/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: rclause.h * * comments: walk through a clause * * * * Last rev: $Date: 2006-09-20 20:03:51 $,$Author: vsc $ * * $Log: not supported by cvs2svn $ * Revision 1.15 2006/04/27 14:13:24 rslopes * *** empty log message *** * * Revision 1.14 2005/12/17 03:25:39 vsc * major changes to support online event-based profiling * improve error discovery and restart on scanner. * * Revision 1.13 2005/11/24 15:35:29 tiagosoares * removed some compilation warnings related to the cut-c code * * Revision 1.12 2005/09/19 19:14:50 vsc * fix two instructions that were being read badly: op_fail and * switch_list_nl. * * Revision 1.11 2005/09/08 21:55:47 rslopes * BEAM for YAP update... * * Revision 1.10 2005/08/01 15:40:38 ricroc * TABLING NEW: better support for incomplete tabling * * Revision 1.9 2005/07/06 19:34:11 ricroc * TABLING: answers for completed calls can now be obtained by loading (new option) or executing (default) them from the trie data structure. * * Revision 1.8 2005/07/06 15:10:15 vsc * improvements to compiler: merged instructions and fixes for -> * * Revision 1.7 2005/06/04 07:26:43 ricroc * long int support for tabling * * Revision 1.6 2005/06/03 08:18:25 ricroc * float support for tabling * * Revision 1.5 2005/06/01 20:25:23 vsc * == and \= should not need a choice-point in -> * * Revision 1.4 2005/06/01 14:02:52 vsc * get_rid of try_me?, retry_me? and trust_me? instructions: they are not * significantly used nowadays. * * Revision 1.3 2005/05/30 03:26:37 vsc * add some atom gc fixes * * Revision 1.2 2005/04/10 04:01:13 vsc * bug fixes, I hope! * * Revision 1.1 2005/01/04 02:50:21 vsc * - allow MegaClauses with blobs * - change Diffs to be thread specific * - include Christian's updates * * Revision 1.47 2004/12/02 06:06:47 vsc * fix threads so that they at least start * allow error handling to work with threads * replace heap_base by Yap_heap_base, according to Yap's convention for globals. * * Revision 1.46 2004/11/23 21:16:21 vsc * A few extra fixes for saved states. * * Revision 1.45 2004/10/26 20:16:18 vsc * More bug fixes for overflow handling * * Revision 1.44 2004/10/06 16:55:47 vsc * change configure to support big mem configs * get rid of extra globals * fix trouble with multifile preds * * Revision 1.43 2004/09/27 20:45:04 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 1.42 2004/06/05 03:37:00 vsc * coroutining is now a part of attvars. * some more fixes. * * Revision 1.41 2004/04/29 03:45:50 vsc * fix garbage collection in execute_tail * * Revision 1.40 2004/03/31 01:03:10 vsc * support expand group of clauses * * Revision 1.39 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. * * * * *************************************************************************/ static void restore_opcodes(yamop *pc) { do { op_numbers op = Yap_op_from_opcode(pc->opc); pc->opc = Yap_opcode(op); #ifdef DEBUG_RESTORE2 fprintf(stderr, "%s ", Yap_op_names[op]); #endif switch (op) { case _Nstop: return; case _Ystop: #ifdef DEBUG_RESTORE2 fprintf(stderr, "OK\n"); #endif pc->u.l.l = PtoOpAdjust(pc->u.l.l); return; /* instructions type ld */ case _try_me: case _retry_me: case _trust_me: case _profiled_retry_me: case _profiled_trust_me: