507d4a9951
fix on growheap continuing to cut_e git-svn-id: https://yap.svn.sf.net/svnroot/yap/trunk@880 b08c6af1-5177-4d33-ba66-4b1c6b8b522a
1637 lines
48 KiB
C
1637 lines
48 KiB
C
/*************************************************************************
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* *
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* YAP Prolog *
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* *
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* Yap Prolog was developed at NCCUP - Universidade do Porto *
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* *
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* Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 *
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* *
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**************************************************************************
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* *
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* File: rheap.c *
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* Last rev: *
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* mods: *
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* comments: walk through heap code *
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* *
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*************************************************************************/
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#ifdef SCCS
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static char SccsId[] = "@(#)rheap.c 1.3 3/15/90";
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#endif
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#define Atomics 0
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#define Funcs 1
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#if DEBUG_RESTORE2
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static char *op_names[_std_top + 1] =
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{
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#define OPCODE(OP,TYPE) #OP
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#include "YapOpcodes.h"
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#undef OPCODE
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};
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#endif /* DEBUG_RESTORE2 */
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/* Now, everything on its place so you must adjust the pointers */
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/* restore the failcodes */
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static void
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restore_codes(void)
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{
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heap_regs->heap_top = AddrAdjust(OldHeapTop);
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#ifdef YAPOR
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heap_regs->getworkfirsttimecode.opc = Yap_opcode(_getwork_first_time);
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heap_regs->getworkcode.opc = Yap_opcode(_getwork);
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INIT_YAMOP_LTT(&(heap_regs->getworkcode), 0);
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heap_regs->getworkcode_seq.opc = Yap_opcode(_getwork_seq);
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INIT_YAMOP_LTT(&(heap_regs->getworkcode_seq), 0);
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#endif /* YAPOR */
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#ifdef TABLING
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heap_regs->tablecompletioncode.opc = Yap_opcode(_table_completion);
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heap_regs->tableanswerresolutioncode.opc = Yap_opcode(_table_answer_resolution);
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#ifdef YAPOR
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INIT_YAMOP_LTT(&(heap_regs->tablecompletioncode), 0);
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INIT_YAMOP_LTT(&(heap_regs->tableanswerresolutioncode), 0);
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#endif /* YAPOR */
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#endif /* TABLING */
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heap_regs->expand_op_code = Yap_opcode(_expand_index);
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heap_regs->failcode->opc = Yap_opcode(_op_fail);
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heap_regs->failcode_1 = Yap_opcode(_op_fail);
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heap_regs->failcode_2 = Yap_opcode(_op_fail);
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heap_regs->failcode_3 = Yap_opcode(_op_fail);
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heap_regs->failcode_4 = Yap_opcode(_op_fail);
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heap_regs->failcode_5 = Yap_opcode(_op_fail);
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heap_regs->failcode_6 = Yap_opcode(_op_fail);
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heap_regs->env_for_trustfail_code.op = Yap_opcode(_call);
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heap_regs->trustfailcode->opc = Yap_opcode(_trust_fail);
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heap_regs->env_for_yes_code.op = Yap_opcode(_call);
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heap_regs->yescode->opc = Yap_opcode(_Ystop);
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heap_regs->undef_op = Yap_opcode(_undef_p);
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heap_regs->index_op = Yap_opcode(_index_pred);
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heap_regs->fail_op = Yap_opcode(_op_fail);
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heap_regs->nocode->opc = Yap_opcode(_Nstop);
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#ifdef YAPOR
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INIT_YAMOP_LTT(&(heap_regs->nocode), 1);
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INIT_YAMOP_LTT(&(heap_regs->rtrycode), 1);
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#endif /* YAPOR */
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((yamop *)(&heap_regs->rtrycode))->opc = Yap_opcode(_retry_and_mark);
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if (((yamop *)(&heap_regs->rtrycode))->u.ld.d != NIL)
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((yamop *)(&heap_regs->rtrycode))->u.ld.d =
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PtoOpAdjust(((yamop *)(&heap_regs->rtrycode))->u.ld.d);
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{
