1219 lines
36 KiB
Plaintext
1219 lines
36 KiB
Plaintext
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:- use_module(library(lineutils),
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[process/2,
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split/3]).
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:- use_module(library(readutil),
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[read_line_to_codes/2]).
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:- use_module(library(charsio),
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[format_to_chars/3]).
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:- use_module(library(lists),
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[member/2]).
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:- initialization(main).
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:- yap_flag(write_strings,on).
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:- yap_flag(unknown,error).
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:- style_check(all).
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:- dynamic qual/1.
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qual("none").
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main :-
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get_field_names('H/amidefs.h'),
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open('H/YapOpcodes.h',write,W),
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open('H/rclause.h',write,C),
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open('H/walkclause.h',write,L),
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open('H/findclause.h',write,F),
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open('H/headclause.h',write,H),
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open('H/saveclause.h',write,S),
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header(W),
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header_rclause(C),
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header_walk_clause(L),
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header_find_clause(F),
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header_find_clause(H),
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header_save_clause(S),
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file('C/absmi_insts.h', W, C, L, F, H, S),
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start_ifdef("YAPOR", W, C, L, F, H, S),
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file('OPTYap/or.insts.h',W, C, L, F, H, S),
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end_ifdef(W, C, L, F, H, S),
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start_ifdef("TABLING", W, C, L, F, H, S),
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file('OPTYap/tab.insts.h',W,C,L, F, H, S),
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retractall(op(_,_)),
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file('OPTYap/tab.tries.insts.h', W, C, L, F, H, S),
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end_ifdef(W, C, L, F, H, S),
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%start_ifdef("YAP_JIT", W, C, L, F, H, S),
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%file('C/traced_absmi_insts.h', W, C, L, F, H, S),
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%start_ifdef("YAPOR", W, C, L, F, H, S),
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%file('OPTYap/traced_or.insts.h',W, C, L, F, H, S),
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%end_ifdef(W, C, L, F, H, S),
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%start_ifdef("TABLING", W, C, L, F, H, S),
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%file('OPTYap/traced_tab.insts.h',W,C,L, F, H, S),
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%retractall(op(_,_)),
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%file('OPTYap/traced_tab.tries.insts.h', W, C, L, F, H, S),
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%end_ifdef(W, C, L, F, H, S),
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%end_ifdef(W, C, L, F, H, S),
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footer(W),
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footer_rclause(C),
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footer_walk_clause(L),
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footer_find_clause(F),
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footer_find_clause(H),
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footer_save_clause(S),
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close(F),
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close(L),
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close(W),
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close(C),
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close(H),
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close(S).
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start_ifdef(D, W, C, L, F, H, S) :-
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retractall(op(_,_)),
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format(W, '#ifdef ~s~n',[D]),
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format(C, '#ifdef ~s~n',[D]),
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format(L, '#ifdef ~s~n',[D]),
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format(F, '#ifdef ~s~n',[D]),
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format(H, '#ifdef ~s~n',[D]),
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format(S, '#ifdef ~s~n',[D]).
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end_ifdef(W,C,L,F,H, S) :-
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format(W, '#endif~n',[]),
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format(C, '#endif~n',[]),
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format(L, '#endif~n',[]),
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format(F, '#endif~n',[]),
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format(H, '#endif~n',[]),
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format(S, '#endif~n',[]).
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header(W) :-
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format(W,'~n /* This file was generated automatically by \"yap -L misc/buildops\"~n please do not update */~n~n',[]).
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header_rclause(W) :-
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format(W,'~n /* This file was generated automatically by \"yap -L misc/buildops\"~n please do not update */~n~n
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static void
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restore_opcodes(yamop *pc, yamop *max USES_REGS)
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{
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yamop *opc = NULL;
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do {
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op_numbers op;
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if (max && pc >= max) return;
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op = Yap_op_from_opcode(pc->opc);
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pc->opc = Yap_opcode(op);
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#ifdef DEBUG_RESTORE2
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fprintf(stderr, "%s ", Yap_op_names[op]);
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#endif
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switch (op) {
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',[]).
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header_walk_clause(W) :-
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format(W,'~n /* This file was generated automatically by \"yap -L misc/buildops\"~n please do not update */~n~n
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while (TRUE) {
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op_numbers op;
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op = Yap_op_from_opcode(pc->opc);
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/* C-code, maybe indexing */
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switch (op) {
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',[]).
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header_save_clause(W) :-
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format(W,'~n /* This file was generated automatically by \"yap -L misc/buildops\"~n please do not update */~n~n
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while (TRUE) {
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op_numbers op;
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if (max && pc >= max) return 1;
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op = Yap_op_from_opcode(pc->opc);
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save_Opcode(stream, op);
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/* C-code, maybe indexing */
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switch (op) {
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',[]).
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header_find_clause(W) :-
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format(W,'~n /* This file was generated automatically by \"yap -L misc/buildops\"~n please do not update */~n~n
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while (TRUE) {
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op_numbers op = Yap_op_from_opcode(cl->opc);
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switch (op) {
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',[]).
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file(I,W,C,L,F,H, S) :-
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open(I,read,R),
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process(R,grep_opcode(W)),
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close(R),
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output_rclause(C),
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output_walk_clause(L),
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output_find_clause(F),
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output_head_clause(H),
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output_save_clause(S).
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grep_opcode(W, Line) :-
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split(Line," ,();",[OP,Name,Type]),
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Name \= "or_last", Name \= "traced_or_last",
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check_op(OP), !,
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special(Name,W),
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assert(op(Type,Name)),
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format(W,' OPCODE(~s~36+,~s),~n',[Name,Type]),
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end_special(Name,W).
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grep_opcode(W, Line) :-
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split(Line,"# \"<>",["include",File]),
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atom_codes(AFile, File),
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atomic_concat('C/',AFile,NFile),
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(
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catch( open(NFile,read,R), _, fail )
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->
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( sub_atom( AFile, 0, _, _, traced ) -> format(W,'#if YAP_JIT~n',[]) ; true ),
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process(R,grep_opcode(W)),
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( sub_atom( AFile, 0, _, _, traced ) -> format(W,'#endif~n',[]) ; true),
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close(R)
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;
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true
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).
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check_op("Op").
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check_op("BOp").
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check_op("PBOp").
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check_op("OpRW").
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check_op("OpW").
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special(Name, W) :-
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special_op(Name, Decl), !,
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format(W,"#ifdef ~s~n",[Decl]).
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special(_, _).
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end_special(Name, W) :-
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special_op(Name, _), !,
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format(W,"#endif~n",[]).
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end_special(_, _).
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special_op("clause_with_cut","TABLING_INNER_CUTS").
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special_op("table_answer_resolution_completion","THREADS_CONSUMER_SHARING").
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/*special_op("cut_c","CUT_C").*/
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/*special_op("cut_userc","CUT_C").*/
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special_op("run_eam","BEAM").
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special_op("retry_eam","BEAM").
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special_op("thread_local","THREADS").
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special_op("jit_handler","YAP_JIT").
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output_rclause(C) :-
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setof(T,O^op(T,O),Types),
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member(T, Types),
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output_type(T, C),
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fail.