case _count_retry_me: case _count_trust_me: case _spy_or_trymark: case _try_and_mark: case _profiled_retry_and_mark: case _count_retry_and_mark: case _retry_and_mark: case _try_clause: case _retry: case _trust: #ifdef YAPOR case _getwork: case _getwork_seq: case _sync: #endif #ifdef TABLING case _table_load_answer: case _table_try_answer: case _table_try_single: case _table_try_me: case _table_retry_me: case _table_trust_me: case _table_try: case _table_retry: case _table_trust: case _table_answer_resolution: case _table_completion: #endif /* TABLING */ pc->u.ld.p = PtoPredAdjust(pc->u.ld.p); pc->u.ld.d = PtoOpAdjust(pc->u.ld.d); pc = NEXTOP(pc,ld); break; case _enter_lu_pred: case _stale_lu_index: pc->u.Ill.I = (LogUpdIndex *)PtoOpAdjust((yamop *)(pc->u.Ill.I)); pc->u.Ill.l1 = PtoOpAdjust(pc->u.Ill.l1); pc->u.Ill.l2 = PtoOpAdjust(pc->u.Ill.l2); pc = pc->u.Ill.l1; break; /* instructions type p */ #if !defined(YAPOR) case _or_last: #endif case _enter_profiling: case _retry_profiled: case _lock_lu: case _count_call: case _count_retry: case _procceed: pc->u.p.p = PtoPredAdjust(pc->u.p.p); pc = NEXTOP(pc,p); break; case _execute: case _dexecute: pc->u.pp.p = PtoPredAdjust(pc->u.pp.p); pc->u.pp.p0 = PtoPredAdjust(pc->u.pp.p0); pc = NEXTOP(pc,pp); break; case _trust_logical_pred: case _jump: case _move_back: case _skip: case _jump_if_var: case _try_in: case _try_clause2: case _try_clause3: case _try_clause4: case _retry2: case _retry3: case _retry4: case _p_eq: case _p_dif: pc->u.l.l = PtoOpAdjust(pc->u.l.l); pc = NEXTOP(pc,l); break; /* instructions type EC */ case _jump_if_nonvar: pc->u.xll.l1 = PtoOpAdjust(pc->u.xll.l1); pc->u.xll.l2 = PtoOpAdjust(pc->u.xll.l2); pc->u.xll.x = XAdjust(pc->u.xll.x); pc = NEXTOP(pc,xll); break; /* instructions type EC */ case _alloc_for_logical_pred: pc->u.EC.ClBase = (struct logic_upd_clause *)PtoOpAdjust((yamop *)pc->u.EC.ClBase); pc = NEXTOP(pc,EC); break; /* instructions type e */ case _unify_idb_term: case _copy_idb_term: /* don't need no _Ystop to know we're done */ return; case _trust_fail: case _op_fail: case _cut: case _cut_t: case _cut_e: case _allocate: case _deallocate: case _write_void: case _write_list: case _write_l_list: case _pop: case _index_pred: #ifdef BEAM case _retry_eam: #endif #if THREADS case _thread_local: #endif case _expand_index: case _undef_p: case _spy_pred: case _p_equal: case _p_functor: case _enter_a_profiling: case _count_a_call: case _index_dbref: case _index_blob: case _unlock_lu: #ifdef YAPOR case _getwork_first_time: #endif #ifdef TABLING case _trie_do_null: case _trie_trust_null: case _trie_try_null: case _trie_retry_null: case _trie_do_var: case _trie_trust_var: case _trie_try_var: case _trie_retry_var: case _trie_do_val: case _trie_trust_val: case _trie_try_val: case _trie_retry_val: case _trie_do_atom: case _trie_trust_atom: case _trie_try_atom: case _trie_retry_atom: case _trie_do_list: case _trie_trust_list: case _trie_try_list: case _trie_retry_list: case _trie_do_struct: case _trie_trust_struct: case _trie_try_struct: case _trie_retry_struct: case _trie_do_extension: case _trie_trust_extension: case _trie_try_extension: case _trie_retry_extension: case _trie_do_float: case _trie_trust_float: case _trie_try_float: case _trie_retry_float: case _trie_do_long: case _trie_trust_long: case _trie_try_long: case _trie_retry_long: #endif /* TABLING */ #ifdef TABLING_INNER_CUTS case _clause_with_cut: #endif /* TABLING_INNER_CUTS */ pc = NEXTOP(pc,e); break; /* instructions type x */ case _save_b_x: case _commit_b_x: case _get_list: case _put_list: case _write_x_var: case _write_x_val: case _write_x_loc: pc->u.x.x = XAdjust(pc->u.x.x); pc = NEXTOP(pc,x); break; /* instructions type xF */ case _p_atom_x: case _p_atomic_x: case _p_integer_x: case _p_nonvar_x: case _p_number_x: case _p_var_x: case _p_db_ref_x: case _p_primitive_x: case _p_compound_x: case _p_float_x: case _p_cut_by_x: pc->u.xF.x = XAdjust(pc->u.xF.x); pc->u.xF.F = PtoOpAdjust(pc->u.xF.F); pc = NEXTOP(pc,xF); break; case _expand_clauses: Yap_Error(SYSTEM_ERROR, TermNil, "Invalid Opcode expand_clauses at %p", pc); break; /* instructions type y */ case _save_b_y: case _commit_b_y: case _write_y_var: case _write_y_val: case _write_y_loc: pc->u.y.y = YAdjust(pc->u.y.y); pc = NEXTOP(pc,y); break; /* instructions type yF */ case _p_atom_y: case _p_atomic_y: case _p_integer_y: case _p_nonvar_y: case _p_number_y: case _p_var_y: case _p_db_ref_y: case _p_primitive_y: case _p_compound_y: case _p_float_y: case _p_cut_by_y: pc->u.yF.y = YAdjust(pc->u.yF.y); pc->u.yF.F = PtoOpAdjust(pc->u.yF.F); pc = NEXTOP(pc,yF); break; /* instructions type sla */ case _p_execute_tail: case _p_execute: pc->u.sla.sla_u.p = PtoPredAdjust(pc->u.sla.sla_u.p); if (pc->u.sla.sla_u.mod != 0) { pc->u.sla.sla_u.mod = AtomTermAdjust(pc->u.sla.sla_u.mod); } pc->u.sla.p0 = PtoPredAdjust(pc->u.sla.p0); if (pc->u.sla.bmap != NULL) { pc->u.sla.bmap = CellPtoHeapAdjust(pc->u.sla.bmap); } pc = NEXTOP(pc,sla); break; case _fcall: case _call: #ifdef YAPOR case _or_last: #endif pc->u.sla.sla_u.p = PtoPredAdjust(pc->u.sla.sla_u.p); if (pc->u.sla.bmap != NULL) { pc->u.sla.bmap = CellPtoHeapAdjust(pc->u.sla.bmap); } pc->u.sla.p0 = PtoPredAdjust(pc->u.sla.p0); pc = NEXTOP(pc,sla); break; /* instructions type sla, but for disjunctions */ case _either: case _or_else: if (pc->u.sla.bmap != NULL) { pc->u.sla.bmap = CellPtoHeapAdjust(pc->u.sla.bmap); } pc->u.sla.sla_u.l = PtoOpAdjust(pc->u.sla.sla_u.l); pc->u.sla.p0 = PtoPredAdjust(pc->u.sla.p0); pc = NEXTOP(pc,sla); break; /* instructions type sla, but for functions */ case _call_cpred: case _call_usercpred: pc->u.sla.sla_u.p = PtoPredAdjust(pc->u.sla.sla_u.p); pc->u.sla.p0 = PtoPredAdjust(pc->u.sla.p0); if (pc->u.sla.bmap != NULL) { pc->u.sla.bmap = CellPtoHeapAdjust(pc->u.sla.bmap); } pc = NEXTOP(pc,sla); break; /* instructions type xx */ case _get_x_var: case _get_x_val: case _glist_valx: case _gl_void_varx: case _gl_void_valx: case _put_x_var: case _put_x_val: pc->u.xx.xr = XAdjust(pc->u.xx.xr); pc->u.xx.xl = XAdjust(pc->u.xx.xl); pc = NEXTOP(pc,xx); break; case _put_xx_val: pc->u.xxxx.xr1 = XAdjust(pc->u.xxxx.xr1); pc->u.xxxx.xl1 = XAdjust(pc->u.xxxx.xl1); pc->u.xxxx.xr2 = XAdjust(pc->u.xxxx.xr2); pc->u.xxxx.xl2 = XAdjust(pc->u.xxxx.xl2); pc = NEXTOP(pc,xxxx); break; /* instructions type yx */ case _get_y_var: case _get_y_val: case _put_y_var: case _put_y_val: case _put_unsafe: pc->u.yx.x = XAdjust(pc->u.yx.x); pc->u.yx.y = YAdjust(pc->u.yx.y); pc = NEXTOP(pc,yx); break; /* instructions type xd */ case _get_float: case _put_float: pc->u.xd.x = XAdjust(pc->u.xd.x); pc = NEXTOP(pc,xd); break; /* instructions type xd */ case _get_longint: case _put_longint: pc->u.xi.x = XAdjust(pc->u.xi.x); pc = NEXTOP(pc,xi); break; /* instructions type xc */ case _get_atom: case _put_atom: case _get_bigint: pc->u.xc.x = XAdjust(pc->u.xc.x); { Term t = pc->u.xc.c; if (IsAtomTerm(t)) pc->u.xc.c = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.xc.c = BlobTermAdjust(t); } pc = NEXTOP(pc,xc); break; /* instructions type cc */ case _get_2atoms: { Term t = pc->u.cc.c1; if (IsAtomTerm(t)) pc->u.cc.c1 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cc.c1 = BlobTermAdjust(t); } { Term t = pc->u.cc.c2; if (IsAtomTerm(t)) pc->u.cc.c2 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cc.c2 = BlobTermAdjust(t); } pc = NEXTOP(pc,cc); break; /* instructions type ccc */ case _get_3atoms: { Term t = pc->u.ccc.c1; if (IsAtomTerm(t)) pc->u.ccc.c1 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.ccc.c1 = BlobTermAdjust(t); } { Term t = pc->u.ccc.c2; if (IsAtomTerm(t)) pc->u.ccc.c2 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.ccc.c2 = BlobTermAdjust(t); } { Term t = pc->u.ccc.c3; if (IsAtomTerm(t)) pc->u.ccc.c3 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.ccc.c3 = BlobTermAdjust(t); } pc = NEXTOP(pc,ccc); break; /* instructions type cccc */ case _get_4atoms: { Term t = pc->u.cccc.c1; if (IsAtomTerm(t)) pc->u.cccc.c1 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccc.c1 = BlobTermAdjust(t); } { Term t = pc->u.cccc.c2; if (IsAtomTerm(t)) pc->u.cccc.c2 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccc.c2 = BlobTermAdjust(t); } { Term t = pc->u.cccc.c3; if (IsAtomTerm(t)) pc->u.cccc.c3 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccc.c3 = BlobTermAdjust(t); } { Term t = pc->u.cccc.c4; if (IsAtomTerm(t)) pc->u.cccc.c4 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccc.c4 = BlobTermAdjust(t); } pc = NEXTOP(pc,cccc); break; /* instructions type ccccc */ case _get_5atoms: { Term t = pc->u.ccccc.c1; if (IsAtomTerm(t)) pc->u.ccccc.c1 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.ccccc.c1 = BlobTermAdjust(t); } { Term t = pc->u.ccccc.c2; if (IsAtomTerm(t)) pc->u.ccccc.c2 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.ccccc.c2 = BlobTermAdjust(t); } { Term t = pc->u.ccccc.c3; if (IsAtomTerm(t)) pc->u.ccccc.c3 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.ccccc.c3 = BlobTermAdjust(t); } { Term t = pc->u.ccccc.c4; if (IsAtomTerm(t)) pc->u.ccccc.c4 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.ccccc.c4 = BlobTermAdjust(t); } { Term t = pc->u.ccccc.c5; if (IsAtomTerm(t)) pc->u.ccccc.c5 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.ccccc.c5 = BlobTermAdjust(t); } pc = NEXTOP(pc,ccccc); break; /* instructions type cccccc */ case _get_6atoms: { Term t = pc->u.cccccc.c1; if (IsAtomTerm(t)) pc->u.cccccc.c1 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccccc.c1 = BlobTermAdjust(t); } { Term t = pc->u.cccccc.c2; if (IsAtomTerm(t)) pc->u.cccccc.c2 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccccc.c2 = BlobTermAdjust(t); } { Term t = pc->u.cccccc.c3; if (IsAtomTerm(t)) pc->u.cccccc.c3 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccccc.c3 = BlobTermAdjust(t); } { Term t = pc->u.cccccc.c4; if (IsAtomTerm(t)) pc->u.cccccc.c4 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccccc.c4 = BlobTermAdjust(t); } { Term t = pc->u.cccccc.c5; if (IsAtomTerm(t)) pc->u.cccccc.c5 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccccc.c5 = BlobTermAdjust(t); } { Term t = pc->u.cccccc.c6; if (IsAtomTerm(t)) pc->u.cccccc.c6 = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.cccccc.c6 = BlobTermAdjust(t); } pc = NEXTOP(pc,cccccc); break; /* instructions type xf */ case _get_struct: case _put_struct: pc->u.xf.x = XAdjust(pc->u.xf.x); pc->u.xf.f = FuncAdjust(pc->u.xf.f); pc = NEXTOP(pc,xf); break; /* instructions type xy */ case _glist_valy: case _gl_void_vary: case _gl_void_valy: pc->u.xy.x = XAdjust(pc->u.xy.x); pc->u.xy.y = YAdjust(pc->u.xy.y); pc = NEXTOP(pc,xy); break; /* instructions type ox */ case _unify_x_var: case _unify_x_var_write: case _unify_l_x_var: case _unify_l_x_var_write: case _unify_x_val_write: case _unify_x_val: case _unify_l_x_val_write: case _unify_l_x_val: case _unify_x_loc_write: case _unify_x_loc: case _unify_l_x_loc_write: case _unify_l_x_loc: case _save_pair_x_write: case _save_pair_x: case _save_appl_x_write: case _save_appl_x: pc->u.ox.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.ox.opcw)); pc->u.ox.x = XAdjust(pc->u.ox.x); pc = NEXTOP(pc,ox); break; /* instructions type oxx */ case _unify_x_var2: case _unify_x_var2_write: case _unify_l_x_var2: case _unify_l_x_var2_write: pc->u.oxx.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.oxx.opcw)); pc->u.oxx.xl = XAdjust(pc->u.oxx.xl); pc->u.oxx.xr = XAdjust(pc->u.oxx.xr); pc = NEXTOP(pc,oxx); break; /* instructions type oy */ case _unify_y_var: case _unify_y_var_write: case _unify_l_y_var: case _unify_l_y_var_write: case _unify_y_val_write: case _unify_y_val: case _unify_l_y_val_write: case _unify_l_y_val: case _unify_y_loc_write: case _unify_y_loc: case _unify_l_y_loc_write: case _unify_l_y_loc: case _save_pair_y_write: case _save_pair_y: case _save_appl_y_write: case _save_appl_y: pc->u.oy.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.oy.opcw)); pc->u.oy.y = YAdjust(pc->u.oy.y); pc = NEXTOP(pc,oy); break; /* instructions type o */ case _unify_void_write: case _unify_void: case _unify_l_void_write: case _unify_l_void: case _unify_list_write: case _unify_list: case _unify_l_list_write: case _unify_l_list: pc->u.o.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.o.opcw)); pc = NEXTOP(pc,o); break; /* instructions type os */ case _unify_n_voids_write: case _unify_n_voids: case _unify_l_n_voids_write: case _unify_l_n_voids: pc->u.os.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.os.opcw)); pc = NEXTOP(pc,os); break; /* instructions type od */ case _unify_float: case _unify_l_float: case _unify_float_write: case _unify_l_float_write: pc->u.oc.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.oc.opcw)); pc = NEXTOP(pc,od); break; /* instructions type oi */ case _unify_longint: case _unify_l_longint: case _unify_longint_write: case _unify_l_longint_write: pc->u.oc.