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int arity;
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arity = heap_regs->clausecode->arity;
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if (heap_regs->clausecode->clause != NIL)
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heap_regs->clausecode->clause =
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PtoOpAdjust(heap_regs->clausecode->clause);
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if (arity) {
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heap_regs->clausecode->func =
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FuncAdjust(heap_regs->clausecode->func);
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} else {
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/* an atom */
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heap_regs->clausecode->func =
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(Functor)AtomAdjust((Atom)(heap_regs->clausecode->func));
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}
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}
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/* restore consult stack. It consists of heap pointers, so it
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is easy to fix.
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*/
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heap_regs->consultlow =
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ConsultObjAdjust(heap_regs->consultlow);
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heap_regs->consultbase =
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ConsultObjAdjust(heap_regs->consultbase);
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heap_regs->consultsp =
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ConsultObjAdjust(heap_regs->consultsp);
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{
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/* we assume all pointers have the same size */
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register consult_obj *pt = heap_regs->consultsp;
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while (pt <
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heap_regs->consultlow+heap_regs->consultcapacity) {
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pt->p = PropAdjust(pt->p);
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pt ++;
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}
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}
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#if USE_THREADED_CODE
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heap_regs->op_rtable = (opentry *)
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CodeAddrAdjust((CODEADDR)(heap_regs->op_rtable));
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#endif
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if (heap_regs->atprompt != NIL) {
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heap_regs->atprompt =
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AtomAdjust(heap_regs->atprompt);
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}
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if (heap_regs->char_conversion_table != NULL) {
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heap_regs->char_conversion_table = (char *)
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AddrAdjust((ADDR)heap_regs->char_conversion_table);
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}
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if (heap_regs->char_conversion_table2 != NULL) {
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heap_regs->char_conversion_table2 = (char *)
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AddrAdjust((ADDR)heap_regs->char_conversion_table2);
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}
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if (heap_regs->dead_clauses != NULL) {
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heap_regs->dead_clauses = (DeadClause *)
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AddrAdjust((ADDR)(heap_regs->dead_clauses));
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}
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heap_regs->retry_recorded_k_code =
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PtoOpAdjust(heap_regs->retry_recorded_k_code);
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heap_regs->retry_c_recordedp_code =
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PtoOpAdjust(heap_regs->retry_c_recordedp_code);
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if (heap_regs->IntKeys != NULL) {
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heap_regs->IntKeys = (Prop *)AddrAdjust((ADDR)(heap_regs->IntKeys));
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{
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UInt i;
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for (i = 0; i < heap_regs->int_keys_size; i++) {
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if (heap_regs->IntKeys[i] != NIL) {
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Prop p0 = heap_regs->IntKeys[i] = PropAdjust(heap_regs->IntKeys[i]);
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RestoreEntries(RepProp(p0));
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}
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}
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}
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}
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if (heap_regs->IntBBKeys != NULL) {
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heap_regs->IntBBKeys = (Prop *)AddrAdjust((ADDR)(heap_regs->IntBBKeys));
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{
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UInt i;
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for (i = 0; i < heap_regs->int_bb_keys_size; i++) {
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if (heap_regs->IntBBKeys[i] != NIL) {
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Prop p0 = heap_regs->IntBBKeys[i] = PropAdjust(heap_regs->IntBBKeys[i]);
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RestoreEntries(RepProp(p0));
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}
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}
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}
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}
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{
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/* adjust atoms in atom table */
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unsigned int i = 0;