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output_rclause(_).
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output_type(T, C) :-
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format(C,' /* instructions type ~s */~n',[T]),
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setof(Op,op(T,Op),Ops),
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dump_ops(C,Ops),
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output_typeinfo(C,T).
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output_typeinfo(C,T) :-
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tinfo(T, Info),
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dump_fields(C,Info,T,T),
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special_formats(C,T), !,
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format(C,' pc = NEXTOP(pc,~s);
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break;~n',[T]).
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output_typeinfo(_,_).
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% tables require access to the table info.
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special_formats(C,"e") :- !,
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format(C,' if (op == _Nstop || op == _copy_idb_term || op == _unify_idb_term) return;~n',[]).
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special_formats(C,"l") :- !,
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format(C,' if (op == _Ystop) return;~n',[]).
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special_formats(C,"sssl") :- !,
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format(C,' AdjustSwitchTable(op, pc->y_u.sssl.l, pc->y_u.sssl.s);~n',[]).
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special_formats(C,"Illss") :- !,
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format(C,' opc = NEXTOP(pc,Illss);
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pc = pc->y_u.Illss.l1;
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break;~n',[]),
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% don't go to NEXTOP
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fail.
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special_formats(C,"OtaLl") :- !,
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format(C,' pc = pc->y_u.OtaLl.n;
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break;~n',[]),
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% don't go to NEXTOP
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fail.
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special_formats(C,"OtILl") :- !,
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format(C,' pc = opc;
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break;~n',[]),
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% don't go to NEXTOP
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fail.
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special_formats(_,_).
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dump_fields(_,[],"e",_).
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dump_fields(_,[],[],_).
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dump_fields(C,[I-_|Info],[O|Ops],T) :- !,
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dump_field(C,I,O,T),
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dump_fields(C,Info,Ops,T).
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dump_fields(C,[_|Info],Ops,T) :-
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dump_fields(C,Info,Ops,T).
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dump_field(C,I,O,T) :-
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rewritable_field(O), !,
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get_op(O,A),
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format(C,' ~sAdjust(pc->y_u.~s.~s);~n',[A,T,I]).
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dump_field(C,I,O,T) :-
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get_op(O,A),
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format(C,' pc->y_u.~s.~s = ~sAdjust(pc->y_u.~s.~s);~n',[T,I,A,T,I]).
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rewritable_field(0'd).
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rewritable_field(0'i).
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rewritable_field(0'O).
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rewritable_field(0't).
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get_op(0'a,"Arity").
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get_op(0'A,"Atom").
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get_op(0'b,"CellPtoHeap").
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get_op(0'c,"ConstantTerm").
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get_op(0'd,"DoubleInCode").
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get_op(0'D,"DBGroundTerm").
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get_op(0'f,"Func").
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get_op(0'F,"ExternalFunction").
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get_op(0'i,"IntegerInCode").
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get_op(0'j,"JITCode").
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get_op(0'I,"PtoLUIndex").
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get_op(0'l,"PtoOp").
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get_op(0'L,"PtoLUClause").
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get_op(0'm,"Module").
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get_op(0'n,"Integer").
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get_op(0'N,"BlobTermInCode").
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get_op(0'o,"Opcode").
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get_op(0'O,"OrArg").
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get_op(0'p,"PtoPred").
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get_op(0's,"Constant").
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get_op(0't,"TabEntry").
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get_op(0'u,"BlobTermInCode").
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get_op(0'x,"X").
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get_op(0'y,"Y").
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% '
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dump_ops(_,[]).
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dump_ops(C,[Op|Ops]) :-
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dump_op(C,Op),
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dump_ops(C,Ops).
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dump_op(C,Op) :-
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special(Op,C),
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format(C,' case _~s:~n',[Op]),
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end_special(Op,C).
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output_walk_clause(L) :-
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setof(T,O^op(T,O),Types),
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member(T, Types),
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output_walk_type(T, L),
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fail.
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output_walk_clause(_).
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%
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% Walk the absmi code looking for the current predicate,
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% the current beginning and the current end of the clause.
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% This goes by skipping ops until we find a op which knows where the
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% clause starts. Usually this is Ystop.
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% We also take pains to stop and check if we find out the current predicate.
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% Some instructions know it.
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%
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% Most instructions should not care less about what happens here!
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%
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output_walk_type(T, C) :-
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format(C,' /* instructions type ~s */~n',[T]),
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setof(Op,op(T,Op),Ops0),
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split_ops(Ops0,Ops1,Ops2),
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( split_ops1(T, Ops1, Ops) ; Ops2 = Ops ),
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Ops = [_|_],
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% first send the header
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dump_ops(C,Ops),
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% then the code for every instruction with this header.
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output_walk(C,T,Ops).
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% separate a special group of instructions, that operate differentely from the
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% rest of the format.
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split_ops([],[],[]).
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split_ops([Op|Ops0],[Op|Ops1],Ops2) :-
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special_walk_op(Op), !,
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split_ops(Ops0,Ops1,Ops2).
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split_ops([Op|Ops0],[Op|Ops1],Ops2) :-
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c_call_op(Op), !,
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split_ops(Ops0,Ops1,Ops2).
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split_ops([Op|Ops0],Ops1,[Op|Ops2]) :-
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split_ops(Ops0,Ops1,Ops2).
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split_ops1("e", Ops, [M]) :- !,
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member(M, Ops).
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split_ops1("Osbpp", Ops, [M]) :- !,
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member(M, Ops).
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split_ops1(_, Ops, Ops).
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% instructions which require special treatment, relative to
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% other instructions with the same format
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special_walk_op("p_execute").
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special_walk_op("p_execute2").
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special_walk_op("p_execute_tail").
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special_walk_op("procceed").
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special_walk_op("lock_lu").
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special_walk_op("Nstop").
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special_walk_op("Ystop").
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special_walk_op("expand_index").
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special_walk_op("undef_p").
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special_walk_op("spy_pred").
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special_walk_op("index_pred").
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special_walk_op("lock_pred").
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special_walk_op("op_fail").
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special_walk_op("trust_fail").
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special_walk_op("unify_idb_term").
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special_walk_op("copy_idb_term").
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c_call_op("call_cpred").
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c_call_op("call_usercpred").
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c_call_op("execute_cpred").
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c_call_op("call_c_wfail").
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% I field gives direct access to LU index block and to all Pred information
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output_walk(C,"Illss",_) :- !,
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format(C,' return walk_got_lu_block(pc->y_u.Illss.I, startp, endp);~n',[]).
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output_walk(C,"OtILl",_) :- !,
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format(C,' return walk_got_lu_block(pc->y_u.OtILl.block, startp, endp);~n',[]).
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% I field gives direct access to LU index clause and to all Pred information
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output_walk(C,"L",_) :- !,
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format(C,' return walk_got_lu_clause(pc->y_u.L.ClBase, startp, endp);~n',[]).
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% we cannot jump to clause code.
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output_walk(C,"OtaLl",_) :- !,
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format(C,' pc = pc->y_u.OtaLl.n;~n break;~n',[]).
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% ops which point at the clause's predicate.
