / Proceed instructions * *************************************************************************/ /* Macros for stack trimming */ /* execute Label */ BOp(execute, pp); { PredEntry *pt0; CACHE_Y_AS_ENV(YREG); pt0 = PREG->u.pp.p; #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { low_level_trace(enter_pred,pt0,XREGS+1); } #endif /* LOW_LEVEL_TRACE */ CACHE_A1(); ALWAYS_LOOKAHEAD(pt0->OpcodeOfPred); BEGD(d0); d0 = (CELL)B; #ifndef NO_CHECKING check_stack(NoStackExecute, H); #endif PREG = pt0->CodeOfPred; /* for profiler */ save_pc(); ENV_YREG[E_CB] = d0; ENDD(d0); #ifdef DEPTH_LIMIT if (DEPTH <= MkIntTerm(1)) {/* I assume Module==0 is prolog */ if (pt0->ModuleOfPred) { if (DEPTH == MkIntTerm(0)) FAIL(); else DEPTH = RESET_DEPTH(); } } else if (pt0->ModuleOfPred) DEPTH -= MkIntConstant(2); #endif /* DEPTH_LIMIT */ /* this is the equivalent to setting up the stack */ ALWAYS_GONext(); ALWAYS_END_PREFETCH(); ENDCACHE_Y_AS_ENV(); } ENDBOp(); NoStackExecute: CHECK_ALARM(JMPNext()); SREG = (CELL *) PREG->u.pp.p; PP = PREG->u.pp.p0; if (LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { SET_ASP(YREG, E_CB*sizeof(CELL)); SREG = YENV; goto noheapleft; } if (LOCAL_ActiveSignals) goto creep; else goto NoStackExec; /* dexecute Label */ /* joint deallocate and execute */ BOp(dexecute, pp); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) low_level_trace(enter_pred,PREG->u.pp.p,XREGS+1); #endif /* LOW_LEVEL_TRACER */ CACHE_Y_AS_ENV(YREG); { PredEntry *pt0; CACHE_A1(); pt0 = PREG->u.pp.p; #ifndef NO_CHECKING /* check stacks */ check_stack(NoStackDExecute, H); #endif #ifdef DEPTH_LIMIT if (DEPTH <= MkIntTerm(1)) {/* I assume Module==0 is primitives */ if (pt0->ModuleOfPred) { if (DEPTH == MkIntTerm(0)) FAIL(); else DEPTH = RESET_DEPTH(); } } else if (pt0->ModuleOfPred) DEPTH -= MkIntConstant(2); #endif /* DEPTH_LIMIT */ PREG = pt0->CodeOfPred; /* for profiler */ save_pc(); ALWAYS_LOOKAHEAD(pt0->OpcodeOfPred); /* do deallocate */ CPREG = (yamop *) ENV_YREG[E_CP]; ENV_YREG = ENV = (CELL *) ENV_YREG[E_E]; #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (ENV_YREG > (CELL *) top_b || ENV_YREG < H) ENV_YREG = (CELL *) top_b; #else if (ENV_YREG > (CELL *) top_b) ENV_YREG = (CELL *) top_b; #endif /* YAPOR_SBA */ else ENV_YREG = (CELL *)((CELL)ENV_YREG + ENV_Size(CPREG)); } #else if (ENV_YREG > (CELL *)B) { ENV_YREG = (CELL *)B; } else { ENV_YREG = (CELL *) ((CELL) ENV_YREG + ENV_Size(CPREG)); } #endif /* FROZEN_STACKS */ WRITEBACK_Y_AS_ENV(); /* setup GB */ ENV_YREG[E_CB] = (CELL) B; ALWAYS_GONext(); ALWAYS_END_PREFETCH(); } ENDCACHE_Y_AS_ENV(); ENDBOp(); BOp(fcall, Osbpp); CACHE_Y_AS_ENV(YREG); ENV_YREG[E_CP] = (CELL) CPREG; ENV_YREG[E_E] = (CELL) ENV; #ifdef DEPTH_LIMIT ENV_YREG[E_DEPTH] = DEPTH; #endif /* DEPTH_LIMIT */ ENDCACHE_Y_AS_ENV(); ENDBOp(); BOp(call, Osbpp); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { low_level_trace(enter_pred,PREG->u.Osbpp.p,XREGS+1); } #endif /* LOW_LEVEL_TRACER */ CACHE_Y_AS_ENV(YREG); { PredEntry *pt; pt = PREG->u.Osbpp.p; CACHE_A1(); #ifndef NO_CHECKING check_stack(NoStackCall, H); #endif ENV = ENV_YREG; /* Try to preserve the environment */ ENV_YREG = (CELL *) (((char *) ENV_YREG) + PREG->u.Osbpp.s); CPREG = NEXTOP(PREG, Osbpp); ALWAYS_LOOKAHEAD(pt->OpcodeOfPred); PREG = pt->CodeOfPred; /* for profiler */ save_pc(); #ifdef DEPTH_LIMIT if (DEPTH <= MkIntTerm(1)) {/* I assume Module==0 is primitives */ if (pt->ModuleOfPred) { if (DEPTH == MkIntTerm(0)) FAIL(); else DEPTH = RESET_DEPTH(); } } else if (pt->ModuleOfPred) DEPTH -= MkIntConstant(2); #endif /* DEPTH_LIMIT */ #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (ENV_YREG > (CELL *) top_b || ENV_YREG < H) ENV_YREG = (CELL *) top_b; #else if (ENV_YREG > (CELL *) top_b) ENV_YREG = (CELL *) top_b; #endif /* YAPOR_SBA */ } #else if (ENV_YREG > (CELL *) B) { ENV_YREG = (CELL *) B; } #endif /* FROZEN_STACKS */ WRITEBACK_Y_AS_ENV(); /* setup GB */ ENV_YREG[E_CB] = (CELL) B; #ifdef YAPOR SCH_check_requests(); #endif /* YAPOR */ ALWAYS_GONext(); ALWAYS_END_PREFETCH(); } ENDCACHE_Y_AS_ENV(); ENDBOp(); NoStackCall: CHECK_ALARM(JMPNext()); PP = PREG->u.Osbpp.p0; /* on X86 machines S will not actually be holding the pointer to pred */ if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); goto fail; } SREG = (CELL *) PREG->u.Osbpp.p; if (LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { SET_ASP(YREG, PREG->u.Osbpp.s); SREG = YENV; goto noheapleft; } if (LOCAL_ActiveSignals) { goto creepc; } SET_ASP(YREG, PREG->u.Osbpp.s); saveregs(); if (!Yap_gc(((PredEntry *)SREG)->ArityOfPE, YREG, NEXTOP(PREG, Osbpp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); } setregs(); JMPNext(); /* don't forget I cannot creep at deallocate (where to?) */ /* also, this is unusual in that I have already done deallocate, so I don't need to redo it. */ NoStackDeallocate: CHECK_ALARM(JMPNext()); { CELL cut_b = LCL0-(CELL *)(SREG[E_CB]); if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); goto fail; } /* don't do a creep here; also, if our instruction is followed by a execute_c, just wait a bit more */ if ( (LOCAL_ActiveSignals & YAP_CREEP_SIGNAL && /* keep on going if there is something else */ !(LOCAL_ActiveSignals & ~YAP_CREEP_SIGNAL)) || (PREG->opc != Yap_opcode(_procceed) && PREG->opc != Yap_opcode(_cut_e))) { JMPNext(); } PP = PREVOP(PREG,p)->u.p.p; ASP = YREG+E_CB; /* cut_e */ if (SREG <= ASP) { ASP = SREG-EnvSizeInCells; } if (ASP > (CELL *)PROTECT_FROZEN_B(B)) ASP = (CELL *)PROTECT_FROZEN_B(B); if (LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { goto noheapleft; } if (LOCAL_ActiveSignals) { if (Yap_op_from_opcode(PREG->opc) == _cut_e) { /* followed by a cut */ ARG1 = MkIntegerTerm(LCL0-(CELL *)SREG[E_CB]); SREG = (CELL *)RepPredProp(Yap_GetPredPropByFunc(FunctorCutBy,1)); } else { SREG = (CELL *)RepPredProp(Yap_GetPredPropByAtom(AtomTrue,0)); } goto creep; } saveregs(); if (!Yap_gc(0, ENV, CPREG)) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); } setregs(); SREG = ASP; SREG[E_CB] = (CELL)(LCL0-cut_b); } JMPNext(); #ifdef COROUTINING /* This is easier: I know there is an environment so I cannot do allocate */ NoStackCut: CHECK_ALARM(goto do_cut); /* find something to fool S */ if (!LOCAL_ActiveSignals || LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { goto do_cut; } if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); FAIL(); } if (!(LOCAL_ActiveSignals & YAP_CREEP_SIGNAL)) { SREG = (CELL *)PredRestoreRegs; XREGS[0] = MkIntegerTerm(LCL0-(CELL *)YREG[E_CB]); PREG = NEXTOP(PREG,e); goto creep_either; } /* don't do debugging and friends here */ goto do_cut; NoStackCutT: CHECK_ALARM(goto do_cut_t); /* find something to fool S */ if (!LOCAL_ActiveSignals || LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { goto do_cut_t; } if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); FAIL(); } if (!(LOCAL_ActiveSignals & YAP_CREEP_SIGNAL)) { SREG = (CELL *)PredRestoreRegs; XREGS[0] = MkIntegerTerm(LCL0-(CELL *)SREG[E_CB]); PREG = NEXTOP(PREG,e); goto creep_either; } /* don't do debugging and friends here */ goto do_cut_t; NoStackCutE: CHECK_ALARM(goto do_cut_e); if (!LOCAL_ActiveSignals || LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { goto do_cut_e; } if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); FAIL(); } if (!(LOCAL_ActiveSignals & YAP_CREEP_SIGNAL)) { SREG = (CELL *)PredRestoreRegs; XREGS[0] = MkIntegerTerm(LCL0-(CELL *)SREG[E_CB]); PREG = NEXTOP(PREG,e); goto creep_either; } /* don't do debugging and friends here */ goto do_cut_e; /* This is easier: I know there is an environment so I cannot do allocate */ NoStackCommitY: CHECK_ALARM(goto do_commit_b_y); PP = PREG->u.yps.p0; /* find something to fool S */ if (!LOCAL_ActiveSignals || LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { goto do_commit_b_y; } if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); FAIL(); } if (!(LOCAL_ActiveSignals & YAP_CREEP_SIGNAL)) { SREG = (CELL *)PredRestoreRegs; XREGS[0] = YREG[PREG->u.yps.y]; PREG = NEXTOP(PREG,yps); goto creep_either; } /* don't do debugging and friends here */ goto do_commit_b_y; /* Problem: have I got an environment or not? */ NoStackCommitX: CHECK_ALARM(goto do_commit_b_x); PP = PREG->u.xps.p0; /* find something to fool S */ if (!LOCAL_ActiveSignals || LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { goto do_commit_b_x; } if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); FAIL(); } if (!(LOCAL_ActiveSignals & YAP_CREEP_SIGNAL)) { SREG = (CELL *)PredRestoreRegs; #if USE_THREADED_CODE if (PREG->opc == (OPCODE)OpAddress[_fcall]) #else if (PREG->opc == _fcall) #endif { /* fill it up */ CACHE_Y_AS_ENV(YREG); ENV_YREG[E_CP] = (CELL) CPREG; ENV_YREG[E_E] = (CELL) ENV; #ifdef DEPTH_LIMIT ENV_YREG[E_DEPTH] = DEPTH; #endif /* DEPTH_LIMIT */ ENDCACHE_Y_AS_ENV(); } XREGS[0] = XREG(PREG->u.xps.x); PREG = NEXTOP(PREG,xps); goto creep_either; } /* don't do debugging and friends here */ goto do_commit_b_x; /* Problem: have I got an environment or not? */ NoStackFail: CHECK_ALARM(goto fail); if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); /* we're happy */ goto fail; } /* find something to fool S */ if (!LOCAL_ActiveSignals || LOCAL_ActiveSignals & (YAP_CDOVF_SIGNAL)) { goto fail; } if (!(LOCAL_ActiveSignals & YAP_CREEP_SIGNAL)) { SREG = (CELL *)RepPredProp(Yap_GetPredPropByAtom(AtomFail,0)); /* make sure we have the correct environment for continuation */ ENV = B->cp_env; YREG = (CELL *)B; goto creep; } /* don't do debugging and friends here */ goto fail; /* don't forget I cannot creep at ; */ NoStackEither: CHECK_ALARM(goto either_notest); if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); goto fail; } PP = PREG->u.Osblp.p0; if (LOCAL_ActiveSignals & YAP_CREEP_SIGNAL) { goto either_notest; } /* find something to fool S */ SREG = (CELL *)RepPredProp(Yap_GetPredPropByFunc(FunctorRestoreRegs1,0)); if (LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { SET_ASP(YREG, PREG->u.Osbpp.s); SREG = YENV; goto noheapleft; } if (LOCAL_ActiveSignals) { goto creep_either; } ASP = (CELL *) (((char *) YREG) + PREG->u.Osbpp.s); if (ASP > (CELL *)PROTECT_FROZEN_B(B)) ASP = (CELL *)PROTECT_FROZEN_B(B); saveregs(); if (!Yap_gc(0, YREG, NEXTOP(PREG, Osbpp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); } setregs(); JMPNext(); creep_either: /* do creep in either */ ENV = YREG; CPREG = NEXTOP(PREG, Osbpp); YREG = (CELL *) (((char *) YREG) + PREG->u.Osbpp.s); #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (YREG > (CELL *) top_b || YREG < H) YREG = (CELL *) top_b; #else if (YREG > (CELL *) top_b) YREG = (CELL *) top_b; #endif /* YAPOR_SBA */ else YREG = YREG + ENV_Size(CPREG); } #else if (YREG > (CELL *) B) YREG = (CELL *) B; #endif /* FROZEN_STACKS */ /* setup GB */ ARG1 = push_live_regs(CPREG); /* ARG0 has an extra argument for suspended cuts */ ARG2 = XREGS[0]; YREG[E_CB] = (CELL) B; goto creep; #endif creepc: /* do creep in call */ ENV = YREG; CPREG = NEXTOP(PREG, Osbpp); YREG = (CELL *) (((char *) YREG) + PREG->u.Osbpp.s); #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (YREG > (CELL *) top_b || YREG < H) YREG = (CELL *) top_b; #else if (YREG > (CELL *) top_b) YREG = (CELL *) top_b; #endif /* YAPOR_SBA */ else YREG = YREG + ENV_Size(CPREG); } #else if (YREG > (CELL *) B) YREG = (CELL *) B; else /* I am not sure about this */ YREG = YREG + ENV_Size(CPREG); #endif /* FROZEN_STACKS */ /* setup GB */ YREG[E_CB] = (CELL) B; goto creep; NoStackDExecute: CHECK_ALARM(JMPNext()); if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); goto fail; } PP = PREG->u.pp.p0; if (LOCAL_ActiveSignals & YAP_CREEP_SIGNAL) { PredEntry *ap = PREG->u.pp.p; SREG = (CELL *) ap; goto creepde; } /* set SREG for next instructions */ SREG = (CELL *) PREG->u.p.p; if (LOCAL_ActiveSignals & YAP_CDOVF_SIGNAL) { ASP = YREG+E_CB; if (ASP > (CELL *)PROTECT_FROZEN_B(B)) ASP = (CELL *)PROTECT_FROZEN_B(B); SREG = YENV; goto noheapleft; } if (LOCAL_ActiveSignals) goto creepde; /* try performing garbage collection */ ASP = YREG+E_CB; if (ASP > (CELL *)PROTECT_FROZEN_B(B)) ASP = (CELL *)PROTECT_FROZEN_B(B); saveregs(); if (!Yap_gc(((PredEntry *)(SREG))->ArityOfPE, (CELL *)YREG[E_E], (yamop *)YREG[E_CP])) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); } setregs(); /* hopefully, gc will succeeded, and we will retry * the instruction */ JMPNext(); NoStackExec: CHECK_ALARM(JMPNext()); /* try performing garbage collection */ if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); goto fail; } ASP = YREG+E_CB; if (ASP > (CELL *)PROTECT_FROZEN_B(B)) ASP = (CELL *)PROTECT_FROZEN_B(B); saveregs(); if (!Yap_gc(((PredEntry *)(SREG))->ArityOfPE, ENV, CPREG)) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); } setregs(); /* hopefully, gc will succeeded, and we will retry * the instruction */ JMPNext(); creepde: /* first, deallocate */ CPREG = (yamop *) YREG[E_CP]; ENV = YREG = (CELL *) YREG[E_E]; #ifdef DEPTH_LIMIT YREG[E_DEPTH] = DEPTH; #endif /* DEPTH_LIMIT */ #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (YREG > (CELL *) top_b || YREG < H) YREG = (CELL *) top_b; #else if (YREG > (CELL *) top_b) YREG = (CELL *) top_b; #endif /* YAPOR_SBA */ else YREG = (CELL *) ((CELL)YREG + ENV_Size(CPREG)); } #else if (YREG > (CELL *) B) { YREG = (CELL *) B; } else { YREG = (CELL *) ((CELL) YREG + ENV_Size(CPREG)); } #endif /* FROZEN_STACKS */ /* setup GB */ YREG[E_CB] = (CELL) B; /* and now CREEP */ creep: if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); goto fail; } #if defined(_MSC_VER) || defined(__MINGW32__) /* I need this for Windows and other systems where SIGINT is not proceesed by same thread as absmi */ LOCK(LOCAL_SignalLock); if (LOCAL_PrologMode & (AbortMode|InterruptMode)) { CreepFlag = CalculateStackGap(); UNLOCK(LOCAL_SignalLock); JMPNext(); } UNLOCK(LOCAL_SignalLock); #endif #ifdef SHADOW_S S = SREG; #endif /* tell whether we can creep or not, this is hard because we will lose the info RSN */ BEGD(d0); d0 = ((PredEntry *)(SREG))->ArityOfPE; if (d0 == 0) { H[1] = MkAtomTerm((Atom) ((PredEntry *)(SREG))->FunctorOfPred); } else { H[d0 + 2] = AbsAppl(H); *H = (CELL) ((PredEntry *)(SREG))->FunctorOfPred; H++; BEGP(pt1); pt1 = XREGS + 1; for (; d0 > 0; --d0) { BEGD(d1); BEGP(pt0); pt0 = pt1; d1 = *pt0; deref_head(d1, creep_unk); creep_nonvar: /* just copy it to the heap */ pt1++; *H++ = d1; continue; derefa_body(d1, pt0, creep_unk, creep_nonvar); if (pt0 <= H) { /* variable is safe */ *H++ = (CELL)pt0; pt1++; } else { /* bind it, in case it is a local variable */ d1 = Unsigned(H); RESET_VARIABLE(H); pt1++; H += 1; Bind_Local(pt0, d1); } ENDP(pt0); ENDD(d1); } ENDP(pt1); } ENDD(d0); H[0] = Yap_Module_Name((PredEntry *)SREG); ARG1 = (Term) AbsPair(H); H += 2; LOCK(LOCAL_SignalLock); #ifdef COROUTINING if (LOCAL_ActiveSignals & YAP_WAKEUP_SIGNAL) { CreepFlag = CalculateStackGap(); LOCAL_ActiveSignals &= ~YAP_WAKEUP_SIGNAL; UNLOCK(LOCAL_SignalLock); ARG2 = Yap_ListOfWokenGoals(); SREG = (CELL *) (WakeUpCode); /* no more goals to wake up */ Yap_UpdateTimedVar(LOCAL_WokenGoals,TermNil); } else #endif { CreepFlag = CalculateStackGap(); SREG = (CELL *) CreepCode; UNLOCK(LOCAL_SignalLock); } PREG = ((PredEntry *)SREG)->CodeOfPred; #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) low_level_trace(enter_pred,(PredEntry *)(SREG),XREGS+1); #endif /* LOW_LEVEL_TRACE */ /* for profiler */ save_pc(); CACHE_A1(); JMPNext(); BOp(procceed, p); CACHE_Y_AS_ENV(YREG); ALWAYS_LOOKAHEAD(CPREG->opc); PREG = CPREG; /* for profiler */ save_pc(); ENV_YREG = ENV; #ifdef DEPTH_LIMIT DEPTH = ENV_YREG[E_DEPTH]; #endif WRITEBACK_Y_AS_ENV(); ALWAYS_GONext(); ALWAYS_END_PREFETCH(); ENDCACHE_Y_AS_ENV(); ENDBOp(); Op(allocate, e); CACHE_Y_AS_ENV(YREG); PREG = NEXTOP(PREG, e); ENV_YREG[E_CP] = (CELL) CPREG; ENV_YREG[E_E] = (CELL) ENV; #ifdef DEPTH_LIMIT ENV_YREG[E_DEPTH] = DEPTH; #endif /* DEPTH_LIMIT */ ENV = ENV_YREG; ENDCACHE_Y_AS_ENV(); GONext(); ENDOp(); Op(deallocate, p); CACHE_Y_AS_ENV(YREG); check_trail(TR); PREG = NEXTOP(PREG, p); /* other instructions do depend on S being set by deallocate :-( */ SREG = YREG; CPREG = (yamop *) ENV_YREG[E_CP]; ENV = ENV_YREG = (CELL *) ENV_YREG[E_E]; #ifdef DEPTH_LIMIT DEPTH = ENV_YREG[E_DEPTH]; #endif /* DEPTH_LIMIT */ #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (ENV_YREG > (CELL *) top_b || ENV_YREG < H) ENV_YREG = (CELL *) top_b; #else if (ENV_YREG > (CELL *) top_b) ENV_YREG = (CELL *) top_b; #endif /* YAPOR_SBA */ else ENV_YREG = (CELL *)((CELL) ENV_YREG + ENV_Size(CPREG)); } #else if (ENV_YREG > (CELL *) B) ENV_YREG = (CELL *) B; else ENV_YREG = (CELL *) ((CELL) ENV_YREG + ENV_Size(CPREG)); #endif /* FROZEN_STACKS */ WRITEBACK_Y_AS_ENV(); #ifndef NO_CHECKING /* check stacks */ check_stack(NoStackDeallocate, H); #endif ENDCACHE_Y_AS_ENV(); GONext(); ENDOp(); /********************************************** * OPTYap instructions * **********************************************/ #ifdef YAPOR #include "or.insts.i" #endif /* YAPOR */ #ifdef TABLING #include "tab.insts.i" #include "tab.tries.insts.i" #endif /* TABLING */ #ifdef BEAM extern int eam_am(PredEntry *); Op(retry_eam, e); printf("Aqui estou eu..................\n"); if (!eam_am(2)) { abort_eam("Falhei\n"); FAIL(); } goto procceed; PREG = NEXTOP(PREG, e); GONext(); ENDOp(); Op(run_eam, os); if (inp==-9000) { /* use indexing to find out valid alternatives */ extern CELL *beam_ALTERNATIVES; *beam_ALTERNATIVES= (CELL *) PREG->u.os.opcw; beam_ALTERNATIVES++; if (OLD_B!=B) goto fail; #if PUSH_REGS Yap_regp=old_regs; #endif return(0); } saveregs(); if (!eam_am((PredEntry *) PREG->u.os.s)) FAIL(); setregs(); /* cut */ BACKUP_B(); #ifdef CUT_C while (POP_CHOICE_POINT(B->cp_b)) { POP_EXECUTE(); } #endif /* CUT_C */ B = B->cp_b; /* cut_fail */ HB = B->cp_h; /* cut_fail */ RECOVER_B(); if (0) { register choiceptr ccp; /* initialize ccp */ #define NORM_CP(CP) ((choiceptr)(CP)) YREG = (CELL *) (NORM_CP(YREG) - 1); ccp = NORM_CP(YREG); store_yaam_reg_cpdepth(ccp); ccp->cp_tr = TR; ccp->cp_ap = BEAM_RETRY_CODE; ccp->cp_h = H; ccp->cp_b = B; ccp->cp_env= ENV; ccp->cp_cp = CPREG; B = ccp; SET_BB(B); } goto procceed; PREG = NEXTOP(PREG, os); GONext(); ENDOp(); #endif /************************************************************************\ * Get Instructions * \************************************************************************/ Op(get_x_var, xx); BEGD(d0); d0 = XREG(PREG->u.xx.xr); XREG(PREG->u.xx.xl) = d0; PREG = NEXTOP(PREG, xx); ENDD(d0); GONext(); ENDOp(); Op(get_y_var, yx); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yx.y; d0 = XREG(PREG->u.yx.x); PREG = NEXTOP(PREG, yx); INITIALIZE_PERMVAR(pt0,d0); GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(get_yy_var, yyxx); CACHE_Y(YREG); BEGD(d0); BEGP(pt0); pt0 = S_YREG + PREG->u.yyxx.y1; d0 = XREG(PREG->u.yyxx.x1); BEGD(d1); BEGP(pt1); pt1 = S_YREG + PREG->u.yyx.y2; d1 = XREG(PREG->u.yyxx.x2); PREG = NEXTOP(PREG, yyxx); INITIALIZE_PERMVAR(pt0,d0); INITIALIZE_PERMVAR(pt1,d1); ENDP(pt1); ENDD(d1); GONext(); ENDP(pt0); ENDD(d0); ENDCACHE_Y(); ENDOp(); /* The code for get_x_val is hard to follow because I use a * lot of jumps. The convention is that in the label * gval_X_YREG X refers to the state of the first argument, and * YREG to the state of the second argument */ Op(get_x_val, xx); BEGD(d0); d0 = XREG(PREG->u.xx.xl); deref_head(d0, gvalx_unk); /* d0 will keep the first argument */ gvalx_nonvar: /* first argument is bound */ BEGD(d1); d1 = XREG(PREG->u.xx.xr); deref_head(d1, gvalx_nonvar_unk); gvalx_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, xx); UnifyBound(d0, d1); BEGP(pt0); /* deref second argument */ deref_body(d1, pt0, gvalx_nonvar_unk, gvalx_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, xx); Bind(pt0, d0); GONext(); ENDP(pt0); ENDD(d1); BEGP(pt0); /* first argument may be unbound */ deref_body(d0, pt0, gvalx_unk, gvalx_nonvar); /* first argument is unbound and in pt0 and in d0 */ BEGD(d1); d1 = XREG(PREG->u.xx.xr); deref_head(d1, gvalx_var_unk); gvalx_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, xx); Bind(pt0, d1); GONext(); BEGP(pt1); deref_body(d1, pt1, gvalx_var_unk, gvalx_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, xx); UnifyCells(pt0, pt1); GONext(); ENDP(pt1); ENDD(d1); ENDP(pt0); ENDD(d0); ENDOp(); /* The code for get_y_val mostly uses the code for get_x_val */ Op(get_y_val, yx); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = YREG + PREG->u.yx.y; d0 = *pt0; /* From now on, it's just a copy of the code for get_x_val */ deref_head(d0, gvaly_unk); gvaly_nonvar: /* first argument is bound */ d1 = XREG(PREG->u.yx.x); deref_head(d1, gvaly_nonvar_unk); gvaly_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, yx); UnifyBound(d0, d1); BEGP(pt1); /* deref second argument */ deref_body(d1, pt1, gvaly_nonvar_unk, gvaly_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, yx); Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, gvaly_unk, gvaly_nonvar); /* first argument is unbound */ d1 = XREG(PREG->u.yx.x); deref_head(d1, gvaly_var_unk); gvaly_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, yx); Bind(pt0, d1); GONext(); BEGP(pt1); deref_body(d1, pt1, gvaly_var_unk, gvaly_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, yx); UnifyCells(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(get_atom, xc); BEGD(d0); BEGD(d1); /* fetch arguments */ d0 = XREG(PREG->u.xc.x); d1 = PREG->u.xc.c; BEGP(pt0); deref_head(d0, gatom_unk); /* argument is nonvar */ gatom_nonvar: if (d0 == d1) { PREG = NEXTOP(PREG, xc); GONext(); } else { FAIL(); } deref_body(d0, pt0, gatom_unk, gatom_nonvar); /* argument is a variable */ PREG = NEXTOP(PREG, xc); Bind(pt0, d1); GONext(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(get_atom_exo, x); BEGD(d0); BEGD(d1); /* fetch arguments */ d0 = XREG(PREG->u.x.x); d1 = *SREG; SREG++; BEGP(pt0); deref_head(d0, gatom_exo_unk); /* argument is nonvar */ gatom_exo_nonvar: if (d0 == d1) { PREG = NEXTOP(PREG, x); GONext(); } else { FAIL(); } deref_body(d0, pt0, gatom_exo_unk, gatom_exo_nonvar); /* argument is a variable */ pt0 = (CELL *)d0; PREG = NEXTOP(PREG, x); Bind(pt0, d1); GONext(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(get_2atoms, cc); BEGD(d0); BEGD(d1); /* fetch arguments */ d0 = ARG1; BEGP(pt0); deref_head(d0, gatom_2unk); /* argument is nonvar */ gatom_2nonvar: if (d0 == PREG->u.cc.c1) { goto gatom_2b; } else { FAIL(); } deref_body(d0, pt0, gatom_2unk, gatom_2nonvar); /* argument is a variable */ Bind(pt0, PREG->u.cc.c1); ENDP(pt0); gatom_2b: /* fetch arguments */ d0 = ARG2; d1 = PREG->u.cc.c2; BEGP(pt0); deref_head(d0, gatom_2bunk); /* argument is nonvar */ gatom_2bnonvar: if (d0 == d1) { PREG = NEXTOP(PREG, cc); GONext(); } else { FAIL(); } deref_body(d0, pt0, gatom_2bunk, gatom_2bnonvar); /* argument is a variable */ PREG = NEXTOP(PREG, cc); Bind(pt0, d1); GONext(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(get_3atoms, ccc); BEGD(d0); BEGD(d1); /* fetch arguments */ d0 = ARG1; BEGP(pt0); deref_head(d0, gatom_3unk); /* argument is nonvar */ gatom_3nonvar: if (d0 == PREG->u.ccc.c1) { goto gatom_3b; } else { FAIL(); } deref_body(d0, pt0, gatom_3unk, gatom_3nonvar); /* argument is a variable */ Bind(pt0, PREG->u.ccc.c1); ENDP(pt0); gatom_3b: /* fetch arguments */ d0 = ARG2; BEGP(pt0); deref_head(d0, gatom_3bunk); /* argument is nonvar */ gatom_3bnonvar: if (d0 == PREG->u.ccc.c2) { goto gatom_3c; } else { FAIL(); } deref_body(d0, pt0, gatom_3bunk, gatom_3bnonvar); /* argument is a variable */ Bind(pt0, PREG->u.ccc.c2); ENDP(pt0); gatom_3c: /* fetch arguments */ d0 = ARG3; d1 = PREG->u.ccc.c3; BEGP(pt0); deref_head(d0, gatom_3cunk); /* argument is nonvar */ gatom_3cnonvar: if (d0 == d1) { PREG = NEXTOP(PREG, ccc); GONext(); } else { FAIL(); } deref_body(d0, pt0, gatom_3cunk, gatom_3cnonvar); /* argument is a variable */ PREG = NEXTOP(PREG, ccc); Bind(pt0, d1); GONext(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(get_4atoms, cccc); BEGD(d0); BEGD(d1); /* fetch arguments */ d0 = ARG1; BEGP(pt0); deref_head(d0, gatom_4unk); /* argument is nonvar */ gatom_4nonvar: if (d0 == PREG->u.cccc.c1) { goto gatom_4b; } else { FAIL(); } deref_body(d0, pt0, gatom_4unk, gatom_4nonvar); /* argument is a variable */ Bind(pt0, PREG->u.cccc.c1); ENDP(pt0); gatom_4b: /* fetch arguments */ d0 = ARG2; BEGP(pt0); deref_head(d0, gatom_4bunk); /* argument is nonvar */ gatom_4bnonvar: if (d0 == PREG->u.cccc.c2) { goto gatom_4c; } else { FAIL(); } deref_body(d0, pt0, gatom_4bunk, gatom_4bnonvar); /* argument is a variable */ Bind(pt0, PREG->u.cccc.c2); ENDP(pt0); gatom_4c: /* fetch arguments */ d0 = ARG3; BEGP(pt0); deref_head(d0, gatom_4cunk); /* argument is nonvar */ gatom_4cnonvar: if (d0 == PREG->u.cccc.c3) { goto gatom_4d; } else { FAIL(); } deref_body(d0, pt0, gatom_4cunk, gatom_4cnonvar); /* argument is a variable */ Bind(pt0, PREG->u.cccc.c3); ENDP(pt0); gatom_4d: /* fetch arguments */ d0 = ARG4; d1 = PREG->u.cccc.c4; BEGP(pt0); deref_head(d0, gatom_4dunk); /* argument is nonvar */ gatom_4dnonvar: if (d0 == d1) { PREG = NEXTOP(PREG, cccc); GONext(); } else { FAIL(); } deref_body(d0, pt0, gatom_4dunk, gatom_4dnonvar); /* argument is a variable */ PREG = NEXTOP(PREG, cccc); Bind(pt0, d1); GONext(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(get_5atoms, ccccc); BEGD(d0); BEGD(d1); /* fetch arguments */ d0 = ARG1; BEGP(pt0); deref_head(d0, gatom_5unk); /* argument is nonvar */ gatom_5nonvar: if (d0 == PREG->u.ccccc.c1) { goto gatom_5b; } else { FAIL(); } deref_body(d0, pt0, gatom_5unk, gatom_5nonvar); /* argument is a variable */ Bind(pt0, PREG->u.ccccc.c1); ENDP(pt0); gatom_5b: /* fetch arguments */ d0 = ARG2; BEGP(pt0); deref_head(d0, gatom_5bunk); /* argument is nonvar */ gatom_5bnonvar: if (d0 == PREG->u.ccccc.c2) { goto gatom_5c; } else { FAIL(); } deref_body(d0, pt0, gatom_5bunk, gatom_5bnonvar); /* argument is a variable */ Bind(pt0, PREG->u.ccccc.c2); ENDP(pt0); gatom_5c: /* fetch arguments */ d0 = ARG3; BEGP(pt0); deref_head(d0, gatom_5cunk); /* argument is nonvar */ gatom_5cnonvar: if (d0 == PREG->u.ccccc.c3) { goto gatom_5d; } else { FAIL(); } deref_body(d0, pt0, gatom_5cunk, gatom_5cnonvar); /* argument is a variable */ Bind(pt0, PREG->u.ccccc.c3); ENDP(pt0); gatom_5d: /* fetch arguments */ d0 = ARG4; BEGP(pt0); deref_head(d0, gatom_5dunk); /* argument is nonvar */ gatom_5dnonvar: if (d0 == PREG->u.ccccc.c4) { goto gatom_5e; } else { FAIL(); } deref_body(d0, pt0, gatom_5dunk, gatom_5dnonvar); /* argument is a variable */ Bind(pt0, PREG->u.ccccc.c4); ENDP(pt0); gatom_5e: /* fetch arguments */ d0 = ARG5; d1 = PREG->u.ccccc.c5; BEGP(pt0); deref_head(d0, gatom_5eunk); /* argument is nonvar */ gatom_5enonvar: if (d0 == d1) { PREG = NEXTOP(PREG, ccccc); GONext(); } else { FAIL(); } deref_body(d0, pt0, gatom_5eunk, gatom_5enonvar); /* argument is a variable */ PREG = NEXTOP(PREG, ccccc); Bind(pt0, d1); GONext(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(get_6atoms, cccccc); BEGD(d0); BEGD(d1); /* fetch arguments */ d0 = ARG1; BEGP(pt0); deref_head(d0, gatom_6unk); /* argument is nonvar */ gatom_6nonvar: if (d0 == PREG->u.cccccc.c1) { goto gatom_6b; } else { FAIL(); } deref_body(d0, pt0, gatom_6unk, gatom_6nonvar); /* argument is a variable */ Bind(pt0, PREG->u.cccccc.c1); ENDP(pt0); gatom_6b: /* fetch arguments */ d0 = ARG2; BEGP(pt0); deref_head(d0, gatom_6bunk); /* argument is nonvar */ gatom_6bnonvar: if (d0 == PREG->u.cccccc.c2) { goto gatom_6c; } else { FAIL(); } deref_body(d0, pt0, gatom_6bunk, gatom_6bnonvar); /* argument is a variable */ Bind(pt0, PREG->u.cccccc.c2); ENDP(pt0); gatom_6c: /* fetch arguments */ d0 = ARG3; BEGP(pt0); deref_head(d0, gatom_6cunk); /* argument is nonvar */ gatom_6cnonvar: if (d0 == PREG->u.cccccc.c3) { goto gatom_6d; } else { FAIL(); } deref_body(d0, pt0, gatom_6cunk, gatom_6cnonvar); /* argument is a variable */ Bind(pt0, PREG->u.cccccc.c3); ENDP(pt0); gatom_6d: /* fetch arguments */ d0 = ARG4; BEGP(pt0); deref_head(d0, gatom_6dunk); /* argument is nonvar */ gatom_6dnonvar: if (d0 == PREG->u.cccccc.c4) { goto gatom_6e; } else { FAIL(); } deref_body(d0, pt0, gatom_6dunk, gatom_6dnonvar); /* argument is a variable */ Bind(pt0, PREG->u.cccccc.c4); ENDP(pt0); gatom_6e: /* fetch arguments */ d0 = ARG5; BEGP(pt0); deref_head(d0, gatom_6eunk); /* argument is nonvar */ gatom_6enonvar: if (d0 == PREG->u.cccccc.c5) { goto gatom_6f; } else { FAIL(); } deref_body(d0, pt0, gatom_6eunk, gatom_6enonvar); /* argument is a variable */ Bind(pt0, PREG->u.cccccc.c5); ENDP(pt0); gatom_6f: /* fetch arguments */ d0 = ARG6; d1 = PREG->u.cccccc.c6; BEGP(pt0); deref_head(d0, gatom_6funk); /* argument is nonvar */ gatom_6fnonvar: if (d0 == d1) { PREG = NEXTOP(PREG, cccccc); GONext(); } else { FAIL(); } deref_body(d0, pt0, gatom_6funk, gatom_6fnonvar); /* argument is a variable */ PREG = NEXTOP(PREG, cccccc); Bind(pt0, d1); GONext(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); /* The next instructions can lead to either the READ stream * or the write stream */ OpRW(get_list, x); BEGD(d0); d0 = XREG(PREG->u.x.x); deref_head(d0, glist_unk); glist_nonvar: /* did we find a list? */ if (!IsPairTerm(d0)) { FAIL(); } START_PREFETCH(x); PREG = NEXTOP(PREG, x); /* enter read mode */ SREG = RepPair(d0); GONext(); END_PREFETCH(); BEGP(pt0); deref_body(d0, pt0, glist_unk, glist_nonvar); /* glist var */ /* enter write mode */ CACHE_S(); S_SREG = H; START_PREFETCH_W(x); PREG = NEXTOP(PREG, x); BEGD(d0); d0 = AbsPair(S_SREG); Bind(pt0, d0); S_SREG = H; /* don't put an ENDD just after a label */ H = S_SREG + 2; ENDD(d0); WRITEBACK_S(S_SREG); GONextW(); END_PREFETCH_W(); ENDCACHE_S(); ENDP(pt0); ENDD(d0); ENDOpRW(); OpRW(get_struct, xfa); BEGD(d0); d0 = XREG(PREG->u.xfa.x); deref_head(d0, gstruct_unk); gstruct_nonvar: if (!IsApplTerm(d0)) FAIL(); /* we have met a compound term */ START_PREFETCH(xfa); CACHE_S(); S_SREG = RepAppl(d0); /* check functor */ d0 = (CELL) (PREG->u.xfa.f); if (*S_SREG != d0) { FAIL(); } WRITEBACK_S(S_SREG+1); ENDCACHE_S(); PREG = NEXTOP(PREG, xfa); /* enter read mode */ GONext(); END_PREFETCH(); BEGP(pt0); deref_body(d0, pt0, gstruct_unk, gstruct_nonvar); /* Enter Write mode */ /* set d1 to be the new structure we are going to create */ START_PREFETCH_W(xfa); BEGD(d1); d1 = AbsAppl(H); Bind(pt0, d1); /* now, set pt0 to point to the heap where we are going to * build our term */ pt0 = H; ENDD(d1); /* first, put the functor */ d0 = (CELL) (PREG->u.xfa.f); *pt0++ = d0; H = pt0 + PREG->u.xfa.a; PREG = NEXTOP(PREG, xfa); /* set SREG */ SREG = pt0; /* update H */ GONextW(); END_PREFETCH_W(); ENDP(pt0); ENDD(d0); ENDOpRW(); Op(get_float, xd); BEGD(d0); d0 = XREG(PREG->u.xd.x); deref_head(d0, gfloat_unk); gfloat_nonvar: if (!IsApplTerm(d0)) FAIL(); /* we have met a preexisting float */ START_PREFETCH(xd); BEGP(pt0); pt0 = RepAppl(d0); /* check functor */ if (*pt0 != (CELL)FunctorDouble) { FAIL(); } BEGP(pt1); pt1 = PREG->u.xd.d; PREG = NEXTOP(PREG, xd); if ( pt1[1] != pt0[1] #if SIZEOF_DOUBLE == 2*SIZEOF_INT_P || pt1[2] != pt0[2] #endif ) FAIL(); ENDP(pt1); ENDP(pt0); /* enter read mode */ GONext(); END_PREFETCH(); BEGP(pt0); deref_body(d0, pt0, gfloat_unk, gfloat_nonvar); /* Enter Write mode */ /* set d1 to be the new structure we are going to create */ START_PREFETCH(xc); BEGD(d1); d1 = AbsAppl(PREG->u.xd.d); PREG = NEXTOP(PREG, xd); Bind(pt0, d1); GONext(); ENDD(d1); END_PREFETCH(); ENDP(pt0); ENDD(d0); ENDOp(); Op(get_longint, xi); BEGD(d0); d0 = XREG(PREG->u.xi.x); deref_head(d0, glongint_unk); glongint_nonvar: if (!IsApplTerm(d0)) FAIL(); /* we have met a preexisting longint */ START_PREFETCH(xi); BEGP(pt0); pt0 = RepAppl(d0); /* check functor */ if (*pt0 != (CELL)FunctorLongInt) { FAIL(); } if (PREG->u.xi.i[1] != (CELL)pt0[1]) FAIL(); ENDP(pt0); PREG = NEXTOP(PREG, xi); /* enter read mode */ GONext(); END_PREFETCH(); BEGP(pt0); deref_body(d0, pt0, glongint_unk, glongint_nonvar); /* Enter Write mode */ /* set d1 to be the new structure we are going to create */ START_PREFETCH(xi); BEGD(d1); d1 = AbsAppl(PREG->u.xi.i); PREG = NEXTOP(PREG, xi); Bind(pt0, d1); GONext(); ENDD(d1); END_PREFETCH(); ENDP(pt0); ENDD(d0); ENDOp(); Op(get_bigint, xN); #ifdef USE_GMP BEGD(d0); d0 = XREG(PREG->u.xN.x); deref_head(d0, gbigint_unk); gbigint_nonvar: if (!IsApplTerm(d0)) FAIL(); /* we have met a preexisting bigint */ START_PREFETCH(xN); BEGP(pt0); pt0 = RepAppl(d0); /* check functor */ if (*pt0 != (CELL)FunctorBigInt) { FAIL(); } if (Yap_gmp_tcmp_big_big(d0,PREG->u.xN.b)) FAIL(); PREG = NEXTOP(PREG, xN); ENDP(pt0); /* enter read mode */ GONext(); END_PREFETCH(); BEGP(pt0); deref_body(d0, pt0, gbigint_unk, gbigint_nonvar); /* Enter Write mode */ /* set d1 to be the new structure we are going to create */ START_PREFETCH(xN); BEGD(d1); d1 = PREG->u.xN.b; PREG = NEXTOP(PREG, xN); Bind(pt0, d1); GONext(); ENDD(d1); END_PREFETCH(); ENDP(pt0); ENDD(d0); #else FAIL(); #endif ENDOp(); Op(get_dbterm, xD); BEGD(d0); d0 = XREG(PREG->u.xD.x); deref_head(d0, gdbterm_unk); gdbterm_nonvar: BEGD(d1); /* we have met a preexisting dbterm */ d1 = PREG->u.xD.D; PREG = NEXTOP(PREG, xD); UnifyBound(d0,d1); ENDD(d1); BEGP(pt0); deref_body(d0, pt0, gdbterm_unk, gdbterm_nonvar); /* Enter Write mode */ /* set d1 to be the new structure we are going to create */ START_PREFETCH(xD); BEGD(d1); d1 = PREG->u.xD.D; PREG = NEXTOP(PREG, xD); Bind(pt0, d1); GONext(); ENDD(d1); END_PREFETCH(); ENDP(pt0); ENDD(d0); ENDOp(); /************************************************************************\ * Optimised Get List Instructions * \************************************************************************/ OpRW(glist_valx, xx); BEGD(d0); d0 = XREG(PREG->u.xx.xl); deref_head(d0, glist_valx_write); glist_valx_read: BEGP(pt0); /* did we find a list? */ if (!IsPairTerm(d0)) FAIL(); /* enter read mode */ START_PREFETCH(xx); pt0 = RepPair(d0); SREG = pt0 + 1; /* start unification with first argument */ d0 = *pt0; deref_head(d0, glist_valx_unk); /* first argument is in d0 */ glist_valx_nonvar: /* first argument is bound */ BEGD(d1); d1 = XREG(PREG->u.xx.xr); deref_head(d1, glist_valx_nonvar_unk); glist_valx_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, xx); UnifyBound(d0, d1); BEGP(pt1); /* deref second argument */ deref_body(d1, pt1, glist_valx_nonvar_unk, glist_valx_nonvar_nonvar); /* head bound, argument unbound */ PREG = NEXTOP(PREG, xx); Bind(pt1, d0); GONext(); ENDP(pt1); ENDD(d1); /* head may be unbound */ derefa_body(d0, pt0, glist_valx_unk, glist_valx_nonvar); /* head is unbound, pt0 has the value */ d0 = XREG(PREG->u.xx.xr); deref_head(d0, glist_valx_var_unk); glist_valx_var_nonvar: /* head is unbound, second arg bound */ PREG = NEXTOP(PREG, xx); Bind_Global(pt0, d0); GONext(); BEGP(pt1); deref_body(d0, pt1, glist_valx_var_unk, glist_valx_var_nonvar); /* head and second argument are unbound */ PREG = NEXTOP(PREG, xx); UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); END_PREFETCH(); BEGP(pt0); deref_body(d0, pt0, glist_valx_write, glist_valx_read); CACHE_S(); /* enter write mode */ S_SREG = H; BEGD(d1); d1 = XREG(PREG->u.xx.xr); d0 = AbsPair(S_SREG); S_SREG[0] = d1; ENDD(d1); ALWAYS_START_PREFETCH_W(xx); PREG = NEXTOP(PREG, xx); H = S_SREG + 2; WRITEBACK_S(S_SREG+1); Bind(pt0, d0); ALWAYS_GONextW(); ALWAYS_END_PREFETCH_W(); ENDCACHE_S(); ENDP(pt0); ENDD(d0); ENDOpRW(); OpRW(glist_valy, yx); BEGD(d0); d0 = XREG(PREG->u.yx.x); deref_head(d0, glist_valy_write); glist_valy_read: BEGP(pt0); /* did we find a list? */ if (!IsPairTerm(d0)) FAIL(); START_PREFETCH(yx); /* enter read mode */ pt0 = RepPair(d0); SREG = pt0 + 1; /* start unification with first argument */ d0 = *pt0; deref_head(d0, glist_valy_unk); glist_valy_nonvar: /* first argument is bound */ BEGD(d1); BEGP(pt1); pt1 = YREG + PREG->u.yx.y; d1 = *pt1; PREG = NEXTOP(PREG, yx); deref_head(d1, glist_valy_nonvar_unk); glist_valy_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ SREG = pt0 + 1; UnifyBound(d0, d1); /* deref second argument */ derefa_body(d1, pt1, glist_valy_nonvar_unk, glist_valy_nonvar_nonvar); /* first argument bound, second unbound */ Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, glist_valy_unk, glist_valy_nonvar); /* first argument is unbound */ BEGP(pt1); pt1 = YREG+PREG->u.yx.y; d1 = *pt1; deref_head(d1, glist_valy_var_unk); glist_valy_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, yx); Bind_Global(pt0, d1); GONext(); derefa_body(d1, pt1, glist_valy_var_unk, glist_valy_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, yx); UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDD(d1); END_PREFETCH(); ENDP(pt0); BEGP(pt0); deref_body(d0, pt0, glist_valy_write, glist_valy_read); /* enter write mode */ START_PREFETCH_W(yx); BEGP(pt1); pt1 = H; d0 = AbsPair(pt1); Bind(pt0, d0); BEGD(d0); /* include XREG on it */ d0 = YREG[PREG->u.yx.y]; pt1[0] = d0; ENDD(d0); H = pt1 + 2; SREG = pt1 + 1; ENDP(pt1); PREG = NEXTOP(PREG, yx); GONextW(); END_PREFETCH_W(); ENDP(pt0); ENDD(d0); ENDOpRW(); Op(gl_void_varx, xx); BEGD(d0); d0 = XREG(PREG->u.xx.xl); deref_head(d0, glist_void_varx_write); glist_void_varx_read: /* did we find a list? */ if (!IsPairTerm(d0)) FAIL(); ALWAYS_START_PREFETCH(xx); /* enter read mode */ BEGP(pt0); pt0 = RepPair(d0); d0 = pt0[1]; XREG(PREG->u.xx.xr) = d0; PREG = NEXTOP(PREG, xx); ALWAYS_GONext(); ENDP(pt0); ALWAYS_END_PREFETCH(); BEGP(pt0); deref_body(d0, pt0, glist_void_varx_write, glist_void_varx_read); /* enter write mode */ BEGP(pt1); pt1 = H; /* include XREG on it */ XREG(PREG->u.xx.xr) = Unsigned(pt1 + 1); RESET_VARIABLE(pt1); RESET_VARIABLE(pt1+1); H = pt1 + 2; BEGD(d0); d0 = AbsPair(pt1); Bind(pt0, d0); PREG = NEXTOP(PREG, xx); ENDD(d0); ENDP(pt1); GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(gl_void_vary, yx); BEGD(d0); d0 = XREG(PREG->u.yx.x); deref_head(d0, glist_void_vary_write); glist_void_vary_read: /* did we find a list? */ if (!IsPairTerm(d0)) FAIL(); /* enter read mode */ BEGP(pt0); pt0 = RepPair(d0); d0 = pt0[1]; ENDP(pt0); INITIALIZE_PERMVAR(YREG+PREG->u.yx.y,d0); PREG = NEXTOP(PREG, yx); GONext(); BEGP(pt0); deref_body(d0, pt0, glist_void_vary_write, glist_void_vary_read); /* enter write mode */ BEGP(pt1); pt1 = H; /* include XREG on it */ INITIALIZE_PERMVAR(YREG+PREG->u.yx.y,Unsigned(pt1 + 1)); PREG = NEXTOP(PREG, yx); RESET_VARIABLE(pt1); RESET_VARIABLE(pt1+1); d0 = AbsPair(pt1); H = pt1 + 2; Bind(pt0, d0); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d0); ENDOp(); Op(gl_void_valx, xx); BEGD(d0); d0 = XREG(PREG->u.xx.xl); deref_head(d0, glist_void_valx_write); glist_void_valx_read: BEGP(pt0); /* did we find a list? */ if (!IsPairTerm(d0)) FAIL(); /* enter read mode */ pt0 = RepPair(d0)+1; /* start unification with first argument */ d0 = *pt0; deref_head(d0, glist_void_valx_unk); glist_void_valx_nonvar: /* first argument is bound */ BEGD(d1); d1 = XREG(PREG->u.xx.xr); deref_head(d1, glist_void_valx_nonvar_unk); glist_void_valx_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, xx); UnifyBound(d0, d1); /* deref second argument */ BEGP(pt1); deref_body(d1, pt1, glist_void_valx_nonvar_unk, glist_void_valx_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, xx); Bind(pt1, d0); GONext(); ENDP(pt1); ENDD(d1); /* first argument may be unbound */ derefa_body(d0, pt0, glist_void_valx_unk, glist_void_valx_nonvar); /* first argument is unbound */ BEGD(d1); d1 = XREG(PREG->u.xx.xr); deref_head(d1, glist_void_valx_var_unk); glist_void_valx_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, xx); Bind_Global(pt0, d1); GONext(); BEGP(pt1); deref_body(d1, pt1, glist_void_valx_var_unk, glist_void_valx_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, xx); UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDD(d1); ENDP(pt0); BEGP(pt0); deref_body(d0, pt0, glist_void_valx_write, glist_void_valx_read); /* enter write mode */ BEGP(pt1); pt1 = H; d0 = AbsPair(pt1); Bind(pt0, d0); pt1 = H; BEGD(d0); /* include XREG on it */ d0 = XREG(PREG->u.xx.xr); RESET_VARIABLE(pt1); pt1[1] = d0; H = pt1 + 2; ENDD(d0); ENDP(pt1); PREG = NEXTOP(PREG, xx); GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(gl_void_valy, yx); BEGD(d0); d0 = XREG(PREG->u.yx.x); deref_head(d0, glist_void_valy_write); glist_void_valy_read: BEGP(pt0); /* did we find a list? */ if (!IsPairTerm(d0)) FAIL(); /* enter read mode */ pt0 = RepPair(d0)+1; /* start unification with first argument */ d0 = *pt0; deref_head(d0, glist_void_valy_unk); glist_void_valy_nonvar: /* first argument is bound */ BEGD(d1); BEGP(pt1); pt1 = YREG+PREG->u.yx.y; d1 = *pt1; deref_head(d1, glist_void_valy_nonvar_unk); glist_void_valy_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, yx); UnifyBound(d0, d1); /* deref second argument */ derefa_body(d1, pt1, glist_void_valy_nonvar_unk, glist_void_valy_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, yx); Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, glist_void_valy_unk, glist_void_valy_nonvar); /* first argument is unbound */ BEGP(pt1); pt1 = YREG+PREG->u.yx.y; d1 = *pt1; deref_head(d1, glist_void_valy_var_unk); glist_void_valy_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, yx); Bind_Global(pt0, d1); GONext(); deref_body(d1, pt1, glist_void_valy_var_unk, glist_void_valy_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, yx); UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDD(d1); ENDP(pt0); BEGP(pt0); deref_body(d0, pt0, glist_void_valy_write, glist_void_valy_read); /* enter write mode */ CACHE_S(); S_SREG = H; d0 = AbsPair(S_SREG); Bind(pt0, d0); S_SREG = H; /* include XREG on it */ BEGD(d1); d1 = YREG[PREG->u.yx.y]; RESET_VARIABLE(S_SREG); S_SREG[1] = d1; ENDD(d1); PREG = NEXTOP(PREG, yx); H = S_SREG + 2; ENDCACHE_S(); GONext(); ENDP(pt0); ENDD(d0); ENDOp(); /************************************************************************\ * Unify instructions * \************************************************************************/ Op(unify_x_var, ox); CACHE_S(); READ_IN_S(); BEGD(d0); d0 = *S_SREG; #ifdef YAPOR_SBA if (d0 == 0) d0 = (CELL)S_SREG; #endif WRITEBACK_S(S_SREG+1); ALWAYS_START_PREFETCH(ox); XREG(PREG->u.ox.x) = d0; PREG = NEXTOP(PREG, ox); ALWAYS_GONext(); ALWAYS_END_PREFETCH(); ENDD(d0); ENDCACHE_S(); ENDOp(); OpW(unify_x_var_write, ox); CACHE_S(); READ_IN_S(); BEGP(pt0); pt0 = &XREG(PREG->u.ox.x); PREG = NEXTOP(PREG, ox); RESET_VARIABLE(S_SREG); *pt0 = (CELL) S_SREG; WRITEBACK_S(S_SREG+1); ENDP(pt0); ENDCACHE_S(); GONextW(); ENDOpW(); BOp(unify_l_x_var, ox); ALWAYS_START_PREFETCH(ox); BEGP(pt0); BEGD(d0); d0 = SREG[0]; pt0 = &XREG(PREG->u.ox.x); PREG = NEXTOP(PREG, ox); #ifdef YAPOR_SBA if (d0 == 0) d0 = (CELL)SREG; #endif *pt0 = d0; ALWAYS_GONext(); ENDD(d0); ENDP(pt0); ALWAYS_END_PREFETCH(); ENDBOp(); BOp(unify_l_x_var_write, ox); ALWAYS_START_PREFETCH(ox); CACHE_S(); READ_IN_S(); BEGP(pt0); pt0 = &XREG(PREG->u.ox.x); PREG = NEXTOP(PREG, ox); RESET_VARIABLE(S_SREG); *pt0 = (CELL)S_SREG; ENDP(pt0); ENDCACHE_S(); ALWAYS_GONext(); ENDBOp(); ALWAYS_END_PREFETCH(); BOp(unify_x_var2, oxx); CACHE_S(); ALWAYS_START_PREFETCH(oxx); READ_IN_S(); BEGP(pt0); pt0 = &XREG(PREG->u.oxx.xr); BEGD(d0); d0 = S_SREG[0]; BEGD(d1); d1 = S_SREG[1]; #ifdef YAPOR_SBA if (d0 == 0) d0 = (CELL)S_SREG; if (d1 == 0) d1 = (CELL)(S_SREG+1); #endif WRITEBACK_S(S_SREG+2); XREG(PREG->u.oxx.xl) = d0; PREG = NEXTOP(PREG, oxx); *pt0 = d1; ENDD(d0); ENDD(d1); ENDP(pt0); ALWAYS_GONext(); ENDBOp(); ALWAYS_END_PREFETCH(); ENDCACHE_S(); OpW(unify_x_var2_write, oxx); CACHE_S(); READ_IN_S(); BEGP(pt0); pt0 = &XREG(PREG->u.oxx.xr); RESET_VARIABLE(S_SREG); XREG(PREG->u.oxx.xl) = (CELL) S_SREG; S_SREG++; PREG = NEXTOP(PREG, oxx); RESET_VARIABLE(S_SREG); *pt0 = (CELL) S_SREG; ENDP(pt0); WRITEBACK_S(S_SREG+1); ENDCACHE_S(); GONextW(); ENDOpW(); BOp(unify_l_x_var2, oxx); ALWAYS_START_PREFETCH(oxx); CACHE_S(); READ_IN_S(); BEGP(pt0); pt0 = &XREG(PREG->u.oxx.xr); BEGD(d0); d0 = S_SREG[0]; BEGD(d1); d1 = S_SREG[1]; #ifdef YAPOR_SBA if (d0 == 0) XREG(PREG->u.oxx.xl) = (CELL)S_SREG; else #endif XREG(PREG->u.oxx.xl) = d0; PREG = NEXTOP(PREG, oxx); #ifdef YAPOR_SBA if (d1 == 0) *pt0 = (CELL)(S_SREG+1); else #endif *pt0 = d1; ENDD(d0); ENDD(d1); ENDP(pt0); ENDCACHE_S(); ALWAYS_GONext(); ENDBOp(); ALWAYS_END_PREFETCH(); Op(unify_l_x_var2_write, oxx); CACHE_S(); READ_IN_S(); BEGP(pt0); pt0 = &XREG(PREG->u.oxx.xr); XREG(PREG->u.oxx.xl) = (CELL) S_SREG; RESET_VARIABLE(S_SREG); S_SREG++; *pt0 = (CELL) S_SREG; PREG = NEXTOP(PREG, oxx); RESET_VARIABLE(S_SREG); ENDP(pt0); ENDCACHE_S(); GONext(); ENDOp(); Op(unify_y_var, oy); BEGD(d0); d0 = *SREG++; #ifdef YAPOR_SBA if (d0 == 0) { INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,(CELL)(SREG-1)); } else #else INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,d0); #endif /* YAPOR_SBA */ PREG = NEXTOP(PREG, oy); GONext(); ENDD(d0); ENDOp(); OpW(unify_y_var_write, oy); CACHE_S(); READ_IN_S(); INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,(CELL) S_SREG); PREG = NEXTOP(PREG, oy); RESET_VARIABLE(S_SREG); WRITEBACK_S(S_SREG+1); ENDCACHE_S(); GONextW(); ENDOpW(); Op(unify_l_y_var, oy); BEGD(d0); d0 = SREG[0]; #ifdef YAPOR_SBA if (d0 == 0) { INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,(CELL)SREG); } else #else INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,d0); #endif /* YAPOR_SBA */ PREG = NEXTOP(PREG, oy); GONext(); ENDD(d0); ENDOp(); Op(unify_l_y_var_write, oy); CACHE_S(); READ_IN_S(); INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,(CELL) S_SREG); PREG = NEXTOP(PREG, oy); RESET_VARIABLE(S_SREG); ENDCACHE_S(); GONext(); ENDOp(); /* We assume the value in X is pointing to an object in the * global stack */ Op(unify_x_val, ox); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, uvalx_unk); uvalx_nonvar: /* first argument is bound */ d1 = XREG(PREG->u.ox.x); deref_head(d1, uvalx_nonvar_unk); uvalx_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, ox); SREG++; UnifyBound(d0, d1); /* deref second argument */ /* pt0 is in the structure and pt1 the register */ BEGP(pt1); deref_body(d1, pt1, uvalx_nonvar_unk, uvalx_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, ox); SREG++; Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, uvalx_unk, uvalx_nonvar); /* first argument is unbound */ d1 = XREG(PREG->u.ox.x); deref_head(d1, uvalx_var_unk); uvalx_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, ox); SREG++; Bind_Global(pt0, d1); GONext(); BEGP(pt1); deref_body(d1, pt1, uvalx_var_unk, uvalx_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, ox); SREG++; UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); OpW(unify_x_val_write, ox); /* we are in write mode */ *SREG++ = XREG(PREG->u.ox.x); PREG = NEXTOP(PREG, ox); GONextW(); ENDOpW(); /* We assume the value in X is pointing to an object in the * global stack */ Op(unify_l_x_val, ox); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, ulvalx_unk); ulvalx_nonvar: /* first argument is bound */ d1 = XREG(PREG->u.ox.x); deref_head(d1, ulvalx_nonvar_unk); ulvalx_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, ox); UnifyBound(d0, d1); BEGP(pt1); /* deref second argument */ deref_body(d1, pt1, ulvalx_nonvar_unk, ulvalx_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, ox); Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, ulvalx_unk, ulvalx_nonvar); /* first argument is unbound */ d1 = XREG(PREG->u.ox.x); deref_head(d1, ulvalx_var_unk); ulvalx_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, ox); Bind_Global(pt0, d1); GONext(); BEGP(pt1); deref_body(d1, pt1, ulvalx_var_unk, ulvalx_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, ox); UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(unify_l_x_val_write, ox); /* we are in write mode */ SREG[0] = XREG(PREG->u.ox.x); PREG = NEXTOP(PREG, ox); GONext(); ENDOp(); /* We assume the value in X is pointing to an object in the * global stack */ Op(unify_y_val, oy); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, uvaly_unk); uvaly_nonvar: /* first argument is bound */ BEGP(pt1); pt1 = YREG+PREG->u.oy.y; d1 = *pt1; deref_head(d1, uvaly_nonvar_unk); uvaly_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, oy); SREG++; UnifyBound(d0, d1); /* deref second argument */ derefa_body(d1, pt1, uvaly_nonvar_unk, uvaly_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, oy); SREG++; Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, uvaly_unk, uvaly_nonvar); /* first argument is unbound */ BEGP(pt1); pt1 = YREG+PREG->u.oy.y; d1 = *pt1; deref_head(d1, uvaly_var_unk); uvaly_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, oy); SREG++; Bind_Global(pt0, d1); GONext(); derefa_body(d1, pt1, uvaly_var_unk, uvaly_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, oy); SREG++; UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); OpW(unify_y_val_write, oy); /* we