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for (i = 0; i < heap_regs->no_of_modules; i++) {
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heap_regs->module_name[i] = AtomTermAdjust(heap_regs->module_name[i]);
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if (heap_regs->module_pred[i]) {
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heap_regs->module_pred[i] = PtoPredAdjust(heap_regs->module_pred[i]);
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}
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}
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}
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heap_regs->atom_abol = AtomAdjust(heap_regs->atom_abol);
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heap_regs->atom_append = AtomAdjust(heap_regs->atom_append);
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heap_regs->atom_array = AtomAdjust(heap_regs->atom_array);
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heap_regs->atom_assert = AtomAdjust(heap_regs->atom_assert);
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heap_regs->atom_alarm = AtomAdjust(heap_regs->atom_alarm);
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heap_regs->atom_b = AtomAdjust(heap_regs->atom_b);
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heap_regs->atom_break = AtomAdjust(heap_regs->atom_break);
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heap_regs->atom_call = AtomAdjust(heap_regs->atom_call);
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heap_regs->atom_catch = AtomAdjust(heap_regs->atom_catch);
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heap_regs->atom_comma = AtomAdjust(heap_regs->atom_comma);
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heap_regs->atom_cpu_time = AtomAdjust(heap_regs->atom_cpu_time);
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heap_regs->atom_csult = AtomAdjust(heap_regs->atom_csult);
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heap_regs->atom_cut = AtomAdjust(heap_regs->atom_cut);
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heap_regs->atom_cut_by = AtomAdjust(heap_regs->atom_cut_by);
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#ifdef EUROTRA
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#ifdef SFUNC
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heap_regs->atom_dollar_undef = AtomAdjust(heap_regs->atom_dollar_undef);
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#endif
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#endif
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heap_regs->atom_e = AtomAdjust(heap_regs->atom_e);
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heap_regs->atom_e_q = AtomAdjust(heap_regs->atom_e_q);
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heap_regs->atom_eof = AtomAdjust(heap_regs->atom_eof);
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#ifdef EUROTRA
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heap_regs->atom_f_b = AtomAdjust(heap_regs->atom_f_b);
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#endif
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heap_regs->atom_fail = AtomAdjust(heap_regs->atom_fail);
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heap_regs->atom_false = AtomAdjust(heap_regs->atom_false);
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heap_regs->atom_fast = AtomAdjust(heap_regs->atom_fast);
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heap_regs->atom_g_t = AtomAdjust(heap_regs->atom_g_t);
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heap_regs->atom_gc = AtomAdjust(heap_regs->atom_gc);
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heap_regs->atom_gc_margin = AtomAdjust(heap_regs->atom_gc_margin);
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heap_regs->atom_gc_trace = AtomAdjust(heap_regs->atom_gc_trace);
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heap_regs->atom_gc_verbose = AtomAdjust(heap_regs->atom_gc_verbose);
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heap_regs->atom_gc_very_verbose = AtomAdjust(heap_regs->atom_gc_very_verbose);
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heap_regs->atom_global = AtomAdjust(heap_regs->atom_global);
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heap_regs->atom_heap_used = AtomAdjust(heap_regs->atom_heap_used);
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heap_regs->atom_inf = AtomAdjust(heap_regs->atom_inf);
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heap_regs->atom_l_t = AtomAdjust(heap_regs->atom_l_t);
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heap_regs->atom_local = AtomAdjust(heap_regs->atom_local);
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heap_regs->atom_meta_call = AtomAdjust(heap_regs->atom_meta_call);
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heap_regs->atom_minus = AtomAdjust(heap_regs->atom_minus);
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heap_regs->atom_nan = AtomAdjust(heap_regs->atom_nan);
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heap_regs->atom_otherwise = AtomAdjust(heap_regs->atom_otherwise);
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heap_regs->atom_pi = AtomAdjust(heap_regs->atom_pi);
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heap_regs->atom_plus = AtomAdjust(heap_regs->atom_plus);
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heap_regs->atom_portray = AtomAdjust(heap_regs->atom_portray);
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heap_regs->atom_profile = AtomAdjust(heap_regs->atom_profile);
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heap_regs->atom_random = AtomAdjust(heap_regs->atom_random);
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heap_regs->atom_read = AtomAdjust(heap_regs->atom_read);
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heap_regs->atom_repeat = AtomAdjust(heap_regs->atom_repeat);
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heap_regs->atom_restore_regs = AtomAdjust(heap_regs->atom_restore_regs);
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#if HAVE_SIGACTION
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heap_regs->atom_sig_pending = AtomAdjust(heap_regs->atom_sig_pending);
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#endif
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heap_regs->atom_stack_free = AtomAdjust(heap_regs->atom_stack_free);
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heap_regs->atom_true = AtomAdjust(heap_regs->atom_true);
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heap_regs->atom_user = AtomAdjust(heap_regs->atom_user);
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heap_regs->atom_usr_err = AtomAdjust(heap_regs->atom_usr_err);