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output_walk(C,"Osblp",_) :- !,
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label_in_clause(C,"Osblp","p0").
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output_walk(C,"Osbpp",[Op|_]) :-
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c_call_op(Op), !,
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walk_to_c_code(C,"Osbpp","p").
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output_walk(C,"slpp",[Op|_]) :-
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c_call_op(Op), !,
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walk_to_c_code(C,"slpp","p").
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output_walk(C,"Osbpp",[Op|_]) :-
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special_walk_op(Op), !,
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walk_to_meta_call(C).
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output_walk(C,"Osbpp",_) :- !,
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label_in_clause(C,"Osbpp","p0").
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output_walk(C,"pp",[Op|_]) :-
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c_call_op(Op), !,
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walk_to_c_code(C,"pp","p").
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output_walk(C,"pp",_) :- !,
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label_in_clause(C,"pp","p0").
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output_walk(C,"OtapFs",_) :- !,
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label_in_clause(C,"OtapFs","p").
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output_walk(C,"Otapl",_) :- !,
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label_in_index(C,"Otapl","p").
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output_walk(C,"p",["retry_profiled"|_]) :- !,
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add_pi(C,"p","p"),
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format(C,' break;~n',[]).
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output_walk(C,"p",[Op|_]) :-
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special_walk_op(Op), !,
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add_pp(C,"p","p"),
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format(C,' break;~n',[]).
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output_walk(C,"e",[Op|Ops]) :-
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special_walk_op(Op), !, % Nstop and friends
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output_ewalks(C,[Op|Ops]).
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output_walk(C,"sssllp",[Op|Ops]) :-
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format(C,' return found_expand_index(pc, startp, endp, codeptr PASS_REGS);~n',[]),
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output_ewalks(C,[Op|Ops]).
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output_walk(C,"l",[Op|_]) :-
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special_walk_op(Op), !, % IDB
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format(C,' return found_ystop(pc, clause_code, startp, endp, pp PASS_REGS);~n',[]).
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output_walk(C,T,_) :-
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format(C,' pc = NEXTOP(pc,~s);
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break;~n',[T]).
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% There are so many weird empty instructions that we process
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% each one separately.
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output_ewalks(_,[]).
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output_ewalks(C,["Nstop"|Ops]) :-
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format(C,' return NULL;~n',[]),
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output_ewalks(C,Ops).
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output_ewalks(C,["unify_idb_term"|Ops]) :-
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format(C,' return found_idb_clause(pc, startp, endp);~n',[]),
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output_ewalks(C,Ops).
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output_ewalks(C,["copy_idb_term"|Ops]) :-
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format(C,' return found_idb_clause(pc, startp, endp);~n',[]),
|
|
output_ewalks(C,Ops).
|
|
output_ewalks(C,["undef_p"|Ops]) :-
|
|
format(C,' return found_owner_op(pc, startp, endp PASS_REGS);~n',[]),
|
|
output_ewalks(C,Ops).
|
|
output_ewalks(C,["spy_pred"|Ops]) :-
|
|
format(C,' return found_owner_op(pc, startp, endp PASS_REGS);~n',[]),
|
|
output_ewalks(C,Ops).
|
|
output_ewalks(C,["expand_index"|Ops]) :-
|
|
format(C,' return found_expand(pc, startp, endp PASS_REGS);~n',[]),
|
|
output_ewalks(C,Ops).
|
|
output_ewalks(C,["index_pred"|Ops]) :-
|
|
format(C,' return found_owner_op(pc, startp, endp PASS_REGS);~n',[]),
|
|
output_ewalks(C,Ops).
|
|
output_ewalks(C,["lock_pred"|Ops]) :-
|
|
format(C,' return found_owner_op(pc, startp, endp PASS_REGS);~n',[]),
|
|
output_ewalks(C,Ops).
|
|
output_ewalks(C,["op_fail"|Ops]) :-
|
|
format(C,' if (codeptr == FAILCODE)
|
|
return found_fail(pc, startp, endp PASS_REGS);~n',[]),
|
|
format(C,' pc = NEXTOP(pc,~s);
|
|
break;~n',["e"]),
|
|
output_ewalks(C,Ops).
|
|
output_ewalks(C,["trust_fail"|Ops]) :-
|
|
format(C,' if (codeptr == TRUSTFAILCODE)
|
|
return found_fail(pc, startp, endp PASS_REGS);~n',[]),
|
|
format(C,' pc = NEXTOP(pc,~s);
|
|
break;~n',["e"]),
|
|
output_ewalks(C,Ops).
|
|
|
|
label_in_clause(C,Type,Field) :-
|
|
format(C,' clause_code = TRUE;~n',[]),
|
|
format(C,' pp = pc->y_u.~s.~s;~n',[Type,Field]),
|
|
format(C,' pc = NEXTOP(pc,~s);
|
|
break;~n',[Type]).
|
|
|
|
label_in_index(C,Type,Field) :-
|
|
format(C,' clause_code = FALSE;~n',[]),
|
|
format(C,' pp = pc->y_u.~s.~s;~n',[Type,Field]),
|
|
format(C,' pc = NEXTOP(pc,~s);
|
|
break;~n',[Type]).
|
|
|
|
add_pi(C,Type,Field) :-
|
|
format(C,' pp = pc->y_u.~s.~s;~n',[Type,Field]),
|
|
format(C,' clause_code = FALSE;~n',[]),
|
|
format(C,' pc = NEXTOP(pc,~s);~n',[Type]).
|
|
|
|
add_pp(C,Type,Field) :-
|
|
format(C,' pp = pc->y_u.~s.~s;~n',[Type,Field]),
|
|
format(C,' if (pp->PredFlags & MegaClausePredFlag)~n',[]),
|
|
format(C,' return found_mega_clause(pp, startp, endp);~n',[]),
|
|
format(C,' clause_code = TRUE;~n',[]),
|
|
format(C,' pc = NEXTOP(pc,~s);~n',[Type]).
|
|
|
|
walk_to_meta_call(C) :-
|
|
format(C,' return found_meta_call(startp, endp);~n',[]).
|
|
|
|
walk_to_c_code(C,Type,Field) :-
|
|
format(C,' pp = pc->y_u.~s.~s;~n',[Type,Field]),
|
|
format(C,' return walk_found_c_pred(pp, startp, endp);~n',[]).
|
|
|
|
%
|
|
% find region
|
|
% tries to find out what an instruction touches in the body
|
|
% of a clause
|
|
%
|
|
|
|
output_find_clause(L) :-
|
|
setof(T:Op,op(T,Op),Ops),
|
|
member(T:Op, Ops),
|
|
output_find_op(Op, T, L),
|
|
fail.
|
|
output_find_clause(_).
|
|
|
|
output_find_op(Op, T, L) :-
|
|
opinfo(Op, Actions),
|
|
dump_op(L,Op),
|
|
dump_actions(Actions, Op, T, L).
|
|
|
|
dump_actions([], _, T, L) :-
|
|
format(L,' cl = NEXTOP(cl,~s);~n',[T]),
|
|
format(L,' break;~n',[]).
