{ $Id$ Copyright (c) 1998-2000 by Florian Klaempfl Does the parsing of the statements This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. **************************************************************************** } unit pstatmnt; {$i defines.inc} interface uses tokens,node; function statement_block(starttoken : ttoken) : tnode; { reads an assembler block } function assembler_block : tnode; implementation uses { common } cutils, { global } globtype,globals,verbose, systems,cpuinfo, { aasm } cpubase,aasm, { symtable } symconst,symbase,symtype,symdef,symsym,symtable,types, { pass 1 } pass_1,htypechk, nbas,nmat,nadd,ncal,nmem,nset,ncnv,ninl,ncon,nld,nflw, { parser } scanner, pbase,pexpr, { codegen } tgcpu,hcodegen {$ifdef i386} {$ifndef NoRa386Int} ,ra386int {$endif NoRa386Int} {$ifndef NoRa386Att} ,ra386att {$endif NoRa386Att} {$ifndef NoRa386Dir} ,ra386dir {$endif NoRa386Dir} {$endif i386} {$ifdef m68k} {$ifndef NoRa68kMot} ,ra68kmot {$endif NoRa68kMot} {$endif m68k} { codegen } {$ifdef newcg} ,cgbase {$endif newcg} ; function statement : tnode;forward; function if_statement : tnode; var ex,if_a,else_a : tnode; begin consume(_IF); ex:=comp_expr(true); consume(_THEN); if token<>_ELSE then if_a:=statement else if_a:=nil; if try_to_consume(_ELSE) then else_a:=statement else else_a:=nil; if_statement:=genloopnode(ifn,ex,if_a,else_a,false); end; { creates a block (list) of statements, til the next END token } function statements_til_end : tnode; var first,last : tstatementnode; begin first:=nil; while token<>_END do begin if first=nil then begin last:=cstatementnode.create(nil,statement); first:=last; end else begin last.left:=cstatementnode.create(nil,statement); last:=tstatementnode(last.left); end; if not try_to_consume(_SEMICOLON) then break; consume_emptystats; end; consume(_END); statements_til_end:=cblocknode.create(first); end; function case_statement : tnode; var { contains the label number of currently parsed case block } aktcaselabel : tasmlabel; firstlabel : boolean; root : pcaserecord; { the typ of the case expression } casedef : tdef; procedure newcaselabel(l,h : TConstExprInt;first:boolean); var hcaselabel : pcaserecord; procedure insertlabel(var p : pcaserecord); begin if p=nil then p:=hcaselabel else if (p^._low>hcaselabel^._low) and (p^._low>hcaselabel^._high) then if (hcaselabel^.statement = p^.statement) and (p^._low = hcaselabel^._high + 1) then begin p^._low := hcaselabel^._low; dispose(hcaselabel); end else insertlabel(p^.less) else if (p^._highhl2 then CGMessage(parser_e_case_lower_less_than_upper_bound); if not casedeferror then begin testrange(casedef,hl1,false); testrange(casedef,hl2,false); end; end else CGMessage(parser_e_case_mismatch); newcaselabel(hl1,hl2,firstlabel); end else begin { type checking for case statements } if not is_subequal(casedef, p.resulttype.def) then CGMessage(parser_e_case_mismatch); hl1:=get_ordinal_value(p); if not casedeferror then testrange(casedef,hl1,false); newcaselabel(hl1,hl1,firstlabel); end; p.free; if token=_COMMA then consume(_COMMA) else break; firstlabel:=false; until false; consume(_COLON); { handles instruction block } p:=clabelnode.createcase(aktcaselabel,statement); { concats instruction } instruc:=cstatementnode.create(instruc,p); if not((token=_ELSE) or (token=_OTHERWISE) or (token=_END)) then consume(_SEMICOLON); until (token=_ELSE) or (token=_OTHERWISE) or (token=_END); if (token=_ELSE) or (token=_OTHERWISE) then begin