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heap_regs->atom_usr_in = AtomAdjust(heap_regs->atom_usr_in);
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heap_regs->atom_usr_out = AtomAdjust(heap_regs->atom_usr_out);
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heap_regs->atom_version_number = AtomAdjust(heap_regs->atom_version_number);
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heap_regs->atom_write = AtomAdjust(heap_regs->atom_write);
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#ifdef USE_SOCKET
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heap_regs->functor_af_inet = FuncAdjust(heap_regs->functor_af_inet);
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heap_regs->functor_af_local = FuncAdjust(heap_regs->functor_af_local);
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heap_regs->functor_af_unix = FuncAdjust(heap_regs->functor_af_unix);
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#endif
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heap_regs->functor_alt_not = FuncAdjust(heap_regs->functor_alt_not);
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heap_regs->functor_arrow = FuncAdjust(heap_regs->functor_arrow);
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heap_regs->functor_assert = FuncAdjust(heap_regs->functor_assert);
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#ifdef COROUTINING
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heap_regs->functor_att_goal = FuncAdjust(heap_regs->functor_att_goal);
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#endif
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heap_regs->functor_braces = FuncAdjust(heap_regs->functor_braces);
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heap_regs->functor_call = FuncAdjust(heap_regs->functor_call);
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heap_regs->functor_cut_by = FuncAdjust(heap_regs->functor_cut_by);
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heap_regs->functor_comma = FuncAdjust(heap_regs->functor_comma);
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heap_regs->functor_csult = FuncAdjust(heap_regs->functor_csult);
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heap_regs->functor_eq = FuncAdjust(heap_regs->functor_eq);
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heap_regs->functor_execute_in_mod = FuncAdjust(heap_regs->functor_execute_in_mod);
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heap_regs->functor_execute_within = FuncAdjust(heap_regs->functor_execute_within);
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heap_regs->functor_g_atom = FuncAdjust(heap_regs->functor_g_atom);
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heap_regs->functor_g_atomic = FuncAdjust(heap_regs->functor_g_atomic);
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heap_regs->functor_g_compound = FuncAdjust(heap_regs->functor_g_compound);
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heap_regs->functor_g_float = FuncAdjust(heap_regs->functor_g_float);
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heap_regs->functor_g_integer = FuncAdjust(heap_regs->functor_g_integer);
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heap_regs->functor_g_number = FuncAdjust(heap_regs->functor_g_number);
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heap_regs->functor_g_primitive = FuncAdjust(heap_regs->functor_g_primitive);
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heap_regs->functor_g_var = FuncAdjust(heap_regs->functor_g_var);
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heap_regs->functor_last_execute_within = FuncAdjust(heap_regs->functor_last_execute_within);
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heap_regs->functor_list = FuncAdjust(heap_regs->functor_list);
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heap_regs->functor_module = FuncAdjust(heap_regs->functor_module);
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#ifdef MULTI_ASSIGNMENT_VARIABLES
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heap_regs->functor_mutable = FuncAdjust(heap_regs->functor_mutable);
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#endif
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heap_regs->functor_not = FuncAdjust(heap_regs->functor_not);
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heap_regs->functor_or = FuncAdjust(heap_regs->functor_or);
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heap_regs->functor_portray = FuncAdjust(heap_regs->functor_portray);
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heap_regs->functor_query = FuncAdjust(heap_regs->functor_query);
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heap_regs->functor_spy = FuncAdjust(heap_regs->functor_spy);
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heap_regs->functor_stream = FuncAdjust(heap_regs->functor_stream);
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heap_regs->functor_stream_pos = FuncAdjust(heap_regs->functor_stream_pos);
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heap_regs->functor_stream_eOS = FuncAdjust(heap_regs->functor_stream_eOS);
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heap_regs->functor_change_module = FuncAdjust(heap_regs->functor_change_module);
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heap_regs->functor_current_module = FuncAdjust(heap_regs->functor_current_module);
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heap_regs->functor_u_minus = FuncAdjust(heap_regs->functor_u_minus);
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heap_regs->functor_u_plus = FuncAdjust(heap_regs->functor_u_plus);
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heap_regs->functor_v_bar = FuncAdjust(heap_regs->functor_v_bar);
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heap_regs->functor_var = FuncAdjust(heap_regs->functor_var);
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#ifdef EUROTRA
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heap_regs->term_dollar_u = AtomTermAdjust(heap_regs->term_dollar_u);
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#endif
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heap_regs->term_prolog = AtomTermAdjust(heap_regs->term_prolog);
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heap_regs->term_refound_var = AtomTermAdjust(heap_regs->term_refound_var);
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if (heap_regs->dyn_array_list != NULL) {
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heap_regs->dyn_array_list =
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(struct array_entry *)AddrAdjust((ADDR)heap_regs->dyn_array_list);
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}