|
|
dump_actions([A|Actions], Op, T, L) :-
|
|
dump_action(A, Op, T, L),
|
|
dump_actions(Actions, Op, T, L).
|
|
|
|
% conditional jumps can
|
|
dump_action(body, _, _, _).
|
|
dump_action(ifthenelse, _, T, L) :-
|
|
format(L,' if (cl->y_u.~s.F != FAILCODE) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T]).
|
|
dump_action(bind(Who,What,Extra), _, T, L) :-
|
|
integer(Who), !,
|
|
handle_bind_extra(Extra, T, Command),
|
|
handle_constant(What, T, Constant),
|
|
check_atom_dbref(What, Constant, ExtraAction),
|
|
format(L,' if (is_regcopy(myregs, nofregs, Yap_regnotoreg(~d))) {
|
|
~sclause->Tag = ~s;~s
|
|
return;
|
|
}~n', [Who, ExtraAction, Constant, Command]).
|
|
dump_action(bind(Who,What,Extra), _, T, L) :-
|
|
handle_bind_extra(Extra, T, Command),
|
|
handle_constant(What, T, Constant),
|
|
check_atom_dbref(What, Constant, ExtraAction),
|
|
format(L,' if (is_regcopy(myregs, nofregs, cl->y_u.~s.~s)) {
|
|
~sclause->Tag = ~s;~s
|
|
return;
|
|
}~n', [T, Who, ExtraAction, Constant, Command]).
|
|
dump_action(new(Who), _, T, L) :-
|
|
format(L,' if (!(nofregs = delete_regcopy(myregs, nofregs, cl->y_u.~s.~s))) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who]).
|
|
dump_action(dup(Who1,Who2), _, T, L) :-
|
|
format(L,' if (!(nofregs = add_regcopy(myregs, nofregs, cl->y_u.~s.~s, cl->y_u.~s.~s))) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who1,T,Who2]).
|
|
dump_action(unify(Who1,Who2), _, T, L) :-
|
|
format(L,' if (!(nofregs = link_regcopies(myregs, nofregs, cl->y_u.~s.~s, cl->y_u.~s.~s))) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who1,T,Who2]).
|
|
dump_action(logical, _, _, L) :-
|
|
format(L,' if (regno == 2) {
|
|
LogUpdClause *lcl = ClauseCodeToLogUpdClause(cl);
|
|
Term t = lcl->lusl.ClSource->Entry;
|
|
if (!(lcl->ClFlags & FactMask)) {
|
|
if (IsVarTerm(t)) {
|
|
clause->Tag = (CELL)NULL;
|
|
} else if (IsApplTerm(t)) {
|
|
CELL *pt = RepAppl(t);
|
|
|
|
clause->Tag = AbsAppl((CELL *)pt[0]);
|
|
clause->ucd.c_sreg = pt;
|
|
} else if (IsPairTerm(t)) {
|
|
CELL *pt = RepPair(t);
|
|
|
|
clause->Tag = AbsPair(NULL);
|
|
clause->ucd.c_sreg = pt-1;
|
|
} else {
|
|
clause->Tag = t;
|
|
}
|
|
}
|
|
} else {
|
|
clause->Tag = (CELL)NULL;
|
|
}
|
|
return;~n', []).
|
|
|
|
|
|
%
|
|
% atoms may actually be dbrefs :(
|
|
check_atom_dbref(Constant, What, ExtraAction) :-
|
|
Constant = [0'c|_], !, %0'c
|
|
format_to_chars("if (IsApplTerm(~s)) {
|
|
CELL *pt = RepAppl(~s);
|
|
clause->Tag = AbsAppl((CELL *)pt[0]);
|
|
clause->ucd.t_ptr = ~s;
|
|
} else
|
|
",[What,What,What], ExtraAction).
|
|
check_atom_dbref(_, _, "").
|
|
|
|
handle_bind_extra([], _, "").
|
|
handle_bind_extra(t_ptr=[], _,S) :- !,
|
|
format_to_chars("~n clause->ucd.t_ptr = (CELL)NULL;",[],S).
|
|
handle_bind_extra(t_ptr=F, Type, S) :-
|
|
format_to_chars("~n clause->ucd.t_ptr = AbsAppl(cl->y_u.~s.~s);",[Type,F],S).
|
|
handle_bind_extra(workpc=nextop, T,S) :-
|
|
format_to_chars("~n clause->ucd.WorkPC = NEXTOP(cl,~s);",[T],S).
|
|
handle_bind_extra(workpc=currentop, _,S) :-
|
|
format_to_chars("~n clause->ucd.WorkPC = cl;",[],S).
|
|
|
|
handle_constant(What, T, Const) :-
|
|
What = [C|_],
|
|
(
|
|
C == 0'A % 0'Abs
|
|
->
|
|
Const = What
|
|
;
|
|
C == 0'( % 0'(
|
|
->
|
|
Const = What
|
|
;
|
|
format_to_chars("cl->y_u.~s.~s",[T,What],Const)
|
|
).
|
|
|
|
%
|
|
% find head, works much faster by not looking inside
|
|
% tries to find out what an instruction touches in the body
|
|
% of a clause
|
|
%
|
|
|
|
output_head_clause(L) :-
|
|
setof(T:Op,op(T,Op),Ops),
|
|
member(T:Op, Ops),
|
|
output_head_op(Op, T, L),
|
|
fail.
|
|
output_head_clause(_).
|
|
|
|
output_head_op(Op, T, L) :-
|
|
opinfo(Op, Actions),
|
|
\+ member(body, Actions),
|
|
dump_op(L,Op),
|
|
dump_head_actions(Actions, Op, T, L).
|
|
|
|
dump_head_actions([], _, T, L) :-
|
|
format(L,' cl = NEXTOP(cl,~s);~n',[T]),
|
|
format(L,' break;~n',[]).
|
|
dump_head_actions([A|Actions], Op, T, L) :-
|
|
dump_head_action(A, Op, T, L),
|
|
dump_head_actions(Actions, Op, T, L).
|
|
|
|
% only simple stuff
|
|
dump_head_action(bind(Who,_,_), _, _, _) :- Who = [0'y|_], !. % 0'y
|
|
dump_head_action(bind(Who,What,Extra), _, T, L) :-
|
|
integer(Who), !,
|
|
handle_bind_extra(Extra, T, Command),
|
|
handle_constant(What, T, Constant),
|
|
check_atom_dbref(What, Constant, ExtraAction),
|
|
format(L,' if (iarg == Yap_regnotoreg(~d)) {
|
|
~sclause->Tag = ~s;~s
|
|
return;
|
|
}~n', [Who,ExtraAction,Constant,Command]).
|
|
dump_head_action(bind(Who,What,Extra), _, T, L) :-
|
|
handle_constant(What, T, Constant),
|
|
handle_bind_extra(Extra, T, Command),
|
|
check_atom_dbref(What, Constant, ExtraAction),
|
|
format(L,' if (iarg == cl->y_u.~s.~s) {
|
|
~sclause->Tag = ~s;~s
|
|
return;
|
|
}~n', [T,Who,ExtraAction,Constant,Command]).