if not try_to_consume(_ELSE) then consume(_OTHERWISE); elseblock:=statements_til_end; end else begin elseblock:=nil; consume(_END); end; dec(statement_level); code:=ccasenode.create(caseexpr,instruc,root); tcasenode(code).elseblock:=elseblock; case_statement:=code; end; function repeat_statement : tnode; var first,last,p_e : tnode; begin consume(_REPEAT); first:=nil; inc(statement_level); while token<>_UNTIL do begin if first=nil then begin last:=cstatementnode.create(nil,statement); first:=last; end else begin tstatementnode(last).left:=cstatementnode.create(nil,statement); last:=tstatementnode(last).left; end; if not try_to_consume(_SEMICOLON) then break; consume_emptystats; end; consume(_UNTIL); dec(statement_level); first:=cblocknode.create(first); p_e:=comp_expr(true); repeat_statement:=genloopnode(repeatn,p_e,first,nil,false); end; function while_statement : tnode; var p_e,p_a : tnode; begin consume(_WHILE); p_e:=comp_expr(true); consume(_DO); p_a:=statement; while_statement:=genloopnode(whilen,p_e,p_a,nil,false); end; function for_statement : tnode; var p_e,tovalue,p_a : tnode; backward : boolean; begin { parse loop header } consume(_FOR); p_e:=expr; if token=_DOWNTO then begin consume(_DOWNTO); backward:=true; end else begin consume(_TO); backward:=false; end; tovalue:=comp_expr(true); consume(_DO); { ... now the instruction } p_a:=statement; for_statement:=genloopnode(forn,p_e,tovalue,p_a,backward); end; function _with_statement : tnode; var right,p : tnode; i,levelcount : longint; withsymtable,symtab : tsymtable; obj : tobjectdef; hp : tnode; begin p:=comp_expr(true); do_resulttypepass(p); set_varstate(p,false); right:=nil; if (not codegenerror) and (p.resulttype.def.deftype in [objectdef,recorddef]) then begin case p.resulttype.def.deftype of objectdef : begin obj:=tobjectdef(p.resulttype.def); symtab:=twithsymtable.Create(obj,obj.symtable.symsearch); withsymtable:=symtab; if (p.nodetype=loadn) and (tloadnode(p).symtable=aktprocsym.definition.localst) then twithsymtable(symtab).direct_with:=true; twithsymtable(symtab).withrefnode:=p; levelcount:=1; obj:=obj.childof; while assigned(obj) do begin symtab.next:=twithsymtable.create(obj,obj.symtable.symsearch); symtab:=symtab.next; if (p.nodetype=loadn) and (tloadnode(p).symtable=aktprocsym.definition.localst) then twithsymtable(symtab).direct_with:=true; twithsymtable(symtab).withrefnode:=p; obj:=obj.childof; inc(levelcount); end; symtab.next:=symtablestack; symtablestack:=withsymtable; end; recorddef : begin symtab:=trecorddef(p.resulttype.def).symtable; levelcount:=1; withsymtable:=twithsymtable.create(trecorddef(p.resulttype.def),symtab.symsearch); if (p.nodetype=loadn) and (tloadnode(p).symtable=aktprocsym.definition.localst) then twithsymtable(withsymtable).direct_with:=true; twithsymtable(withsymtable).withrefnode:=p; withsymtable.next:=symtablestack; symtablestack:=withsymtable; end; end; if token=_COMMA then begin consume(_COMMA); right:=_with_statement{$ifdef FPCPROCVAR}(){$endif}; end else begin consume(_DO); if token<>_SEMICOLON then right:=statement else right:=nil; end; for i:=1 to levelcount do symtablestack:=symtablestack.next; _with_statement:=cwithnode.create(twithsymtable(withsymtable),p,right,levelcount); end else begin Message(parser_e_false_with_expr); { try to recover from error } if token=_COMMA then begin consume(_COMMA); hp:=_with_statement{$ifdef FPCPROCVAR}(){$endif}; if (hp=nil) then; { remove warning about unused } end else begin consume(_DO); { ignore all } if token<>_SEMICOLON then statement; end; _with_statement:=nil; end; end; function with_statement : tnode; begin consume(_WITH); with_statement:=_with_statement; end; function raise_statement : tnode; var p,pobj,paddr,pframe : tnode; begin pobj:=nil; paddr:=nil; pframe:=nil; consume(_RAISE); if not(token in [_SEMICOLON,_END]) then begin { object } pobj:=comp_expr(true); if try_to_consume(_AT) then begin paddr:=comp_expr(true); if try_to_consume(_COMMA) then pframe:=comp_expr(true); end; end else begin if (block_type<>bt_except) then Message(parser_e_no_reraise_possible); end; p:=craisenode.create(pobj,paddr,pframe); raise_statement:=p; end; function try_statement : tnode; var p_try_block,p_finally_block,first,last, p_default,p_specific,hp : tnode; ot : ttype; sym : tvarsym; old_block_type : tblock_type; exceptsymtable : tsymtable; objname,objrealname : stringid; srsym : tsym; srsymtable : tsymtable; begin procinfo^.flags:=procinfo^.flags or pi_uses_exceptions; p_default:=nil; p_specific:=nil; { read statements to try } consume(_TRY); first:=nil; inc(aktexceptblock); inc(statement_level); while (token<>_FINALLY) and (token<>_EXCEPT) do begin if first=nil then begin last:=cstatementnode.create(nil,statement); first:=last; end else begin tstatementnode(last).left:=cstatementnode.create(nil,statement); last:=tstatementnode(last).left; end; if not try_to_consume(_SEMICOLON) then break; consume_emptystats; end; p_try_block:=cblocknode.create(first); if try_to_consume(_FINALLY) then begin inc(aktexceptblock); p_finally_block:=statements_til_end; try_statement:=ctryfinallynode.create(p_try_block,p_finally_block); dec(statement_level); end else begin consume(_EXCEPT); old_block_type:=block_type; block_type:=bt_except; inc(aktexceptblock); ot:=generrortype; p_specific:=nil; if (idtoken=_ON) then { catch specific exceptions } begin repeat consume(_ID); if token=_ID then begin objname:=pattern; objrealname:=orgpattern; { can't use consume_sym here, because we need already to check for the colon } searchsym(objname,srsym,srsymtable); consume(_ID); { is a explicit name for the exception given ? } if try_to_consume(_COLON) then begin consume_sym(srsym,srsymtable); if (srsym.typ=typesym) and is_class(ttypesym(srsym).restype.def) then begin ot:=ttypesym(srsym).restype; sym:=tvarsym.create(objrealname,ot); end else begin sym:=tvarsym.create(objrealname,generrortype); if (srsym.typ=typesym) then Message1(type_e_class_type_expected,ttypesym(srsym).restype.def.typename) else Message1(type_e_class_type_expected,ot.def.typename); end; exceptsymtable:=tstt_exceptsymtable.create; exceptsymtable.insert(sym); { insert the exception symtable stack } exceptsymtable.next:=symtablestack; symtablestack:=exceptsymtable; end else begin { check if type is valid, must be done here because with "e: Exception" the e is not necessary } if srsym=nil then begin identifier_not_found(objrealname); srsym:=generrorsym; end; { support unit.identifier } if srsym.typ=unitsym then begin consume(_POINT); srsym:=searchsymonlyin(tunitsym(srsym).unitsymtable,pattern); if srsym=nil then begin identifier_not_found(orgpattern); srsym:=generrorsym; end; consume(_ID); end; { check if type is valid, must be done here because with "e: Exception" the e is not necessary } if (srsym.typ=typesym) and is_class(ttypesym(srsym).restype.def) then ot:=ttypesym(srsym).restype else begin ot:=generrortype; if (srsym.typ=typesym) then Message1(type_e_class_type_expected,ttypesym(srsym).restype.def.typename) else Message1(type_e_class_type_expected,ot.def.typename); end; exceptsymtable:=nil; end; end else consume(_ID); consume(_DO); hp:=connode.create(nil,statement); if ot.def.deftype=errordef then begin hp.free; hp:=cerrornode.create; end; if p_specific=nil then begin last:=hp; p_specific:=last; end else begin tonnode(last).left:=hp; last:=tonnode(last).left; end; { set the informations } { only if the creation of the onnode was succesful, it's possible } { that last and hp are errornodes (JM) } if last.nodetype = onn then begin tonnode(last).excepttype:=tobjectdef(ot.def); tonnode(last).exceptsymtable:=exceptsymtable; end; { remove exception symtable } if assigned(exceptsymtable) then begin dellexlevel; if last.nodetype <> onn then exceptsymtable.free; end; if not try_to_consume(_SEMICOLON) then break; consume_emptystats; until (token=_END) or (token=_ELSE); if token=_ELSE then { catch the other exceptions } begin consume(_ELSE); p_default:=statements_til_end; end else consume(_END); end else { catch all exceptions } begin p_default:=statements_til_end; end; dec(statement_level); block_type:=old_block_type; try_statement:=ctryexceptnode.create(p_try_block,p_specific,p_default); end; end; function exit_statement : tnode; var p : tnode; begin consume(_EXIT); if try_to_consume(_LKLAMMER) then begin p:=comp_expr(true); consume(_RKLAMMER); if (block_type=bt_except) then Message(parser_e_exit_with_argument_not__possible); if is_void(procinfo^.returntype.def) then Message(parser_e_void_function); end else p:=nil; p:=cexitnode.create(p); do_resulttypepass(p); exit_statement:=p; end; function _asm_statement : tnode; var asmstat : tasmnode; Marker : tai; begin Inside_asm_statement:=true; case aktasmmode of asmmode_none : ; { just be there to allow to a compile without any assembler readers } {$ifdef i386} {$ifndef NoRA386Att} asmmode_i386_att: asmstat:=tasmnode(ra386att.assemble); {$endif NoRA386Att} {$ifndef NoRA386Int} asmmode_i386_intel: asmstat:=tasmnode(ra386int.assemble); {$endif NoRA386Int} {$ifndef NoRA386Dir} asmmode_i386_direct: begin if not target_asm.allowdirect then Message(parser_f_direct_assembler_not_allowed); if (pocall_inline in aktprocsym.definition.proccalloptions) then Begin Message1(parser_w_not_supported_for_inline,'direct asm'); Message(parser_w_inlining_disabled); exclude(aktprocsym.definition.proccalloptions,pocall_inline); End; asmstat:=tasmnode(ra386dir.assemble); end; {$endif NoRA386Dir} {$endif} {$ifdef m68k} {$ifndef NoRA68kMot} asmmode_m68k_mot: asmstat:=tasmnode(ra68kmot.assemble); {$endif NoRA68kMot} {$endif} else Message(parser_f_assembler_reader_not_supported); end; { Read first the _ASM statement } consume(_ASM); {$ifndef newcg} { END is read } if try_to_consume(_LECKKLAMMER) then begin { it's possible to specify the modified registers } include(asmstat.flags,nf_object_preserved); if token<>_RECKKLAMMER then repeat { uppercase, because it's a CSTRING } uppervar(pattern); {$ifdef i386} if pattern='EAX' then usedinproc:=usedinproc or ($80 shr byte(R_EAX)) else if pattern='EBX' then usedinproc:=usedinproc or ($80 shr byte(R_EBX)) else if pattern='ECX' then usedinproc:=usedinproc or ($80 shr byte(R_ECX)) else if pattern='EDX' then usedinproc:=usedinproc or ($80 shr byte(R_EDX)) else if pattern='ESI' then begin usedinproc:=usedinproc or ($80 shr byte(R_ESI)); exclude(asmstat.flags,nf_object_preserved); end