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if (heap_regs->file_aliases != NULL) {
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heap_regs->yap_streams =
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(struct stream_desc *)AddrAdjust((ADDR)heap_regs->yap_streams);
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}
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if (heap_regs->file_aliases != NULL) {
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heap_regs->file_aliases =
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(struct AliasDescS *)AddrAdjust((ADDR)heap_regs->file_aliases);
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}
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heap_regs->yap_lib_dir =
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(char *)AddrAdjust((ADDR)heap_regs->yap_lib_dir);
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heap_regs->pred_goal_expansion =
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(PredEntry *)AddrAdjust((ADDR)heap_regs->pred_goal_expansion);
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heap_regs->pred_meta_call =
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(PredEntry *)AddrAdjust((ADDR)heap_regs->pred_meta_call);
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heap_regs->pred_dollar_catch =
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(PredEntry *)AddrAdjust((ADDR)heap_regs->pred_dollar_catch);
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heap_regs->pred_recorded_with_key =
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(PredEntry *)AddrAdjust((ADDR)heap_regs->pred_recorded_with_key);
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heap_regs->pred_log_upd_clause =
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(PredEntry *)AddrAdjust((ADDR)heap_regs->pred_log_upd_clause);
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heap_regs->pred_throw =
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(PredEntry *)AddrAdjust((ADDR)heap_regs->pred_throw);
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heap_regs->pred_handle_throw =
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(PredEntry *)AddrAdjust((ADDR)heap_regs->pred_handle_throw);
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if (heap_regs->dyn_array_list != NULL)
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heap_regs->dyn_array_list = PtoArrayEAdjust(heap_regs->dyn_array_list);
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if (heap_regs->undef_code != NULL)
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heap_regs->undef_code = (PredEntry *)PtoHeapCellAdjust((CELL *)(heap_regs->undef_code));
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if (heap_regs->creep_code != NULL)
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heap_regs->creep_code = (PredEntry *)PtoHeapCellAdjust((CELL *)(heap_regs->creep_code));
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if (heap_regs->spy_code != NULL)
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heap_regs->spy_code = (PredEntry *)PtoHeapCellAdjust((CELL *)(heap_regs->spy_code));
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#ifdef COROUTINING
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if (heap_regs->wake_up_code != NULL)
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heap_regs->wake_up_code = (PredEntry *)PtoHeapCellAdjust((CELL *)(heap_regs->wake_up_code));
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heap_regs->mutable_list =
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AbsAppl(PtoGloAdjust(RepAppl(heap_regs->mutable_list)));
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heap_regs->atts_mutable_list =
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AbsAppl(PtoGloAdjust(RepAppl(heap_regs->atts_mutable_list)));
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#endif
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if (heap_regs->last_wtime != NULL)
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heap_regs->last_wtime = (void *)PtoHeapCellAdjust((CELL *)(heap_regs->last_wtime));
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heap_regs->db_erased_marker =
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DBRefAdjust(heap_regs->db_erased_marker);
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}
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/* Restoring the heap */
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/* Converts a structure of the DB, as it was saved in the heap */
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/* uses a variable base */
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static void
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ConvDBStruct(Term Struct, char *tbase, CELL size)
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{
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CELL *TermP;
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Functor f;
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int Arity, i;
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TermP = (CELL *)(tbase + (CELL)RepAppl(Struct));
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f = (Functor)(*TermP);
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if (IsExtensionFunctor(f)) {
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return;
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}
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f = FuncAdjust(f);
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*(Functor *)TermP = f;
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Arity = ArityOfFunctor(f);
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TermP++;
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for (i = 0; i < Arity; i++) {
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register Term t = *TermP;
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if (IsVarTerm(t)) {
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/* do nothing */
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} else if (IsAtomTerm(t)) {
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/* these are the only ones that may actually need to be changed */
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*TermP = AtomTermAdjust(t);
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} else if (IsApplTerm(t)) {
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CELL offset = (CELL)RepAppl(t);
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if (offset > size) {
|
|
*TermP = AbsAppl(CellPtoHeapAdjust(RepAppl(t)));
|
|
} else {
|
|
ConvDBStruct(t, tbase, size);
|
|
}
|
|
} else if (IsPairTerm(t)) {
|
|
ConvDBList(t, tbase, size);
|
|
}
|
|
TermP++;
|
|
}
|
|
}
|
|
|
|