|
|
dump_head_action(new(Who), _, _, _) :- Who = [0'y|_], !. % 0'y done
|
|
dump_head_action(new(Who), _, T, L) :-
|
|
format(L,' if (iarg == cl->y_u.~s.~s) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who]).
|
|
dump_head_action(dup(Who1,Who2), _, T, L) :- Who1 = [0'y|_], !, % 0'y done
|
|
format(L,' if (cl->y_u.~s.~s == iarg) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who2]).
|
|
dump_head_action(dup(Who1,Who2), _, T, L) :- Who2 = [0'y|_], !, % 0'y done
|
|
format(L,' if (cl->y_u.~s.~s == iarg) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who1]).
|
|
dump_head_action(dup(Who1,Who2), _, T, L) :-
|
|
format(L,' if (cl->y_u.~s.~s == iarg ||
|
|
cl->y_u.~s.~s == iarg) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who1,T,Who2]).
|
|
dump_head_action(unify(Who1,Who2), _, T, L) :- Who1 = [0'y|_], !, % 0'y done
|
|
format(L,' if (cl->y_u.~s.~s == iarg) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who2]).
|
|
dump_head_action(unify(Who1,Who2), _, T, L) :- Who2 = [0'y|_], !, % 0'y done
|
|
format(L,' if (cl->y_u.~s.~s == iarg) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who1]).
|
|
dump_head_action(unify(Who1,Who2), _, T, L) :-
|
|
format(L,' if (cl->y_u.~s.~s == iarg ||
|
|
cl->y_u.~s.~s == iarg) {
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}~n', [T,Who1,T,Who2]).
|
|
dump_head_action(logical, _, _, L) :-
|
|
format(L,' if (regno != 2) {
|
|
clause->Tag = (CELL)NULL;
|
|
} else {
|
|
LogUpdClause *lcl = ClauseCodeToLogUpdClause(cl);
|
|
Term t = lcl->lusl.ClSource->Entry;
|
|
|
|
if (!(lcl->ClFlags & FactMask)) {
|
|
if (IsVarTerm(t)) {
|
|
clause->Tag = (CELL)NULL;
|
|
} else if (IsApplTerm(t)) {
|
|
CELL *pt = RepAppl(t);
|
|
|
|
clause->Tag = AbsAppl((CELL *)pt[0]);
|
|
if (IsExtensionFunctor(FunctorOfTerm(t))) {
|
|
clause->ucd.t_ptr = t;
|
|
} else {
|
|
clause->ucd.c_sreg = pt;
|
|
}
|
|
} else if (IsPairTerm(t)) {
|
|
CELL *pt = RepPair(t);
|
|
|
|
clause->Tag = AbsPair(NULL);
|
|
clause->ucd.c_sreg = pt-1;
|
|
} else {
|
|
clause->Tag = t;
|
|
}
|
|
}
|
|
}
|
|
return;~n', []).
|
|
|
|
/* or_last requires special handling */
|
|
footer(W) :-
|
|
format(W,' /* this instruction is hardwired */~n',[]),
|
|
format(W,' /* or_last must be the last instruction. */~n',[]),
|
|
format(W,'#ifdef YAPOR~n',[]),
|
|
format(W,' OPCODE(~s~36+,~s),~n',["or_last","sblp"]),
|
|
format(W,'#else~n',[]),
|
|
format(W,' OPCODE(~s~36+,~s),~n',["or_last","p"]),
|
|
format(W,'#endif~n',[]).
|
|
|
|
|
|
footer_rclause(W) :-
|
|
format(W,' /* this instruction is hardwired */~n',[]),
|
|
dump_ops(W,["or_last"]),
|
|
format(W,'#ifdef YAPOR~n',[]),
|
|
output_typeinfo(W,"Osblp"),
|
|
format(W,'#else~n',[]),
|
|
output_typeinfo(W,"p"),
|
|
format(W,'#endif~n',[]),
|
|
format(W,' }
|
|
} while (TRUE);
|
|
}
|
|
',[]).
|
|
|
|
footer_walk_clause(W) :-
|
|
format(W,' /* this instruction is hardwired */~n',[]),
|
|
dump_ops(W,["or_last"]),
|
|
format(W,'#ifdef YAPOR~n',[]),
|
|
add_pp(W,"Osblp","p0"),
|
|
format(W,'#else~n',[]),
|
|
add_pp(W,"p","p"),
|
|
format(W,'#endif~n',[]),
|
|
format(W,' }
|
|
}
|
|
',[]).
|
|
|
|
footer_find_clause(W) :-
|
|
format(W,'default:
|
|
clause->Tag = (CELL)NULL;
|
|
return;
|
|
}
|
|
}~n',[]).
|
|
|
|
footer_save_clause(S) :-
|
|
format(S,'default:
|
|
return -1;
|
|
}
|
|
}~n',[]).
|
|
|
|
get_field_names(F) :-
|
|
open(F, read, A),
|
|
loop_for_fields(A),
|
|
close(A).
|
|
|
|
loop_for_fields(A) :-
|
|
read_line_to_codes(A,"typedef struct yami {"), !,
|
|
loop_for_fields_go(A).
|
|
loop_for_fields(A) :-
|
|
loop_for_fields(A).
|
|
|
|
loop_for_fields_go(A) :-
|
|
read_line_to_codes(A,_),
|
|
read_line_to_codes(A,_),
|
|
read_field_by_field(A).
|
|
|
|
read_field_by_field(A) :-
|
|
read_line_to_codes(A,L),
|
|
split(L," ",Statement),
|
|
read_field_by_field(A,Statement).
|
|
|
|
read_field_by_field(_,["}","y_u;"]) :- !.
|
|
read_field_by_field(A,["struct","{"]) :- !,
|
|
read_fields(A,Fields,Type),
|
|
assert(tinfo(Type,Fields)),
|
|
read_field_by_field(A).
|
|
read_field_by_field(A,_) :-
|
|
read_field_by_field(A).
|
|
|
|
read_fields(A,Fields,Type) :-
|
|
read_line_to_codes(A,L),
|
|
split(L," ;*[",Statements0),
|
|
clean_statements(Statements0, Statements),
|
|
( Statements = ["}",Type]
|
|
->
|
|
Fields = []
|
|
;
|
|
Statements = ["CELL","next"]
|
|
->
|
|
read_fields(A,Fields,Type)
|
|
;
|
|
Statements = ["/"|_]
|
|
->
|
|
read_fields(A,Fields,Type)
|
|
;
|
|
Statements = ["#ifdef",If]
|
|
->
|
|
retract(qual(_)),
|
|
assert(qual(If)),
|
|
read_fields(A,Fields,Type)
|
|
;
|
|
Statements = ["#if",If]
|
|
->
|
|
retract(qual(_)),
|
|
assert(qual(If)),
|
|
read_fields(A,Fields,Type)
|
|
;
|
|
Statements = ["#endif"|_]
|
|
->
|
|
retract(qual(_)),
|
|
assert(qual("none")),
|
|
read_fields(A,Fields,Type)
|
|
;
|
|
Statements = [_,F|_],
|
|
qual(Qual),
|
|
Fields = [F-Qual|More],
|
|
read_fields(A,More,Type)
|
|
).