are in write mode */ BEGD(d0); d0 = YREG[PREG->u.oy.y]; #ifdef YAPOR_SBA if (d0 == 0) /* free variable */ *SREG++ = (CELL)(YREG+PREG->u.oy.y); else #endif *SREG++ = d0; ENDD(d0); PREG = NEXTOP(PREG, oy); GONextW(); ENDOpW(); /* We assume the value in X is pointing to an object in the * global stack */ Op(unify_l_y_val, oy); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, ulvaly_unk); ulvaly_nonvar: /* first argument is bound */ BEGP(pt1); pt1 = YREG+PREG->u.oy.y; d1 = *pt1; deref_head(d1, ulvaly_nonvar_unk); ulvaly_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, oy); UnifyBound(d0, d1); /* deref second argument */ derefa_body(d1, pt1, ulvaly_nonvar_unk, ulvaly_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, oy); Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, ulvaly_unk, ulvaly_nonvar); /* first argument is unbound */ BEGP(pt1); pt1 = YREG+PREG->u.oy.y; d1 = *pt1; deref_head(d1, ulvaly_var_unk); ulvaly_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, oy); Bind_Global(pt0, d1); GONext(); /* Here we are in trouble: we have a clash between pt1 and * SREG. We address this by storing SREG in d0 for the duration. */ derefa_body(d1, pt1, ulvaly_var_unk, ulvaly_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, oy); UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(unify_l_y_val_write, oy); /* we are in write mode */ BEGD(d0); d0 = YREG[PREG->u.oy.y]; #ifdef YAPOR_SBA if (d0 == 0) /* new variable */ SREG[0] = (CELL)(YREG+PREG->u.oy.y); else #endif SREG[0] = d0; ENDD(d0); PREG = NEXTOP(PREG, oy); GONext(); ENDOp(); /* In the next instructions, we do not know anything about * what is in X */ Op(unify_x_loc, ox); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, uvalx_loc_unk); uvalx_loc_nonvar: /* first argument is bound */ d1 = XREG(PREG->u.ox.x); deref_head(d1, uvalx_loc_nonvar_unk); uvalx_loc_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, ox); SREG++; UnifyBound(d0, d1); BEGP(pt1); /* deref second argument */ deref_body(d1, pt1, uvalx_loc_nonvar_unk, uvalx_loc_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, ox); SREG++; Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, uvalx_loc_unk, uvalx_loc_nonvar); /* first argument is unbound */ d1 = XREG(PREG->u.ox.x); deref_head(d1, uvalx_loc_var_unk); uvalx_loc_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, ox); SREG++; Bind_Global(pt0, d1); GONext(); /* Here we are in trouble: we have a clash between pt1 and * SREG. We address this by storing SREG in d0 for the duration. */ BEGP(pt1); deref_body(d1, pt1, uvalx_loc_var_unk, uvalx_loc_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, ox); SREG++; UnifyCells(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); OpW(unify_x_loc_write, ox); /* we are in write mode */ BEGD(d0); d0 = XREG(PREG->u.ox.x); deref_head(d0, unify_x_loc_unk); unify_x_loc_nonvar: *SREG++ = d0; PREG = NEXTOP(PREG, ox); GONextW(); BEGP(pt0); deref_body(d0, pt0, unify_x_loc_unk, unify_x_loc_nonvar); /* move ahead in the instructions */ PREG = NEXTOP(PREG, ox); /* d0 is a variable, check whether we need to globalise it */ if (pt0 < H) { /* variable is global */ *SREG++ = Unsigned(pt0); GONextW(); } else { /* bind our variable to the structure */ CACHE_S(); READ_IN_S(); Bind_Local(pt0, Unsigned(S_SREG)); RESET_VARIABLE(S_SREG); WRITEBACK_S(S_SREG+1); ENDCACHE_S(); GONextW(); } ENDP(pt0); ENDD(d0); ENDOpW(); /* In the next instructions, we do not know anything about * what is in X */ Op(unify_l_x_loc, ox); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, ulvalx_loc_unk); ulvalx_loc_nonvar: /* first argument is bound */ d1 = XREG(PREG->u.ox.x); deref_head(d1, ulvalx_loc_nonvar_unk); ulvalx_loc_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, ox); UnifyBound(d0, d1); /* deref second argument */ deref_body(d1, pt0, ulvalx_loc_nonvar_unk, ulvalx_loc_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, ox); Bind(pt0, d0); GONext(); /* first argument may be unbound */ derefa_body(d0, pt0, ulvalx_loc_unk, ulvalx_loc_nonvar); /* first argument is unbound */ d1 = XREG(PREG->u.ox.x); deref_head(d1, ulvalx_loc_var_unk); ulvalx_loc_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, ox); Bind_Global(pt0, d1); GONext(); BEGP(pt1); deref_body(d1, pt1, ulvalx_loc_var_unk, ulvalx_loc_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, ox); UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(unify_l_x_loc_write, ox); /* we are in write mode */ BEGD(d0); d0 = XREG(PREG->u.ox.x); deref_head(d0, ulnify_x_loc_unk); ulnify_x_loc_nonvar: SREG[0] = d0; PREG = NEXTOP(PREG, ox); GONext(); BEGP(pt0); deref_body(d0, pt0, ulnify_x_loc_unk, ulnify_x_loc_nonvar); /* d0 is a variable, check whether we need to globalise it */ PREG = NEXTOP(PREG, ox); if (pt0 < H) { /* variable is global */ SREG[0] = Unsigned(pt0); GONext(); } else { /* create a new Heap variable and bind our variable to it */ Bind_Local(pt0, Unsigned(SREG)); RESET_VARIABLE(SREG); GONext(); } ENDP(pt0); ENDD(d0); ENDOpW(); Op(unify_y_loc, oy); /* we are in read mode */ BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, uvaly_loc_unk); uvaly_loc_nonvar: /* structure is bound */ BEGP(pt1); pt1 = YREG+PREG->u.oy.y; d1 = *pt1; deref_head(d1, uvaly_loc_nonvar_unk); uvaly_loc_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, oy); SREG++; UnifyBound(d0, d1); /* deref second argument */ derefa_body(d1, pt1, uvaly_loc_nonvar_unk, uvaly_loc_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, oy); SREG++; Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, uvaly_loc_unk, uvaly_loc_nonvar); /* first argument is unbound */ BEGP(pt1); pt1 = YREG+PREG->u.oy.y; d1 = *pt1; deref_head(d1, uvaly_loc_var_unk); uvaly_loc_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, oy); SREG++; Bind_Global(pt0, d1); GONext(); /* Here we are in trouble: we have a clash between pt1 and * SREG. We address this by storing SREG in d0 for the duration. */ derefa_body(d1, pt1, uvaly_loc_var_unk, uvaly_loc_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, oy); SREG++; UnifyCells(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); OpW(unify_y_loc_write, oy); /* we are in write mode */ BEGD(d0); BEGP(pt0); pt0 = YREG+PREG->u.oy.y; d0 = *pt0; deref_head(d0, unify_y_loc_unk); unify_y_loc_nonvar: *SREG++ = d0; PREG = NEXTOP(PREG, oy); GONextW(); derefa_body(d0, pt0, unify_y_loc_unk, unify_y_loc_nonvar); /* d0 is a variable, check whether we need to globalise it */ PREG = NEXTOP(PREG, oy); if (pt0 < H) { /* variable is global */ *SREG++ = Unsigned(pt0); GONextW(); } else { /* create a new Heap variable and bind our variable to it */ CACHE_S(); READ_IN_S(); Bind_Local(pt0, Unsigned(S_SREG)); RESET_VARIABLE(S_SREG); WRITEBACK_S(S_SREG+1); ENDCACHE_S(); GONextW(); } ENDP(pt0); ENDD(d0); ENDOpW(); Op(unify_l_y_loc, oy); /* else we are in read mode */ BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, ulvaly_loc_unk); ulvaly_loc_nonvar: /* structure is bound */ BEGP(pt1); pt1 = YREG+PREG->u.oy.y; d1 = *pt1; deref_head(d1, ulvaly_loc_nonvar_unk); ulvaly_loc_nonvar_nonvar: /* both arguments are bound */ /* we may have to bind structures */ PREG = NEXTOP(PREG, oy); UnifyBound(d0, d1); /* deref second argument */ derefa_body(d1, pt1, ulvaly_loc_nonvar_unk, ulvaly_loc_nonvar_nonvar); /* first argument bound, second unbound */ PREG = NEXTOP(PREG, oy); Bind(pt1, d0); GONext(); ENDP(pt1); /* first argument may be unbound */ derefa_body(d0, pt0, ulvaly_loc_unk, ulvaly_loc_nonvar); /* first argument is unbound */ BEGP(pt1); pt1 = YREG+PREG->u.oy.y; d1 = *pt1; deref_head(d1, ulvaly_loc_var_unk); ulvaly_loc_var_nonvar: /* first unbound, second bound */ PREG = NEXTOP(PREG, oy); Bind_Global(pt0, d1); GONext(); /* Here we are in trouble: we have a clash between pt1 and * SREG. We address this by storing SREG in d0 for the duration. */ derefa_body(d1, pt1, ulvaly_loc_var_unk, ulvaly_loc_var_nonvar); /* both arguments are unbound */ PREG = NEXTOP(PREG, oy); UnifyGlobalCellToCell(pt0, pt1); GONext(); ENDP(pt1); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(unify_l_y_loc_write, oy); /* we are in write mode */ BEGD(d0); BEGP(pt0); pt0 = YREG+PREG->u.oy.y; d0 = *pt0; deref_head(d0, ulunify_y_loc_unk); ulunify_y_loc_nonvar: SREG[0] = d0; PREG = NEXTOP(PREG, oy); GONext(); derefa_body(d0, pt0, ulunify_y_loc_unk, ulunify_y_loc_nonvar); /* d0 is a variable, check whether we need to globalise it */ PREG = NEXTOP(PREG, oy); if (pt0 < H) { /* variable is global */ SREG[0] = Unsigned(pt0); GONext(); } else { /* create a new Heap variable and bind our variable to it */ CACHE_S(); READ_IN_S(); Bind_Local(pt0, Unsigned(S_SREG)); RESET_VARIABLE(S_SREG); ENDCACHE_S(); GONext(); } ENDP(pt0); ENDD(d0); ENDOp(); Op(unify_void, o); START_PREFETCH(o); PREG = NEXTOP(PREG, o); SREG++; GONext(); END_PREFETCH(); ENDOp(); OpW(unify_void_write, o); CACHE_S(); READ_IN_S(); PREG = NEXTOP(PREG, o); RESET_VARIABLE(S_SREG); WRITEBACK_S(S_SREG+1); ENDCACHE_S(); GONextW(); ENDOpW(); Op(unify_l_void, o); PREG = NEXTOP(PREG, o); GONext(); ENDOp(); Op(unify_l_void_write, o); PREG = NEXTOP(PREG, o); RESET_VARIABLE(SREG); GONext(); ENDOp(); Op(unify_n_voids, os); SREG += PREG->u.os.s; PREG = NEXTOP(PREG, os); GONext(); ENDOp(); OpW(unify_n_voids_write, os); BEGD(d0); CACHE_S(); d0 = PREG->u.os.s; READ_IN_S(); PREG = NEXTOP(PREG, os); for (; d0 > 0; d0--) { RESET_VARIABLE(S_SREG); S_SREG++; } WRITEBACK_S(S_SREG); ENDCACHE_S(); ENDD(d0); GONextW(); ENDOpW(); Op(unify_l_n_voids, os); PREG = NEXTOP(PREG, os); GONext(); ENDOp(); Op(unify_l_n_voids_write, os); BEGD(d0); d0 = PREG->u.os.s; PREG = NEXTOP(PREG, os); CACHE_S(); READ_IN_S(); for (; d0 > 0; d0--) { RESET_VARIABLE(S_SREG); S_SREG++; } ENDCACHE_S(); ENDD(d0); GONext(); ENDOp(); Op(unify_atom, oc); BEGD(d0); BEGP(pt0); pt0 = SREG++; d0 = *pt0; deref_head(d0, uatom_unk); uatom_nonvar: if (d0 != PREG->u.oc.c) { FAIL(); } PREG = NEXTOP(PREG, oc); GONext(); derefa_body(d0, pt0, uatom_unk, uatom_nonvar); d0 = PREG->u.oc.c; PREG = NEXTOP(PREG, oc); Bind_Global(pt0, d0); GONext(); ENDP(pt0); ENDD(d0); ENDOp(); OpW(unify_atom_write, oc); * SREG++ = PREG->u.oc.c; PREG = NEXTOP(PREG, oc); GONextW(); ENDOpW(); Op(unify_l_atom, oc); BEGD(d0); BEGP(pt0); pt0 = SREG; d0 = *SREG; deref_head(d0, ulatom_unk); ulatom_nonvar: if (d0 != PREG->u.oc.c) { FAIL(); } PREG = NEXTOP(PREG, oc); GONext(); derefa_body(d0, pt0, ulatom_unk, ulatom_nonvar); d0 = PREG->u.oc.c; PREG = NEXTOP(PREG, oc); Bind_Global(pt0, d0); GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(unify_l_atom_write, oc); SREG[0] = PREG->u.oc.c; PREG = NEXTOP(PREG, oc); GONext(); ENDOp(); Op(unify_n_atoms, osc); { register Int i = PREG->u.osc.s; /* not enough registers */ BEGD(d1); d1 = PREG->u.osc.c; for (; i > 0; i--) { BEGD(d0); BEGP(pt0); pt0 = SREG++; d0 = *pt0; deref_head(d0, uatom_n_var); uatom_n_nonvar: if (d0 != d1) { FAIL(); } continue; derefa_body(d0, pt0, uatom_n_var, uatom_n_nonvar); Bind_Global(pt0, d1); continue; ENDP(pt0); ENDD(d0); } ENDD(d1); } PREG = NEXTOP(PREG, osc); GONext(); ENDOp(); OpW(unify_n_atoms_write, osc); BEGD(d0); BEGD(d1); d0 = PREG->u.osc.s; d1 = PREG->u.osc.c; /* write N atoms */ CACHE_S(); READ_IN_S(); PREG = NEXTOP(PREG, osc); for (; d0 > 0; d0--) *S_SREG++ = d1; WRITEBACK_S(S_SREG); ENDCACHE_S(); ENDD(d1); ENDD(d0); GONextW(); ENDOpW(); Op(unify_float, od); BEGD(d0); BEGP(pt0); pt0 = SREG++; d0 = *pt0; deref_head(d0, ufloat_unk); ufloat_nonvar: if (!IsApplTerm(d0)) { FAIL(); } /* look inside term */ BEGP(pt0); pt0 = RepAppl(d0); BEGD(d0); d0 = *pt0; if (d0 != (CELL)FunctorDouble) { FAIL(); } ENDD(d0); BEGP(pt1); pt1 = PREG->u.od.d; PREG = NEXTOP(PREG, od); if ( pt1[1] != pt0[1] #if SIZEOF_DOUBLE == 2*SIZEOF_INT_P || pt1[2] != pt0[2] #endif ) FAIL(); ENDP(pt1); ENDP(pt0); GONext(); derefa_body(d0, pt0, ufloat_unk, ufloat_nonvar); BEGD(d1); d1 = AbsAppl(PREG->u.od.d); PREG = NEXTOP(PREG, od); Bind_Global(pt0, d1); GONext(); ENDD(d1); ENDP(pt0); ENDD(d0); ENDOp(); OpW(unify_float_write, od); * SREG++ = AbsAppl(PREG->u.od.d); PREG = NEXTOP(PREG, od); GONextW(); ENDOpW(); Op(unify_l_float, od); BEGD(d0); CACHE_S(); READ_IN_S(); d0 = *S_SREG; deref_head(d0, ulfloat_unk); ulfloat_nonvar: if (!IsApplTerm(d0)) { FAIL(); } BEGP(pt0); pt0 = RepAppl(d0); BEGD(d0); d0 = *pt0; if (d0 != (CELL)FunctorDouble) { FAIL(); } ENDD(d0); BEGP(pt1); pt1 = PREG->u.od.d; PREG = NEXTOP(PREG, od); if ( pt1[1] != pt0[1] #if SIZEOF_DOUBLE == 2*SIZEOF_INT_P || pt1[2] != pt0[2] #endif ) FAIL(); ENDP(pt1); ENDP(pt0); GONext(); derefa_body(d0, S_SREG, ulfloat_unk, ulfloat_nonvar); BEGD(d1); d1 = AbsAppl(PREG->u.od.d); PREG = NEXTOP(PREG, od); Bind_Global(S_SREG, d1); GONext(); ENDD(d1); ENDCACHE_S(); ENDD(d0); ENDOp(); Op(unify_l_float_write, od); SREG[0] = AbsAppl(PREG->u.od.d); PREG = NEXTOP(PREG, od); GONext(); ENDOp(); Op(unify_longint, oi); BEGD(d0); BEGP(pt0); pt0 = SREG++; d0 = *pt0; deref_head(d0, ulongint_unk); ulongint_nonvar: /* look inside term */ if (!IsApplTerm(d0)) { FAIL(); } BEGP(pt0); pt0 = RepAppl(d0); BEGD(d0); d0 = *pt0; if (d0 != (CELL)FunctorLongInt) { FAIL(); } ENDD(d0); BEGP(pt1); pt1 = PREG->u.oi.i; PREG = NEXTOP(PREG, oi); if (pt1[1] != pt0[1]) FAIL(); ENDP(pt1); ENDP(pt0); GONext(); derefa_body(d0, pt0, ulongint_unk, ulongint_nonvar); BEGD(d1); d1 = AbsAppl(PREG->u.oi.i); PREG = NEXTOP(PREG, oi); Bind_Global(pt0, d1); GONext(); ENDD(d1); ENDP(pt0); ENDD(d0); ENDOp(); OpW(unify_longint_write, oi); * SREG++ = AbsAppl(PREG->u.oi.i); PREG = NEXTOP(PREG, oi); GONextW(); ENDOpW(); Op(unify_l_longint, oi); BEGD(d0); CACHE_S(); READ_IN_S(); d0 = *S_SREG; deref_head(d0, ullongint_unk); ullongint_nonvar: if (!IsApplTerm(d0)) { FAIL(); } BEGP(pt0); pt0 = RepAppl(d0); BEGD(d0); d0 = *pt0; if (d0 != (CELL)FunctorLongInt) { FAIL(); } ENDD(d0); BEGP(pt1); pt1 = PREG->u.oi.i; PREG = NEXTOP(PREG, oi); if (pt1[1] != pt0[1]) FAIL(); ENDP(pt1); ENDP(pt0); GONext(); derefa_body(d0, S_SREG, ullongint_unk, ullongint_nonvar); BEGD(d1); d1 = AbsAppl(PREG->u.oi.i); PREG = NEXTOP(PREG, oi); Bind_Global(S_SREG, d1); GONext(); ENDD(d1); ENDCACHE_S(); ENDD(d0); ENDOp(); Op(unify_l_longint_write, oi); SREG[0] = AbsAppl(PREG->u.oi.i); PREG = NEXTOP(PREG, oi); GONext(); ENDOp(); Op(unify_bigint, oN); #ifdef USE_GMP BEGD(d0); BEGP(pt0); pt0 = SREG++; d0 = *pt0; deref_head(d0, ubigint_unk); ubigint_nonvar: /* look inside term */ if (!IsApplTerm(d0)) { FAIL(); } BEGP(pt0); pt0 = RepAppl(d0); BEGD(d1); d1 = *pt0; if (d1 != (CELL)FunctorBigInt) { FAIL(); } ENDD(d1); if (Yap_gmp_tcmp_big_big(d0,PREG->u.oN.b)) FAIL(); PREG = NEXTOP(PREG, oN); ENDP(pt0); GONext(); derefa_body(d0, pt0, ubigint_unk, ubigint_nonvar); BEGD(d1); d1 = PREG->u.oN.b; PREG = NEXTOP(PREG, oN); Bind_Global(pt0, d1); GONext(); ENDD(d1); ENDP(pt0); ENDD(d0); #else FAIL(); #endif ENDOp(); Op(unify_l_bigint, oN); #ifdef USE_GMP BEGD(d0); CACHE_S(); READ_IN_S(); d0 = *S_SREG; deref_head(d0, ulbigint_unk); ulbigint_nonvar: if (!IsApplTerm(d0)) { FAIL(); } BEGP(pt0); pt0 = RepAppl(d0); BEGD(d0); d0 = *pt0; if (d0 != (CELL)FunctorBigInt) { FAIL(); } ENDD(d0); if (Yap_gmp_tcmp_big_big(d0,PREG->u.oN.b)) FAIL(); PREG = NEXTOP(PREG, oN); ENDP(pt0); GONext(); derefa_body(d0, S_SREG, ulbigint_unk, ulbigint_nonvar); BEGD(d1); d1 = PREG->u.oN.b; PREG = NEXTOP(PREG, oN); Bind_Global(S_SREG, d1); GONext(); ENDD(d1); ENDCACHE_S(); ENDD(d0); #else FAIL(); #endif ENDOp(); Op(unify_dbterm, oD); BEGD(d0); BEGP(pt0); pt0 = SREG++; d0 = *pt0; deref_head(d0, udbterm_unk); udbterm_nonvar: BEGD(d1); /* we have met a preexisting dbterm */ d1 = PREG->u.oD.D; PREG = NEXTOP(PREG, oD); UnifyBound(d0,d1); ENDD(d1); derefa_body(d0, pt0, udbterm_unk, udbterm_nonvar); BEGD(d1); d1 = PREG->u.oD.D; PREG = NEXTOP(PREG, oD); Bind_Global(pt0, d1); GONext(); ENDD(d1); ENDP(pt0); ENDD(d0); ENDOp(); Op(unify_l_dbterm, oD); BEGD(d0); CACHE_S(); READ_IN_S(); d0 = *S_SREG; deref_head(d0, uldbterm_unk); uldbterm_nonvar: BEGD(d1); /* we have met a preexisting dbterm */ d1 = PREG->u.oD.D; PREG = NEXTOP(PREG, oD); UnifyBound(d0,d1); ENDD(d1); derefa_body(d0, S_SREG, uldbterm_unk, uldbterm_nonvar); BEGD(d1); d1 = PREG->u.oD.D; PREG = NEXTOP(PREG, oD); Bind_Global(S_SREG, d1); GONext(); ENDD(d1); ENDCACHE_S(); ENDD(d0); ENDOp(); OpRW(unify_list, o); *--SP = Unsigned(SREG + 1); *--SP = READ_MODE; BEGD(d0); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, ulist_unk); ulist_nonvar: if (!IsPairTerm(d0)) { FAIL(); } /* we continue in read mode */ START_PREFETCH(o); SREG = RepPair(d0); PREG = NEXTOP(PREG, o); GONext(); END_PREFETCH(); derefa_body(d0, pt0, ulist_unk, ulist_nonvar); /* we enter write mode */ START_PREFETCH_W(o); CACHE_S(); READ_IN_S(); S_SREG = H; PREG = NEXTOP(PREG, o); H = S_SREG + 2; d0 = AbsPair(S_SREG); WRITEBACK_S(S_SREG); ENDCACHE_S(); Bind_Global(pt0, d0); GONextW(); END_PREFETCH_W(); ENDP(pt0); ENDD(d0); ENDOpRW(); OpW(unify_list_write, o); PREG = NEXTOP(PREG, o); BEGD(d0); d0 = AbsPair(H); CACHE_S(); READ_IN_S(); SP -= 2; SP[0] = WRITE_MODE; SP[1] = Unsigned(S_SREG + 1); S_SREG[0] = d0; S_SREG = H; H = S_SREG + 2; WRITEBACK_S(S_SREG); ENDCACHE_S(); GONextW(); ENDD(d0); ENDOpW(); OpRW(unify_l_list, o); BEGD(d0); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, ullist_unk); ullist_nonvar: START_PREFETCH(o); if (!IsPairTerm(d0)) { FAIL(); } /* we continue in read mode */ PREG = NEXTOP(PREG, o); SREG = RepPair(d0); GONext(); END_PREFETCH(); derefa_body(d0, pt0, ullist_unk, ullist_nonvar); /* we enter write mode */ START_PREFETCH_W(o); PREG = NEXTOP(PREG, o); CACHE_S(); READ_IN_S(); S_SREG = H; H = S_SREG + 2; d0 = AbsPair(S_SREG); WRITEBACK_S(S_SREG); ENDCACHE_S(); Bind_Global(pt0, d0); GONextW(); END_PREFETCH_W(); ENDP(pt0); ENDD(d0); ENDOpRW(); OpW(unify_l_list_write, o); /* we continue in write mode */ BEGD(d0); d0 = AbsPair(H); PREG = NEXTOP(PREG, o); CACHE_S(); READ_IN_S(); S_SREG[0] = d0; S_SREG = H; H = S_SREG + 2; WRITEBACK_S(S_SREG); ENDCACHE_S(); GONextW(); ENDD(d0); ENDOpW(); OpRW(unify_struct, ofa); *--SP = Unsigned(SREG + 1); *--SP = READ_MODE; BEGD(d0); BEGP(pt0); pt0 = SREG; d0 = *pt0; START_PREFETCH(ofa); deref_head(d0, ustruct_unk); ustruct_nonvar: /* we are in read mode */ if (!IsApplTerm(d0)) { FAIL(); } CACHE_S(); READ_IN_S(); /* we continue in read mode */ S_SREG = RepAppl(d0); /* just check functor */ d0 = (CELL) (PREG->u.ofa.f); if (*S_SREG != d0) { FAIL(); } PREG = NEXTOP(PREG, ofa); WRITEBACK_S(S_SREG+1); ENDCACHE_S(); GONext(); END_PREFETCH(); derefa_body(d0, pt0, ustruct_unk, ustruct_nonvar); /* Enter Write mode */ START_PREFETCH_W(ofa); /* set d1 to be the new structure we are going to create */ BEGD(d1); d1 = AbsAppl(H); /* we know the variable must be in the heap */ Bind_Global(pt0, d1); /* now, set pt0 to point to the heap where we are going to * build our term */ pt0 = H; ENDD(d1); /* first, put the functor */ d0 = (CELL) (PREG->u.ofa.f); *pt0++ = d0; H = pt0 + PREG->u.ofa.a; PREG = NEXTOP(PREG, ofa); /* set SREG */ SREG = pt0; /* update H */ GONextW(); END_PREFETCH_W(); ENDP(pt0); ENDD(d0); ENDOpRW(); OpW(unify_struct_write, ofa); CACHE_S(); READ_IN_S(); *--SP = Unsigned(S_SREG + 1); *--SP = WRITE_MODE; /* we continue in write mode */ BEGD(d0); d0 = AbsAppl(H); S_SREG[0] = d0; S_SREG = H; d0 = (CELL) (PREG->u.ofa.f); *S_SREG++ = d0; H = S_SREG + PREG->u.ofa.a; PREG = NEXTOP(PREG, ofa); WRITEBACK_S(S_SREG); ENDCACHE_S(); ENDD(d0); GONextW(); ENDOpW(); OpRW(unify_l_struc, ofa); BEGD(d0); BEGP(pt0); pt0 = SREG; d0 = *pt0; deref_head(d0, ulstruct_unk); ulstruct_nonvar: /* we are in read mode */ START_PREFETCH(ofa); if (!IsApplTerm(d0)) { FAIL(); } /* we continue in read mode */ SREG = RepAppl(d0); /* just check functor */ d0 = (CELL) (PREG->u.ofa.f); if (*SREG++ != d0) { FAIL(); } PREG = NEXTOP(PREG, ofa); GONext(); END_PREFETCH(); derefa_body(d0, pt0, ulstruct_unk, ulstruct_nonvar); /* Enter Write mode */ /* set d1 to be the new structure we are going to create */ START_PREFETCH_W(ofa); BEGD(d1); d1 = AbsAppl(H); /* we know the variable must be in the heap */ Bind_Global(pt0, d1); /* now, set pt0 to point to the heap where we are going to * build our term */ pt0 = H; ENDD(d1); /* first, put the functor */ d0 = (CELL) (PREG->u.ofa.f); *pt0++ = d0; H = pt0 + PREG->u.ofa.a; PREG = NEXTOP(PREG, ofa); /* set SREG */ SREG = pt0; /* update H */ GONextW(); END_PREFETCH_W(); ENDP(pt0); ENDD(d0); ENDOpRW(); OpW(unify_l_struc_write, ofa); BEGD(d0); d0 = AbsAppl(H); CACHE_S(); READ_IN_S(); S_SREG[0] = d0; S_SREG = H; d0 = (CELL) (PREG->u.ofa.f); *S_SREG++ = d0; H = S_SREG + PREG->u.ofa.a; PREG = NEXTOP(PREG, ofa); WRITEBACK_S(S_SREG); ENDCACHE_S(); ENDD(d0); GONextW(); ENDOpW(); /************************************************************************\ * Put Instructions * \************************************************************************/ Op(put_x_var, xx); BEGP(pt0); pt0 = H; XREG(PREG->u.xx.xl) = Unsigned(pt0); H = pt0 + 1; XREG(PREG->u.xx.xr) = Unsigned(pt0); PREG = NEXTOP(PREG, xx); RESET_VARIABLE(pt0); ENDP(pt0); GONext(); ENDOp(); Op(put_y_var, yx); BEGP(pt0); pt0 = YREG + PREG->u.yx.y; XREG(PREG->u.yx.x) = (CELL) pt0; PREG = NEXTOP(PREG, yx); #if defined(YAPOR_SBA) && defined(FROZEN_STACKS) /* We must initialise a shared variable to point to the SBA */ if (Unsigned((Int)(pt0)-(Int)(H_FZ)) > Unsigned((Int)(B_FZ)-(Int)(H_FZ))) { *pt0 = (CELL)STACK_TO_SBA(pt0); } else #endif /* YAPOR_SBA && FROZEN_STACKS */ INITIALIZE_PERMVAR(pt0, (CELL)pt0); ENDP(pt0); GONext(); ENDOp(); Op(put_x_val, xx); BEGD(d0); d0 = XREG(PREG->u.xx.xl); XREG(PREG->u.xx.xr) = d0; ENDD(d0); PREG = NEXTOP(PREG, xx); GONext(); ENDOp(); Op(put_xx_val, xxxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.xxxx.xl1); d1 = XREG(PREG->u.xxxx.xl2); XREG(PREG->u.xxxx.xr1) = d0; XREG(PREG->u.xxxx.xr2) = d1; ENDD(d1); ENDD(d0); PREG = NEXTOP(PREG, xxxx); GONext(); ENDOp(); Op(put_y_val, yx); BEGD(d0); d0 = YREG[PREG->u.yx.y]; #ifdef YAPOR_SBA if (d0 == 0) /* new variable */ XREG(PREG->u.yx.x) = (CELL)(YREG+PREG->u.yx.y); else #endif XREG(PREG->u.yx.x) = d0; ENDD(d0); PREG = NEXTOP(PREG, yx); GONext(); ENDOp(); Op(put_y_vals, yyxx); ALWAYS_START_PREFETCH(yyxx); BEGD(d0); d0 = YREG[PREG->u.yyxx.y1]; #ifdef YAPOR_SBA if (d0 == 0) /* new variable */ XREG(PREG->u.yyxx.x1) = (CELL)(YREG+PREG->u.yyxx.y1); else #endif XREG(PREG->u.yyxx.x1) = d0; ENDD(d0); /* allow for some prefetching */ PREG = NEXTOP(PREG, yyxx); BEGD(d1); d1 = YREG[PREVOP(PREG,yyxx)->u.yyxx.y2]; #ifdef YAPOR_SBA if (d1 == 0) /* new variable */ XREG(PREVOP(PREG->u.yyxx,yyxx).x2) = (CELL)(YREG+PREG->u.yyxx.y2); else #endif XREG(PREVOP(PREG,yyxx)->u.yyxx.x2) = d1; ENDD(d1); ALWAYS_GONext(); ALWAYS_END_PREFETCH(); ENDOp(); Op(put_unsafe, yx); BEGD(d0); BEGP(pt0); pt0 = YREG+PREG->u.yx.y; d0 = *pt0; deref_head(d0, punsafe_unk); punsafe_nonvar: XREG(PREG->u.yx.x) = d0; PREG = NEXTOP(PREG, yx); GONext(); derefa_body(d0, pt0, punsafe_unk, punsafe_nonvar); /* d0 is a variable, check whether we need to globalise it */ if (pt0 <= H || pt0 >= YREG) { /* variable is safe */ XREG(PREG->u.yx.x) = Unsigned(pt0); PREG = NEXTOP(PREG, yx); GONext(); } else { /* create a new Heap variable and bind our variable to it */ Bind_Local(pt0, Unsigned(H)); XREG(PREG->u.yx.x) = (CELL) H; RESET_VARIABLE(H); H++; PREG = NEXTOP(PREG, yx); GONext(); } ENDP(pt0); ENDD(d0); ENDOp(); Op(put_atom, xc); BEGD(d0); d0 = PREG->u.xc.c; XREG(PREG->u.xc.x) = d0; PREG = NEXTOP(PREG, xc); GONext(); ENDD(d0); ENDOp(); Op(put_dbterm, xD); BEGD(d0); d0 = PREG->u.xD.D; XREG(PREG->u.xD.x) = d0; PREG = NEXTOP(PREG, xD); GONext(); ENDD(d0); ENDOp(); Op(put_bigint, xN); BEGD(d0); d0 = PREG->u.xN.b; XREG(PREG->u.xN.x) = d0; PREG = NEXTOP(PREG, xN); GONext(); ENDD(d0); ENDOp(); Op(put_float, xd); BEGD(d0); d0 = AbsAppl(PREG->u.xd.d); XREG(PREG->u.xd.x) = d0; PREG = NEXTOP(PREG, xd); GONext(); ENDD(d0); ENDOp(); Op(put_longint, xi); BEGD(d0); d0 = AbsAppl(PREG->u.xi.i); XREG(PREG->u.xi.x) = d0; PREG = NEXTOP(PREG, xi); GONext(); ENDD(d0); ENDOp(); Op(put_list, x); CACHE_S(); READ_IN_S(); S_SREG = H; H += 2; BEGD(d0); d0 = AbsPair(S_SREG); XREG(PREG->u.x.x) = d0; PREG = NEXTOP(PREG, x); ENDD(d0); WRITEBACK_S(S_SREG); ENDCACHE_S(); GONext(); ENDOp(); Op(put_struct, xfa); BEGD(d0); d0 = AbsAppl(H); XREG(PREG->u.xfa.x) = d0; d0 = (CELL) (PREG->u.xfa.f); *H++ = d0; SREG = H; H += PREG->u.xfa.a; ENDD(d0); PREG = NEXTOP(PREG, xfa); GONext(); ENDOp(); /************************************************************************\ * Write Instructions * \************************************************************************/ Op(write_x_var, x); XREG(PREG->u.x.x) = Unsigned(SREG); PREG = NEXTOP(PREG, x); RESET_VARIABLE(SREG); SREG++; GONext(); ENDOp(); Op(write_void, e); PREG = NEXTOP(PREG, e); RESET_VARIABLE(SREG); SREG++; GONext(); ENDOp(); Op(write_n_voids, s); BEGD(d0); d0 = PREG->u.s.s; PREG = NEXTOP(PREG, s); for (; d0 > 0; d0--) { RESET_VARIABLE(SREG); SREG++; } ENDD(d0); GONext(); ENDOp(); Op(write_y_var, y); INITIALIZE_PERMVAR(YREG+PREG->u.y.y,Unsigned(SREG)); PREG = NEXTOP(PREG, y); RESET_VARIABLE(SREG); SREG++; GONext(); ENDOp(); Op(write_x_val, x); BEGD(d0); d0 = XREG(PREG->u.x.x); *SREG++ = d0; ENDD(d0); PREG = NEXTOP(PREG, x); GONext(); ENDOp(); Op(write_x_loc, x); BEGD(d0); d0 = XREG(PREG->u.x.x); PREG = NEXTOP(PREG, x); deref_head(d0, w_x_unk); w_x_bound: *SREG++ = d0; GONext(); BEGP(pt0); deref_body(d0, pt0, w_x_unk, w_x_bound); #if defined(YAPOR_SBA) && defined(FROZEN_STACKS) if (pt0 > H && pt0<(CELL *)B_FZ) { #else if (pt0 > H) { #endif /* YAPOR_SBA && FROZEN_STACKS */ /* local variable: let us bind it to the list */ #ifdef FROZEN_STACKS /* TRAIL */ Bind_Local(pt0, Unsigned(SREG)); #else TRAIL_LOCAL(pt0, Unsigned(SREG)); *pt0 = Unsigned(SREG); #endif /* FROZEN_STACKS */ RESET_VARIABLE(SREG); SREG++; GONext(); } else { *SREG++ = Unsigned(pt0); GONext(); } ENDP(pt0); ENDD(d0); ENDOp(); Op(write_y_val, y); BEGD(d0); d0 = YREG[PREG->u.y.y]; #ifdef YAPOR_SBA if (d0 == 0) /* new variable */ *SREG++ = (CELL)(YREG+PREG->u.y.y); else #endif *SREG++ = d0; ENDD(d0); PREG = NEXTOP(PREG, y); GONext(); ENDOp(); Op(write_y_loc, y); BEGD(d0); BEGP(pt0); pt0 = YREG+PREG->u.y.y; d0 = *pt0; deref_head(d0, w_y_unk); w_y_bound: PREG = NEXTOP(PREG, y); *SREG++ = d0; GONext(); derefa_body(d0, pt0, w_y_unk, w_y_bound); if (pt0 > H #if defined(YAPOR_SBA) && defined(FROZEN_STACKS) && pt0<(CELL *)B_FZ #endif /* YAPOR_SBA && FROZEN_STACKS */ ) { PREG = NEXTOP(PREG, y); /* local variable: let us bind it to the list */ #ifdef FROZEN_STACKS Bind_Local(pt0, Unsigned(SREG)); #else *pt0 = Unsigned(SREG); TRAIL_LOCAL(pt0, Unsigned(SREG)); #endif /* FROZEN_STACKS */ RESET_VARIABLE(SREG); SREG++; GONext(); } else { PREG = NEXTOP(PREG, y); *SREG++ = Unsigned(pt0); GONext(); } ENDP(pt0); ENDD(d0); ENDOp(); Op(write_atom, c); BEGD(d0); d0 = PREG->u.c.c; *SREG++ = d0; ENDD(d0); PREG = NEXTOP(PREG, c); GONext(); ENDOp(); Op(write_bigint, N); BEGD(d0); d0 = PREG->u.N.b; *SREG++ = d0; ENDD(d0); PREG = NEXTOP(PREG, N); GONext(); ENDOp(); Op(write_dbterm, D); BEGD(d0); d0 = PREG->u.D.D; *SREG++ = d0; ENDD(d0); PREG = NEXTOP(PREG, D); GONext(); ENDOp(); Op(write_float, d); BEGD(d0); d0 = AbsAppl(PREG->u.d.d); *SREG++ = d0; ENDD(d0); PREG = NEXTOP(PREG, d); GONext(); ENDOp(); Op(write_longint, i); BEGD(d0); d0 = AbsAppl(PREG->u.i.i); *SREG++ = d0; ENDD(d0); PREG = NEXTOP(PREG, i); GONext(); ENDOp(); Op(write_n_atoms, sc); BEGD(d0); BEGD(d1); d0 = PREG->u.sc.s; d1 = PREG->u.sc.c; for (; d0 > 0; d0--) *SREG++ = d1; ENDD(d1); ENDD(d0); PREG = NEXTOP(PREG, sc); GONext(); ENDOp(); Op(write_list, e); BEGD(d0); d0 = AbsPair(H); *SREG++ = d0; /* I will not actually store the mode in the stack */ SP[-1] = Unsigned(SREG); SP[-2] = 1; /* Put instructions follow the main stream */ SP -= 2; SREG = H; H += 2; ENDD(d0); PREG = NEXTOP(PREG, e); GONext(); ENDOp(); Op(write_l_list, e); ALWAYS_START_PREFETCH(e); PREG = NEXTOP(PREG, e); BEGD(d0); CACHE_S(); READ_IN_S(); d0 = AbsPair(H); *S_SREG = d0; WRITEBACK_S(H); H += 2; ENDCACHE_S(); ENDD(d0); ALWAYS_GONext(); ALWAYS_END_PREFETCH(); ENDOp(); Op(write_struct, fa); BEGD(d0); d0 = AbsAppl(H); *SREG++ = d0; SP[-1] = Unsigned(SREG); SP[-2] = 1; /* Put instructions follow the main stream */ SP -= 2; d0 = (CELL) (PREG->u.fa.f); *H++ = d0; ENDD(d0); BEGD(d0); d0 = PREG->u.fa.a; PREG = NEXTOP(PREG, fa); SREG = H; H += d0; ENDD(d0); GONext(); ENDOp(); Op(write_l_struc, fa); BEGD(d0); d0 = AbsAppl(H); *SREG = d0; d0 = (CELL) (PREG->u.fa.f); *H++ = d0; SREG = H; ENDD(d0); BEGD(d0); d0 = PREG->u.fa.a; PREG = NEXTOP(PREG, fa); H += d0; ENDD(d0); GONext(); ENDOp(); /************************************************************************\ * Save last unified struct or list * \************************************************************************/ /* vitor: I think I should kill these two instructions, by expanding the * othe instructions. */ Op(save_pair_x, ox); XREG(PREG->u.ox.x) = AbsPair(SREG); PREG = NEXTOP(PREG, ox); GONext(); ENDOp(); OpW(save_pair_x_write, ox); XREG(PREG->u.ox.x) = AbsPair(SREG); PREG = NEXTOP(PREG, ox); GONextW(); ENDOpW(); Op(save_pair_y, oy); INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,AbsPair(SREG)); PREG = NEXTOP(PREG, oy); GONext(); ENDOp(); OpW(save_pair_y_write, oy); INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,AbsPair(SREG)); PREG = NEXTOP(PREG, oy); GONextW(); ENDOpW(); Op(save_appl_x, ox); XREG(PREG->u.ox.x) = AbsAppl(SREG - 1); PREG = NEXTOP(PREG, ox); GONext(); ENDOp(); OpW(save_appl_x_write, ox); XREG(PREG->u.ox.x) = AbsAppl(SREG - 1); PREG = NEXTOP(PREG, ox); GONextW(); ENDOpW(); Op(save_appl_y, oy); INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,AbsAppl(SREG-1)); PREG = NEXTOP(PREG, oy); GONext(); ENDOp(); OpW(save_appl_y_write, oy); INITIALIZE_PERMVAR(YREG+PREG->u.oy.y,AbsAppl(SREG-1)); PREG = NEXTOP(PREG, oy); GONextW(); ENDOpW(); /************************************************************************\ * Instructions for implemeting 'or;' * \************************************************************************/ BOp(jump, l); PREG = PREG->u.l.l; JMPNext(); ENDBOp(); /* This instruction is called when the previous goal was interrupted when waking up goals */ BOp(move_back, l); PREG = (yamop *)(((char *)PREG)-(Int)(NEXTOP((yamop *)NULL,Osbpp))); JMPNext(); ENDBOp(); /* This instruction is called when the previous goal was interrupted when waking up goals */ BOp(skip, l); PREG = NEXTOP(PREG,l); JMPNext(); ENDBOp(); Op(either, Osblp); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { low_level_trace(try_or, (PredEntry *)PREG, NULL); } #endif #ifdef COROUTINING CACHE_Y_AS_ENV(YREG); check_stack(NoStackEither, H); ENDCACHE_Y_AS_ENV(); either_notest: #endif BEGD(d0); /* Try to preserve the environment */ d0 = PREG->u.Osblp.s; BEGCHO(pt1); pt1 = (choiceptr) ((char *) YREG + (yslot) d0); #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (pt1 > top_b || pt1 < (choiceptr)H) pt1 = top_b; #else if (pt1 > top_b) pt1 = top_b; #endif /* YAPOR_SBA */ } #else if (pt1 > B) { pt1 = B; } #endif /* FROZEN_STACKS */ pt1 = (choiceptr)(((CELL *) pt1)-1); *(CELL **) pt1 = YREG; store_yaam_regs_for_either(PREG->u.Osblp.l, PREG); SREG = (CELL *) (B = pt1); #ifdef YAPOR SCH_set_load(pt1); #endif /* YAPOR */ SET_BB(pt1); ENDCHO(pt1); /* skip the current instruction plus the next one */ PREG = NEXTOP(NEXTOP(PREG, Osblp),l); GONext(); ENDD(d0); ENDOp(); Op(or_else, Osblp); H = HBREG = PROTECT_FROZEN_H(B); ENV = B->cp_env; B->cp_cp = PREG; #ifdef DEPTH_LIMIT DEPTH = B->cp_depth; #endif /* DEPTH_LIMIT */ SET_BB(PROTECT_FROZEN_B(B)); #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_new_alternative(PREG, PREG->u.Osblp.l); } else #endif /* YAPOR */ B->cp_ap = PREG->u.Osblp.l; PREG = NEXTOP(PREG, Osblp); YREG = (CELL *) B->cp_a1; GONext(); ENDOp(); #ifdef YAPOR Op(or_last, Osblp); #else Op(or_last, p); #endif /* YAPOR */ BEGCHO(pt0); pt0 = B; #ifdef YAPOR if (SCH_top_shared_cp(B)) { H = HBREG = PROTECT_FROZEN_H(pt0); YREG = (CELL *) pt0->cp_a1; ENV = pt0->cp_env; #ifdef DEPTH_LIMIT DEPTH = pt0->cp_depth; #endif /* DEPTH_LIMIT */ SCH_new_alternative(PREG, NULL); } else #endif /* YAPOR */ { B = pt0->cp_b; H = PROTECT_FROZEN_H(pt0); YREG = (CELL *) pt0->cp_a1; ENV = pt0->cp_env; #ifdef DEPTH_LIMIT DEPTH = pt0->cp_depth; #endif /* DEPTH_LIMIT */ HBREG = PROTECT_FROZEN_H(B); } #ifdef YAPOR PREG = NEXTOP(PREG, Osblp); #else PREG = NEXTOP(PREG, p); #endif /* YAPOR */ SET_BB(PROTECT_FROZEN_B(B)); GONext(); ENDCHO(pt0); ENDOp(); /************************************************************************\ * Pop operations * \************************************************************************/ OpRW(pop_n, s); /* write mode might have been called from read mode */ BEGD(d0); d0 = PREG->u.os.s; SP = (CELL *) (((char *) SP) + d0); ENDD(d0); BEGD(d0); d0 = SP[0]; if (d0) { START_PREFETCH(s); SREG = (CELL *) (SP[1]); SP += 2; PREG = NEXTOP(PREG, s); GONext(); END_PREFETCH(); } else { START_PREFETCH_W(s); SREG = (CELL *) (SP[1]); SP += 2; PREG = NEXTOP(PREG, s); GONextW(); END_PREFETCH_W(); } ENDD(d0); ENDOpRW(); OpRW(pop, e); BEGD(d0); d0 = SP[0]; SREG = (CELL *) (SP[1]); SP += 2; if (d0) { START_PREFETCH(e); PREG = NEXTOP(PREG, e); GONext(); END_PREFETCH(); } else { START_PREFETCH_W(e); PREG = NEXTOP(PREG, e); GONextW(); END_PREFETCH_W(); } ENDD(d0); ENDOpRW(); /************************************************************************\ * Call C predicates instructions * \************************************************************************/ BOp(call_cpred, Osbpp); check_trail(TR); if (!(PREG->u.Osbpp.p->PredFlags & (SafePredFlag))) { CACHE_Y_AS_ENV(YREG); check_stack(NoStackCall, H); ENDCACHE_Y_AS_ENV(); } #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (YREG > (CELL *) top_b || YREG < H) ASP = (CELL *)top_b; #else if (YREG > (CELL *) top_b) ASP = (CELL *)top_b; #endif /* YAPOR_SBA */ else ASP = (CELL *)(((char *)YREG) + PREG->u.Osbpp.s); } #else SET_ASP(YREG, PREG->u.Osbpp.s); /* for slots to work */ #endif /* FROZEN_STACKS */ #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) low_level_trace(enter_pred,PREG->u.Osbpp.p,XREGS+1); #endif /* LOW_LEVEL_TRACE */ BEGD(d0); CPredicate f = PREG->u.Osbpp.p->cs.f_code; PREG = NEXTOP(PREG, Osbpp); saveregs(); d0 = (f)(PASS_REGS1); setregs(); #ifdef SHADOW_S SREG = Yap_REGS.S_; #endif if (!d0) { FAIL(); } CACHE_A1(); ENDD(d0); JMPNext(); ENDBOp(); /* execute Label */ BOp(execute_cpred, pp); check_trail(TR); { PredEntry *pt0; BEGD(d0); CACHE_Y_AS_ENV(YREG); #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (YREG > (CELL *) top_b || YREG < H) ASP = (CELL *)top_b; #else if (YREG > (CELL *) top_b) ASP = (CELL *)top_b; #endif /* YAPOR_SBA */ else ASP = YREG+E_CB; } #else SET_ASP(YREG, E_CB*sizeof(CELL)); /* for slots to work */ #endif /* FROZEN_STACKS */ pt0 = PREG->u.pp.p; #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { low_level_trace(enter_pred,pt0,XREGS+1); } #endif /* LOW_LEVEL_TRACE */ CACHE_A1(); BEGD(d0); d0 = (CELL)B; #ifndef NO_CHECKING check_stack(NoStackExecute, H); #endif /* for profiler */ save_pc(); ENV_YREG[E_CB] = d0; ENDD(d0); #ifdef DEPTH_LIMIT if (DEPTH <= MkIntTerm(1)) {/* I assume Module==0 is prolog */ if (pt0->ModuleOfPred) { if (DEPTH == MkIntTerm(0)) FAIL(); else DEPTH = RESET_DEPTH(); } } else if (pt0->ModuleOfPred) { DEPTH -= MkIntConstant(2); } #endif /* DEPTH_LIMIT */ /* now call C-Code */ { CPredicate f = PREG->u.pp.p->cs.f_code; yamop *oldPREG = PREG; saveregs(); d0 = (f)(PASS_REGS1); setregs(); #ifdef SHADOW_S SREG = Yap_REGS.S_; #endif if (!d0) { FAIL(); } if (oldPREG == PREG) { /* we did not update PREG */ /* we can proceed */ PREG = CPREG; ENV_YREG = ENV; #ifdef DEPTH_LIMIT DEPTH = ENV_YREG[E_DEPTH]; #endif WRITEBACK_Y_AS_ENV(); } else { /* call the new code */ CACHE_A1(); } } JMPNext(); ENDCACHE_Y_AS_ENV(); ENDD(d0); } ENDBOp(); /* Like previous, the only difference is that we do not */ /* trust the C-function we are calling and hence we must */ /* guarantee that *all* machine registers are saved and */ /* restored */ BOp(call_usercpred, Osbpp); CACHE_Y_AS_ENV(YREG); check_stack(NoStackCall, H); ENDCACHE_Y_AS_ENV(); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { low_level_trace(enter_pred,PREG->u.Osbpp.p,XREGS+1); } #endif /* LOW_LEVEL_TRACE */ #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (YREG > (CELL *) top_b || YREG < H) ASP = (CELL *) top_b; #else if (YREG > (CELL *) top_b) ASP = (CELL *) top_b; #endif /* YAPOR_SBA */ else ASP = (CELL *)(((char *)YREG) + PREG->u.Osbpp.s); } #else SET_ASP(YREG, PREG->u.Osbpp.s); /* for slots to work */ #endif /* FROZEN_STACKS */ { /* make sure that we can still have access to our old PREG after calling user defined goals and backtracking or failing */ yamop *savedP; Yap_StartSlots( PASS_REGS1 ); LOCAL_PrologMode = UserCCallMode; { PredEntry *p = PREG->u.Osbpp.p; PREG = NEXTOP(PREG, Osbpp); savedP = PREG; saveregs(); save_machine_regs(); SREG = (CELL *) YAP_Execute(p, p->cs.f_code); } Yap_CloseSlots( PASS_REGS1 ); setregs(); LOCAL_PrologMode = UserMode; restore_machine_regs(); PREG = savedP; } if (EX) { struct DB_TERM *exp = EX; EX = NULL; Yap_JumpToEnv(Yap_PopTermFromDB(exp)); SREG = NULL; } if (!SREG) { FAIL(); } /* in case we call Execute */ YENV = ENV; YREG = ENV; JMPNext(); ENDBOp(); BOp(call_c_wfail, slp); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { low_level_trace(enter_pred,PREG->u.slp.p,XREGS+1); } #endif /* LOW_LEVEL_TRACE */ #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (YREG > (CELL *) top_b || YREG < H) ASP = (CELL *) top_b; #else if (YREG > (CELL *) top_b) ASP = (CELL *) top_b; #endif /* YAPOR_SBA */ else { BEGD(d0); d0 = PREG->u.slp.s; ASP = ((CELL *)YREG) + d0; ENDD(d0); } } #else if (YREG > (CELL *) B) ASP = (CELL *) B; else { BEGD(d0); d0 = PREG->u.slp.s; ASP = ((CELL *) YREG) + d0; ENDD(d0); } #endif /* FROZEN_STACKS */ { CPredicate f = PREG->u.slp.p->cs.f_code; saveregs(); SREG = (CELL *)((f)(PASS_REGS1)); setregs(); } if (!SREG) { /* be careful about error handling */ if (PREG != FAILCODE) PREG = PREG->u.slp.l; } else { PREG = NEXTOP(PREG, slp); } CACHE_A1(); JMPNext(); ENDBOp(); BOp(try_c, OtapFs); #ifdef YAPOR CUT_wait_leftmost(); #endif /* YAPOR */ CACHE_Y(YREG); #ifdef CUT_C /* Alocate space for the cut_c structure*/ CUT_C_PUSH(NEXTOP(NEXTOP(PREG,OtapFs),OtapFs),S_YREG); #endif S_YREG = S_YREG - PREG->u.OtapFs.extra; store_args(PREG->u.OtapFs.s); store_yaam_regs(NEXTOP(PREG, OtapFs), 0); B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ SET_BB(B_YREG); ENDCACHE_Y(); TRYCC: ASP = (CELL *)B; { CPredicate f = (CPredicate)(PREG->u.OtapFs.f); saveregs(); SREG = (CELL *) ((f) (PASS_REGS1)); /* This last instruction changes B B*/ #ifdef CUT_C while (POP_CHOICE_POINT(B)){ cut_c_pop(); } #endif setregs(); } if (!SREG) { #ifdef CUT_C /* Removes the cut functions from the stack without executing them because we have fail and not cuted the predicate*/ while(POP_CHOICE_POINT(B)) cut_c_pop(); #endif FAIL(); } if ((CELL *) B == YREG && ASP != (CELL *) B) { /* as Luis says, the predicate that did the try C might * have left some data on the stack. We should preserve * it, unless the builtin also did cut */ YREG = ASP; HBREG = PROTECT_FROZEN_H(B); SET_BB(B); } PREG = CPREG; YREG = ENV; JMPNext(); ENDBOp(); BOp(retry_c, OtapFs); #ifdef YAPOR CUT_wait_leftmost(); #endif /* YAPOR */ CACHE_Y(B); CPREG = B_YREG->cp_cp; ENV = B_YREG->cp_env; H = PROTECT_FROZEN_H(B); #ifdef DEPTH_LIMIT DEPTH =B->cp_depth; #endif HBREG = H; restore_args(PREG->u.OtapFs.s); ENDCACHE_Y(); goto TRYCC; ENDBOp(); #ifdef CUT_C BOp(cut_c, OtapFs); /*This is a phantom instruction. This is not executed by the WAM*/ #ifdef DEBUG /*If WAM executes this instruction, probably there's an error when we put this instruction, cut_c, after retry_c*/ printf ("ERROR: Should not print this message FILE: absmi.c %d\n",__LINE__); #endif /*DEBUG*/ ENDBOp(); #endif BOp(try_userc, OtapFs); #ifdef YAPOR CUT_wait_leftmost(); #endif /* YAPOR */ CACHE_Y(YREG); #ifdef CUT_C /* Alocate space for the cut_c structure*/ CUT_C_PUSH(NEXTOP(NEXTOP(PREG,OtapFs),OtapFs),S_YREG); #endif S_YREG = S_YREG - PREG->u.OtapFs.extra; store_args(PREG->u.OtapFs.s); store_yaam_regs(NEXTOP(PREG, OtapFs), 0); B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif SET_BB(B_YREG); ENDCACHE_Y(); LOCAL_PrologMode = UserCCallMode; ASP = YREG; /* for slots to work */ Yap_StartSlots( PASS_REGS1 ); saveregs(); save_machine_regs(); SREG = (CELL *) YAP_ExecuteFirst(PREG->u.OtapFs.p, (CPredicate)(PREG->u.OtapFs.f)); EX = NULL; restore_machine_regs(); setregs(); LOCAL_PrologMode = UserMode; Yap_CloseSlots( PASS_REGS1 ); if (!SREG) { FAIL(); } if ((CELL *) B == YREG && ASP != (CELL *) B) { /* as Luis says, the predicate that did the try C might * have left some data on the stack. We should preserve * it, unless the builtin also did cut */ YREG = ASP; HBREG = PROTECT_FROZEN_H(B); } PREG = CPREG; YREG = ENV; CACHE_A1(); JMPNext(); ENDBOp(); BOp(retry_userc, OtapFs); #ifdef YAPOR CUT_wait_leftmost(); #endif /* YAPOR */ CACHE_Y(B); CPREG = B_YREG->cp_cp; ENV = B_YREG->cp_env; H = PROTECT_FROZEN_H(B); #ifdef DEPTH_LIMIT DEPTH =B->cp_depth; #endif HBREG = H; restore_args(PREG->u.OtapFs.s); ENDCACHE_Y(); LOCAL_PrologMode = UserCCallMode; SET_ASP(YREG, E_CB*sizeof(CELL)); /* for slots to work */ Yap_StartSlots( PASS_REGS1 ); saveregs(); save_machine_regs(); SREG = (CELL *) YAP_ExecuteNext(PREG->u.OtapFs.p, (CPredicate)(PREG->u.OtapFs.f)); EX = NULL; restore_machine_regs(); setregs(); LOCAL_PrologMode = UserMode; Yap_CloseSlots( PASS_REGS1 ); if (!SREG) { #ifdef CUT_C /* Removes the cut functions from the stack without executing them because we have fail and not cuted the predicate*/ while(POP_CHOICE_POINT(B)) cut_c_pop(); #endif FAIL(); } if ((CELL *) B == YREG && ASP != (CELL *) B) { /* as Luis says, the predicate that did the try C might * have left some data on the stack. We should preserve * it, unless the builtin also did cut */ YREG = ASP; HBREG = PROTECT_FROZEN_H(B); } PREG = CPREG; YREG = ENV; CACHE_A1(); JMPNext(); ENDBOp(); #ifdef CUT_C BOp(cut_userc, OtapFs); /*This is a phantom instruction. This is not executed by the WAM*/ #ifdef DEBUG /*If WAM executes this instruction, probably there's an error when we put this instruction, cut_userc, after retry_userc*/ printf ("ERROR: Should not print this message FILE: absmi.c %d\n",__LINE__); #endif /*DEBUG*/ CACHE_A1(); JMPNext(); ENDBOp(); #endif /************************************************************************\ * support instructions * \************************************************************************/ BOp(lock_pred, e); { PredEntry *ap = PredFromDefCode(PREG); PELOCK(10,ap); PP = ap; if (!ap->cs.p_code.NOfClauses) { UNLOCKPE(11,ap); FAIL(); } /* we do not lock access to the predicate, we must take extra care here */ if (ap->cs.p_code.NOfClauses > 1 && !(ap->PredFlags & IndexedPredFlag)) { /* update ASP before calling IPred */ SET_ASP(YREG, E_CB*sizeof(CELL)); saveregs(); Yap_IPred(ap, 0, CP); /* IPred can generate errors, it thus must get rid of the lock itself */ setregs(); CACHE_A1(); /* for profiler */ save_pc(); } PREG = ap->cs.p_code.TrueCodeOfPred; } JMPNext(); ENDBOp(); BOp(index_pred, e); { PredEntry *ap = PredFromDefCode(PREG); #if defined(YAPOR) || defined(THREADS) /* we do not lock access to the predicate, we must take extra care here */ if (!PP) { PELOCK(11,ap); } if (ap->OpcodeOfPred != INDEX_OPCODE) { /* someone was here before we were */ if (!PP) { UNLOCKPE(11,ap); } PREG = ap->CodeOfPred; /* for profiler */ save_pc(); JMPNext(); } #endif /* update ASP before calling IPred */ SET_ASP(YREG, E_CB*sizeof(CELL)); saveregs(); Yap_IPred(ap, 0, CP); /* IPred can generate errors, it thus must get rid of the lock itself */ setregs(); CACHE_A1(); PREG = ap->CodeOfPred; /* for profiler */ save_pc(); #if defined(YAPOR) || defined(THREADS) if (!PP) #endif UNLOCKPE(14,ap); } JMPNext(); ENDBOp(); #if THREADS BOp(thread_local, e); { PredEntry *ap = PredFromDefCode(PREG); ap = Yap_GetThreadPred(ap PASS_REGS); PREG = ap->CodeOfPred; /* for profiler */ save_pc(); } JMPNext(); ENDBOp(); #endif BOp(expand_index, e); { PredEntry *pe = PredFromExpandCode(PREG); yamop *pt0; /* update ASP before calling IPred */ SET_ASP(YREG, E_CB*sizeof(CELL)); #if defined(YAPOR) || defined(THREADS) if (!PP) { PELOCK(12,pe); } if (!same_lu_block(PREG_ADDR, PREG)) { PREG = *PREG_ADDR; if (!PP) { UNLOCKPE(15,pe); } JMPNext(); } #endif #ifdef SHADOW_S S = SREG; #endif /* SHADOW_S */ saveregs(); pt0 = Yap_ExpandIndex(pe, 0); /* restart index */ setregs(); #ifdef SHADOW_S SREG = S; #endif /* SHADOW_S */ PREG = pt0; #if defined(YAPOR) || defined(THREADS) if (!PP) { UNLOCKPE(12,pe); } #endif JMPNext(); } ENDBOp(); BOp(expand_clauses, sssllp); { PredEntry *pe = PREG->u.sssllp.p; yamop *pt0; /* update ASP before calling IPred */ SET_ASP(YREG, E_CB*sizeof(CELL)); #if defined(YAPOR) || defined(THREADS) if (PP == NULL) { PELOCK(13,pe); } if (!same_lu_block(PREG_ADDR, PREG)) { PREG = *PREG_ADDR; if (!PP) { UNLOCKPE(16,pe); } JMPNext(); } #endif saveregs(); pt0 = Yap_ExpandIndex(pe, 0); /* restart index */ setregs(); UNLOCKPE(17,pe); PREG = pt0; #if defined(YAPOR) || defined(THREADS) if (!PP) { UNLOCKPE(18,pe); } #endif JMPNext(); } ENDBOp(); BOp(undef_p, e); /* save S for module name */ { PredEntry *pe = PredFromDefCode(PREG); BEGD(d0); /* avoid trouble with undefined dynamic procedures */ if ((pe->PredFlags & (DynamicPredFlag|LogUpdatePredFlag|MultiFileFlag)) || (UndefCode->OpcodeOfPred == UNDEF_OPCODE)) { #if defined(YAPOR) || defined(THREADS) PP = NULL; #endif UNLOCKPE(19,pe); FAIL(); } d0 = pe->ArityOfPE; UNLOCKPE(19,pe); if (d0 == 0) { H[1] = MkAtomTerm((Atom)(pe->FunctorOfPred)); } else { H[d0 + 2] = AbsAppl(H); *H = (CELL) pe->FunctorOfPred; H++; BEGP(pt1); pt1 = XREGS + 1; for (; d0 > 0; --d0) { BEGD(d1); BEGP(pt0); pt0 = pt1++; d1 = *pt0; deref_head(d1, undef_unk); undef_nonvar: /* just copy it to the heap */ *H++ = d1; continue; derefa_body(d1, pt0, undef_unk, undef_nonvar); if (pt0 <= H) { /* variable is safe */ *H++ = (CELL)pt0; } else { /* bind it, in case it is a local variable */ d1 = Unsigned(H); RESET_VARIABLE(H); H += 1; Bind_Local(pt0, d1); } ENDP(pt0); ENDD(d1); } ENDP(pt1); } ENDD(d0); H[0] = Yap_Module_Name(pe); ARG1 = (Term) AbsPair(H); H += 2; #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) low_level_trace(enter_pred,UndefCode,XREGS+1); #endif /* LOW_LEVEL_TRACE */ } PREG = UndefCode->CodeOfPred; /* for profiler */ save_pc(); CACHE_A1(); JMPNext(); ENDBOp(); BOp(spy_pred, e); dospy: { PredEntry *pe = PredFromDefCode(PREG); BEGD(d0); PELOCK(14,pe); if (!(pe->PredFlags & IndexedPredFlag) && pe->cs.p_code.NOfClauses > 1) { /* update ASP before calling IPred */ SET_ASP(YREG, E_CB*sizeof(CELL)); saveregs(); Yap_IPred(pe, 0, CP); /* IPred can generate errors, it thus must get rid of the lock itself */ setregs(); } /* first check if we need to increase the counter */ if ((pe->PredFlags & CountPredFlag)) { LOCK(pe->StatisticsForPred.lock); pe->StatisticsForPred.NOfEntries++; UNLOCK(pe->StatisticsForPred.lock); LOCAL_ReductionsCounter--; if (LOCAL_ReductionsCounter == 0 && LOCAL_ReductionsCounterOn) { UNLOCKPE(20,pe); saveregs(); Yap_NilError(CALL_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } LOCAL_PredEntriesCounter--; if (LOCAL_PredEntriesCounter == 0 && LOCAL_PredEntriesCounterOn) { UNLOCKPE(21,pe); saveregs(); Yap_NilError(PRED_ENTRY_COUNTER_UNDERFLOW,""); setregs(); JMPNext(); } if ((pe->PredFlags & (CountPredFlag|ProfiledPredFlag|SpiedPredFlag)) == CountPredFlag) { PREG = pe->cs.p_code.TrueCodeOfPred; UNLOCKPE(22,pe); JMPNext(); } } /* standard profiler */ if ((pe->PredFlags & ProfiledPredFlag)) { LOCK(pe->StatisticsForPred.lock); pe->StatisticsForPred.NOfEntries++; UNLOCK(pe->StatisticsForPred.lock); if (!