/* Converts a list of the DB, as it was saved in the heap */
|
|
/* uses a variable base */
|
|
static void
|
|
ConvDBList(Term List, char *tbase, CELL size)
|
|
{
|
|
CELL *TermP;
|
|
int i;
|
|
TermP = (CELL *)(tbase + (CELL) RepPair(List));
|
|
for (i = 0; i < 2; i++) {
|
|
register Term t = *TermP;
|
|
if (IsVarTerm(t)) {
|
|
/* do nothing */
|
|
} else if (IsAtomTerm(t))
|
|
*TermP = AtomTermAdjust(t);
|
|
else if (IsPairTerm(t))
|
|
ConvDBList(t, tbase, size);
|
|
else if (IsApplTerm(t)) {
|
|
CELL offset = (CELL)RepAppl(t);
|
|
if (offset > size) {
|
|
*TermP = AbsAppl(CellPtoHeapAdjust(RepAppl(t)));
|
|
} else {
|
|
ConvDBStruct(t, tbase, size);
|
|
}
|
|
}
|
|
TermP++;
|
|
}
|
|
}
|
|
|
|
/* adjusts terms stored in the data base, when they have no variables */
|
|
static Term
|
|
AdjustDBTerm(Term trm)
|
|
{
|
|
Term *p;
|
|
|
|
if (IsAtomTerm(trm))
|
|
return (AtomTermAdjust(trm));
|
|
if (IsPairTerm(trm)) {
|
|
p = PtoHeapCellAdjust(RepPair(trm));
|
|
*p = AdjustDBTerm(*p);
|
|
++p;
|
|
*p = AdjustDBTerm(*p);
|
|
return (AbsPair(p-1));
|
|
}
|
|
if (IsApplTerm(trm)) {
|
|
Functor f;
|
|
Term *p0 = p = PtoHeapCellAdjust(RepAppl(trm));
|
|
f = (Functor)*p;
|
|
if (!IsExtensionFunctor(f)) {
|
|
int Arity, i;
|
|
|
|
f = FuncAdjust(f);
|
|
*p = (Term)f;
|
|
Arity = ArityOfFunctor(f);
|
|
p++;
|
|
for (i = 0; i < Arity; ++i) {
|
|
*p = AdjustDBTerm(*p);
|
|
p++;
|
|
}
|
|
}
|
|
return (AbsAppl(p0));
|
|
}
|
|
return (trm);
|
|
}
|
|
|
|
static void
|
|
RestoreDBTerm(DBTerm *dbr)
|
|
{
|
|
#ifdef COROUTINING
|
|
if (dbr->attachments)
|
|
dbr->attachments = AdjustDBTerm(dbr->attachments);
|
|
#endif
|
|
if (dbr->DBRefs != NULL)
|
|
dbr->DBRefs = DBRefPAdjust(dbr->DBRefs);
|
|
if (IsAtomTerm(dbr->Entry)) {
|
|
dbr->Entry = AtomTermAdjust(dbr->Entry);
|
|
return;
|
|
}
|
|
if (IsApplTerm(dbr->Entry)) {
|
|
ConvDBStruct(dbr->Entry, CharP(dbr->Contents-1), dbr->NOfCells*sizeof(CELL));
|
|
} else if (IsPairTerm(dbr->Entry)) {
|
|
ConvDBList(dbr->Entry, CharP(dbr->Contents-1), dbr->NOfCells*sizeof(CELL));
|
|
}
|
|
}
|
|
|
|
static void
|
|
RestoreDBEntry(DBRef dbr)
|
|
{
|
|
#ifdef DEBUG_RESTORE
|
|
YP_fprintf(errout, "Restoring at %x", dbr);
|
|
if (dbr->Flags & DBAtomic)
|
|
YP_fprintf(errout, " an atomic term\n");
|
|
else if (dbr->Flags & DBNoVars)
|
|
YP_fprintf(errout, " with no vars\n");
|
|
else if (dbr->Flags & DBComplex)
|
|
YP_fprintf(errout, " complex term\n");
|
|
else if (dbr->Flags & DBIsRef)
|
|
YP_fprintf(errout, " a ref\n");
|
|
else
|
|
YP_fprintf(errout, " a var\n");
|
|
#endif
|
|
dbr->Parent = (DBProp)AddrAdjust((ADDR)(dbr->Parent));
|
|
#ifdef COROUTINING
|
|
if (dbr->DBT.attachments)
|
|
dbr->DBT.attachments = AdjustDBTerm(dbr->DBT.attachments);
|
|
#endif
|
|
if (dbr->Code != NULL)
|
|
dbr->Code = PtoOpAdjust(dbr->Code);
|
|
if (dbr->Flags & DBWithRefs) {
|
|
DBRef *cp;
|
|
DBRef tm;
|
|
|
|
dbr->DBT.DBRefs = DBRefPAdjust(dbr->DBT.DBRefs);
|
|
cp = dbr->DBT.DBRefs;
|
|
while ((tm = *--cp) != 0)
|
|
*cp = DBRefAdjust(tm);
|
|
}
|
|
if (dbr->Flags & DBAtomic) {
|
|
if (IsAtomTerm(dbr->DBT.Entry))
|
|
dbr->DBT.Entry = AtomTermAdjust(dbr->DBT.Entry);
|
|
} else if (dbr->Flags & DBNoVars)
|
|
dbr->DBT.Entry = (CELL) AdjustDBTerm((Term) dbr->DBT.Entry);
|
|
else if (dbr->Flags & DBComplex) {
|
|
if (IsApplTerm(dbr->DBT.Entry))
|
|
ConvDBStruct(dbr->DBT.Entry, CharP(dbr->DBT.Contents-1), dbr->DBT.NOfCells*sizeof(CELL));
|
|
else
|
|
ConvDBList(dbr->DBT.Entry, CharP(dbr->DBT.Contents-1), dbr->DBT.NOfCells*sizeof(CELL));
|
|
}
|
|
if (dbr->Prev != NULL)
|
|
dbr->Prev = DBRefAdjust(dbr->Prev);
|
|
if (dbr->Next != NULL)
|
|
dbr->Next = DBRefAdjust(dbr->Next);
|
|
#ifdef DEBUG_RESTORE2
|
|
YP_fprintf(errout, "Recomputing masks\n");
|
|
#endif
|
|
recompute_mask(dbr);
|
|
}
|
|
|
|
/* Restores a DB structure, as it was saved in the heap */
|
|
static void
|
|
RestoreDB(DBEntry *pp)
|
|
{
|
|
register DBRef dbr;
|
|
|
|
if (pp->First != NULL)
|
|
pp->First = DBRefAdjust(pp->First);
|
|
if (pp->Last != NULL)
|
|
pp->Last = DBRefAdjust(pp->Last);
|
|
if (pp->ArityOfDB)
|
|
pp->FunctorOfDB = FuncAdjust(pp->FunctorOfDB);
|
|
else
|
|
pp->FunctorOfDB = (Functor) AtomAdjust((Atom)(pp->FunctorOfDB));
|
|
if (pp->KindOfPE & LogUpdDBBit) {
|
|
dbr = pp->First;
|
|
/* While we have something in the data base, restore it */
|
|
while (dbr) {
|
|
RestoreDBEntry(dbr);
|
|
dbr = dbr->Next;
|
|
}
|
|
} else {
|
|
if (pp->F0 != NULL)
|
|
pp->F0 = DBRefAdjust(pp->F0);
|
|
if (pp->L0 != NULL)
|
|
pp->L0 = DBRefAdjust(pp->L0);
|
|
/* immediate update semantics */
|
|
dbr = pp->F0;
|
|
/* While we have something in the data base, even if erased, restore it */
|
|
while (dbr) {
|
|
RestoreDBEntry(dbr);
|
|
if (dbr->n != NULL)
|
|
dbr->n = DBRefAdjust(dbr->n);
|
|
if (dbr->p != NULL)
|
|
dbr->p = DBRefAdjust(dbr->p);
|
|
dbr = dbr->n;
|
|
}
|
|
}
|
|
}
|
|
|
|
/* Restores a DB structure, as it was saved in the heap */
|
|
static void
|
|
RestoreBB(BlackBoardEntry *pp)
|
|
{
|
|
if (pp->Element) {
|
|
register DBTerm *dbr;
|
|
|
|
pp->Element = (DBTerm *)AdjustDBTerm((Term)pp->Element);
|
|
dbr = pp->Element;
|
|
RestoreDBTerm(dbr);
|
|
}
|
|
pp->KeyOfBB = AtomAdjust(pp->KeyOfBB);
|
|
}
|
|
|
|
/* Restores a prolog clause, in its compiled form */
|
|
static void
|
|
RestoreClause(yamop *pc, PredEntry *pp, int mode)
|
|
/*
|
|
* Cl points to the start of the code, IsolFlag tells if we have a single
|
|
* clause for this predicate or not
|
|
*/
|
|
{
|
|
if (mode == ASSEMBLING_CLAUSE) {
|
|
if (pp->PredFlags & DynamicPredFlag) {
|
|
DynamicClause *cl = ClauseCodeToDynamicClause(pc);
|
|
if (cl->ClPrevious != NULL) {
|
|
cl->ClPrevious = PtoOpAdjust(cl->ClPrevious);
|
|
}
|
|
cl->Owner = AtomAdjust(cl->Owner);
|
|
} else if (pp->PredFlags & LogUpdatePredFlag) {
|
|
LogUpdClause *cl = ClauseCodeToLogUpdClause(pc);
|
|
|
|
if (cl->ClFlags & LogUpdRuleMask) {
|
|
cl->ClExt = PtoOpAdjust(cl->ClExt);
|
|
}
|
|
cl->Owner = AtomAdjust(cl->Owner);
|
|
} else {
|
|
StaticClause *cl = ClauseCodeToStaticClause(pc);
|
|
|
|
cl->Owner = AtomAdjust(cl->Owner);
|
|
}
|
|
}
|
|
do {
|
|
op_numbers op = Yap_op_from_opcode(pc->opc);
|
|
pc->opc = Yap_opcode(op);
|
|
#ifdef DEBUG_RESTORE2
|
|
YP_fprintf(errout, "%s\n", op_names[op]);
|
|
#endif
|
|
switch (op) {
|
|
case _Ystop:
|
|
case _Nstop:
|
|
#ifdef DEBUG_RESTORE2
|
|
YP_fprintf(errout, "left OK\n");
|
|
#endif
|
|
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 _try_me0:
|
|
case _retry_me0:
|
|
case _trust_me0:
|
|
case _try_me1:
|
|
case _retry_me1:
|
|
case _trust_me1:
|
|
case _try_me2:
|
|
case _retry_me2:
|
|
case _trust_me2:
|
|
case _try_me3:
|
|
case _retry_me3:
|
|
case _trust_me3:
|
|
case _try_me4:
|
|
case _retry_me4:
|
|
case _trust_me4:
|
|
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 _retry_killed:
|
|
case _trust:
|
|
case _trust_killed:
|
|
#ifdef YAPOR
|
|
case _getwork:
|
|
case _getwork_seq:
|
|
case _sync:
|
|
#endif
|
|
#ifdef TABLING
|
|
case _table_try_me_single:
|
|
case _table_try_me:
|
|
case _table_retry_me:
|
|
case _table_trust_me:
|
|
case _table_answer_resolution:
|
|
case _table_completion:
|
|
#endif
|
|
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 = NEXTOP(pc,Ill);
|
|
break;
|
|
/* instructions type l */
|
|
case _enter_profiling:
|
|
case _count_call:
|
|
case _retry_profiled:
|
|
case _count_retry:
|
|
case _trust_logical_pred:
|
|
case _execute:
|
|
case _dexecute:
|
|
case _jump:
|
|
case _move_back:
|
|
case _skip:
|
|
case _jump_if_var:
|
|
case _try_in:
|
|
pc->u.l.l = PtoOpAdjust(pc->u.l.l);
|
|
pc = NEXTOP(pc,l);
|
|
break;
|
|
/* instructions type EC */
|
|
case _alloc_for_logical_pred:
|
|
pc->u.EC.ClBase = PtoOpAdjust(pc->u.EC.ClBase);
|
|
pc = NEXTOP(pc,EC);
|
|
break;
|
|
/* instructions type e */
|
|
case _unify_idb_term:
|
|
case _copy_idb_term:
|
|
case _trust_fail:
|
|
case _op_fail:
|
|
case _cut:
|
|
case _cut_t:
|
|
case _cut_e:
|
|
case _procceed:
|
|
case _allocate:
|
|
case _deallocate:
|
|
case _write_void:
|
|
case _write_list:
|
|
case _write_l_list:
|
|
#if !defined(YAPOR)
|
|
case _or_last:
|
|
#endif
|
|
case _pop:
|
|
case _index_pred:
|
|
case _expand_index:
|
|
case _undef_p:
|
|
case _spy_pred:
|
|
case _p_equal:
|
|
case _p_dif:
|
|
case _p_eq:
|
|
case _p_functor:
|
|
case _p_execute_tail:
|
|
case _enter_a_profiling:
|
|
case _count_a_call:
|
|
case _index_dbref:
|
|
case _index_blob:
|
|
#ifdef YAPOR
|
|
case _getwork_first_time:
|
|
#endif
|
|
#ifdef TABLING
|
|
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:
|
|
#endif
|
|
pc = NEXTOP(pc,e);
|
|
break;
|
|
/* instructions type x */
|
|
case _save_b_x:
|
|
case _comit_b_x:
|
|
case _get_list:
|
|
case _put_list:
|
|
case _write_x_var:
|
|
case _write_x_val:
|
|
case _write_x_loc:
|
|
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.x.x = XAdjust(pc->u.x.x);
|
|
pc = NEXTOP(pc,x);
|
|
break;
|
|
/* instructions type y */
|
|
case _save_b_y:
|
|
case _comit_b_y:
|
|
case _write_y_var:
|
|
case _write_y_val:
|
|
case _write_y_loc:
|
|
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.y.y = YAdjust(pc->u.y.y);
|
|
pc = NEXTOP(pc,y);
|
|
break;
|
|
case _check_var_for_index:
|
|
pc->u.xxp.p = PtoPredAdjust(pc->u.xxp.p);
|
|
pc = NEXTOP(pc,xxp);
|
|
break;
|
|
/* instructions type sla */
|
|
case _p_execute:
|
|
goto sla_full;
|
|
case _fcall:
|
|
case _call:
|
|
#ifdef YAPOR
|
|
case _or_last:
|
|
#endif
|
|
pc->u.sla.sla_u.p = PtoPredAdjust(pc->u.sla.sla_u.p);
|
|
sla_full:
|
|
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;
|
|
/* 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 xc */
|
|
case _get_atom:
|
|
case _put_atom:
|
|
case _get_float:
|
|
case _get_longint:
|
|
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 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 oc */
|
|
case _unify_atom_write:
|
|
case _unify_atom:
|
|
case _unify_l_atom_write:
|
|
case _unify_l_atom:
|
|
case _unify_float:
|
|
case _unify_l_float:
|
|
case _unify_longint:
|
|
case _unify_l_longint:
|
|
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 TABLING
|
|
case _table_new_answer:
|
|
#endif
|
|
pc = NEXTOP(pc,s);
|
|
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;
|
|
/* 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.llll.l1);
|
|
pc->u.ollll.l2 = PtoOpAdjust(pc->u.llll.l2);
|
|
pc->u.ollll.l3 = PtoOpAdjust(pc->u.llll.l3);
|
|
pc->u.ollll.l4 = PtoOpAdjust(pc->u.llll.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.sl.s;
|
|
startcode = oldcode = (CELL *)(pc->u.sl.l = PtoOpAdjust(pc->u.sl.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 = (yamop *)oldcode;
|
|
}
|
|
break;
|
|
/* switch_on_cons */
|
|
case _switch_on_cons:
|
|
{
|
|
int i, j;
|
|
CELL *oldcode;
|
|
#if !USE_OFFSETS
|
|
CELL *startcode;
|
|
#endif
|
|
|
|
i = pc->u.sl.s;
|
|
#if !USE_OFFSETS
|
|
startcode =
|
|
#endif
|
|
oldcode = (CELL *)(pc->u.sl.l = PtoOpAdjust(pc->u.sl.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 = (yamop *)oldcode;
|
|
}
|
|
break;
|
|
case _go_on_func:
|
|
{
|
|
CELL *oldcode = (CELL *)(pc->u.sl.l = PtoOpAdjust(pc->u.sl.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,sl);
|
|
break;
|
|
case _go_on_cons:
|
|
{
|
|
CELL *oldcode = (CELL *)(pc->u.sl.l = PtoOpAdjust(pc->u.sl.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,sl);
|
|
break;
|
|
case _if_func:
|
|
{
|
|
CELL *oldcode = (CELL *)(pc->u.sl.l = PtoOpAdjust(pc->u.sl.l));
|
|
Int j;
|
|
|
|
for (j = 0; j < pc->u.sl.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,sl);
|
|
break;
|
|
case _if_cons:
|
|
{
|
|
CELL *oldcode = (CELL *)(pc->u.sl.l = PtoOpAdjust(pc->u.sl.l));
|
|
Int j;
|
|
|
|
for (j = 0; j < pc->u.sl.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,sl);
|
|
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 lxx */
|
|
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 lxx */
|
|
case _call_bfunc_xx:
|
|
pc->u.lxx.p = PtoPredAdjust(pc->u.lxx.p);
|
|
pc->u.lxx.x1 = XAdjust(pc->u.lxx.x1);
|
|
pc->u.lxx.x2 = XAdjust(pc->u.lxx.x2);
|
|
pc = NEXTOP(pc,lxx);
|
|
break;
|
|
/* instructions type lxy */
|
|
case _call_bfunc_yx:
|
|
case _call_bfunc_xy:
|
|
pc->u.lxy.p = PtoPredAdjust(pc->u.lxy.p);
|
|
pc->u.lxy.x = XAdjust(pc->u.lxy.x);
|
|
pc->u.lxy.y = YAdjust(pc->u.lxy.y);
|
|
pc = NEXTOP(pc,lxy);
|
|
break;
|
|
case _call_bfunc_yy:
|
|
pc->u.lyy.p = PtoPredAdjust(pc->u.lyy.p);
|
|
pc->u.lyy.y1 = YAdjust(pc->u.lyy.y1);
|
|
pc->u.lyy.y2 = YAdjust(pc->u.lyy.y2);
|
|
pc = NEXTOP(pc,lyy);
|
|
break;
|
|
}
|
|
} while (TRUE);
|
|
}
|
|
|
|
/*
|
|
* Restores a group of clauses for the same predicate, starting with First
|
|
* and ending with Last, First may be equal to Last
|
|
*/
|
|
static void
|
|
CleanClauses(yamop *First, yamop *Last, PredEntry *pp)
|
|
{
|
|
if (pp->PredFlags & LogUpdatePredFlag) {
|
|
LogUpdClause *cl = ClauseCodeToLogUpdClause(First);
|
|
|
|
while (cl != NULL) {
|
|
RestoreClause(cl->ClCode, pp, ASSEMBLING_CLAUSE);
|
|
cl = cl->ClNext;
|
|
}
|
|
} else {
|
|
yamop *cl = First;
|
|
|
|
do {
|
|
RestoreClause(cl, pp, ASSEMBLING_CLAUSE);
|
|
if (cl == Last) return;
|
|
cl = NextClause(cl);
|
|
} while (TRUE);
|
|
}
|
|
}
|
|
|
|
|
|
static void
|
|
restore_static_array(StaticArrayEntry *ae)
|
|
{
|
|
Int sz = -ae->ArrayEArity;
|
|
switch (ae->ArrayType) {
|
|
case array_of_ints:
|
|
case array_of_doubles:
|
|
case array_of_chars:
|
|
case array_of_uchars:
|
|
return;
|
|
case array_of_ptrs:
|
|
{
|
|
AtomEntry **base = (AtomEntry **)AddrAdjust((ADDR)(ae->ValueOfVE.ptrs));
|
|
Int i;
|
|
ae->ValueOfVE.ptrs = base;
|
|
if (ae != NULL) {