|
|
|
|
|
|
|
|
clean_statements(["struct"|Statements0], StatementsF) :- !,
|
|
clean_statements(Statements0, StatementsF).
|
|
clean_statements(["unsigned"|Statements0], StatementsF) :- !,
|
|
clean_statements(Statements0, StatementsF).
|
|
clean_statements(Statements, Statements).
|
|
|
|
%
|
|
% Notice that order matters: for example ifthenelse should be tested before a bind
|
|
%
|
|
opinfo("p_number_x",[body,ifthenelse,bind("x","(_number+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_number_y",[body,ifthenelse,bind("y","(_number+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_atomic_x",[body,ifthenelse,bind("x","(_atomic+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_atomic_y",[body,ifthenelse,bind("y","(_atomic+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_primitive_x",[body,ifthenelse,bind("x","(_primitive+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_primitive_y",[body,ifthenelse,bind("y","(_primitive+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_compound_x",[body,ifthenelse,bind("x","(_compound+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_compound_y",[body,ifthenelse,bind("y","(_compound+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_atom_x",[body,ifthenelse,bind("x","(_atom+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_atom_y",[body,ifthenelse,bind("y","(_atom+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_integer_x",[body,ifthenelse,bind("x","(_integer+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_integer_y",[body,ifthenelse,bind("y","(_integer+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_float_x",[body,ifthenelse,bind("x","AbsAppl((CELL *)FunctorDouble)",t_ptr=[])]).
|
|
opinfo("p_float_y",[body,ifthenelse,bind("y","AbsAppl((CELL *)FunctorDouble)",t_ptr=[])]).
|
|
opinfo("p_db_ref_x",[body,ifthenelse,bind("x","AbsAppl((CELL *)FunctorDBRef)",t_ptr=[])]).
|
|
opinfo("p_db_ref_y",[body,ifthenelse,bind("y","AbsAppl((CELL *)FunctorDBRef)",t_ptr=[])]).
|
|
opinfo("p_var_x",[body,ifthenelse,bind("x","(_var+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_var_y",[body,ifthenelse,bind("y","(_var+1)*sizeof(CELL)",t_ptr=[])]).
|
|
opinfo("p_nonvar_x",[body,ifthenelse]).
|
|
opinfo("p_nonvar_y",[body,ifthenelse]).
|
|
opinfo("save_b_x",[body,new("x")]).
|
|
opinfo("save_b_y",[body,new("y")]).
|
|
opinfo("ensure_space",[]).
|
|
opinfo("lock_lu",[body]).
|
|
opinfo("unlock_lu",[]).
|
|
opinfo("write_x_loc",[body]).
|
|
opinfo("write_x_var",[body,new("x")]).
|
|
opinfo("write_y_var",[body,new("y")]).
|
|
opinfo("write_y_val",[body]).
|
|
opinfo("write_y_loc",[body]).
|
|
opinfo("get_x_var",[dup("xr","xl")]).
|
|
opinfo("get_y_var",[dup("x","y")]).
|
|
opinfo("get_yy_var",[dup("x1","y1"),dup("x2","y2")]).
|
|
opinfo("put_x_var",[new("xl"),new("xr")]).
|
|
opinfo("put_y_var",[new("x"),new("y")]).
|
|
opinfo("get_x_val",[unify("xl","xr")]).
|
|
opinfo("get_y_val",[unify("x","y")]).
|
|
opinfo("put_x_val",[dup("xl","xr")]).
|
|
opinfo("put_y_val",[dup("y","x")]).
|
|
opinfo("put_unsafe",[dup("y","x")]).
|
|
opinfo("put_xx_val",[dup("xl1","xr1"),dup("xl2","xr2")]).
|
|
opinfo("glist_valx",[bind("xl","AbsPair(NULL)",workpc=currentop)]).
|
|
opinfo("get_atom",[bind("x","c",[])]).
|
|
opinfo("get_list",[bind("x","AbsPair(NULL)",workpc=nextop)]).
|
|
opinfo("glist_valy",[bind("x","AbsPair(NULL)",workpc=currentop)]).
|
|
opinfo("gl_void_valx",[bind("xl","AbsPair(NULL)",workpc=currentop)]).
|
|
opinfo("gl_void_valy",[bind("y","AbsPair(NULL)",workpc=currentop)]).
|
|
opinfo("gl_void_varx",[bind("xl","AbsPair(NULL)",workpc=currentop),new("xr")]).
|
|
opinfo("gl_void_vary",[bind("y","AbsPair(NULL)",workpc=currentop),new("y")]).
|
|
opinfo("get_struct",[bind("x","AbsAppl((CELL *)cl->y_u.xfa.f)",workpc=nextop)]).
|
|
opinfo("get_float",[bind("x","AbsAppl((CELL *)FunctorDouble)",t_ptr="d")]).
|
|
opinfo("get_longint",[bind("x","AbsAppl((CELL *)FunctorLongInt)",t_ptr="i")]).
|
|
opinfo("get_string",[bind("x","AbsAppl((CELL *)FunctorString)",t_ptr=[])]).
|
|
opinfo("get_bigint",[bind("x","AbsAppl((CELL *)FunctorBigInt)",t_ptr=[])]).
|
|
opinfo("copy_idb_term",[logical]).
|
|
opinfo("unify_idb_term",[logical]).
|
|
opinfo("put_atom",[new("x")]).
|
|
opinfo("put_dbterm",[new("x")]).
|
|
opinfo("put_bigint",[new("x")]).
|
|
opinfo("put_float",[new("x")]).
|
|
opinfo("put_longint",[new("x")]).
|
|
opinfo("put_string",[new("x")]).
|
|
opinfo("put_list",[new("x")]).
|
|
opinfo("put_struct",[new("x")]).
|
|
opinfo("get_2atoms",[bind(1,"c1",[]),
|
|
bind(2,"c2",[])]).
|
|
opinfo("get_3atoms",[bind(1,"c1",[]),
|
|
bind(2,"c2",[]),
|
|
bind(3,"c3",[])]).
|
|
opinfo("get_4atoms",[bind(1,"c1",[]),
|
|
bind(2,"c2",[]),
|
|
bind(3,"c3",[]),
|
|
bind(4,"c4",[])]).
|
|
opinfo("get_5atoms",[bind(1,"c1",[]),
|
|
bind(2,"c2",[]),
|
|
bind(3,"c3",[]),
|
|
bind(4,"c4",[]),
|
|
bind(5,"c5",[])]).
|
|
opinfo("get_6atoms",[bind(1,"c1",[]),
|
|
bind(2,"c2",[]),
|
|
bind(3,"c3",[]),
|
|
bind(4,"c4",[]),
|
|
bind(5,"c5",[]),
|
|
bind(6,"c6",[])]).
|
|
opinfo("unify_x_var",[new("x")]).
|
|
opinfo("unify_x_var_write",[new("x")]).
|
|
opinfo("unify_l_x_var",[new("x")]).
|
|
opinfo("unify_l_x_var_write",[new("x")]).
|
|
opinfo("unify_y_var",[new("y")]).