(pe->PredFlags & SpiedPredFlag)) { PREG = pe->cs.p_code.TrueCodeOfPred; UNLOCKPE(23,pe); JMPNext(); } } if (!LOCAL_DebugOn) { PREG = pe->cs.p_code.TrueCodeOfPred; UNLOCKPE(24,pe); JMPNext(); } UNLOCKPE(25,pe); d0 = pe->ArityOfPE; /* save S for ModuleName */ if (d0 == 0) { H[1] = MkAtomTerm((Atom)(pe->FunctorOfPred)); } else { *H = (CELL) pe->FunctorOfPred; H[d0 + 2] = AbsAppl(H); H++; BEGP(pt1); pt1 = XREGS + 1; for (; d0 > 0; --d0) { BEGD(d1); BEGP(pt0); pt0 = pt1++; d1 = *pt0; deref_head(d1, dospy_unk); dospy_nonvar: /* just copy it to the heap */ *H++ = d1; continue; derefa_body(d1, pt0, dospy_unk, dospy_nonvar); if (pt0 <= H) { /* variable is safe */ *H++ = (CELL)pt0; } else { /* bind it, in case it is a local variable */ d1 = Unsigned(H); RESET_VARIABLE(H); H += 1; Bind_Local(pt0, d1); } ENDP(pt0); ENDD(d1); } ENDP(pt1); } ENDD(d0); H[0] = Yap_Module_Name(pe); } ARG1 = (Term) AbsPair(H); H += 2; { PredEntry *pt0; #ifdef THREADS LOCK(GLOBAL_ThreadHandlesLock); #endif pt0 = SpyCode; P_before_spy = PREG; PREG = pt0->CodeOfPred; /* for profiler */ #ifdef THREADS UNLOCK(GLOBAL_ThreadHandlesLock); #endif save_pc(); CACHE_A1(); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) low_level_trace(enter_pred,pt0,XREGS+1); #endif /* LOW_LEVEL_TRACE */ } JMPNext(); ENDBOp(); /************************************************************************\ * Try / Retry / Trust for main indexing blocks * \************************************************************************/ BOp(try_clause, Otapl); check_trail(TR); CACHE_Y(YREG); /* Point AP to the code that follows this instruction */ store_at_least_one_arg(PREG->u.Otapl.s); store_yaam_regs(NEXTOP(PREG, Otapl), 0); PREG = PREG->u.Otapl.d; set_cut(S_YREG, B); B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ SET_BB(B_YREG); ENDCACHE_Y(); JMPNext(); ENDBOp(); BOp(try_clause2, l); check_trail(TR); CACHE_Y(YREG); /* Point AP to the code that follows this instruction */ { register CELL x2 = ARG2; register CELL x1 = ARG1; store_yaam_regs(NEXTOP(PREG, l), 2); B_YREG->cp_a1 = x1; B_YREG->cp_a2 = x2; } PREG = PREG->u.l.l; set_cut(S_YREG, B); B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ SET_BB(B_YREG); ENDCACHE_Y(); JMPNext(); ENDBOp(); BOp(try_clause3, l); check_trail(TR); CACHE_Y(YREG); /* Point AP to the code that follows this instruction */ { store_yaam_regs(NEXTOP(PREG, l), 3); B_YREG->cp_a1 = ARG1; B_YREG->cp_a2 = ARG2; B_YREG->cp_a3 = ARG3; } PREG = PREG->u.l.l; set_cut(S_YREG, B); B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ SET_BB(B_YREG); ENDCACHE_Y(); JMPNext(); ENDBOp(); BOp(try_clause4, l); check_trail(TR); CACHE_Y(YREG); /* Point AP to the code that follows this instruction */ { store_yaam_regs(NEXTOP(PREG, l), 4); B_YREG->cp_a1 = ARG1; B_YREG->cp_a2 = ARG2; B_YREG->cp_a3 = ARG3; B_YREG->cp_a4 = ARG4; } PREG = PREG->u.l.l; set_cut(S_YREG, B); B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ SET_BB(B_YREG); ENDCACHE_Y(); JMPNext(); ENDBOp(); BOp(retry, Otapl); CACHE_Y(B); restore_yaam_regs(NEXTOP(PREG, Otapl)); restore_at_least_one_arg(PREG->u.Otapl.s); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); PREG = PREG->u.Otapl.d; JMPNext(); ENDBOp(); BOp(retry2, l); CACHE_Y(B); restore_yaam_regs(NEXTOP(PREG, l)); PREG = PREG->u.l.l; ARG1 = B_YREG->cp_a1; ARG2 = B_YREG->cp_a2; #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); JMPNext(); ENDBOp(); BOp(retry3, l); CACHE_Y(B); restore_yaam_regs(NEXTOP(PREG, l)); PREG = PREG->u.l.l; ARG1 = B_YREG->cp_a1; ARG2 = B_YREG->cp_a2; ARG3 = B_YREG->cp_a3; #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); JMPNext(); ENDBOp(); BOp(retry4, l); CACHE_Y(B); restore_yaam_regs(NEXTOP(PREG, l)); PREG = PREG->u.l.l; ARG1 = B_YREG->cp_a1; ARG2 = B_YREG->cp_a2; ARG3 = B_YREG->cp_a3; ARG4 = B_YREG->cp_a4; #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); JMPNext(); ENDBOp(); BOp(trust, Otapl); CACHE_Y(B); #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_at_least_one_arg(PREG->u.Otapl.s); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_at_least_one_arg(PREG->u.Otapl.s); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } SET_BB(B_YREG); ENDCACHE_Y(); PREG = PREG->u.Otapl.d; JMPNext(); ENDBOp(); BOp(try_in, l); B->cp_ap = NEXTOP(PREG, l); PREG = PREG->u.l.l; JMPNext(); ENDBOp(); /************************************************************************\ * Logical Updates * \************************************************************************/ /* enter logical pred */ BOp(enter_lu_pred, Illss); check_trail(TR); /* mark the indexing code */ { LogUpdIndex *cl = PREG->u.Illss.I; PredEntry *ap = cl->ClPred; if (ap->LastCallOfPred != LUCALL_EXEC) { /* only increment time stamp if we are working on current time stamp */ if (ap->TimeStampOfPred >= TIMESTAMP_RESET) Yap_UpdateTimestamps(ap); ap->TimeStampOfPred++; ap->LastCallOfPred = LUCALL_EXEC; /* fprintf(stderr,"R %x--%d--%ul\n",ap,ap->TimeStampOfPred,ap->ArityOfPE);*/ } *--YREG = MkIntegerTerm(ap->TimeStampOfPred); /* fprintf(stderr,"> %p/%p %d %d\n",cl,ap,ap->TimeStampOfPred,PREG->u.Illss.s);*/ PREG = PREG->u.Illss.l1; /* indicate the indexing code is being used */ #if MULTIPLE_STACKS /* just store a reference */ INC_CLREF_COUNT(cl); TRAIL_CLREF(cl); #else if (!(cl->ClFlags & InUseMask)) { cl->ClFlags |= InUseMask; TRAIL_CLREF(cl); } #endif } JMPNext(); ENDBOp(); BOp(try_logical, OtaLl); check_trail(TR); { UInt timestamp; CACHE_Y(YREG); timestamp = IntegerOfTerm(S_YREG[0]); /* fprintf(stderr,"+ %p/%p %d %d %d--%u\n",PREG,PREG->u.OtaLl.d->ClPred,timestamp,PREG->u.OtaLl.d->ClPred->TimeStampOfPred,PREG->u.OtaLl.d->ClTimeStart,PREG->u.OtaLl.d->ClTimeEnd);*/ /* Point AP to the code that follows this instruction */ /* always do this, even if we are not going to use it */ store_args(PREG->u.OtaLl.s); store_yaam_regs(PREG->u.OtaLl.n, 0); set_cut(S_YREG, B); B = B_YREG; #ifdef YAPOR SCH_set_load(B_YREG); #endif /* YAPOR */ #ifdef YAPOR PP = PREG->u.OtaLl.d->ClPred; #endif /* YAPOR */ if (!VALID_TIMESTAMP(timestamp, PREG->u.OtaLl.d)) { /* jump to next alternative */ PREG=PREG->u.OtaLl.n; } else { PREG = PREG->u.OtaLl.d->ClCode; } SET_BB(B_YREG); ENDCACHE_Y(); } JMPNext(); ENDBOp(); BOp(retry_logical, OtaLl); check_trail(TR); { UInt timestamp; CACHE_Y(B); #if defined(YAPOR) || defined(THREADS) if (!PP) { PP = PREG->u.OtaLl.d->ClPred; PELOCK(15,PP); } #endif timestamp = IntegerOfTerm(((CELL *)(B_YREG+1))[PREG->u.OtaLl.s]); /* fprintf(stderr,"^ %p/%p %d %d %d--%u\n",PREG,PREG->u.OtaLl.d->ClPred,timestamp,PREG->u.OtaLl.d->ClPred->TimeStampOfPred,PREG->u.OtaLl.d->ClTimeStart,PREG->u.OtaLl.d->ClTimeEnd);*/ if (!VALID_TIMESTAMP(timestamp, PREG->u.OtaLl.d)) { /* jump to next instruction */ PREG=PREG->u.OtaLl.n; JMPNext(); } restore_yaam_regs(PREG->u.OtaLl.n); restore_at_least_one_arg(PREG->u.OtaLl.s); #ifdef THREADS PP = PREG->u.OtaLl.d->ClPred; #endif PREG = PREG->u.OtaLl.d->ClCode; #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); set_cut(S_YREG, B->cp_b); #else set_cut(S_YREG, B_YREG->cp_b); #endif /* FROZEN_STACKS */ SET_BB(B_YREG); ENDCACHE_Y(); } JMPNext(); ENDBOp(); BOp(trust_logical, OtILl); CACHE_Y(B); { LogUpdIndex *cl = PREG->u.OtILl.block; PredEntry *ap = cl->ClPred; LogUpdClause *lcl = PREG->u.OtILl.d; UInt timestamp = IntegerOfTerm(((CELL *)(B_YREG+1))[ap->ArityOfPE]); /* fprintf(stderr,"- %p/%p %d %d %p\n",PREG,ap,timestamp,ap->TimeStampOfPred,PREG->u.OtILl.d->ClCode);*/ #if defined(YAPOR) || defined(THREADS) if (!PP) { PELOCK(16,ap); PP = ap; } #endif if (!VALID_TIMESTAMP(timestamp, lcl)) { /* jump to next alternative */ PREG = FAILCODE; } else { PREG = lcl->ClCode; } /* HEY, leave indexing block alone!! */ /* check if we are the ones using this code */ #if MULTIPLE_STACKS DEC_CLREF_COUNT(cl); /* clear the entry from the trail */ B->cp_tr--; TR = B->cp_tr; /* actually get rid of the code */ if (cl->ClRefCount == 0 && (cl->ClFlags & (ErasedMask|DirtyMask))) { if (PREG != FAILCODE) { if (lcl->ClRefCount == 1) { /* make sure the clause isn't destroyed */ /* always add an extra reference */ INC_CLREF_COUNT(lcl); TRAIL_CLREF(lcl); B->cp_tr = TR; } } if (cl->ClFlags & ErasedMask) { saveregs(); Yap_ErLogUpdIndex(cl); setregs(); } else { saveregs(); Yap_CleanUpIndex(cl); setregs(); } save_pc(); } #else if (TrailTerm(B->cp_tr-1) == CLREF_TO_TRENTRY(cl) && B->cp_tr != B->cp_b->cp_tr) { cl->ClFlags &= ~InUseMask; B->cp_tr--; #if FROZEN_STACKS if (B->cp_tr > TR_FZ) #endif { TR = B->cp_tr; } /* next, recover space for the indexing code if it was erased */ if (cl->ClFlags & (ErasedMask|DirtyMask)) { if (PREG != FAILCODE) { /* make sure we don't erase the clause we are jumping too */ if (!(lcl->ClFlags & InUseMask)) { lcl->ClFlags |= InUseMask; TRAIL_CLREF(lcl); B->cp_tr = TR; } } if (cl->ClFlags & ErasedMask) { saveregs(); Yap_ErLogUpdIndex(cl); setregs(); } else { saveregs(); Yap_CleanUpIndex(cl); setregs(); } } } #endif #ifdef YAPOR if (SCH_top_shared_cp(B)) { SCH_last_alternative(PREG, B_YREG); restore_args(ap->ArityOfPE); #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #else S_YREG++; #endif /* FROZEN_STACKS */ set_cut(S_YREG, B->cp_b); } else #endif /* YAPOR */ { pop_yaam_regs(); pop_args(ap->ArityOfPE); S_YREG--; #ifdef FROZEN_STACKS S_YREG = (CELL *) PROTECT_FROZEN_B(B_YREG); #endif /* FROZEN_STACKS */ set_cut(S_YREG, B); } SET_BB(B_YREG); ENDCACHE_Y(); #if defined(YAPOR) || defined(THREADS) if (PREG == FAILCODE) { UNLOCKPE(26,PP); PP = NULL; } #endif JMPNext(); } ENDBOp(); /************************************************************************\ * Indexing in ARG1 * \************************************************************************/ BOp(user_switch, lp); { yamop *new = Yap_udi_search(PREG->u.lp.p); if (!new) { PREG = PREG->u.lp.l; JMPNext(); } PREG = new; JMPNext(); } ENDBOp(); BOp(switch_on_type, llll); BEGD(d0); d0 = CACHED_A1(); deref_head(d0, swt_unk); /* nonvar */ swt_nvar: if (IsPairTerm(d0)) { /* pair */ SREG = RepPair(d0); copy_jmp_address(PREG->u.llll.l1); PREG = PREG->u.llll.l1; JMPNext(); } else if (!IsApplTerm(d0)) { /* constant */ copy_jmp_address(PREG->u.llll.l2); PREG = PREG->u.llll.l2; I_R = d0; JMPNext(); } else { /* appl */ copy_jmp_address(PREG->u.llll.l3); PREG = PREG->u.llll.l3; SREG = RepAppl(d0); JMPNext(); } BEGP(pt0); deref_body(d0, pt0, swt_unk, swt_nvar); /* variable */ copy_jmp_address(PREG->u.llll.l4); PREG = PREG->u.llll.l4; JMPNext(); ENDP(pt0); ENDD(d0); ENDBOp(); /* specialised case where the arguments may be: * a list; * the empty list; * some other atom; * a variable; * */ BOp(switch_list_nl, ollll); ALWAYS_LOOKAHEAD(PREG->u.ollll.pop); BEGD(d0); d0 = CACHED_A1(); #if UNIQUE_TAG_FOR_PAIRS deref_list_head(d0, swlnl_unk_p); swlnl_list_p: { #else deref_head(d0, swlnl_unk_p); /* non variable */ swlnl_nvar_p: if (__builtin_expect(IsPairTerm(d0),1)) { /* pair */ #endif copy_jmp_address(PREG->u.ollll.l1); PREG = PREG->u.ollll.l1; SREG = RepPair(d0); ALWAYS_GONext(); } #if UNIQUE_TAG_FOR_PAIRS swlnl_nlist_p: #endif if (d0 == TermNil) { /* empty list */ PREG = PREG->u.ollll.l2; JMPNext(); } else { /* appl or constant */ if (IsApplTerm(d0)) { copy_jmp_address(PREG->u.ollll.l3); PREG = PREG->u.ollll.l3; SREG = RepAppl(d0); JMPNext(); } else { copy_jmp_address(PREG->u.ollll.l3); PREG = PREG->u.ollll.l3; I_R = d0; JMPNext(); } } BEGP(pt0); #if UNIQUE_TAG_FOR_PAIRS swlnl_unk_p: deref_list_body(d0, pt0, swlnl_list_p, swlnl_nlist_p); #else deref_body(d0, pt0, swlnl_unk_p, swlnl_nvar_p); #endif ENDP(pt0); /* variable */ copy_jmp_address(PREG->u.ollll.l4); PREG = PREG->u.ollll.l4; JMPNext(); ENDD(d0); } ENDBOp(); BOp(switch_on_arg_type, xllll); BEGD(d0); d0 = XREG(PREG->u.xllll.x); deref_head(d0, arg_swt_unk); /* nonvar */ arg_swt_nvar: if (IsPairTerm(d0)) { /* pair */ copy_jmp_address(PREG->u.xllll.l1); PREG = PREG->u.xllll.l1; SREG = RepPair(d0); JMPNext(); } else if (!IsApplTerm(d0)) { /* constant */ copy_jmp_address(PREG->u.xllll.l2); PREG = PREG->u.xllll.l2; I_R = d0; JMPNext(); } else { /* appl */ copy_jmp_address(PREG->u.xllll.l3); PREG = PREG->u.xllll.l3; SREG = RepAppl(d0); JMPNext(); } BEGP(pt0); deref_body(d0, pt0, arg_swt_unk, arg_swt_nvar); /* variable */ copy_jmp_address(PREG->u.xllll.l4); PREG = PREG->u.xllll.l4; JMPNext(); ENDP(pt0); ENDD(d0); ENDBOp(); BOp(switch_on_sub_arg_type, sllll); BEGD(d0); d0 = SREG[PREG->u.sllll.s]; deref_head(d0, sub_arg_swt_unk); /* nonvar */ sub_arg_swt_nvar: if (IsPairTerm(d0)) { /* pair */ copy_jmp_address(PREG->u.sllll.l1); PREG = PREG->u.sllll.l1; SREG = RepPair(d0); JMPNext(); } else if (!IsApplTerm(d0)) { /* constant */ copy_jmp_address(PREG->u.sllll.l2); PREG = PREG->u.sllll.l2; I_R = d0; JMPNext(); } else { /* appl */ copy_jmp_address(PREG->u.sllll.l3); PREG = PREG->u.sllll.l3; SREG = RepAppl(d0); JMPNext(); } BEGP(pt0); deref_body(d0, pt0, sub_arg_swt_unk, sub_arg_swt_nvar); /* variable */ copy_jmp_address(PREG->u.sllll.l4); PREG = PREG->u.sllll.l4; JMPNext(); ENDP(pt0); ENDD(d0); ENDBOp(); BOp(jump_if_var, l); BEGD(d0); d0 = CACHED_A1(); deref_head(d0, jump_if_unk); /* non var */ jump0_if_nonvar: PREG = NEXTOP(PREG, l); JMPNext(); BEGP(pt0); deref_body(d0, pt0, jump_if_unk, jump0_if_nonvar); /* variable */ copy_jmp_address(PREG->u.l.l); PREG = PREG->u.l.l; ENDP(pt0); JMPNext(); ENDD(d0); ENDBOp(); BOp(jump_if_nonvar, xll); BEGD(d0); d0 = XREG(PREG->u.xll.x); deref_head(d0, jump2_if_unk); /* non var */ jump2_if_nonvar: copy_jmp_address(PREG->u.xll.l1); PREG = PREG->u.xll.l1; JMPNext(); BEGP(pt0); deref_body(d0, pt0, jump2_if_unk, jump2_if_nonvar); /* variable */ PREG = NEXTOP(PREG, xll); ENDP(pt0); JMPNext(); ENDD(d0); ENDBOp(); BOp(if_not_then, clll); BEGD(d0); d0 = CACHED_A1(); deref_head(d0, if_n_unk); if_n_nvar: /* not variable */ if (d0 == PREG->u.clll.c) { /* equal to test value */ copy_jmp_address(PREG->u.clll.l2); PREG = PREG->u.clll.l2; JMPNext(); } else { /* different from test value */ /* the case to optimise */ copy_jmp_address(PREG->u.clll.l1); PREG = PREG->u.clll.l1; JMPNext(); } BEGP(pt0); deref_body(d0, pt0, if_n_unk, if_n_nvar); ENDP(pt0); /* variable */ copy_jmp_address(PREG->u.clll.l3); PREG = PREG->u.clll.l3; JMPNext(); ENDD(d0); ENDBOp(); /************************************************************************\ * Indexing on ARG1 * \************************************************************************/ #define HASH_SHIFT 6 BOp(switch_on_func, sssl); BEGD(d1); d1 = *SREG++; /* we use a very simple hash function to find elements in a * switch table */ { CELL /* first, calculate the mask */ Mask = (PREG->u.sssl.s - 1) << 1, /* next, calculate the hash function */ hash = d1 >> (HASH_SHIFT - 1) & Mask; CELL *base; base = (CELL *)PREG->u.sssl.l; /* PREG now points at the beginning of the hash table */ BEGP(pt0); /* pt0 will always point at the item */ pt0 = base + hash; BEGD(d0); d0 = pt0[0]; /* a match happens either if we found the value, or if we * found an empty slot */ if (d0 == d1 || d0 == 0) { copy_jmp_addressa(pt0+1); PREG = (yamop *) (pt0[1]); JMPNext(); } else { /* ooops, collision, look for other items */ register CELL d = ((d1 | 1) << 1) & Mask; while (1) { hash = (hash + d) & Mask; pt0 = base + hash; d0 = pt0[0]; if (d0 == d1 || d0 == 0) { copy_jmp_addressa(pt0+1); PREG = (yamop *) pt0[1]; JMPNext(); } } } ENDD(d0); ENDP(pt0); } ENDD(d1); ENDBOp(); BOp(switch_on_cons, sssl); BEGD(d1); d1 = I_R; /* we use a very simple hash function to find elements in a * switch table */ { CELL /* first, calculate the mask */ Mask = (PREG->u.sssl.s - 1) << 1, /* next, calculate the hash function */ hash = d1 >> (HASH_SHIFT - 1) & Mask; CELL *base; base = (CELL *)PREG->u.sssl.l; /* PREG now points at the beginning of the hash table */ BEGP(pt0); /* pt0 will always point at the item */ pt0 = base + hash; BEGD(d0); d0 = pt0[0]; /* a match happens either if we found the value, or if we * found an empty slot */ if (d0 == d1 || d0 == 0) { copy_jmp_addressa(pt0+1); PREG = (yamop *) (pt0[1]); JMPNext(); } else { /* ooops, collision, look for other items */ register CELL d = ((d1 | 1) << 1) & Mask; while (1) { hash = (hash + d) & Mask; pt0 = base + hash; d0 = pt0[0]; if (d0 == d1 || d0 == 0) { copy_jmp_addressa(pt0+1); PREG = (yamop *) pt0[1]; JMPNext(); } } } ENDD(d0); ENDP(pt0); } ENDD(d1); ENDBOp(); BOp(go_on_func, sssl); BEGD(d0); { CELL *pt = (CELL *)(PREG->u.sssl.l); d0 = *SREG++; if (d0 == pt[0]) { copy_jmp_addressa(pt+1); PREG = (yamop *) pt[1]; JMPNext(); } else { copy_jmp_addressa(pt+3); PREG = (yamop *) pt[3]; JMPNext(); } } ENDD(d0); ENDBOp(); BOp(go_on_cons, sssl); BEGD(d0); { CELL *pt = (CELL *)(PREG->u.sssl.l); d0 = I_R; if (d0 == pt[0]) { copy_jmp_addressa(pt+1); PREG = (yamop *) pt[1]; JMPNext(); } else { copy_jmp_addressa(pt+3); PREG = (yamop *) pt[3]; JMPNext(); } } ENDD(d0); ENDBOp(); BOp(if_func, sssl); BEGD(d1); BEGP(pt0); pt0 = (CELL *) PREG->u.sssl.l; d1 = *SREG++; while (pt0[0] != d1 && pt0[0] != (CELL)NULL ) { pt0 += 2; } copy_jmp_addressa(pt0+1); PREG = (yamop *) (pt0[1]); JMPNext(); ENDP(pt0); ENDD(d1); ENDBOp(); BOp(if_cons, sssl); BEGD(d1); BEGP(pt0); pt0 = (CELL *) PREG->u.sssl.l; d1 = I_R; while (pt0[0] != d1 && pt0[0] != 0L ) { pt0 += 2; } copy_jmp_addressa(pt0+1); PREG = (yamop *) (pt0[1]); JMPNext(); ENDP(pt0); ENDD(d1); ENDBOp(); Op(index_dbref, e); PREG = NEXTOP(PREG, e); I_R = AbsAppl(SREG-1); GONext(); ENDOp(); Op(index_blob, e); PREG = NEXTOP(PREG, e); I_R = Yap_DoubleP_key(SREG); GONext(); ENDOp(); Op(index_long, e); PREG = NEXTOP(PREG, e); I_R = Yap_IntP_key(SREG); GONext(); ENDOp(); /************************************************************************\ * Native Code Execution * \************************************************************************/ /* native_me */ BOp(native_me, aFlp); if (PREG->u.aFlp.n) EXEC_NATIVE(PREG->u.aFlp.n); else { PREG->u.aFlp.n++; if (PREG->u.aFlp.n == MAX_INVOCATION) PREG->u.aFlp.n = Yapc_Compile(PREG->u.aFlp.p); } PREG = NEXTOP(PREG, aFlp); JMPNext(); ENDBOp(); /************************************************************************\ * Basic Primitive Predicates * \************************************************************************/ Op(p_atom_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, atom_x_unk); atom_x_nvar: if (IsAtomTerm(d0) && !IsBlob(AtomOfTerm(d0))) { PREG = NEXTOP(PREG, xl); GONext(); } else { PREG = PREG->u.xl.F; GONext(); } BEGP(pt0); deref_body(d0, pt0, atom_x_unk, atom_x_nvar); PREG = PREG->u.xl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_atom_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, atom_y_unk); atom_y_nvar: if (IsAtomTerm(d0) && !IsBlob(AtomOfTerm(d0))) { PREG = NEXTOP(PREG, yl); GONext(); } else { PREG = PREG->u.yl.F; GONext(); } derefa_body(d0, pt0, atom_y_unk, atom_y_nvar); PREG = PREG->u.yl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_atomic_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, atomic_x_unk); atomic_x_nvar: /* non variable */ if (IsAtomicTerm(d0)) { PREG = NEXTOP(PREG, xl); GONext(); } else { PREG = PREG->u.xl.F; GONext(); } BEGP(pt0); deref_body(d0, pt0, atomic_x_unk, atomic_x_nvar); PREG = PREG->u.xl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_atomic_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, atomic_y_unk); atomic_y_nvar: /* non variable */ if (IsAtomicTerm(d0)) { PREG = NEXTOP(PREG, yl); GONext(); } else { PREG = PREG->u.yl.F; GONext(); } derefa_body(d0, pt0, atomic_y_unk, atomic_y_nvar); PREG = PREG->u.yl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_integer_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, integer_x_unk); integer_x_nvar: /* non variable */ if (IsIntTerm(d0)) { PREG = NEXTOP(PREG, xl); GONext(); } if (IsApplTerm(d0)) { Functor f0 = FunctorOfTerm(d0); if (IsExtensionFunctor(f0)) { switch ((CELL)f0) { case (CELL)FunctorLongInt: case (CELL)FunctorBigInt: PREG = NEXTOP(PREG, xl); GONext(); default: PREG = PREG->u.xl.F; GONext(); } } } PREG = PREG->u.xl.F; GONext(); BEGP(pt0); deref_body(d0, pt0, integer_x_unk, integer_x_nvar); PREG = PREG->u.xl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_integer_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, integer_y_unk); integer_y_nvar: /* non variable */ if (IsIntTerm(d0)) { PREG = NEXTOP(PREG, yl); GONext(); } if (IsApplTerm(d0)) { Functor f0 = FunctorOfTerm(d0); if (IsExtensionFunctor(f0)) { switch ((CELL)f0) { case (CELL)FunctorLongInt: #ifdef USE_GMP case (CELL)FunctorBigInt: #endif PREG = NEXTOP(PREG, yl); GONext(); default: PREG = PREG->u.yl.F; GONext(); } } } PREG = PREG->u.yl.F; GONext(); derefa_body(d0, pt0, integer_y_unk, integer_y_nvar); PREG = PREG->u.yl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_nonvar_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, nonvar_x_unk); nonvar_x_nvar: PREG = NEXTOP(PREG, xl); GONext(); BEGP(pt0); deref_body(d0, pt0, nonvar_x_unk, nonvar_x_nvar); PREG = PREG->u.xl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_nonvar_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, nonvar_y_unk); nonvar_y_nvar: PREG = NEXTOP(PREG, yl); GONext(); derefa_body(d0, pt0, nonvar_y_unk, nonvar_y_nvar); PREG = PREG->u.yl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_number_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, number_x_unk); number_x_nvar: /* non variable */ if (IsIntTerm(d0)) { PREG = NEXTOP(PREG, xl); GONext(); } if (IsApplTerm(d0)) { Functor f0 = FunctorOfTerm(d0); if (IsExtensionFunctor(f0)) { switch ((CELL)f0) { case (CELL)FunctorLongInt: case (CELL)FunctorDouble: #ifdef USE_GMP case (CELL)FunctorBigInt: #endif PREG = NEXTOP(PREG, xl); GONext(); default: PREG = PREG->u.xl.F; GONext(); } } } PREG = PREG->u.xl.F; GONext(); BEGP(pt0); deref_body(d0, pt0, number_x_unk, number_x_nvar); PREG = PREG->u.xl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_number_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, number_y_unk); number_y_nvar: /* non variable */ /* non variable */ if (IsIntTerm(d0)) { PREG = NEXTOP(PREG, xl); GONext(); } if (IsApplTerm(d0)) { Functor f0 = FunctorOfTerm(d0); if (IsExtensionFunctor(f0)) { switch ((CELL)f0) { case (CELL)FunctorLongInt: case (CELL)FunctorDouble: #ifdef USE_GMP case (CELL)FunctorBigInt: #endif PREG = NEXTOP(PREG, yl); GONext(); default: PREG = PREG->u.yl.F; GONext(); } } } PREG = PREG->u.xl.F; GONext(); derefa_body(d0, pt0, number_y_unk, number_y_nvar); PREG = PREG->u.yl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_var_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, var_x_unk); var_x_nvar: /* non variable */ PREG = PREG->u.xl.F; GONext(); BEGP(pt0); deref_body(d0, pt0, var_x_unk, var_x_nvar); PREG = NEXTOP(PREG, xl); GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_var_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, var_y_unk); var_y_nvar: /* non variable */ PREG = PREG->u.yl.F; GONext(); derefa_body(d0, pt0, var_y_unk, var_y_nvar); PREG = NEXTOP(PREG, yl); GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_db_ref_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, dbref_x_unk); dbref_x_nvar: /* non variable */ if (IsDBRefTerm(d0)) { /* only allow references to the database, not general references * to go through. */ PREG = NEXTOP(PREG, xl); GONext(); } else { PREG = PREG->u.xl.F; GONext(); } BEGP(pt0); deref_body(d0, pt0, dbref_x_unk, dbref_x_nvar); PREG = PREG->u.xl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_db_ref_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, dbref_y_unk); dbref_y_nvar: /* non variable */ if (IsDBRefTerm(d0)) { /* only allow references to the database, not general references * to go through. */ PREG = NEXTOP(PREG, yl); GONext(); } else { PREG = PREG->u.yl.F; GONext(); } derefa_body(d0, pt0, dbref_y_unk, dbref_y_nvar); PREG = PREG->u.yl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_primitive_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, primi_x_unk); primi_x_nvar: /* non variable */ if (IsPrimitiveTerm(d0)) { PREG = NEXTOP(PREG, xl); GONext(); } else { PREG = PREG->u.xl.F; GONext(); } BEGP(pt0); deref_body(d0, pt0, primi_x_unk, primi_x_nvar); PREG = PREG->u.xl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_primitive_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, primi_y_unk); primi_y_nvar: /* non variable */ if (IsPrimitiveTerm(d0)) { PREG = NEXTOP(PREG, yl); GONext(); } else { PREG = PREG->u.yl.F; GONext(); } derefa_body(d0, pt0, primi_y_unk, primi_y_nvar); PREG = PREG->u.yl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_compound_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, compound_x_unk); compound_x_nvar: /* non variable */ if (IsPairTerm(d0)) { PREG = NEXTOP(PREG, xl); GONext(); } else if (IsApplTerm(d0)) { if (IsExtensionFunctor(FunctorOfTerm(d0))) { PREG = PREG->u.xl.F; GONext(); } PREG = NEXTOP(PREG, xl); GONext(); } else { PREG = PREG->u.xl.F; GONext(); } BEGP(pt0); deref_body(d0, pt0, compound_x_unk, compound_x_nvar); PREG = PREG->u.xl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_compound_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, compound_y_unk); compound_y_nvar: /* non variable */ if (IsPairTerm(d0)) { PREG = NEXTOP(PREG, yl); GONext(); } else if (IsApplTerm(d0)) { if (IsExtensionFunctor(FunctorOfTerm(d0))) { PREG = PREG->u.yl.F; GONext(); } PREG = NEXTOP(PREG, yl); GONext(); } else { PREG = PREG->u.yl.F; GONext(); } derefa_body(d0, pt0, compound_y_unk, compound_y_nvar); PREG = PREG->u.yl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_float_x, xl); BEGD(d0); d0 = XREG(PREG->u.xl.x); deref_head(d0, float_x_unk); float_x_nvar: /* non variable */ if (IsFloatTerm(d0)) { PREG = NEXTOP(PREG, xl); GONext(); } PREG = PREG->u.xl.F; GONext(); BEGP(pt0); deref_body(d0, pt0, float_x_unk, float_x_nvar); PREG = PREG->u.xl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_float_y, yl); BEGD(d0); BEGP(pt0); pt0 = YREG + PREG->u.yl.y; d0 = *pt0; deref_head(d0, float_y_unk); float_y_nvar: /* non variable */ if (IsFloatTerm(d0)) { PREG = NEXTOP(PREG, yl); GONext(); } PREG = PREG->u.yl.F; GONext(); derefa_body(d0, pt0, float_y_unk, float_y_nvar); PREG = PREG->u.yl.F; GONext(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_plus_vv, xxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.xxx.x1); /* first check pt1 */ deref_head(d0, plus_vv_unk); plus_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, plus_vv_nvar_unk); plus_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = MkIntegerTerm(IntOfTerm(d0) + IntOfTerm(d1)); } else { saveregs(); d0 = p_plus(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(PREG, xxx); GONext(); BEGP(pt0); deref_body(d0, pt0, plus_vv_unk, plus_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is _+B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, plus_vv_nvar_unk, plus_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A+B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_plus_vc, xxn); BEGD(d0); d0 = XREG(PREG->u.xxn.xi); /* first check pt1 */ deref_head(d0, plus_vc_unk); plus_vc_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { d0 = MkIntegerTerm(IntOfTerm(d0) + d1); } else { saveregs(); d0 = p_plus(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, plus_vc_unk, plus_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A + " Int_FORMAT, PREG->u.xxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_plus_y_vv, yxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.yxx.x1); /* first check pt1 */ deref_head(d0, plus_y_vv_unk); plus_y_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, plus_y_vv_nvar_unk); plus_y_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = MkIntegerTerm(IntOfTerm(d0) + IntOfTerm(d1)); } else { saveregs(); d0 = p_plus(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } BEGP(pt0); pt0 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, plus_y_vv_unk, plus_y_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A+B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, plus_y_vv_nvar_unk, plus_y_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A+B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_plus_y_vc, yxn); BEGD(d0); d0 = XREG(PREG->u.yxn.xi); /* first check pt1 */ deref_head(d0, plus_y_vc_unk); plus_y_vc_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { d0 = MkIntegerTerm(IntOfTerm(d0) + d1); } else { saveregs(); d0 = p_plus(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, plus_y_vc_unk, plus_y_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A + " Int_FORMAT, PREG->u.yxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_minus_vv, xxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.xxx.x1); /* first check pt1 */ deref_head(d0, minus_vv_unk); minus_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, minus_vv_nvar_unk); minus_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = MkIntegerTerm(IntOfTerm(d0) - IntOfTerm(d1)); } else { saveregs(); d0 = p_minus(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(PREG, xxx); GONext(); BEGP(pt0); deref_body(d0, pt0, minus_vv_unk, minus_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A-B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, minus_vv_nvar_unk, minus_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A-B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_minus_cv, xxn); BEGD(d0); d0 = XREG(PREG->u.xxn.xi); /* first check pt1 */ deref_head(d0, minus_cv_unk); minus_cv_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { d0 = MkIntegerTerm(d1 - IntOfTerm(d0)); } else { saveregs(); d0 = p_minus(MkIntegerTerm(d1),Yap_Eval(d0)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, minus_cv_unk, minus_cv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is " Int_FORMAT "-A", PREG->u.xxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_minus_y_vv, yxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.yxx.x1); /* first check pt1 */ deref_head(d0, minus_y_vv_unk); minus_y_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, minus_y_vv_nvar_unk); minus_y_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = MkIntegerTerm(IntOfTerm(d0) - IntOfTerm(d1)); } else { saveregs(); d0 = p_minus(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } BEGP(pt0); pt0 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, minus_y_vv_unk, minus_y_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A-B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, minus_y_vv_nvar_unk, minus_y_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A-B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_minus_y_cv, yxn); BEGD(d0); d0 = XREG(PREG->u.yxn.xi); /* first check pt1 */ deref_head(d0, minus_y_cv_unk); minus_y_cv_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { d0 = MkIntegerTerm(d1 - IntOfTerm(d0)); } else { saveregs(); d0 = p_minus(MkIntegerTerm(d1), Yap_Eval(d0)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, minus_y_cv_unk, minus_y_cv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is " Int_FORMAT "-A", PREG->u.yxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_times_vv, xxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.xxx.x1); /* first check pt1 */ deref_head(d0, times_vv_unk); times_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, times_vv_nvar_unk); times_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = times_int(IntOfTerm(d0), IntOfTerm(d1)); } else { saveregs(); d0 = p_times(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(PREG, xxx); GONext(); BEGP(pt0); deref_body(d0, pt0, times_vv_unk, times_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A*B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, times_vv_nvar_unk, times_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A*B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_times_vc, xxn); BEGD(d0); d0 = XREG(PREG->u.xxn.xi); /* first check pt1 */ deref_head(d0, times_vc_unk); times_vc_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { d0 = times_int(IntOfTerm(d0), d1); } else { saveregs(); d0 = p_times(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, times_vc_unk, times_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A* " Int_FORMAT, PREG->u.xxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_times_y_vv, yxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.yxx.x1); /* first check pt1 */ deref_head(d0, times_y_vv_unk); times_y_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, times_y_vv_nvar_unk); times_y_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = times_int(IntOfTerm(d0), IntOfTerm(d1)); } else { saveregs(); d0 = p_times(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } BEGP(pt0); pt0 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, times_y_vv_unk, times_y_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A*B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, times_y_vv_nvar_unk, times_y_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A*B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_times_y_vc, yxn); BEGD(d0); d0 = XREG(PREG->u.yxn.xi); /* first check pt1 */ deref_head(d0, times_y_vc_unk); times_y_vc_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { d0 = times_int(IntOfTerm(d0), d1); } else { saveregs(); d0 = p_times(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, times_y_vc_unk, times_y_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A* " Int_FORMAT, PREG->u.yxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_div_vv, xxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.xxx.x1); /* first check pt1 */ deref_head(d0, div_vv_unk); div_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, div_vv_nvar_unk); div_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { Int div = IntOfTerm(d1); if (div == 0) { saveregs(); Yap_NilError(EVALUATION_ERROR_ZERO_DIVISOR,"// /2"); setregs(); FAIL(); } d0 = MkIntTerm(IntOfTerm(d0) / div); } else { saveregs(); d0 = p_div(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(PREG, xxx); GONext(); BEGP(pt0); deref_body(d0, pt0, div_vv_unk, div_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A//B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, div_vv_nvar_unk, div_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A//B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_div_vc, xxn); BEGD(d0); d0 = XREG(PREG->u.xxn.xi); /* first check pt1 */ deref_head(d0, div_vc_unk); div_vc_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { d0 = MkIntTerm(IntOfTerm(d0) / d1); } else { saveregs(); d0 = p_div(Yap_Eval(d0),MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, div_vc_unk, div_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A//B"); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_div_cv, xxn); BEGD(d0); d0 = XREG(PREG->u.xxn.xi); /* first check pt1 */ deref_head(d0, div_cv_unk); div_cv_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { Int div = IntOfTerm(d0); if (div == 0){ saveregs(); Yap_NilError(EVALUATION_ERROR_ZERO_DIVISOR,"// /2"); setregs(); FAIL(); } d0 = MkIntegerTerm(d1 / div); } else { saveregs(); d0 = p_div(MkIntegerTerm(d1),Yap_Eval(d0)); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, div_cv_unk, div_cv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is " Int_FORMAT "// A", PREG->u.xxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_div_y_vv, yxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.yxx.x1); /* first check pt1 */ deref_head(d0, div_y_vv_unk); div_y_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, div_y_vv_nvar_unk); div_y_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { Int div = IntOfTerm(d1); if (div == 0) { saveregs(); Yap_NilError(EVALUATION_ERROR_ZERO_DIVISOR,"// /2"); setregs(); FAIL(); } d0 = MkIntTerm(IntOfTerm(d0) / div); } else { saveregs(); d0 = p_div(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } BEGP(pt0); pt0 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, div_y_vv_unk, div_y_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A//B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, div_y_vv_nvar_unk, div_y_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A//B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_div_y_vc, yxn); BEGD(d0); d0 = XREG(PREG->u.yxn.xi); /* first check pt1 */ deref_head(d0, div_y_vc_unk); div_y_vc_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { d0 = MkIntTerm(IntOfTerm(d0)/d1); } else { saveregs(); d0 = p_div(Yap_Eval(d0),MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, div_y_vc_unk, div_y_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A//B"); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_div_y_cv, yxn); BEGD(d0); d0 = XREG(PREG->u.yxn.xi); /* first check pt1 */ deref_head(d0, div_y_cv_unk); div_y_cv_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { Int div = IntOfTerm(d0); if (div == 0) { saveregs(); Yap_NilError(EVALUATION_ERROR_ZERO_DIVISOR,"// /2"); setregs(); FAIL(); } d0 = MkIntegerTerm(d1 / div); } else { saveregs(); d0 = p_div(MkIntegerTerm(d1), Yap_Eval(d0)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, div_y_cv_unk, div_y_cv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is " Int_FORMAT "// A", PREG->u.yxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_and_vv, xxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.xxx.x1); /* first check pt1 */ deref_head(d0, and_vv_unk); and_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, and_vv_nvar_unk); and_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = MkIntegerTerm(IntOfTerm(d0) & IntOfTerm(d1)); } else { saveregs(); d0 = p_and(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(PREG, xxx); GONext(); BEGP(pt0); deref_body(d0, pt0, and_vv_unk, and_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A/\\B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, and_vv_nvar_unk, and_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A/\\B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_and_vc, xxn); BEGD(d0); d0 = XREG(PREG->u.xxn.xi); /* first check pt1 */ deref_head(d0, and_vc_unk); and_vc_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { d0 = MkIntegerTerm(IntOfTerm(d0) & d1); } else { saveregs(); d0 = p_and(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, and_vc_unk, and_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A /\\ " Int_FORMAT , PREG->u.xxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_and_y_vv, yxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.yxx.x1); /* first check pt1 */ deref_head(d0, and_y_vv_unk); and_y_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, and_y_vv_nvar_unk); and_y_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = MkIntegerTerm(IntOfTerm(d0) & IntOfTerm(d1)); } else { saveregs(); d0 = p_and(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } BEGP(pt0); pt0 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, and_y_vv_unk, and_y_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A/\\B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, and_y_vv_nvar_unk, and_y_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A/\\B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_and_y_vc, yxn); BEGD(d0); d0 = XREG(PREG->u.yxn.xi); /* first check pt1 */ deref_head(d0, and_y_vc_unk); and_y_vc_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { d0 = MkIntegerTerm(IntOfTerm(d0) & d1); } else { saveregs(); d0 = p_and(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, and_y_vc_unk, and_y_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A /\\ " Int_FORMAT , PREG->u.yxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_or_vv, xxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.xxx.x1); /* first check pt1 */ deref_head(d0, or_vv_unk); or_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, or_vv_nvar_unk); or_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = MkIntegerTerm(IntOfTerm(d0) | IntOfTerm(d1)); } else { saveregs(); d0 = p_or(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(PREG, xxx); GONext(); BEGP(pt0); deref_body(d0, pt0, or_vv_unk, or_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A\\/B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, or_vv_nvar_unk, or_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A\\/B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_or_vc, xxn); BEGD(d0); d0 = XREG(PREG->u.xxn.xi); /* first check pt1 */ deref_head(d0, or_vc_unk); or_vc_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { d0 = MkIntegerTerm(IntOfTerm(d0) | d1); } else { saveregs(); d0 = p_or(Yap_Eval(d0), MkIntegerTerm(d1)); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, or_vc_unk, or_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A \\/ " Int_FORMAT , PREG->u.xxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_or_y_vv, yxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.yxx.x1); /* first check pt1 */ deref_head(d0, or_y_vv_unk); or_y_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, or_y_vv_nvar_unk); or_y_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { d0 = MkIntegerTerm(IntOfTerm(d0) | IntOfTerm(d1)); } else { saveregs(); d0 = p_or(Yap_Eval(d0), Yap_Eval(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } BEGP(pt0); pt0 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, or_y_vv_unk, or_y_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A\\/B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, or_y_vv_nvar_unk, or_y_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A\\/B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_or_y_vc, yxn); BEGD(d0); d0 = XREG(PREG->u.yxn.xi); /* first check pt1 */ deref_head(d0, or_y_vc_unk); or_y_vc_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { d0 = MkIntegerTerm(IntOfTerm(d0) | d1); } else { saveregs(); d0 = p_or(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, or_y_vc_unk, or_y_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A \\/ " Int_FORMAT , PREG->u.yxn.c); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_sll_vv, xxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.xxx.x1); /* first check pt1 */ deref_head(d0, sll_vv_unk); sll_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, sll_vv_nvar_unk); sll_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { Int i2 = IntOfTerm(d1); if (i2 < 0) d0 = MkIntegerTerm(SLR(IntOfTerm(d0), -i2)); else d0 = do_sll(IntOfTerm(d0),i2); } else { saveregs(); d0 = p_sll(Yap_Eval(d0), Yap_Eval(d1)); setregs(); } if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(PREG, xxx); GONext(); BEGP(pt0); deref_body(d0, pt0, sll_vv_unk, sll_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A<u.xxn.xi); /* first check pt1 */ deref_head(d0, sll_vc_unk); sll_vc_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { d0 = do_sll(IntOfTerm(d0), (Int)d1); } else { saveregs(); d0 = p_sll(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); } } if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, sll_vc_unk, sll_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A<u.xxn.xi); /* first check pt1 */ deref_head(d0, sll_cv_unk); sll_cv_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { Int i2 = IntOfTerm(d0); if (i2 < 0) d0 = MkIntegerTerm(SLR(d1, -i2)); else d0 = do_sll(d1,i2); } else { saveregs(); d0 = p_sll(MkIntegerTerm(d1), Yap_Eval(d0)); setregs(); } } if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, sll_cv_unk, sll_cv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A<u.yxx.x1); /* first check pt1 */ deref_head(d0, sll_y_vv_unk); sll_y_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, sll_y_vv_nvar_unk); sll_y_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { Int i2 = IntOfTerm(d1); if (i2 < 0) d0 = MkIntegerTerm(SLR(IntOfTerm(d0), -i2)); else d0 = do_sll(IntOfTerm(d0),i2); } else { saveregs(); d0 = p_sll(Yap_Eval(d0), Yap_Eval(d1)); setregs(); } if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } BEGP(pt0); pt0 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, sll_y_vv_unk, sll_y_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A<u.yxn.xi); /* first check pt1 */ deref_head(d0, sll_y_vc_unk); sll_y_vc_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { d0 = do_sll(IntOfTerm(d0), Yap_Eval(d1)); } else { saveregs(); d0 = p_sll(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); } } if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, sll_y_vc_unk, sll_y_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A<u.yxn.xi); /* first check pt1 */ deref_head(d0, sll_y_cv_unk); sll_y_cv_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { Int i2 = IntOfTerm(d0); if (i2 < 0) d0 = MkIntegerTerm(SLR(d1, -i2)); else d0 = do_sll(d1,i2); } else { saveregs(); d0 = p_sll(MkIntegerTerm(d1), Yap_Eval(0)); setregs(); } } if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, sll_y_cv_unk, sll_y_cv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A<u.xxx.x1); /* first check pt1 */ deref_head(d0, slr_vv_unk); slr_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, slr_vv_nvar_unk); slr_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { Int i2 = IntOfTerm(d1); if (i2 < 0) d0 = do_sll(IntOfTerm(d0), -i2); else d0 = MkIntTerm(SLR(IntOfTerm(d0), i2)); } else { saveregs(); d0 = p_slr(Yap_Eval(d0), Yap_Eval(d1)); setregs(); } if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(PREG, xxx); GONext(); BEGP(pt0); deref_body(d0, pt0, slr_vv_unk, slr_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A>>B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, slr_vv_nvar_unk, slr_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A>>B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_slr_vc, xxn); BEGD(d0); d0 = XREG(PREG->u.xxn.xi); /* first check pt1 */ deref_head(d0, slr_vc_unk); slr_vc_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { d0 = MkIntTerm(SLR(IntOfTerm(d0), d1)); } else { saveregs(); d0 = p_slr(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, slr_vc_unk, slr_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A>>B"); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_slr_cv, xxn); BEGD(d0); d0 = XREG(PREG->u.xxn.xi); /* first check pt1 */ deref_head(d0, slr_cv_unk); slr_cv_nvar: { Int d1 = PREG->u.xxn.c; if (IsIntTerm(d0)) { Int i2 = IntOfTerm(d0); if (i2 < 0) d0 = do_sll(d1, -i2); else d0 = MkIntegerTerm(SLR(d1, i2)); } else { saveregs(); d0 = p_slr(MkIntegerTerm(d1), Yap_Eval(d0)); setregs(); } } if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(PREG, xxn); GONext(); BEGP(pt0); deref_body(d0, pt0, slr_cv_unk, slr_cv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A>>B"); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_slr_y_vv, yxx); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.yxx.x1); /* first check pt1 */ deref_head(d0, slr_y_vv_unk); slr_y_vv_nvar: d1 = XREG(PREG->u.xxx.x2); /* next check A2 */ deref_head(d1, slr_y_vv_nvar_unk); slr_y_vv_nvar_nvar: /* d0 and d1 are where I want them */ if (IsIntTerm(d0) && IsIntTerm(d1)) { Int i2 = IntOfTerm(d1); if (i2 < 0) d0 = do_sll(IntOfTerm(d0), -i2); else d0 = MkIntTerm(SLR(IntOfTerm(d0), i2)); } else { saveregs(); d0 = p_slr(Yap_Eval(d0), Yap_Eval(d1)); setregs(); } BEGP(pt0); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } pt0 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, slr_y_vv_unk, slr_y_vv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A>>B"); setregs(); FAIL(); ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, slr_y_vv_nvar_unk, slr_y_vv_nvar_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A>>B"); setregs(); FAIL(); ENDP(pt0); ENDD(d1); ENDD(d0); ENDOp(); Op(p_slr_y_vc, yxn); BEGD(d0); d0 = XREG(PREG->u.yxn.xi); /* first check pt1 */ deref_head(d0, slr_y_vc_unk); slr_y_vc_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { d0 = MkIntTerm(SLR(IntOfTerm(d0), d1)); } else { saveregs(); d0 = p_slr(Yap_Eval(d0), MkIntegerTerm(d1)); setregs(); if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } } } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, slr_y_vc_unk, slr_y_vc_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A>>B"); setregs(); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_slr_y_cv, yxn); BEGD(d0); d0 = XREG(PREG->u.yxn.xi); /* first check pt1 */ deref_head(d0, slr_y_cv_unk); slr_y_cv_nvar: { Int d1 = PREG->u.yxn.c; if (IsIntTerm(d0)) { Int i2 = IntOfTerm(d0); if (i2 < 0) d0 = do_sll(d1, -i2); else d0 = MkIntegerTerm(SLR(d1, i2)); } else { saveregs(); d0 = p_slr(MkIntegerTerm(d1), Yap_Eval(d0)); setregs(); } } if (d0 == 0L) { saveregs(); Yap_Error(LOCAL_Error_TYPE, LOCAL_Error_Term, LOCAL_ErrorMessage); setregs(); FAIL(); } BEGP(pt0); pt0 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt0,d0); ENDP(pt0); GONext(); BEGP(pt0); deref_body(d0, pt0, slr_y_cv_unk, slr_y_cv_nvar); saveregs(); Yap_NilError(INSTANTIATION_ERROR, "X is A>>B"); setregs(); FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); BOp(call_bfunc_xx, plxxs); BEGD(d0); BEGD(d1); d0 = XREG(PREG->u.plxxs.x1); call_bfunc_xx_nvar: d1 = XREG(PREG->u.plxxs.x2); call_bfunc_xx2_nvar: deref_head(d0, call_bfunc_xx_unk); deref_head(d1, call_bfunc_xx2_unk); if (IsIntTerm(d0) && IsIntTerm(d1)) { COUNT flags; Int v = IntOfTerm(d0) - IntOfTerm(d1); flags = PREG->u.plxxs.flags; if (v > 0) { if (flags & GT_OK_IN_CMP) { yamop *nextp = NEXTOP(PREG, plxxs); ALWAYS_LOOKAHEAD(nextp->opc); PREG = nextp; ALWAYS_GONext(); ALWAYS_END_PREFETCH(); } else { yamop *nextp = PREG->u.plxxs.f; ALWAYS_LOOKAHEAD(nextp->opc); PREG = nextp; ALWAYS_GONext(); ALWAYS_END_PREFETCH(); } } else if (v < 0) { if (flags & LT_OK_IN_CMP) { yamop *nextp = NEXTOP(PREG, plxxs); ALWAYS_LOOKAHEAD(nextp->opc); PREG = nextp; ALWAYS_GONext(); ALWAYS_END_PREFETCH(); } else { yamop *nextp = PREG->u.plxxs.f; ALWAYS_LOOKAHEAD(nextp->opc); PREG = nextp; ALWAYS_GONext(); ALWAYS_END_PREFETCH(); } } else /* if (v == 0) */ { if (flags & EQ_OK_IN_CMP) { yamop *nextp = NEXTOP(PREG, plxxs); ALWAYS_LOOKAHEAD(nextp->opc); PREG = nextp; ALWAYS_GONext(); ALWAYS_END_PREFETCH(); } else { yamop *nextp = PREG->u.plxxs.f; ALWAYS_LOOKAHEAD(nextp->opc); PREG = nextp; ALWAYS_GONext(); ALWAYS_END_PREFETCH(); } } } exec_bin_cmp_xx: { CmpPredicate f = PREG->u.plxxs.p->cs.d_code; saveregs(); d0 = (CELL) (f) (d0,d1); setregs(); } if (PREG == FAILCODE) { JMPNext(); } if (!d0) { PREG = PREG->u.plxxs.f; JMPNext(); } PREG = NEXTOP(PREG, plxxs); JMPNext(); BEGP(pt0); deref_body(d0, pt0, call_bfunc_xx_unk, call_bfunc_xx_nvar); d1 = Deref(d1); goto exec_bin_cmp_xx; ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, call_bfunc_xx2_unk, call_bfunc_xx2_nvar); goto exec_bin_cmp_xx; ENDP(pt0); ENDD(d1); ENDD(d0); ENDBOp(); BOp(call_bfunc_yx, plxys); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = YREG + PREG->u.plxys.y; d1 = XREG(PREG->u.plxys.x); d0 = *pt0; ENDP(pt0); deref_head(d0, call_bfunc_yx_unk); call_bfunc_yx_nvar: deref_head(d1, call_bfunc_yx2_unk); call_bfunc_yx2_nvar: if (IsIntTerm(d0) && IsIntTerm(d1)) { int flags; Int v = IntOfTerm(d0) - IntOfTerm(d1); flags = PREG->u.plxys.flags; if (v > 0) { if (flags & GT_OK_IN_CMP) { PREG = NEXTOP(PREG, plxys); JMPNext(); } else { PREG = PREG->u.plxys.f; JMPNext(); } } else if (v < 0) { if (flags & LT_OK_IN_CMP) { PREG = NEXTOP(PREG, plxys); JMPNext(); } else { PREG = PREG->u.plxys.f; JMPNext(); } } else /* if (v == 0) */ { if (flags & EQ_OK_IN_CMP) { PREG = NEXTOP(PREG, plxys); JMPNext(); } else { PREG = PREG->u.plxys.f; JMPNext(); } } } exec_bin_cmp_yx: { CmpPredicate f = PREG->u.plxys.p->cs.d_code; saveregs(); d0 = (CELL) (f) (d0,d1); setregs(); } if (!d0 || PREG == FAILCODE) { if (PREG != FAILCODE) PREG = PREG->u.plxys.f; JMPNext(); } PREG = NEXTOP(PREG, plxys); JMPNext(); BEGP(pt0); deref_body(d0, pt0, call_bfunc_yx_unk, call_bfunc_yx_nvar); d1 = Deref(d1); goto exec_bin_cmp_yx; ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, call_bfunc_yx2_unk, call_bfunc_yx2_nvar); goto exec_bin_cmp_yx; ENDP(pt0); ENDD(d1); ENDD(d0); ENDBOp(); BOp(call_bfunc_xy, plxys); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = YREG + PREG->u.plxys.y; d0 = XREG(PREG->u.plxys.x); d1 = *pt0; ENDP(pt0); deref_head(d0, call_bfunc_xy_unk); call_bfunc_xy_nvar: deref_head(d1, call_bfunc_xy2_unk); call_bfunc_xy2_nvar: if (IsIntTerm(d0) && IsIntTerm(d1)) { int flags; Int v = IntOfTerm(d0) - IntOfTerm(d1); flags = PREG->u.plxys.flags; if (v > 0) { if (flags & GT_OK_IN_CMP) { PREG = NEXTOP(PREG, plxys); JMPNext(); } else { PREG = PREG->u.plxys.f; JMPNext(); } } else if (v < 0) { if (flags & LT_OK_IN_CMP) { PREG = NEXTOP(PREG, plxys); JMPNext(); } else { PREG = PREG->u.plxys.f; JMPNext(); } } else /* if (v == 0) */ { if (flags & EQ_OK_IN_CMP) { PREG = NEXTOP(PREG, plxys); JMPNext(); } else { PREG = PREG->u.plxys.f; JMPNext(); } } } exec_bin_cmp_xy: { CmpPredicate f = PREG->u.plxys.p->cs.d_code; saveregs(); d0 = (CELL) (f) (d0,d1); setregs(); } if (!d0 || PREG == FAILCODE) { if (PREG != FAILCODE) PREG = PREG->u.plxys.f; JMPNext(); } PREG = NEXTOP(PREG, plxys); JMPNext(); BEGP(pt0); deref_body(d0, pt0, call_bfunc_xy_unk, call_bfunc_xy_nvar); d1 = Deref(d1); goto exec_bin_cmp_xy; ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, call_bfunc_xy2_unk, call_bfunc_xy2_nvar); goto exec_bin_cmp_xy; ENDP(pt0); ENDD(d1); ENDD(d0); ENDBOp(); BOp(call_bfunc_yy, plyys); BEGD(d0); BEGD(d1); BEGP(pt0); pt0 = YREG + PREG->u.plyys.y1; BEGP(pt1); pt1 = YREG + PREG->u.plyys.y2; d0 = *pt0; d1 = *pt1; ENDP(pt1); ENDP(pt0); deref_head(d0, call_bfunc_yy_unk); call_bfunc_yy_nvar: deref_head(d1, call_bfunc_yy2_unk); call_bfunc_yy2_nvar: if (IsIntTerm(d0) && IsIntTerm(d1)) { int flags; Int v = IntOfTerm(d0) - IntOfTerm(d1); flags = PREG->u.plyys.flags; if (v > 0) { if (flags & GT_OK_IN_CMP) { PREG = NEXTOP(PREG, plyys); JMPNext(); } else { PREG = PREG->u.plyys.f; JMPNext(); } } else if (v < 0) { if (flags & LT_OK_IN_CMP) { PREG = NEXTOP(PREG, plyys); JMPNext(); } else { PREG = PREG->u.plyys.f; JMPNext(); } } else /* if (v == 0) */ { if (flags & EQ_OK_IN_CMP) { PREG = NEXTOP(PREG, plyys); JMPNext(); } else { PREG = PREG->u.plyys.f; JMPNext(); } } } exec_bin_cmp_yy: { CmpPredicate f = PREG->u.plyys.p->cs.d_code; saveregs(); d0 = (CELL) (f) (d0,d1); setregs(); } if (!d0 || PREG == FAILCODE) { if (PREG != FAILCODE) PREG = PREG->u.plyys.f; JMPNext(); } PREG = NEXTOP(PREG, plyys); JMPNext(); BEGP(pt0); deref_body(d0, pt0, call_bfunc_yy_unk, call_bfunc_yy_nvar); d1 = Deref(d1); goto exec_bin_cmp_yy; ENDP(pt0); BEGP(pt0); deref_body(d1, pt0, call_bfunc_yy2_unk, call_bfunc_yy2_nvar); goto exec_bin_cmp_yy; ENDP(pt0); ENDD(d1); ENDD(d0); ENDBOp(); Op(p_equal, e); save_hb(); if (Yap_IUnify(ARG1, ARG2) == FALSE) { FAIL(); } PREG = NEXTOP(PREG, e); GONext(); ENDOp(); Op(p_dif, l); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorDiff,0)),XREGS+1); #endif /* LOW_LEVEL_TRACE */ BEGD(d0); BEGD(d1); d0 = ARG1; deref_head(d0, dif_unk1); dif_nvar1: /* first argument is bound */ d1 = ARG2; deref_head(d1, dif_nvar1_unk2); dif_nvar1_nvar2: /* both arguments are bound */ if (d0 == d1) { PREG = PREG->u.l.l; GONext(); } if (IsAtomOrIntTerm(d0) || IsAtomOrIntTerm(d1)) { PREG = NEXTOP(PREG, l); GONext(); } { Int opresult; #ifdef COROUTINING /* * We may wake up goals during our attempt to unify the * two terms. If we are adding to the tail of a list of * woken goals that should be ok, but otherwise we need * to restore LOCAL_WokenGoals to its previous value. */ CELL OldWokenGoals = Yap_ReadTimedVar(LOCAL_WokenGoals); #endif /* We will have to look inside compound terms */ register tr_fr_ptr pt0; /* store the old value of TR for clearing bindings */ pt0 = TR; BEGCHO(pt1); pt1 = B; /* make B and HB point to H to guarantee all bindings will * be trailed */ HBREG = H; B = (choiceptr) H; B->cp_h = H; SET_BB(B); save_hb(); opresult = Yap_IUnify(d0, d1); #ifdef COROUTINING /* now restore Woken Goals to its old value */ Yap_UpdateTimedVar(LOCAL_WokenGoals, OldWokenGoals); if (OldWokenGoals == TermNil) { Yap_undo_signal(YAP_WAKEUP_SIGNAL); } #endif /* restore B */ B = pt1; SET_BB(PROTECT_FROZEN_B(pt1)); #ifdef COROUTINING H = HBREG; #endif HBREG = B->cp_h; /* untrail all bindings made by Yap_IUnify */ while (TR != pt0) { BEGD(d1); d1 = TrailTerm(--TR); if (IsVarTerm(d1)) { #if defined(YAPOR_SBA) && defined(YAPOR) /* clean up the trail when we backtrack */ if (Unsigned((Int)(d1)-(Int)(H_FZ)) > Unsigned((Int)(B_FZ)-(Int)(H_FZ))) { RESET_VARIABLE(STACK_TO_SBA(d1)); } else #endif /* normal variable */ RESET_VARIABLE(d1); #ifdef MULTI_ASSIGNMENT_VARIABLES } else /* if (IsApplTerm(d1)) */ { CELL *pt = RepAppl(d1); /* AbsAppl means */ /* multi-assignment variable */ /* so the next cell is the old value */ #ifdef FROZEN_STACKS pt[0] = TrailVal(--TR); #else pt[0] = TrailTerm(--TR); TR--; #endif /* FROZEN_STACKS */ #endif /* MULTI_ASSIGNMENT_VARIABLES */ } ENDD(d1); } if (opresult) { /* restore B, no need to restore HB */ PREG = PREG->u.l.l; GONext(); } /* restore B, and later HB */ PREG = NEXTOP(PREG, l); ENDCHO(pt1); } GONext(); BEGP(pt0); deref_body(d0, pt0, dif_unk1, dif_nvar1); ENDP(pt0); /* first argument is unbound */ PREG = PREG->u.l.l; GONext(); BEGP(pt0); deref_body(d1, pt0, dif_nvar1_unk2, dif_nvar1_nvar2); ENDP(pt0); /* second argument is unbound */ PREG = PREG->u.l.l; GONext(); ENDD(d1); ENDD(d0); ENDOp(); Op(p_eq, l); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorSame,0)),XREGS+1); #endif /* LOW_LEVEL_TRACE */ BEGD(d0); BEGD(d1); d0 = ARG1; deref_head(d0, p_eq_unk1); p_eq_nvar1: /* first argument is bound */ d1 = ARG2; deref_head(d1, p_eq_nvar1_unk2); p_eq_nvar1_nvar2: /* both arguments are bound */ if (d0 == d1) { PREG = NEXTOP(PREG, l); GONext(); } if (IsPairTerm(d0)) { if (!IsPairTerm(d1)) { PREG = PREG->u.l.l; GONext(); } BEGD(d2); always_save_pc(); d2 = iequ_complex(RepPair(d0)-1, RepPair(d0)+1,RepPair(d1)-1); if (d2 == FALSE) { PREG = PREG->u.l.l; GONext(); } ENDD(d2); always_set_pc(); PREG = NEXTOP(PREG, l); GONext(); } if (IsApplTerm(d0)) { Functor f0 = FunctorOfTerm(d0); Functor f1; /* f1 must be a compound term, even if it is a suspension */ if (!IsApplTerm(d1)) { PREG = PREG->u.l.l; GONext(); } f1 = FunctorOfTerm(d1); /* we now know f1 is true */ /* deref if a compound term */ if (IsExtensionFunctor(f0)) { switch ((CELL)f0) { case (CELL)FunctorDBRef: if (d0 == d1) { PREG = NEXTOP(PREG, l); GONext(); } PREG = PREG->u.l.l; GONext(); case (CELL)FunctorLongInt: if (f1 != FunctorLongInt) { PREG = PREG->u.l.l; GONext(); } if (LongIntOfTerm(d0) == LongIntOfTerm(d1)) { PREG = NEXTOP(PREG, l); GONext(); } PREG = PREG->u.l.l; GONext(); #ifdef USE_GMP case (CELL)FunctorBigInt: if (f1 != FunctorBigInt) { PREG = PREG->u.l.l; GONext(); } if (Yap_gmp_tcmp_big_big(d0,d1) == 0) { PREG = NEXTOP(PREG, l); GONext(); } PREG = PREG->u.l.l; GONext(); #endif case (CELL)FunctorDouble: if (f1 != FunctorDouble) { PREG = PREG->u.l.l; GONext(); } if (FloatOfTerm(d0) == FloatOfTerm(d1)) { PREG = NEXTOP(PREG, l); GONext(); } default: PREG = PREG->u.l.l; GONext(); } } if (f0 != f1) { PREG = PREG->u.l.l; GONext(); } always_save_pc(); BEGD(d2); d2 = iequ_complex(RepAppl(d0), RepAppl(d0)+ArityOfFunctor(f0), RepAppl(d1)); if (d2 == FALSE) { PREG = PREG->u.l.l; GONext(); } ENDD(d2); always_set_pc(); PREG = NEXTOP(PREG, l); GONext(); } PREG = PREG->u.l.l; GONext(); BEGP(pt0); deref_body(d1, pt0, p_eq_nvar1_unk2, p_eq_nvar1_nvar2); ENDP(pt0); /* first argument is bound */ /* second argument is unbound */ /* I don't need to worry about co-routining because an unbound variable may never be == to a constrained variable!! */ PREG = PREG->u.l.l; GONext(); ENDD(d1); BEGP(pt0); deref_body(d0, pt0, p_eq_unk1, p_eq_nvar1); BEGD(d1); d1 = ARG2; deref_head(d1, p_eq_var1_unk2); p_eq_var1_nvar2: /* I don't need to worry about co-routining because an unbound variable may never be == to a constrained variable!! */ PREG = PREG->u.l.l; GONext(); BEGP(pt1); deref_body(d1, pt1, p_eq_var1_unk2, p_eq_var1_nvar2); /* first argument is unbound */ /* second argument is unbound */ if (pt1 != pt0) { PREG = PREG->u.l.l; GONext(); } PREG = NEXTOP(PREG, l); GONext(); ENDP(pt1); ENDD(d1); ENDP(pt0); ENDD(d0); ENDOp(); Op(p_arg_vv, xxx); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { H[0] = XREG(PREG->u.xxx.x1); H[1] = XREG(PREG->u.xxx.x2); RESET_VARIABLE(H+2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorArg,0)),H); } #endif /* LOW_LEVEL_TRACE */ BEGD(d0); d0 = XREG(PREG->u.xxx.x1); deref_head(d0, arg_arg1_unk); arg_arg1_nvar: /* ARG1 is ok! */ if (IsIntTerm(d0)) d0 = IntOfTerm(d0); else if (IsLongIntTerm(d0)) { d0 = LongIntOfTerm(d0); } else { saveregs(); Yap_Error(TYPE_ERROR_INTEGER,d0,"arg 1 of arg/3"); setregs(); FAIL(); } /* d0 now got the argument we want */ BEGD(d1); d1 = XREG(PREG->u.xxx.x2); deref_head(d1, arg_arg2_unk); arg_arg2_nvar: /* d1 now got the structure we want to fetch the argument * from */ if (IsApplTerm(d1)) { BEGP(pt0); pt0 = RepAppl(d1); d1 = *pt0; if (IsExtensionFunctor((Functor) d1)) { FAIL(); } if ((Int)d0 <= 0 || (Int)d0 > ArityOfFunctor((Functor) d1)) { /* don't complain here for Prolog compatibility if ((Int)d0 <= 0) { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO, MkIntegerTerm(d0),"arg 1 of arg/3"); setregs(); } */ FAIL(); } XREG(PREG->u.xxx.x) = pt0[d0]; PREG = NEXTOP(PREG, xxx); GONext(); ENDP(pt0); } else if (IsPairTerm(d1)) { BEGP(pt0); pt0 = RepPair(d1); if (d0 != 1 && d0 != 2) { if ((Int)d0 < 0) { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO, MkIntegerTerm(d0),"arg 1 of arg/3"); setregs(); } FAIL(); } XREG(PREG->u.xxx.x) = pt0[d0-1]; PREG = NEXTOP(PREG, xxx); GONext(); ENDP(pt0); } else { /* don't complain here for SWI Prolog compatibility saveregs(); Yap_Error(TYPE_ERROR_COMPOUND, d1, "arg 2 of arg/3"); setregs(); */ FAIL(); } BEGP(pt0); deref_body(d1, pt0, arg_arg2_unk, arg_arg2_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d1,"arg 2 of arg/3");; setregs(); ENDP(pt0); FAIL(); ENDD(d1); BEGP(pt0); deref_body(d0, pt0, arg_arg1_unk, arg_arg1_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "arg 1 of arg/3");; setregs(); ENDP(pt0); FAIL(); ENDD(d0); ENDOp(); Op(p_arg_cv, xxn); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { CELL *Ho = H; Term t = MkIntegerTerm(PREG->u.xxn.c); H[0] = t; H[1] = XREG(PREG->u.xxn.xi); RESET_VARIABLE(H+2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorArg,0)),H); H = Ho; } #endif /* LOW_LEVEL_TRACE */ BEGD(d0); d0 = PREG->u.xxn.c; /* d0 now got the argument we want */ BEGD(d1); d1 = XREG(PREG->u.xxn.xi); deref_head(d1, arg_arg2_vc_unk); arg_arg2_vc_nvar: /* d1 now got the structure we want to fetch the argument * from */ if (IsApplTerm(d1)) { BEGP(pt0); pt0 = RepAppl(d1); d1 = *pt0; if (IsExtensionFunctor((Functor) d1)) { FAIL(); } if ((Int)d0 <= 0 || (Int)d0 > ArityOfFunctor((Functor) d1)) { /* don't complain here for Prolog compatibility if ((Int)d0 <= 0) { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO, MkIntegerTerm(d0),"arg 1 of arg/3"); setregs(); } */ FAIL(); } XREG(PREG->u.xxn.x) = pt0[d0]; PREG = NEXTOP(PREG, xxn); GONext(); ENDP(pt0); } else if (IsPairTerm(d1)) { BEGP(pt0); pt0 = RepPair(d1); if (d0 != 1 && d0 != 2) { if ((Int)d0 < 0) { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO, MkIntegerTerm(d0),"arg 1 of arg/3"); setregs(); } FAIL(); } XREG(PREG->u.xxn.x) = pt0[d0-1]; PREG = NEXTOP(PREG, xxn); GONext(); ENDP(pt0); } else { /* keep SWI Prolog compatibility, just fail on trying to obtain an argument of a compound term. saveregs(); Yap_Error(TYPE_ERROR_COMPOUND, d1, "arg 2 of arg/3"); setregs(); */ FAIL(); } BEGP(pt0); deref_body(d1, pt0, arg_arg2_vc_unk, arg_arg2_vc_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d1,"arg 2 of arg/3");; setregs(); ENDP(pt0); FAIL(); ENDD(d1); ENDD(d0); ENDOp(); Op(p_arg_y_vv, yxx); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { H[0] = XREG(PREG->u.yxx.x1); H[1] = XREG(PREG->u.yxx.x2); H[2] = YREG[PREG->u.yxx.y]; RESET_VARIABLE(H+2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorArg,0)),H); } #endif /* LOW_LEVEL_TRACE */ BEGD(d0); d0 = XREG(PREG->u.yxx.x1); deref_head(d0, arg_y_arg1_unk); arg_y_arg1_nvar: /* ARG1 is ok! */ if (IsIntTerm(d0)) d0 = IntOfTerm(d0); else if (IsLongIntTerm(d0)) { d0 = LongIntOfTerm(d0); } else { saveregs(); Yap_Error(TYPE_ERROR_INTEGER,d0,"arg 1 of arg/3"); setregs(); FAIL(); } /* d0 now got the argument we want */ BEGD(d1); d1 = XREG(PREG->u.yxx.x2); deref_head(d1, arg_y_arg2_unk); arg_y_arg2_nvar: /* d1 now got the structure we want to fetch the argument * from */ if (IsApplTerm(d1)) { BEGP(pt0); pt0 = RepAppl(d1); d1 = *pt0; if (IsExtensionFunctor((Functor) d1)) { FAIL(); } if ((Int)d0 <= 0 || (Int)d0 > ArityOfFunctor((Functor) d1)) { /* don't complain here for Prolog compatibility if ((Int)d0 <= 0) { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO, MkIntegerTerm(d0),"arg 1 of arg/3"); saveregs(); } */ FAIL(); } BEGP(pt1); pt1 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt1,pt0[d0]); ENDP(pt1); GONext(); ENDP(pt0); } else if (IsPairTerm(d1)) { BEGP(pt0); pt0 = RepPair(d1); if (d0 != 1 && d0 != 2) { if ((Int)d0 < 0) { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO, MkIntegerTerm(d0),"arg 1 of arg/3"); setregs(); } FAIL(); } BEGP(pt1); pt1 = YREG + PREG->u.yxx.y; PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt1,pt0[d0-1]); GONext(); ENDP(pt1); ENDP(pt0); } else { /* don't complain here for SWI Prolog compatibility saveregs(); Yap_Error(TYPE_ERROR_COMPOUND, d1, "arg 2 of arg/3"); setregs(); */ FAIL(); } BEGP(pt0); deref_body(d1, pt0, arg_y_arg2_unk, arg_y_arg2_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d1,"arg 2 of arg/3");; setregs(); ENDP(pt0); FAIL(); ENDD(d1); BEGP(pt0); deref_body(d0, pt0, arg_y_arg1_unk, arg_y_arg1_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "arg 1 of arg/3");; setregs(); ENDP(pt0); FAIL(); ENDD(d0); ENDOp(); Op(p_arg_y_cv, yxn); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { CELL *Ho = H; Term t = MkIntegerTerm(PREG->u.yxn.c); H[0] = t; H[1] = XREG(PREG->u.yxn.xi); H[2] = YREG[PREG->u.yxn.y]; RESET_VARIABLE(H+2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorArg,0)),H); H = Ho; } #endif /* LOW_LEVEL_TRACE */ BEGD(d0); d0 = PREG->u.yxn.c; /* d0 now got the argument we want */ BEGD(d1); d1 = XREG(PREG->u.yxn.xi); deref_head(d1, arg_y_arg2_vc_unk); arg_y_arg2_vc_nvar: /* d1 now got the structure we want to fetch the argument * from */ if (IsApplTerm(d1)) { BEGP(pt0); pt0 = RepAppl(d1); d1 = *pt0; if (IsExtensionFunctor((Functor) d1)) { FAIL(); } if ((Int)d0 <= 0 || (Int)d0 > ArityOfFunctor((Functor) d1)) { /* don't complain here for Prolog compatibility if ((Int)d0 <= 0) { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO, MkIntegerTerm(d0),"arg 1 of arg/3"); setregs(); } */ FAIL(); } BEGP(pt1); pt1 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt1,pt0[d0]); ENDP(pt1); GONext(); ENDP(pt0); } else if (IsPairTerm(d1)) { BEGP(pt0); pt0 = RepPair(d1); if (d0 != 1 && d0 != 2) { if ((Int)d0 < 0) { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO, MkIntegerTerm(d0),"arg 1 of arg/3"); setregs(); } FAIL(); } BEGP(pt1); pt1 = YREG + PREG->u.yxn.y; PREG = NEXTOP(PREG, yxn); INITIALIZE_PERMVAR(pt1,pt0[d0-1]); ENDP(pt1); GONext(); ENDP(pt0); } else { /* don't complain here for SWI Prolog compatibility saveregs(); Yap_Error(TYPE_ERROR_COMPOUND, d1, "arg 2 of arg/3"); setregs(); */ FAIL(); } BEGP(pt0); deref_body(d1, pt0, arg_y_arg2_vc_unk, arg_y_arg2_vc_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d1,"arg 2 of arg/3");; setregs(); ENDP(pt0); FAIL(); ENDD(d1); ENDD(d0); ENDOp(); Op(p_func2s_vv, xxx); /* A1 is a variable */ restart_func2s: #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { RESET_VARIABLE(H); H[1] = XREG(PREG->u.xxx.x1); H[2] = XREG(PREG->u.xxx.x2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); } #endif /* LOW_LEVEL_TRACE */ /* We have to build the structure */ BEGD(d0); d0 = XREG(PREG->u.xxx.x1); deref_head(d0, func2s_unk); func2s_nvar: /* we do, let's get the third argument */ BEGD(d1); d1 = XREG(PREG->u.xxx.x2); deref_head(d1, func2s_unk2); func2s_nvar2: /* Uuuff, the second and third argument are bound */ if (IsIntegerTerm(d1)) d1 = IntegerOfTerm(d1); else { saveregs(); if (IsBigIntTerm(d1)) { Yap_Error(RESOURCE_ERROR_STACK, d1, "functor/3"); } else { Yap_Error(TYPE_ERROR_INTEGER, d1, "functor/3"); } setregs(); FAIL(); } if (!IsAtomicTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } /* We made it!!!!! we got in d0 the name, in d1 the arity and * in pt0 the variable to bind it to. */ if (d0 == TermDot && d1 == 2) { RESET_VARIABLE(H); RESET_VARIABLE(H+1); d0 = AbsPair(H); H += 2; /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xxx),Osbpp),l); GONext(); } else if ((Int)d1 > 0) { /* now let's build a compound term */ if (!IsAtomTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } BEGP(pt1); if (!IsAtomTerm(d0)) { FAIL(); } else d0 = (CELL) Yap_MkFunctor(AtomOfTerm(d0), (Int) d1); pt1 = H; *pt1++ = d0; d0 = AbsAppl(H); if (pt1+d1 > ENV || pt1+d1 > (CELL *)B) { /* make sure we have something to show for our trouble */ saveregs(); if (!Yap_gcl((1+d1)*sizeof(CELL), 0, YREG, NEXTOP(NEXTOP(PREG,xxx),Osbpp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); setregs(); JMPNext(); } else { setregs(); } goto restart_func2s; } while ((Int)d1--) { RESET_VARIABLE(pt1); pt1++; } H = pt1; /* done building the term */ ENDP(pt1); /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xxx),Osbpp),l); GONext(); } else if ((Int)d1 == 0) { XREG(PREG->u.xxx.x) = d0; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xxx),Osbpp),l); GONext(); } else { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO,MkIntegerTerm(d1),"functor/3"); setregs(); FAIL(); } BEGP(pt1); deref_body(d1, pt1, func2s_unk2, func2s_nvar2); saveregs(); Yap_Error(INSTANTIATION_ERROR, d1, "functor/3"); setregs(); ENDP(pt1); /* Oops, third argument was unbound */ FAIL(); ENDD(d1); BEGP(pt1); deref_body(d0, pt1, func2s_unk, func2s_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "functor/3"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDD(d0); ENDOp(); Op(p_func2s_cv, xxc); /* A1 is a variable */ restart_func2s_cv: #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { RESET_VARIABLE(H); H[1] = PREG->u.xxc.c; H[2] = XREG(PREG->u.xxc.xi); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); } #endif /* LOW_LEVEL_TRACE */ BEGD(d0); /* We have to build the structure */ d0 = PREG->u.xxc.c; /* we do, let's get the third argument */ BEGD(d1); d1 = XREG(PREG->u.xxc.xi); deref_head(d1, func2s_unk2_cv); func2s_nvar2_cv: /* Uuuff, the second and third argument are bound */ if (IsIntegerTerm(d1)) d1 = IntegerOfTerm(d1); else { saveregs(); if (IsBigIntTerm(d1)) { Yap_Error(RESOURCE_ERROR_STACK, d1, "functor/3"); } else { Yap_Error(TYPE_ERROR_INTEGER,d1,"functor/3"); } setregs(); FAIL(); } /* We made it!!!!! we got in d0 the name, in d1 the arity and * in pt0 the variable to bind it to. */ if (d0 == TermDot && d1 == 2) { RESET_VARIABLE(H); RESET_VARIABLE(H+1); d0 = AbsPair(H); H += 2; /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ XREG(PREG->u.xxc.x) = d0; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xxc),Osbpp),l); GONext(); } else if ((Int)d1 > 0) { /* now let's build a compound term */ if (!IsAtomTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } BEGP(pt1); if (!IsAtomTerm(d0)) { FAIL(); } else d0 = (CELL) Yap_MkFunctor(AtomOfTerm(d0), (Int) d1); pt1 = H; *pt1++ = d0; d0 = AbsAppl(H); if (pt1+d1 > ENV || pt1+d1 > (CELL *)B) { /* make sure we have something to show for our trouble */ saveregs(); if (!Yap_gcl((1+d1)*sizeof(CELL), 0, YREG, NEXTOP(NEXTOP(PREG,xxc),Osbpp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); setregs(); JMPNext(); } else { setregs(); } goto restart_func2s_cv; } while ((Int)d1--) { RESET_VARIABLE(pt1); pt1++; } /* done building the term */ H = pt1; ENDP(pt1); /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ XREG(PREG->u.xxc.x) = d0; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xxc),Osbpp),l); GONext(); } else if (d1 == 0) { XREG(PREG->u.xxc.x) = d0; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xxc),Osbpp),l); GONext(); } else { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO,MkIntegerTerm(d1),"functor/3"); setregs(); FAIL(); } BEGP(pt1); deref_body(d1, pt1, func2s_unk2_cv, func2s_nvar2_cv); saveregs(); Yap_Error(INSTANTIATION_ERROR, d1, "functor/3"); setregs(); ENDP(pt1); /* Oops, third argument was unbound */ FAIL(); ENDD(d1); ENDD(d0); ENDOp(); Op(p_func2s_vc, xxn); /* A1 is a variable */ restart_func2s_vc: #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { Term ti; CELL *hi = H; ti = MkIntegerTerm(PREG->u.xxn.c); RESET_VARIABLE(H); H[1] = XREG(PREG->u.xxn.xi); H[2] = ti; low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); H = hi; } #endif /* LOW_LEVEL_TRACE */ /* We have to build the structure */ BEGD(d0); d0 = XREG(PREG->u.xxn.xi); deref_head(d0, func2s_unk_vc); func2s_nvar_vc: BEGD(d1); d1 = PREG->u.xxn.c; if (!IsAtomicTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } /* We made it!!!!! we got in d0 the name, in d1 the arity and * in pt0 the variable to bind it to. */ if (d0 == TermDot && d1 == 2) { RESET_VARIABLE(H); RESET_VARIABLE(H+1); d0 = AbsPair(H); H += 2; /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xxn),Osbpp),l); GONext(); } /* now let's build a compound term */ if (d1 == 0) { XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xxn),Osbpp),l); GONext(); } if (!IsAtomTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } BEGP(pt1); if (!IsAtomTerm(d0)) { FAIL(); } else d0 = (CELL) Yap_MkFunctor(AtomOfTerm(d0), (Int) d1); pt1 = H; *pt1++ = d0; d0 = AbsAppl(H); if (pt1+d1 > ENV || pt1+d1 > (CELL *)B) { /* make sure we have something to show for our trouble */ saveregs(); if (!Yap_gc(0, YREG, NEXTOP(NEXTOP(PREG,xxn),Osbpp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); setregs(); JMPNext(); } else { setregs(); } goto restart_func2s_vc; } while ((Int)d1--) { RESET_VARIABLE(pt1); pt1++; } /* done building the term */ H = pt1; ENDP(pt1); ENDD(d1); /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ XREG(PREG->u.xxn.x) = d0; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, xxn),Osbpp),l); GONext(); BEGP(pt1); deref_body(d0, pt1, func2s_unk_vc, func2s_nvar_vc); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "functor/3"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDD(d0); ENDOp(); Op(p_func2s_y_vv, yxx); /* A1 is a variable */ restart_func2s_y: #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { RESET_VARIABLE(H); H[1] = XREG(PREG->u.yxx.x1); H[2] = XREG(PREG->u.yxx.x2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); } #endif /* LOW_LEVEL_TRACE */ /* We have to build the structure */ BEGD(d0); d0 = XREG(PREG->u.yxx.x1); deref_head(d0, func2s_y_unk); func2s_y_nvar: /* we do, let's get the third argument */ BEGD(d1); d1 = XREG(PREG->u.yxx.x2); deref_head(d1, func2s_y_unk2); func2s_y_nvar2: /* Uuuff, the second and third argument are bound */ if (IsIntegerTerm(d1)) d1 = IntegerOfTerm(d1); else { saveregs(); if (IsBigIntTerm(d1)) { Yap_Error(RESOURCE_ERROR_STACK, d1, "functor/3"); } else { Yap_Error(TYPE_ERROR_INTEGER,d1,"functor/3"); } setregs(); FAIL(); } if (!IsAtomicTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } /* We made it!!!!! we got in d0 the name, in d1 the arity and * in pt0 the variable to bind it to. */ if (d0 == TermDot && d1 == 2) { RESET_VARIABLE(H); RESET_VARIABLE(H+1); d0 = AbsPair(H); H += 2; BEGP(pt1); pt1 = YREG + PREG->u.yxx.y; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yxx),Osbpp),l); INITIALIZE_PERMVAR(pt1,d0); ENDP(pt1); GONext(); } else if ((Int)d1 > 0) { /* now let's build a compound term */ if (!IsAtomTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } BEGP(pt1); if (!IsAtomTerm(d0)) { FAIL(); } else d0 = (CELL) Yap_MkFunctor(AtomOfTerm(d0), (Int) d1); pt1 = H; *pt1++ = d0; d0 = AbsAppl(H); if (pt1+d1 > ENV || pt1+d1 > (CELL *)B) { /* make sure we have something to show for our trouble */ saveregs(); if (!Yap_gcl((1+d1)*sizeof(CELL), 0, YREG, NEXTOP(NEXTOP(PREG,yxx),Osbpp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); setregs(); JMPNext(); } else { setregs(); } goto restart_func2s_y; } while ((Int)d1--) { RESET_VARIABLE(pt1); pt1++; } /* done building the term */ H = pt1; ENDP(pt1); /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ BEGP(pt1); pt1 = YREG + PREG->u.yxx.y; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yxx),Osbpp),l); INITIALIZE_PERMVAR(pt1,d0); ENDP(pt1); GONext(); } else if (d1 == 0) { BEGP(pt1); pt1 = YREG + PREG->u.yxx.y; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yxx),Osbpp),l); INITIALIZE_PERMVAR(pt1,d0); ENDP(pt1); GONext(); } else { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO,MkIntegerTerm(d1),"functor/3"); setregs(); FAIL(); } BEGP(pt1); deref_body(d1, pt1, func2s_y_unk2, func2s_y_nvar2); saveregs(); Yap_Error(INSTANTIATION_ERROR, d1, "functor/3"); setregs(); ENDP(pt1); /* Oops, third argument was unbound */ FAIL(); ENDD(d1); BEGP(pt1); deref_body(d0, pt1, func2s_y_unk, func2s_y_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "functor/3"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDD(d0); ENDOp(); Op(p_func2s_y_cv, yxn); /* A1 is a variable */ restart_func2s_y_cv: #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { RESET_VARIABLE(H); H[1] = PREG->u.yxn.c; H[2] = XREG(PREG->u.yxn.xi); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); } #endif /* LOW_LEVEL_TRACE */ /* We have to build the structure */ BEGD(d0); d0 = PREG->u.yxn.c; /* we do, let's get the third argument */ BEGD(d1); d1 = XREG(PREG->u.yxn.xi); deref_head(d1, func2s_y_unk_cv); func2s_y_nvar_cv: /* Uuuff, the second and third argument are bound */ if (IsIntegerTerm(d1)) { d1 = IntegerOfTerm(d1); } else { saveregs(); if (IsBigIntTerm(d1)) { Yap_Error(RESOURCE_ERROR_STACK, d1, "functor/3"); } else { Yap_Error(TYPE_ERROR_INTEGER,d1,"functor/3"); } setregs(); FAIL(); } /* We made it!!!!! we got in d0 the name, in d1 the arity and * in pt0 the variable to bind it to. */ if (d0 == TermDot && d1 == 2) { RESET_VARIABLE(H); RESET_VARIABLE(H+1); d0 = AbsPair(H); H += 2; /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ BEGP(pt1); pt1 = YREG + PREG->u.yxn.y; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yxn),Osbpp),l); INITIALIZE_PERMVAR(pt1,d0); ENDP(pt1); GONext(); } else if ((Int)d1 > 0) { /* now let's build a compound term */ if (!IsAtomTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } if (!IsAtomTerm(d0)) { FAIL(); } else d0 = (CELL) Yap_MkFunctor(AtomOfTerm(d0), (Int) d1); BEGP(pt1); pt1 = H; *pt1++ = d0; d0 = AbsAppl(H); if (pt1+d1 > ENV || pt1+d1 > (CELL *)B) { /* make sure we have something to show for our trouble */ saveregs(); if (!Yap_gcl((1+d1)*sizeof(CELL), 0, YREG, NEXTOP(NEXTOP(PREG,yxn),Osbpp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); setregs(); JMPNext(); } else { setregs(); } goto restart_func2s_y_cv; } while ((Int)d1--) { RESET_VARIABLE(pt1); pt1++; } /* done building the term */ H = pt1; ENDP(pt1); /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ BEGP(pt1); pt1 = YREG + PREG->u.yxn.y; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yxn),Osbpp),l); INITIALIZE_PERMVAR(pt1,d0); ENDP(pt1); GONext(); } else if (d1 == 0) { BEGP(pt1); pt1 = YREG + PREG->u.yxn.y; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yxn),Osbpp),l); INITIALIZE_PERMVAR(pt1,d0); ENDP(pt1); GONext(); } else { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO,MkIntegerTerm(d1),"functor/3"); setregs(); FAIL(); } BEGP(pt1); deref_body(d1, pt1, func2s_y_unk_cv, func2s_y_nvar_cv); saveregs(); Yap_Error(INSTANTIATION_ERROR, d1, "functor/3"); setregs(); ENDP(pt1); /* Oops, third argument was unbound */ FAIL(); ENDD(d1); ENDD(d0); ENDOp(); Op(p_func2s_y_vc, yxn); /* A1 is a variable */ restart_func2s_y_vc: #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { Term ti; CELL *hi = H; ti = MkIntegerTerm((Int)(PREG->u.yxn.c)); RESET_VARIABLE(H); H[1] = XREG(PREG->u.yxn.xi); H[2] = ti; low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); H = hi; } #endif /* LOW_LEVEL_TRACE */ /* We have to build the structure */ BEGD(d0); d0 = XREG(PREG->u.yxn.xi); deref_head(d0, func2s_y_unk_vc); func2s_y_nvar_vc: BEGD(d1); d1 = PREG->u.yxn.c; if (!IsAtomicTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } /* We made it!!!!! we got in d0 the name, in d1 the arity and * in pt0 the variable to bind it to. */ if (d0 == TermDot && d1 == 2) { RESET_VARIABLE(H); RESET_VARIABLE(H+1); d0 = AbsPair(H); H += 2; /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ BEGP(pt1); pt1 = YREG + PREG->u.yxn.y; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yxn),Osbpp),l); INITIALIZE_PERMVAR(pt1,d0); ENDP(pt1); GONext(); } if (d1 == 0) { BEGP(pt1); pt1 = YREG + PREG->u.yxn.y; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yxn),Osbpp),l); INITIALIZE_PERMVAR(pt1,d0); ENDP(pt1); GONext(); } if (!IsAtomTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } /* now let's build a compound term */ if (!IsAtomTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } BEGP(pt1); if (!IsAtomTerm(d0)) { FAIL(); } else d0 = (CELL) Yap_MkFunctor(AtomOfTerm(d0), (Int) d1); pt1 = H; *pt1++ = d0; d0 = AbsAppl(H); if (pt1+d1 > ENV || pt1+d1 > (CELL *)B) { /* make sure we have something to show for our trouble */ saveregs(); if (!Yap_gcl((1+d1)*sizeof(CELL), 0, YREG, NEXTOP(NEXTOP(PREG,yxn),Osbpp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); setregs(); JMPNext(); } else { setregs(); } goto restart_func2s_y_vc; } while ((Int)d1--) { RESET_VARIABLE(pt1); pt1++; } /* done building the term */ H = pt1; ENDP(pt1); /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ BEGP(pt1); pt1 = YREG + PREG->u.yxn.y; PREG = NEXTOP(NEXTOP(NEXTOP(PREG, yxn),Osbpp),l); INITIALIZE_PERMVAR(pt1,d0); ENDP(pt1); ENDD(d1); GONext(); BEGP(pt1); deref_body(d0, pt1, func2s_y_unk_vc, func2s_y_nvar_vc); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "functor/3"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDD(d0); ENDOp(); Op(p_func2f_xx, xxx); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { H[0] = XREG(PREG->u.xxx.x); RESET_VARIABLE(H+1); RESET_VARIABLE(H+2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); } #endif /* LOW_LEVEL_TRACE */ BEGD(d0); d0 = XREG(PREG->u.xxx.x); deref_head(d0, func2f_xx_unk); func2f_xx_nvar: if (IsApplTerm(d0)) { Functor d1 = FunctorOfTerm(d0); if (IsExtensionFunctor(d1)) { XREG(PREG->u.xxx.x1) = d0; XREG(PREG->u.xxx.x2) = MkIntTerm(0); PREG = NEXTOP(PREG, xxx); GONext(); } XREG(PREG->u.xxx.x1) = MkAtomTerm(NameOfFunctor(d1)); XREG(PREG->u.xxx.x2) = MkIntegerTerm(ArityOfFunctor(d1)); PREG = NEXTOP(PREG, xxx); GONext(); } else if (IsPairTerm(d0)) { XREG(PREG->u.xxx.x1) = TermDot; XREG(PREG->u.xxx.x2) = MkIntTerm(2); PREG = NEXTOP(PREG, xxx); GONext(); } else { XREG(PREG->u.xxx.x1) = d0; XREG(PREG->u.xxx.x2) = MkIntTerm(0); PREG = NEXTOP(PREG, xxx); GONext(); } BEGP(pt1); deref_body(d0, pt1, func2f_xx_unk, func2f_xx_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "functor/3"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDD(d0); ENDOp(); Op(p_func2f_xy, xxy); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { H[0] = XREG(PREG->u.xxy.x); RESET_VARIABLE(H+1); RESET_VARIABLE(H+2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); } #endif /* LOW_LEVEL_TRACE */ BEGD(d0); d0 = XREG(PREG->u.xxy.x); deref_head(d0, func2f_xy_unk); func2f_xy_nvar: if (IsApplTerm(d0)) { Functor d1 = FunctorOfTerm(d0); CELL *pt0 = YREG+PREG->u.xxy.y2; if (IsExtensionFunctor(d1)) { XREG(PREG->u.xxy.x1) = d0; PREG = NEXTOP(PREG, xxy); INITIALIZE_PERMVAR(pt0, MkIntTerm(0)); GONext(); } XREG(PREG->u.xxy.x1) = MkAtomTerm(NameOfFunctor(d1)); PREG = NEXTOP(PREG, xxy); INITIALIZE_PERMVAR(pt0, MkIntegerTerm(ArityOfFunctor(d1))); GONext(); } else if (IsPairTerm(d0)) { CELL *pt0 = YREG+PREG->u.xxy.y2; XREG(PREG->u.xxy.x1) = TermDot; PREG = NEXTOP(PREG, xxy); INITIALIZE_PERMVAR(pt0, MkIntTerm(2)); GONext(); } else { CELL *pt0 = YREG+PREG->u.xxy.y2; XREG(PREG->u.xxy.x1) = d0; PREG = NEXTOP(PREG, xxy); INITIALIZE_PERMVAR(pt0, MkIntTerm(0)); GONext(); } BEGP(pt1); deref_body(d0, pt1, func2f_xy_unk, func2f_xy_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "functor/3"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDD(d0); ENDOp(); Op(p_func2f_yx, yxx); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { H[0] = XREG(PREG->u.yxx.x2); RESET_VARIABLE(H+1); RESET_VARIABLE(H+2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); } #endif /* LOW_LEVEL_TRACE */ BEGD(d0); d0 = XREG(PREG->u.yxx.x2); deref_head(d0, func2f_yx_unk); func2f_yx_nvar: if (IsApplTerm(d0)) { Functor d1 = FunctorOfTerm(d0); CELL *pt0 = YREG+PREG->u.yxx.y; if (IsExtensionFunctor(d1)) { XREG(PREG->u.yxx.x1) = MkIntTerm(0); PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0, d0); GONext(); } XREG(PREG->u.yxx.x1) = MkIntegerTerm(ArityOfFunctor(d1)); PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0, MkAtomTerm(NameOfFunctor(d1))); GONext(); } else if (IsPairTerm(d0)) { CELL *pt0 = YREG+PREG->u.yxx.y; XREG(PREG->u.yxx.x1) = MkIntTerm(2); PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0 ,TermDot); GONext(); } else { CELL *pt0 = YREG+PREG->u.yxx.y; XREG(PREG->u.yxx.x1) = MkIntTerm(0); PREG = NEXTOP(PREG, yxx); INITIALIZE_PERMVAR(pt0, d0); GONext(); } BEGP(pt1); deref_body(d0, pt1, func2f_yx_unk, func2f_yx_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "functor/3"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDD(d0); ENDOp(); Op(p_func2f_yy, yyx); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) { H[0] = XREG(PREG->u.yyx.x); RESET_VARIABLE(H+1); RESET_VARIABLE(H+2); low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),H); } #endif /* LOW_LEVEL_TRACE */ BEGD(d0); d0 = XREG(PREG->u.yyx.x); deref_head(d0, func2f_yy_unk); func2f_yy_nvar: if (IsApplTerm(d0)) { Functor d1 = FunctorOfTerm(d0); CELL *pt0 = YREG+PREG->u.yyx.y1; CELL *pt1 = YREG+PREG->u.yyx.y2; if (IsExtensionFunctor(d1)) { PREG = NEXTOP(PREG, yyx); INITIALIZE_PERMVAR(pt0, d0); INITIALIZE_PERMVAR(pt1, MkIntTerm(0)); GONext(); } PREG = NEXTOP(PREG, yyx); INITIALIZE_PERMVAR(pt0, MkAtomTerm(NameOfFunctor(d1))); INITIALIZE_PERMVAR(pt1, MkIntegerTerm(ArityOfFunctor(d1))); GONext(); } else if (IsPairTerm(d0)) { CELL *pt0 = YREG+PREG->u.yyx.y1; CELL *pt1 = YREG+PREG->u.yyx.y2; PREG = NEXTOP(PREG, yyx); INITIALIZE_PERMVAR(pt0, TermDot); INITIALIZE_PERMVAR(pt1, MkIntTerm(2)); GONext(); } else { CELL *pt0 = YREG+PREG->u.yyx.y1; CELL *pt1 = YREG+PREG->u.yyx.y2; PREG = NEXTOP(PREG, yyx); INITIALIZE_PERMVAR(pt0, d0); INITIALIZE_PERMVAR(pt1, MkIntTerm(0)); GONext(); } BEGP(pt1); deref_body(d0, pt1, func2f_yy_unk, func2f_yy_nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "functor/3"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDD(d0); ENDOp(); Op(p_functor, e); #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) low_level_trace(enter_pred,RepPredProp(Yap_GetPredPropByFunc(FunctorFunctor,0)),XREGS+1); #endif /* LOW_LEVEL_TRACE */ restart_functor: BEGD(d0); d0 = ARG1; deref_head(d0, func_unk); func_nvar: /* A1 is bound */ BEGD(d1); if (IsApplTerm(d0)) { d1 = *RepAppl(d0); if (IsExtensionFunctor((Functor) d1)) { if (d1 <= (CELL)FunctorDouble && d1 >= (CELL)FunctorLongInt ) { d1 = MkIntTerm(0); } else FAIL(); } else { d0 = MkAtomTerm(NameOfFunctor((Functor) d1)); d1 = MkIntTerm(ArityOfFunctor((Functor) d1)); } } else if (IsPairTerm(d0)) { d0 = TermDot; d1 = MkIntTerm(2); } else { d1 = MkIntTerm(0); } /* d1 and d0 now have the two arguments */ /* let's go and bind them */ { register CELL arity = d1; d1 = ARG2; deref_head(d1, func_nvar_unk); func_nvar_nvar: /* A2 was bound */ if (d0 != d1) { FAIL(); } /* I have to this here so that I don't have a jump to a closing bracket */ d0 = arity; goto func_bind_x3; BEGP(pt0); deref_body(d1, pt0, func_nvar_unk, func_nvar_nvar); /* A2 is a variable, go and bind it */ Bind(pt0, d0); /* I have to this here so that I don't have a jump to a closing bracket */ d0 = arity; ENDP(pt0); func_bind_x3: /* now let's process A3 */ d1 = ARG3; deref_head(d1, func_nvar3_unk); func_nvar3_nvar: /* A3 was bound */ if (d0 != d1) { FAIL(); } /* Done */ PREG = NEXTOP(NEXTOP(NEXTOP(PREG, e),Osbmp),l); GONext(); BEGP(pt0); deref_body(d1, pt0, func_nvar3_unk, func_nvar3_nvar); /* A3 is a variable, go and bind it */ PREG = NEXTOP(NEXTOP(NEXTOP(PREG, e),Osbmp),l); Bind(pt0, d0); /* Done */ GONext(); ENDP(pt0); } ENDD(d1); BEGP(pt0); deref_body(d0, pt0, func_unk, func_nvar); /* A1 is a variable */ /* We have to build the structure */ d0 = ARG2; deref_head(d0, func_var_2unk); func_var_2nvar: /* we do, let's get the third argument */ BEGD(d1); d1 = ARG3; deref_head(d1, func_var_3unk); func_var_3nvar: /* Uuuff, the second and third argument are bound */ if (IsIntTerm(d1)) d1 = IntOfTerm(d1); else { saveregs(); Yap_Error(TYPE_ERROR_INTEGER,ARG3,"functor/3"); setregs(); FAIL(); } if (!IsAtomicTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } /* We made it!!!!! we got in d0 the name, in d1 the arity and * in pt0 the variable to bind it to. */ if (d0 == TermDot && d1 == 2) { RESET_VARIABLE(H); RESET_VARIABLE(H+1); d0 = AbsPair(H); H += 2; } else if ((Int)d1 > 0) { /* now let's build a compound term */ if (!IsAtomTerm(d0)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM,d0,"functor/3"); setregs(); FAIL(); } BEGP(pt1); if (!IsAtomTerm(d0)) { FAIL(); } else d0 = (CELL) Yap_MkFunctor(AtomOfTerm(d0), (Int) d1); pt1 = H; *pt1++ = d0; d0 = AbsAppl(H); if (pt1+d1 > ENV || pt1+d1 > (CELL *)B) { /* make sure we have something to show for our trouble */ saveregs(); if (!Yap_gcl((1+d1)*sizeof(CELL), 3, YREG, NEXTOP(NEXTOP(PREG,e),Osbmp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); setregs(); JMPNext(); } else { setregs(); } goto restart_functor; /* */ } while ((Int)d1--) { RESET_VARIABLE(pt1); pt1++; } /* done building the term */ H = pt1; ENDP(pt1); } else if ((Int)d1 < 0) { saveregs(); Yap_Error(DOMAIN_ERROR_NOT_LESS_THAN_ZERO,MkIntegerTerm(d1),"functor/3"); setregs(); FAIL(); } /* else if arity is 0 just pass d0 through */ /* Ding, ding, we made it */ PREG = NEXTOP(NEXTOP(NEXTOP(PREG, e),Osbpp),l); Bind(pt0, d0); GONext(); BEGP(pt1); deref_body(d1, pt1, func_var_3unk, func_var_3nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d1, "functor/3"); setregs(); ENDP(pt1); /* Oops, third argument was unbound */ FAIL(); ENDD(d1); BEGP(pt1); deref_body(d0, pt1, func_var_2unk, func_var_2nvar); saveregs(); Yap_Error(INSTANTIATION_ERROR, d0, "functor/3"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDP(pt0); ENDD(d0); ENDOp(); /* join all the meta-call code into a single procedure with three entry points */ { CACHE_Y_AS_ENV(YREG); BEGD(d0); /* term to be meta-called */ Term mod; /* module to be used */ PredEntry *pen; /* predicate */ choiceptr b_ptr; /* cut point */ Functor f; /* we are doing the rhs of a , */ BOp(p_execute_tail, Osbmp); FETCH_Y_FROM_ENV(YREG); /* place to cut to */ b_ptr = (choiceptr)ENV_YREG[E_CB]; /* original goal */ d0 = ENV_YREG[-EnvSizeInCells-1]; /* predicate we had used */ pen = RepPredProp((Prop)IntegerOfTerm(ENV_YREG[-EnvSizeInCells-2])); /* current module at the time */ mod = ENV_YREG[-EnvSizeInCells-3]; /* set YREG */ /* Try to preserve the environment */ ENV_YREG = (CELL *) (((char *) YREG) + PREG->u.Osbmp.s); #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (ENV_YREG > (CELL *) top_b || ENV_YREG < H) ENV_YREG = (CELL *) top_b; #else if (ENV_YREG > (CELL *) top_b) ENV_YREG = (CELL *) top_b; #endif /* YAPOR_SBA */ } #else if (ENV_YREG > (CELL *) B) { ENV_YREG = (CELL *) B; } #endif /* FROZEN_STACKS */ /* now, jump to actual execution */ if (pen->ArityOfPE) { f = pen->FunctorOfPred; /* reuse environment if we are continuining a comma, ie, (g1,g2,g3) */ /* can only do it deterministically */ /* broken if (f == FunctorComma && (CELL *)B >= ENV) { ENV_YREG = ENV; ENV = (CELL *)ENV[E_E]; } */ goto execute_pred_f; } else goto execute_pred_a; ENDBOp(); /* fetch the module from ARG2 */ BOp(p_execute2, Osbpp); mod = ARG2; deref_head(mod, execute2_unk0); execute2_nvar0: if (!IsAtomTerm(mod)) { saveregs(); Yap_Error(TYPE_ERROR_ATOM, mod, "call/2"); setregs(); } goto start_execute; BEGP(pt1); deref_body(mod, pt1, execute2_unk0, execute2_nvar0); saveregs(); Yap_Error(INSTANTIATION_ERROR, mod, "call/2"); setregs(); ENDP(pt1); /* Oops, second argument was unbound too */ FAIL(); ENDBOp(); BOp(p_execute, Osbmp); /* fetch the module from PREG */ mod = PREG->u.Osbmp.mod; start_execute: b_ptr = B; /* we have mod, and ARG1 has the goal, let us roll */ /* Try to preserve the environment */ ENV_YREG = (CELL *) (((char *) YREG) + PREG->u.Osbmp.s); #ifdef FROZEN_STACKS { choiceptr top_b = PROTECT_FROZEN_B(B); #ifdef YAPOR_SBA if (ENV_YREG > (CELL *) top_b || ENV_YREG < H) ENV_YREG = (CELL *) top_b; #else if (ENV_YREG > (CELL *) top_b) ENV_YREG = (CELL *) top_b; #endif /* YAPOR_SBA */ } #else if (ENV_YREG > (CELL *) B) { ENV_YREG = (CELL *) B; } #endif /* FROZEN_STACKS */ d0 = ARG1; if (PRED_GOAL_EXPANSION_ALL) { goto execute_metacall; } restart_execute: deref_head(d0, execute_unk); execute_nvar: if (IsApplTerm(d0)) { f = FunctorOfTerm(d0); if (IsExtensionFunctor(f)) { goto execute_metacall; } pen = RepPredProp(PredPropByFunc(f, mod)); execute_pred_f: if (pen->PredFlags & (MetaPredFlag|GoalExPredFlag)) { /* just strip all of M:G */ if (f == FunctorModule) { Term tmod = ArgOfTerm(1,d0); /* loop on modules */ if (!IsVarTerm(tmod) && IsAtomTerm(tmod)) { d0 = ArgOfTerm(2,d0); mod = tmod; goto execute_nvar; } goto execute_metacall; } if (f == FunctorComma) { Term nmod = mod; /* optimise conj */ SREG = RepAppl(d0); BEGD(d1); d1 = SREG[2]; /* create an environment to execute the call */ deref_head(d1, execute_comma_unk); execute_comma_nvar: if (IsAtomTerm(d1)) { /* atomic goal is simpler */ ENV_YREG[-EnvSizeInCells-2] = MkIntegerTerm((Int)PredPropByAtom(AtomOfTerm(d1),nmod)); } else if (IsApplTerm(d1)) { Functor f1 = FunctorOfTerm(d1); if (IsExtensionFunctor(f1)) { goto execute_metacall; } else { /* check for modules when looking up */ if (f1 == FunctorModule) { Term tmod = ArgOfTerm(1,d1); /* loop on modules */ if (!IsVarTerm(tmod) && IsAtomTerm(tmod)) { d1 = ArgOfTerm(2,d1); nmod = tmod; goto execute_comma_nvar; } goto execute_metacall; } ENV_YREG[-EnvSizeInCells-2] = MkIntegerTerm((Int)PredPropByFunc(f1,nmod)); } } else { goto execute_metacall; } ENV_YREG[-EnvSizeInCells-3] = mod; /* now, we can create the new environment for the meta-call */ /* notice that we are at a call, so we should ignore CP */ ENV_YREG[E_CP] = (CELL)NEXTOP(PREG,Osbmp); ENV_YREG[E_CB] = (CELL)b_ptr; ENV_YREG[E_E] = (CELL)ENV; #ifdef DEPTH_LIMIT ENV_YREG[E_DEPTH] = DEPTH; #endif /* DEPTH_LIMIT */ ENV_YREG[-EnvSizeInCells-1] = d1; ENV = ENV_YREG; ENV_YREG -= EnvSizeInCells+3; CPREG = NEXTOP(PREG, Osbmp); PREG = COMMA_CODE; /* for profiler */ save_pc(); d0 = SREG[1]; goto restart_execute; BEGP(pt1); deref_body(d1, pt1, execute_comma_unk, execute_comma_nvar); goto execute_metacall; ENDP(pt1); ENDD(d1); } else if (mod != CurrentModule) { goto execute_metacall; } } /* copy arguments of meta-call to XREGS */ BEGP(pt1); pt1 = RepAppl(d0); BEGD(d2); for (d2 = ArityOfFunctor(f); d2; d2--) { #ifdef YAPOR_SBA BEGD(d1); d1 = pt1[d2]; if (d1 == 0) { XREGS[d2] = (CELL)(pt1+d2); } else { XREGS[d2] = d1; } #else XREGS[d2] = pt1[d2]; #endif } ENDD(d2); ENDP(pt1); CACHE_A1(); } else if (IsAtomTerm(d0)) { pen = RepPredProp(PredPropByAtom(AtomOfTerm(d0), mod)); execute_pred_a: /* handle extra pruning */ if (pen->FunctorOfPred == (Functor)AtomCut) { if (b_ptr != B) { saveregs(); prune(b_ptr PASS_REGS); setregs(); } } } else { goto execute_metacall; } /* execute, byt test first for interrupts */ execute_end: /* code copied from call */ #ifndef NO_CHECKING check_stack(NoStackPExecute, H); #endif CPREG = NEXTOP(PREG, Osbmp); ALWAYS_LOOKAHEAD(pen->OpcodeOfPred); PREG = pen->CodeOfPred; /* for profiler */ save_pc(); #ifdef DEPTH_LIMIT if (DEPTH <= MkIntTerm(1)) {/* I assume Module==0 is primitives */ if (pen->ModuleOfPred) { if (DEPTH == MkIntTerm(0)) FAIL(); else DEPTH = RESET_DEPTH(); } } else if (pen->ModuleOfPred) DEPTH -= MkIntConstant(2); #endif /* DEPTH_LIMIT */ #ifdef LOW_LEVEL_TRACER if (Yap_do_low_level_trace) low_level_trace(enter_pred,pen,XREGS+1); #endif /* LOW_LEVEL_TRACER */ WRITEBACK_Y_AS_ENV(); /* setup GB */ ENV_YREG[E_CB] = (CELL) b_ptr; #ifdef YAPOR SCH_check_requests(); #endif /* YAPOR */ CACHE_A1(); ALWAYS_GONext(); ALWAYS_END_PREFETCH(); /* meta-call: Prolog to the rescue */ BEGP(pt1); deref_body(d0, pt1, execute_unk, execute_nvar); execute_metacall: ARG1 = ARG3 = d0; pen = PredMetaCall; ARG2 = Yap_cp_as_integer(b_ptr); if (mod) ARG4 = mod; else ARG4 = TermProlog; goto execute_end; ENDP(pt1); /* at this point, we have the arguments all set in the argument registers, pen says who is the current predicate. don't remove. */ NoStackPExecute: CHECK_ALARM(goto execute_end); if (LOCAL_ActiveSignals & (YAP_FAIL_SIGNAL|YAP_INT_SIGNAL)) { if (LOCAL_ActiveSignals & YAP_INT_SIGNAL) { Yap_Error(PURE_ABORT, TermNil, "abort from console"); } LOCAL_ActiveSignals &= ~(YAP_FAIL_SIGNAL|YAP_INT_SIGNAL); if (!LOCAL_ActiveSignals) CreepFlag = CalculateStackGap(); goto fail; } PP = NULL; SREG = (CELL *) pen; ASP = ENV_YREG; if (ASP > (CELL *)PROTECT_FROZEN_B(B)) ASP = (CELL *)PROTECT_FROZEN_B(B); /* setup GB */ WRITEBACK_Y_AS_ENV(); YREG[E_CB] = (CELL) B; if (LOCAL_ActiveSignals) { goto creep_pe; } saveregs_and_ycache(); if (!Yap_gc(pen->ArityOfPE, ENV, NEXTOP(PREG, Osbmp))) { Yap_NilError(OUT_OF_STACK_ERROR,LOCAL_ErrorMessage); } setregs_and_ycache(); goto execute_end; ENDBOp(); ENDD(d0); ENDCACHE_Y_AS_ENV(); } creep_pe: /* do creep in call */ CPREG = NEXTOP(PREG, Osbmp); goto creep; #if !USE_THREADED_CODE default: saveregs(); Yap_Error(SYSTEM_ERROR, MkIntegerTerm(opcode), "trying to execute invalid YAAM instruction %d", opcode); setregs(); FAIL(); } } #endif #if USE_THREADED_CODE #if PUSH_REGS restore_absmi_regs(old_regs); #endif #if BP_FREE P1REG = PCBACKUP; #endif return (0); #endif } /* dummy function that is needed for profiler */ int Yap_absmiEND(void) { return 1; }