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.oc.opcw)); pc = NEXTOP(pc,oi); break; /* instructions type oc */ case _unify_atom_write: case _unify_atom: case _unify_l_atom_write: case _unify_l_atom: case _unify_bigint: case _unify_l_bigint: pc->u.oc.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.oc.opcw)); { Term t = pc->u.oc.c; if (IsAtomTerm(t)) pc->u.oc.c = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.oc.c = BlobTermAdjust(t); } pc = NEXTOP(pc,oc); break; /* instructions type osc */ case _unify_n_atoms_write: case _unify_n_atoms: pc->u.osc.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.osc.opcw)); { Term t = pc->u.osc.c; if (IsAtomTerm(t)) pc->u.osc.c = AtomTermAdjust(t); } pc = NEXTOP(pc,osc); break; /* instructions type of */ case _unify_struct_write: case _unify_struct: case _unify_l_struc_write: case _unify_l_struc: pc->u.of.opcw = Yap_opcode(Yap_op_from_opcode(pc->u.of.opcw)); pc->u.of.f = FuncAdjust(pc->u.of.f); pc = NEXTOP(pc,of); break; /* instructions type s */ case _write_n_voids: case _pop_n: #ifdef BEAM case _run_eam: #endif #ifdef TABLING case _table_new_answer: #endif /* TABLING */ pc = NEXTOP(pc,s); break; /* instructions type d */ case _write_float: pc = NEXTOP(pc,d); break; /* instructions type i */ case _write_longint: pc = NEXTOP(pc,i); break; /* instructions type c */ case _write_atom: { Term t = pc->u.c.c; if (IsAtomTerm(t)) pc->u.c.c = AtomTermAdjust(t); else if (IsApplTerm(t)) pc->u.c.c = BlobTermAdjust(t); } pc = NEXTOP(pc,c); break; /* instructions type sc */ case _write_n_atoms: { Term t = pc->u.sc.c; if (IsAtomTerm(t)) pc->u.sc.c = AtomTermAdjust(t); } pc = NEXTOP(pc,sc); break; /* instructions type f */ case _write_struct: case _write_l_struc: pc->u.f.f = FuncAdjust(pc->u.f.f); pc = NEXTOP(pc,f); break; /* instructions type sdl */ case _call_c_wfail: pc->u.sdl.p = PtoPredAdjust(pc->u.sdl.p); pc->u.sdl.l = PtoOpAdjust(pc->u.sdl.l); pc = NEXTOP(pc,sdl); break; /* instructions type lds */ case _try_c: case _try_userc: /* don't need to do no nothing here, initstaff will do it for us */ pc->u.lds.p = PtoPredAdjust(pc->u.lds.p); pc = NEXTOP(pc,lds); break; case _retry_c: case _retry_userc: /* don't need to do no nothing here, initstaff will do it for us pc->u.lds.d = CCodeAdjust(pc->u.lds.d); */ pc->u.lds.p = PtoPredAdjust(pc->u.lds.p); pc = NEXTOP(pc,lds); break; #ifdef CUT_C case _cut_c: case _cut_userc: /* don't need to do nothing here, because this two instructions are "phantom" instructions. (see: cut_c implementation paper on PADL 2006) */ break; #endif /* instructions type llll */ case _switch_on_type: pc->u.llll.l1 = PtoOpAdjust(pc->u.llll.l1); pc->u.llll.l2 = PtoOpAdjust(pc->u.llll.l2); pc->u.llll.l3 = PtoOpAdjust(pc->u.llll.l3); pc->u.llll.l4 = PtoOpAdjust(pc->u.llll.l4); pc = NEXTOP(pc,llll); break; /* instructions type xllll */ case _switch_list_nl: pc->u.ollll.pop = Yap_opcode(Yap_op_from_opcode(pc->u.ollll.pop)); pc->u.ollll.l1 = PtoOpAdjust(pc->u.ollll.l1); pc->u.ollll.l2 = PtoOpAdjust(pc->u.ollll.l2); pc->u.ollll.l3 = PtoOpAdjust(pc->u.ollll.l3); pc->u.ollll.l4 = PtoOpAdjust(pc->u.ollll.l4); pc = NEXTOP(pc,ollll); break; /* instructions type xllll */ case _switch_on_arg_type: pc->u.xllll.x = XAdjust(pc->u.xllll.x); pc->u.xllll.l1 = PtoOpAdjust(pc->u.xllll.l1); pc->u.xllll.l2 = PtoOpAdjust(pc->u.xllll.l2); pc->u.xllll.l3 = PtoOpAdjust(pc->u.xllll.l3); pc->u.xllll.l4 = PtoOpAdjust(pc->u.xllll.l4); pc = NEXTOP(pc,xllll); break; /* instructions type sllll */ case _switch_on_sub_arg_type: pc->u.sllll.l1 = PtoOpAdjust(pc->u.sllll.l1); pc->u.sllll.l2 = PtoOpAdjust(pc->u.sllll.l2); pc->u.sllll.l3 = PtoOpAdjust(pc->u.sllll.l3); pc->u.sllll.l4 = PtoOpAdjust(pc->u.sllll.l4); pc = NEXTOP(pc,sllll); break; /* instructions type lll */ case _if_not_then: { Term t = pc->u.clll.c; if (IsAtomTerm(t)) pc->u.clll.c = AtomTermAdjust(t); } pc->u.clll.l1 = PtoOpAdjust(pc->u.clll.l1); pc->u.clll.l2 = PtoOpAdjust(pc->u.clll.l2); pc->u.clll.l3 = PtoOpAdjust(pc->u.clll.l3); pc = NEXTOP(pc,clll); break; /* switch_on_func */ case _switch_on_func: { int i, j; CELL *oldcode, *startcode; i = pc->u.sssl.s; startcode = oldcode = (CELL *)(pc->u.sssl.l = PtoOpAdjust(pc->u.sssl.l)); for (j = 0; j < i; j++) { Functor oldfunc = (Functor)(oldcode[0]); CODEADDR oldjmp = (CODEADDR)(oldcode[1]); if (oldfunc != NULL) { oldcode[0] = (CELL)FuncAdjust(oldfunc); } oldcode[1] = (CELL)CodeAddrAdjust(oldjmp); oldcode += 2; } rehash(startcode, i, Funcs); pc = NEXTOP(pc,sssl); } break; /* switch_on_cons */ case _switch_on_cons: { int i, j; CELL *oldcode; #if !USE_OFFSETS CELL *startcode; #endif i = pc->u.sssl.s; #if !USE_OFFSETS startcode = #endif oldcode = (CELL *)(pc->u.sssl.l = PtoOpAdjust(pc->u.sssl.l)); for (j = 0; j < i; j++) { Term oldcons = oldcode[0]; CODEADDR oldjmp = (CODEADDR)(oldcode[1]); if (oldcons != 0x0 && IsAtomTerm(oldcons)) { oldcode[0] = AtomTermAdjust(oldcons); } oldcode[1] = (CELL)CodeAddrAdjust(oldjmp); oldcode += 2; } #if !USE_OFFSETS rehash(startcode, i, Atomics); #endif pc = NEXTOP(pc,sssl); } break; case _go_on_func: { CELL *oldcode = (CELL *)(pc->u.sssl.l = PtoOpAdjust(pc->u.sssl.l)); Functor oldfunc = (Functor)(oldcode[0]); oldcode[0] = (CELL)FuncAdjust(oldfunc); oldcode[1] = (CELL)CodeAddrAdjust((CODEADDR)oldcode[1]); oldcode[3] = (CELL)CodeAddrAdjust((CODEADDR)oldcode[3]); } pc = NEXTOP(pc,sssl); break; case _go_on_cons: { CELL *oldcode = (CELL *)(pc->u.sssl.l = PtoOpAdjust(pc->u.sssl.l)); Term oldcons = oldcode[0]; if (IsAtomTerm(oldcons)) { oldcode[0] = AtomTermAdjust(oldcons); } oldcode[1] = (CELL)CodeAddrAdjust((CODEADDR)oldcode[1]); oldcode[3] = (CELL)CodeAddrAdjust((CODEADDR)oldcode[3]); } pc = NEXTOP(pc,sssl); break; case _if_func: { CELL *oldcode = (CELL *)(pc->u.sssl.l = PtoOpAdjust(pc->u.sssl.l)); Int j; for (j = 0; j < pc->u.sssl.s; j++) { Functor oldfunc = (Functor)(oldcode[0]); CODEADDR oldjmp = (CODEADDR)(oldcode[1]); oldcode[0] = (CELL)FuncAdjust(oldfunc); oldcode[1] = (CELL)CodeAddrAdjust(oldjmp); oldcode += 2; } /* adjust fail code */ oldcode[1] = (CELL)CodeAddrAdjust((CODEADDR)oldcode[1]); } pc = NEXTOP(pc,sssl); break; case _if_cons: { CELL *oldcode = (CELL *)(pc->u.sssl.l = PtoOpAdjust(pc->u.sssl.l)); Int j; for (j = 0; j < pc->u.sssl.s; j++) { Term oldcons = oldcode[0]; CODEADDR oldjmp = (CODEADDR)(oldcode[1]); if (IsAtomTerm(oldcons)) { oldcode[0] = (CELL)AtomTermAdjust(oldcons); } oldcode[1] = (CELL)CodeAddrAdjust(oldjmp); oldcode += 2; } /* adjust fail code */ oldcode[1] = (CELL)CodeAddrAdjust((CODEADDR)oldcode[1]); } pc = NEXTOP(pc,sssl); break; /* instructions type xxx */ case _p_plus_vv: case _p_minus_vv: case _p_times_vv: case _p_div_vv: case _p_and_vv: case _p_or_vv: case _p_sll_vv: case _p_slr_vv: case _p_arg_vv: case _p_func2s_vv: case _p_func2f_xx: pc->u.xxx.x = XAdjust(pc->u.xxx.x); pc->u.xxx.x1 = XAdjust(pc->u.xxx.x1); pc->u.xxx.x2 = XAdjust(pc->u.xxx.x2); pc = NEXTOP(pc,xxx); break; /* instructions type xxc */ case _p_plus_vc: case _p_minus_cv: case _p_times_vc: case _p_div_cv: case _p_and_vc: case _p_or_vc: case _p_sll_vc: case _p_slr_vc: case _p_func2s_vc: pc->u.xxc.x = XAdjust(pc->u.xxc.x); pc->u.xxc.xi = XAdjust(pc->u.xxc.xi); pc = NEXTOP(pc,xxc); break; case _p_div_vc: case _p_sll_cv: case _p_slr_cv: case _p_arg_cv: pc->u.xcx.x = XAdjust(pc->u.xcx.x); pc->u.xcx.xi = XAdjust(pc->u.xcx.xi); pc = NEXTOP(pc,xcx); break; case _p_func2s_cv: pc->u.xcx.x = XAdjust(pc->u.xcx.x); if (IsAtomTerm(pc->u.xcx.c)) pc->u.xcx.c = AtomTermAdjust(pc->u.xcx.c); pc->u.xcx.xi = XAdjust(pc->u.xcx.xi); pc = NEXTOP(pc,xcx); break; /* instructions type xyx */ case _p_func2f_xy: pc->u.xyx.x = XAdjust(pc->u.xyx.x); pc->u.xyx.x1 = XAdjust(pc->u.xyx.x1); pc->u.xyx.y2 = YAdjust(pc->u.xyx.y2); pc = NEXTOP(pc,xyx); break; /* instructions type yxx */ case _p_plus_y_vv: case _p_minus_y_vv: case _p_times_y_vv: case _p_div_y_vv: case _p_and_y_vv: case _p_or_y_vv: case _p_sll_y_vv: case _p_slr_y_vv: case _p_arg_y_vv: case _p_func2s_y_vv: case _p_func2f_yx: pc->u.yxx.y = YAdjust(pc->u.yxx.y); pc->u.yxx.x1 = XAdjust(pc->u.yxx.x1); pc->u.yxx.x2 = XAdjust(pc->u.yxx.x2); pc = NEXTOP(pc,yxx); break; /* instructions type yyx */ case _p_func2f_yy: pc->u.yyx.y1 = YAdjust(pc->u.yyx.y1); pc->u.yyx.y2 = YAdjust(pc->u.yyx.y2); pc->u.yyx.x = XAdjust(pc->u.yyx.x); pc = NEXTOP(pc,yyx); break; /* instructions type yxc */ case _p_plus_y_vc: case _p_minus_y_cv: case _p_times_y_vc: case _p_div_y_vc: case _p_div_y_cv: case _p_and_y_vc: case _p_or_y_vc: case _p_sll_y_vc: case _p_slr_y_vc: case _p_func2s_y_vc: pc->u.yxc.y = YAdjust(pc->u.yxc.y); pc->u.yxc.xi = XAdjust(pc->u.yxc.xi); pc = NEXTOP(pc,yxc); break; /* instructions type ycx */ case _p_sll_y_cv: case _p_slr_y_cv: case _p_arg_y_cv: pc->u.ycx.y = YAdjust(pc->u.ycx.y); pc->u.ycx.xi = XAdjust(pc->u.ycx.xi); pc = NEXTOP(pc,ycx); break; /* instructions type ycx */ case _p_func2s_y_cv: pc->u.ycx.y = YAdjust(pc->u.ycx.y); if (IsAtomTerm(pc->u.ycx.c)) pc->u.ycx.c = AtomTermAdjust(pc->u.ycx.c); pc->u.ycx.xi = XAdjust(pc->u.ycx.xi); pc = NEXTOP(pc,ycx); break; /* instructions type llxx */ case _call_bfunc_xx: pc->u.llxx.p = PtoPredAdjust(pc->u.llxx.p); pc->u.llxx.f = PtoOpAdjust(pc->u.llxx.f); pc->u.llxx.x1 = XAdjust(pc->u.llxx.x1); pc->u.llxx.x2 = XAdjust(pc->u.llxx.x2); pc = NEXTOP(pc,llxx); break; /* instructions type llxy */ case _call_bfunc_yx: case _call_bfunc_xy: pc->u.llxy.p = PtoPredAdjust(pc->u.llxy.p); pc->u.llxy.f = PtoOpAdjust(pc->u.llxy.f); pc->u.llxy.x = XAdjust(pc->u.llxy.x); pc->u.llxy.y = YAdjust(pc->u.llxy.y); pc = NEXTOP(pc,llxy); break; case _call_bfunc_yy: pc->u.llyy.p = PtoPredAdjust(pc->u.llyy.p); pc->u.llyy.f = PtoOpAdjust(pc->u.llxy.f); pc->u.llyy.y1 = YAdjust(pc->u.llyy.y1); pc->u.llyy.y2 = YAdjust(pc->u.llyy.y2); pc = NEXTOP(pc,llyy); break; } } while (TRUE); }