|
|
opinfo("unify_y_var_write",[new("y")]).
|
|
opinfo("unify_l_y_var",[new("y")]).
|
|
opinfo("unify_l_y_var_write",[new("y")]).
|
|
opinfo("save_pair_x_write",[new("x")]).
|
|
opinfo("save_pair_x",[new("x")]).
|
|
opinfo("save_appl_x_write",[new("x")]).
|
|
opinfo("save_appl_x",[new("x")]).
|
|
opinfo("save_pair_y_write",[new("y")]).
|
|
opinfo("save_pair_y",[new("y")]).
|
|
opinfo("save_appl_y_write",[new("y")]).
|
|
opinfo("save_appl_y",[new("y")]).
|
|
opinfo("unify_x_var2",[new("xl"),new("xr")]).
|
|
opinfo("unify_x_var2_write",[new("xl"),new("xr")]).
|
|
opinfo("unify_l_x_var2",[new("xl"),new("xr")]).
|
|
opinfo("unify_l_x_var2_write",[new("xl"),new("xr")]).
|
|
opinfo("p_plus_vv",[body,new("x")]).
|
|
opinfo("p_plus_vc",[body,new("x")]).
|
|
opinfo("p_minus_vv",[body,new("x")]).
|
|
opinfo("p_minus_vc",[body,new("x")]).
|
|
opinfo("p_times_vv",[body,new("x")]).
|
|
opinfo("p_times_vc",[body,new("x")]).
|
|
opinfo("p_div_vv",[body,new("x")]).
|
|
opinfo("p_div_vc",[body,new("x")]).
|
|
opinfo("p_div_cv",[body,new("x")]).
|
|
opinfo("p_and_vv",[body,new("x")]).
|
|
opinfo("p_and_vc",[body,new("x")]).
|
|
opinfo("p_or_vv",[body,new("x")]).
|
|
opinfo("p_or_vc",[body,new("x")]).
|
|
opinfo("p_sll_vv",[body,new("x")]).
|
|
opinfo("p_sll_vc",[body,new("x")]).
|
|
opinfo("p_sll_cv",[body,new("x")]).
|
|
opinfo("p_slr_vv",[body,new("x")]).
|
|
opinfo("p_slr_vc",[body,new("x")]).
|
|
opinfo("p_slr_cv",[body,new("x")]).
|
|
opinfo("p_arg_vv",[body,new("x")]).
|
|
opinfo("p_arg_cv",[body,new("x")]).
|
|
opinfo("p_func2s_vv",[body,new("x")]).
|
|
opinfo("p_func2s_vc",[body,new("x")]).
|
|
opinfo("p_func2s_cv",[body,new("x")]).
|
|
opinfo("p_func2f_vv",[body,new("x")]).
|
|
opinfo("p_func2f_xx",[body,new("x")]).
|
|
opinfo("p_func2f_xy",[body,new("x")]).
|
|
opinfo("p_plus_y_vv",[body,new("y")]).
|
|
opinfo("p_plus_y_vc",[body,new("y")]).
|
|
opinfo("p_minus_y_vv",[body,new("y")]).
|
|
opinfo("p_minus_y_vc",[body,new("y")]).
|
|
opinfo("p_times_y_vv",[body,new("y")]).
|
|
opinfo("p_times_y_vc",[body,new("y")]).
|
|
opinfo("p_div_y_vv",[body,new("y")]).
|
|
opinfo("p_div_y_vc",[body,new("y")]).
|
|
opinfo("p_div_y_cv",[body,new("y")]).
|
|
opinfo("p_and_y_vv",[body,new("y")]).
|
|
opinfo("p_and_y_vc",[body,new("y")]).
|
|
opinfo("p_or_y_vv",[body,new("y")]).
|
|
opinfo("p_or_y_vc",[body,new("y")]).
|
|
opinfo("p_sll_y_vv",[body,new("y")]).
|
|
opinfo("p_sll_y_vc",[body,new("y")]).
|
|
opinfo("p_sll_y_cv",[body,new("y")]).
|
|
opinfo("p_slr_y_vv",[body,new("y")]).
|
|
opinfo("p_slr_y_vc",[body,new("y")]).
|
|
opinfo("p_slr_y_cv",[body,new("y")]).
|
|
opinfo("p_arg_y_vv",[body,new("y")]).
|
|
opinfo("p_arg_y_cv",[body,new("y")]).
|
|
opinfo("p_func2s_y_vv",[body,new("y")]).
|
|
opinfo("p_func2s_y_vc",[body,new("y")]).
|
|
opinfo("p_func2s_y_cv",[body,new("y")]).
|
|
opinfo("p_func2f_yx",[body,new("y")]).
|
|
opinfo("p_func2f_yy",[body,new("x")]).
|
|
opinfo("put_fi_var_x",[body,new("x")]).
|
|
opinfo("put_i_var_x",[body,new("x")]).
|
|
opinfo("put_f_var_x",[body,new("x")]).
|
|
opinfo("put_fi_var_y",[body,new("y")]).
|
|
opinfo("put_i_var_y",[body,new("y")]).
|
|
opinfo("put_f_var_y",[body,new("y")]).
|
|
opinfo("allocate",[body]).
|
|
opinfo("write_void",[body]).
|
|
opinfo("write_list",[body]).
|
|
opinfo("write_l_list",[body]).
|
|
opinfo("enter_a_profiling",[body]).
|
|
opinfo("count_a_call",[body]).
|
|
opinfo("unify_x_val_write",[]).
|
|
opinfo("unify_x_val",[]).
|
|
opinfo("unify_l_x_val_write",[]).
|
|
opinfo("unify_l_x_val",[]).
|
|
opinfo("unify_x_loc_write",[]).
|
|
opinfo("unify_x_loc",[]).
|
|
opinfo("unify_l_x_loc_write",[]).
|
|
opinfo("unify_l_x_loc",[]).
|
|
opinfo("unify_y_val_write",[]).
|
|
opinfo("unify_y_val",[]).
|
|
opinfo("unify_l_y_val_write",[]).
|
|
opinfo("unify_l_y_val",[]).
|
|
opinfo("unify_y_loc_write",[]).
|
|
opinfo("unify_y_loc",[]).
|
|
opinfo("unify_l_y_loc_write",[]).
|
|
opinfo("unify_l_y_loc",[]).
|
|
opinfo("unify_void",[]).
|
|
opinfo("unify_void_write",[]).
|
|
opinfo("unify_l_void",[]).
|
|
opinfo("unify_l_void_write",[]).
|
|
opinfo("unify_n_voids",[]).
|
|
opinfo("unify_n_voids_write",[]).
|
|
opinfo("unify_l_n_voids",[]).
|
|
opinfo("unify_l_n_voids_write",[]).
|
|
opinfo("write_n_voids",[body]).
|
|
opinfo("unify_list",[]).
|
|
opinfo("unify_list_write",[]).
|
|
opinfo("unify_l_list",[]).
|
|
opinfo("unify_l_list_write",[]).
|
|
opinfo("unify_atom",[]).
|
|
opinfo("unify_atom_write",[]).