|
|
for (i=0; i<sz; i++) {
|
|
AtomEntry *reg = *base;
|
|
if (reg == NULL) {
|
|
base++;
|
|
} else if (IsOldCode((CELL)reg)) {
|
|
*base++ = AtomEntryAdjust(reg);
|
|
} else if (IsOldLocalInTR((CELL)reg)) {
|
|
*base++ = (AtomEntry *)LocalAddrAdjust((ADDR)reg);
|
|
} else if (IsOldGlobal((CELL)reg)) {
|
|
*base++ = (AtomEntry *)GlobalAddrAdjust((ADDR)reg);
|
|
} else if (IsOldDelay((CELL)reg)) {
|
|
*base++ = (AtomEntry *)DelayAddrAdjust((ADDR)reg);
|
|
} else if (IsOldTrail((CELL)reg)) {
|
|
*base++ = (AtomEntry *)TrailAddrAdjust((ADDR)reg);
|
|
} else {
|
|
/* oops */
|
|
base++;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
return;
|
|
case array_of_atoms:
|
|
{
|
|
Term *base = (Term *)AddrAdjust((ADDR)(ae->ValueOfVE.atoms));
|
|
Int i;
|
|
ae->ValueOfVE.atoms = base;
|
|
if (ae != 0L) {
|
|
for (i=0; i<sz; i++) {
|
|
Term reg = *base;
|
|
if (reg == 0L) {
|
|
base++;
|
|
} else {
|
|
*base++ = AtomTermAdjust(reg);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
return;
|
|
case array_of_dbrefs:
|
|
{
|
|
Term *base = (Term *)AddrAdjust((ADDR)(ae->ValueOfVE.dbrefs));
|
|
Int i;
|
|
|
|
ae->ValueOfVE.dbrefs = base;
|
|
if (ae != 0L) {
|
|
for (i=0; i<sz; i++) {
|
|
Term reg = *base;
|
|
if (reg == 0L) {
|
|
base++;
|
|
} else {
|
|
*base++ = AbsAppl(PtoHeapCellAdjust(RepAppl(reg)));
|
|
}
|
|
}
|
|
}
|
|
}
|
|
return;
|
|
case array_of_terms:
|
|
{
|
|
DBTerm **base = (DBTerm **)AddrAdjust((ADDR)(ae->ValueOfVE.terms));
|
|
Int i;
|
|
|
|
ae->ValueOfVE.terms = base;
|
|
if (ae != 0L) {
|
|
for (i=0; i<sz; i++) {
|
|
DBTerm *reg = *base;
|
|
if (reg == NULL) {
|
|
base++;
|
|
} else {
|
|
*base++ = reg = (DBTerm *)AdjustDBTerm((Term)reg);
|
|
RestoreDBTerm(reg);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
return;
|
|
}
|
|
}
|
|
|
|
/*
|
|
* Clean all the code for a particular predicate, this can get a bit tricky,
|
|
* because of the indexing code
|
|
*/
|
|
static void
|
|
CleanCode(PredEntry *pp)
|
|
{
|
|
CELL flag;
|
|
|
|
|
|
/* Init takes care of the first 2 cases */
|
|
if (pp->ArityOfPE)
|
|
pp->FunctorOfPred = FuncAdjust(pp->FunctorOfPred);
|
|
else
|
|
pp->FunctorOfPred = (Functor)AtomAdjust((Atom)(pp->FunctorOfPred));
|
|
if (pp->ModuleOfPred != 2) {
|
|
if (pp->src.OwnerFile && pp->ModuleOfPred != 2)
|
|
pp->src.OwnerFile = AtomAdjust(pp->src.OwnerFile);
|
|
}
|
|
pp->OpcodeOfPred = Yap_opcode(Yap_op_from_opcode(pp->OpcodeOfPred));
|
|
if (pp->PredFlags & (AsmPredFlag|CPredFlag)) {
|
|
/* assembly */
|
|
if (pp->CodeOfPred) {
|
|
pp->CodeOfPred = PtoOpAdjust(pp->CodeOfPred);
|
|
CleanClauses(pp->CodeOfPred, pp->CodeOfPred, pp);
|
|
}
|
|
} else {
|
|
yamop *FirstC, *LastC;
|
|
/* Prolog code */
|
|
if (pp->cs.p_code.FirstClause)
|
|
pp->cs.p_code.FirstClause = PtoOpAdjust(pp->cs.p_code.FirstClause);
|
|
if (pp->cs.p_code.LastClause)
|
|
pp->cs.p_code.LastClause = PtoOpAdjust(pp->cs.p_code.LastClause);
|
|
pp->CodeOfPred =PtoOpAdjust(pp->CodeOfPred);
|
|
pp->cs.p_code.TrueCodeOfPred = PtoOpAdjust(pp->cs.p_code.TrueCodeOfPred);
|
|
pp->cs.p_code.ExpandCode = Yap_opcode(_expand_index);
|
|
if (pp->NextPredOfModule)
|
|
pp->NextPredOfModule = PtoPredAdjust(pp->NextPredOfModule);
|
|
flag = pp->PredFlags;
|
|
FirstC = pp->cs.p_code.FirstClause;
|
|
LastC = pp->cs.p_code.LastClause;
|
|
/* We just have a fail here */
|
|
if (FirstC == NIL && LastC == NIL) {
|
|
return;
|
|
}
|
|
#ifdef DEBUG_RESTORE2
|
|
YP_fprintf(errout, "at %lx Correcting clauses from %lx to %lx\n", *(OPCODE *) FirstC, FirstC, LastC);
|
|
#endif
|
|
CleanClauses(FirstC, LastC, pp);
|
|
if (flag & (DynamicPredFlag|IndexedPredFlag)) {
|
|
#ifdef DEBUG_RESTORE2
|
|
YP_fprintf(errout, "Correcting dynamic/indexed code\n");
|
|
#endif
|
|
RestoreClause(pp->cs.p_code.TrueCodeOfPred,pp, ASSEMBLING_INDEX);
|
|
}
|
|
}
|
|
/* we are pointing at ourselves */
|
|
}
|
|
|
|
/*
|
|
* Restores all of the entries, for a particular atom, we only have problems
|
|
* if we find code or data bases
|
|
*/
|
|
static void
|
|
RestoreEntries(PropEntry *pp)
|
|
{
|
|
while (!EndOfPAEntr(pp)) {
|
|
switch(pp->KindOfPE) {
|
|
case FunctorProperty:
|
|
{
|
|
FunctorEntry *fe = (FunctorEntry *)pp;
|
|
Prop p0;
|
|
fe->NextOfPE =
|
|
PropAdjust(fe->NextOfPE);
|
|
fe->NameOfFE =
|
|
AtomAdjust(fe->NameOfFE);
|
|
p0 = fe->PropsOfFE =
|
|
PropAdjust(fe->PropsOfFE);
|
|
while (!EndOfPAEntr(p0)) {
|
|
CleanCode(RepPredProp(p0));
|
|
p0 = RepPredProp(p0)->NextOfPE =
|
|
PropAdjust(RepPredProp(p0)->NextOfPE);
|
|
}
|
|
}
|
|
break;
|
|
case ValProperty:
|
|
{
|
|
ValEntry *ve = (ValEntry *)pp;
|
|
Term tv = ve->ValueOfVE;
|
|
ve->NextOfPE =
|
|
PropAdjust(ve->NextOfPE);
|
|
if (IsAtomTerm(tv))
|
|
ve->ValueOfVE = AtomTermAdjust(tv);
|
|
}
|
|
break;
|
|
case ArrayProperty:
|
|
{
|
|
ArrayEntry *ae = (ArrayEntry *)pp;
|
|
ae->NextOfPE =
|
|
PropAdjust(ae->NextOfPE);
|
|
if (ae->ArrayEArity < 0) {
|
|
restore_static_array((StaticArrayEntry *)ae);
|
|
} else {
|
|
if (ae->NextArrayE != NULL)
|
|
ae->NextArrayE = PtoArrayEAdjust(ae->NextArrayE);
|
|
if (IsVarTerm(ae->ValueOfVE))
|
|
RESET_VARIABLE(&(ae->ValueOfVE));
|
|
else {
|
|
CELL *ptr = RepAppl(ae->ValueOfVE);
|
|
/* in fact it should just be a pointer to the global,
|
|
but we'll be conservative.
|
|
Notice that the variable should have been reset in restore_program mode.
|
|
*/
|
|
if (IsOldGlobalPtr(ptr)) {
|
|
ae->ValueOfVE = AbsAppl(PtoGloAdjust(ptr));
|
|
} else if (IsOldCodeCellPtr(ptr)) {
|
|
ae->ValueOfVE = AbsAppl(PtoHeapCellAdjust(ptr));
|
|
} else if (IsOldLocalInTRPtr(ptr)) {
|
|
ae->ValueOfVE = AbsAppl(PtoLocAdjust(ptr));
|
|
} else if (IsOldDelayPtr(ptr)) {
|
|
ae->ValueOfVE = AbsAppl(PtoDelayAdjust(ptr));
|
|
} else if (IsOldTrailPtr(ptr)) {
|
|
ae->ValueOfVE = AbsAppl(CellPtoTRAdjust(ptr));
|
|
}
|
|
}
|
|
}
|
|
}
|
|
break;
|
|
case PEProp:
|
|
{
|
|
PredEntry *pe = (PredEntry *) pp;
|
|
pe->NextOfPE =
|
|
PropAdjust(pe->NextOfPE);
|
|
CleanCode(pe);
|
|
}
|
|
break;
|
|
case DBProperty:
|
|
case LogUpdDBProperty:
|
|
case CodeLogUpdDBProperty:
|
|
case CodeDBProperty:
|
|
#ifdef DEBUG_RESTORE2
|
|
YP_fprintf(errout, "Correcting data base clause at %p\n", pp);
|
|
#endif
|
|
{
|
|
DBEntry *de = (DBEntry *) pp;
|
|
de->NextOfPE =
|
|
PropAdjust(de->NextOfPE);
|
|
if (HDiff)
|
|
RestoreDB(de);
|
|
}
|
|
break;
|
|
case BBProperty:
|
|
{
|
|
BlackBoardEntry *bb = (BlackBoardEntry *) pp;
|
|
bb->NextOfPE =
|
|
PropAdjust(bb->NextOfPE);
|
|
if (HDiff)
|
|
RestoreBB(bb);
|
|
}
|
|
break;
|
|
case ExpProperty:
|
|
case OpProperty:
|
|
case ModProperty:
|
|
pp->NextOfPE =
|
|
PropAdjust(pp->NextOfPE);
|
|
break;
|
|
default:
|
|
/* OOPS */
|
|
Yap_Error(SYSTEM_ERROR, TermNil,
|
|
"Invalid Atom Property %d at %p", pp->KindOfPE, pp);
|
|
return;
|
|
}
|
|
pp = RepProp(pp->NextOfPE);
|
|
}
|
|
}
|
|
|