|
|
opinfo("unify_l_atom",[]).
|
|
opinfo("unify_l_atom_write",[]).
|
|
opinfo("write_atom",[body]).
|
|
opinfo("unify_n_atoms",[]).
|
|
opinfo("unify_n_atoms_write",[]).
|
|
opinfo("unify_l_n_atoms",[]).
|
|
opinfo("unify_l_n_atoms_write",[]).
|
|
opinfo("write_n_atoms",[body]).
|
|
opinfo("unify_struct",[]).
|
|
opinfo("unify_struct_write",[]).
|
|
opinfo("unify_l_struc",[]).
|
|
opinfo("unify_l_struc_write",[]).
|
|
opinfo("write_struc",[body]).
|
|
opinfo("write_l_struc",[body]).
|
|
opinfo("unify_float",[]).
|
|
opinfo("unify_float_write",[]).
|
|
opinfo("unify_l_float",[]).
|
|
opinfo("unify_l_float_write",[]).
|
|
opinfo("write_float",[body]).
|
|
opinfo("unify_longint",[]).
|
|
opinfo("unify_longint_write",[]).
|
|
opinfo("unify_l_longint",[]).
|
|
opinfo("unify_l_longint_write",[]).
|
|
opinfo("write_longint",[body]).
|
|
opinfo("unify_bigint",[]).
|
|
opinfo("unify_bigint_write",[]).
|
|
opinfo("unify_l_bigint",[]).
|
|
opinfo("unify_l_bigint_write",[]).
|
|
opinfo("write_bigint",[body]).
|
|
opinfo("unify_string",[]).
|
|
opinfo("unify_string_write",[]).
|
|
opinfo("unify_l_string",[]).
|
|
opinfo("unify_l_string_write",[]).
|
|
opinfo("write_string",[body]).
|
|
opinfo("unify_dbterm",[]).
|
|
opinfo("unify_dbterm_write",[]).
|
|
opinfo("unify_l_dbterm",[]).
|
|
opinfo("unify_l_dbterm_write",[]).
|
|
opinfo("write_dbterm",[body]).
|
|
opinfo("pop",[]).
|
|
opinfo("pop_n",[]).
|
|
opinfo("eqc_float",[body]).
|
|
opinfo("ltc_float",[body]).
|
|
opinfo("gtc_float",[body]).
|
|
opinfo("eqc_int",[body]).
|
|
opinfo("ltc_int",[body]).
|
|
opinfo("gtc_int",[body]).
|
|
opinfo("a_eq",[body]).
|
|
opinfo("lt",[body]).
|
|
opinfo("add_float_c",[body]).
|
|
opinfo("sub_float_c",[body]).
|
|
opinfo("mul_float_c",[body]).
|
|
opinfo("fdiv_c1",[body]).
|
|
opinfo("fdiv_c2",[body]).
|
|
opinfo("add_int_c",[body]).
|
|
opinfo("sub_int_c",[body]).
|
|
opinfo("mul_int_c",[body]).
|
|
opinfo("idiv_c1",[body]).
|
|
opinfo("idiv_c2",[body]).
|
|
opinfo("mod_c1",[body]).
|
|
opinfo("mod_c2",[body]).
|
|
opinfo("rem_c1",[body]).
|
|
opinfo("rem_c2",[body]).
|
|
opinfo("a_or_c",[body]).
|
|
opinfo("a_and_c",[body]).
|
|
opinfo("xopr_c",[body]).
|
|
opinfo("sl_c1",[body]).
|
|
opinfo("sl_c2",[body]).
|
|
opinfo("sr_c1",[body]).
|
|
opinfo("sr_c2",[body]).
|
|
opinfo("add",[body]).
|
|
opinfo("sub",[body]).
|
|
opinfo("mul",[body]).
|
|
opinfo("fdiv",[body]).
|
|
opinfo("idiv",[body]).
|
|
opinfo("mod",[body]).
|
|
opinfo("rem",[body]).
|
|
opinfo("a_or",[body]).
|
|
opinfo("a_and",[body]).
|
|
opinfo("xor",[body]).
|
|
opinfo("uminus",[body]).
|
|
opinfo("sl",[body]).
|
|
opinfo("sr",[body]).
|
|
opinfo("get_fi_x",[body]).
|
|
opinfo("get_i_x",[body]).
|
|
opinfo("get_f_x",[body]).
|
|
opinfo("get_fi_y",[body]).
|
|
opinfo("get_i_y",[body]).
|
|
opinfo("get_f_y",[body]).
|
|
opinfo("put_fi_val_x",[body]).
|
|
opinfo("put_f_val_x",[body]).
|
|
opinfo("put_i_val_x",[body]).
|
|
opinfo("put_fi_val_y",[body]).
|
|
opinfo("put_f_val_y",[body]).
|
|
opinfo("put_i_val_y",[body]).
|
|
opinfo("call_bfunc_xx",[body]).
|
|
opinfo("call_bfunc_yx",[body]).
|
|
opinfo("call_bfunc_xy",[body]).
|
|
opinfo("call_bfunc_yy",[body]).
|
|
opinfo("run_eam",[body]).
|
|
opinfo("retry_eam",[body]).
|
|
opinfo("alloc_for_logical_pred",[body]).
|
|
opinfo("deallocate",[body]).
|
|
opinfo("table_try_single",[]).
|
|
opinfo("jit_handler",[]).
|
|
|
|
output_save_clause(S) :-
|
|
setof(T,O^op(T,O),Types),
|
|
member(T, Types),
|
|
output_save_type(S, T),
|
|
fail.
|
|
output_save_clause(_).
|
|
|
|
output_save_type(S, T) :-
|
|
%(T=="e" -> start_low_level_trace; true),
|
|
format(S,' /* instructions type ~s */~n',[T]),
|
|
setof(Op,op(T,Op),Ops),
|
|
dump_ops(S,Ops),
|
|
% then the code for every instruction with this header.
|
|
tinfo(T, Desc),
|
|
output_save(S, T, Desc, T),
|
|
(T=="e" -> stop_low_level_trace; true),
|
|
format(S,' pc = NEXTOP(pc,~s);~n',[T]),
|
|
format(S,' break;~n',[]).
|
|
|
|
output_save(S, "e", [], _) :-
|
|
format(S, " if (op == _Nstop || op == _copy_idb_term || op == _unify_idb_term) return 1;~n", []).
|
|
output_save(_, [], [], _).
|
|
output_save(S, [Name|Names], [Type|Types], Desc) :-
|
|
output_save_type(S, Name, Type, Desc),
|
|
output_save(S, Names, Types, Desc).
|
|
|
|
output_save_type(S, OpT, T-"none", Desc) :- !,
|
|
get_op(OpT, Name),
|
|
format(S, " CHECK(save_~s(stream, pc->y_u.~s.~s));~n", [Name, Desc, T]).
|
|
output_save_type(S, OpT, T-Def, Desc) :-
|
|
get_op(OpT, Name),
|
|
format(S, "#ifdef ~s~n CHECK(save_~s(stream, pc->y_u.~s.~s));~n#endif~n", [Def,Name, Desc, T]).
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|