else if pattern='EDI' then usedinproc:=usedinproc or ($80 shr byte(R_EDI)) {$endif i386} {$ifdef m68k} if pattern='D0' then usedinproc:=usedinproc +[R_D0] else if pattern='D1' then usedinproc:=usedinproc + [R_D1] else if pattern='D6' then usedinproc:=usedinproc + [R_D2] else if pattern='A0' then usedinproc:=usedinproc + [R_A0] else if pattern='A1' then usedinproc:=usedinproc + [R_A1] {$endif m68k} else consume(_RECKKLAMMER); consume(_CSTRING); if not try_to_consume(_COMMA) then break; until false; consume(_RECKKLAMMER); end {$ifdef i386} else usedinproc:=$ff; {$else} else usedinproc := ALL_REGISTERS; {$endif i386} {$endif newcg} { mark the start and the end of the assembler block this is needed for the optimizer } If Assigned(AsmStat.p_asm) Then Begin Marker := Tai_Marker.Create(AsmBlockStart); AsmStat.p_asm.Insert(Marker); Marker := Tai_Marker.Create(AsmBlockEnd); AsmStat.p_asm.Concat(Marker); End; Inside_asm_statement:=false; _asm_statement:=asmstat; end; function new_dispose_statement : tnode; var p,p2 : tnode; again : boolean; { dummy for do_proc_call } destructorname : stringid; sym : tsym; classh : tobjectdef; destructorpos, storepos : tfileposinfo; is_new : boolean; begin if try_to_consume(_NEW) then is_new:=true else begin consume(_DISPOSE); is_new:=false; end; consume(_LKLAMMER); p:=comp_expr(true); { calc return type } cleartempgen; set_varstate(p,(not is_new)); { constructor,destructor specified } if try_to_consume(_COMMA) then begin { extended syntax of new and dispose } { function styled new is handled in factor } { destructors have no parameters } destructorname:=pattern; destructorpos:=akttokenpos; consume(_ID); if (p.resulttype.def.deftype<>pointerdef) then begin Message1(type_e_pointer_type_expected,p.resulttype.def.typename); p.free; p:=factor(false); p.free; consume(_RKLAMMER); new_dispose_statement:=cerrornode.create; exit; end; { first parameter must be an object or class } if tpointerdef(p.resulttype.def).pointertype.def.deftype<>objectdef then begin Message(parser_e_pointer_to_class_expected); p.free; new_dispose_statement:=factor(false); consume_all_until(_RKLAMMER); consume(_RKLAMMER); exit; end; { check, if the first parameter is a pointer to a _class_ } classh:=tobjectdef(tpointerdef(p.resulttype.def).pointertype.def); if is_class(classh) then begin Message(parser_e_no_new_or_dispose_for_classes); new_dispose_statement:=factor(false); consume_all_until(_RKLAMMER); consume(_RKLAMMER); exit; end; { search cons-/destructor, also in parent classes } storepos:=akttokenpos; akttokenpos:=destructorpos; sym:=search_class_member(classh,destructorname); akttokenpos:=storepos; { the second parameter of new/dispose must be a call } { to a cons-/destructor } if (not assigned(sym)) or (sym.typ<>procsym) then begin if is_new then Message(parser_e_expr_have_to_be_constructor_call) else Message(parser_e_expr_have_to_be_destructor_call); p.free; new_dispose_statement:=cerrornode.create; end else begin if is_new then p2:=chnewnode.create else p2:=chdisposenode.create(p); do_resulttypepass(p2); p2.resulttype:=tpointerdef(p.resulttype.def).pointertype; if is_new then do_member_read(false,sym,p2,again) else begin if (m_tp in aktmodeswitches) then do_member_read(false,sym,p2,again) else begin p2:=ccallnode.create(nil,tprocsym(sym),sym.owner,p2); { support dispose(p,done()); } if try_to_consume(_LKLAMMER) then begin if not try_to_consume(_RKLAMMER) then begin Message(parser_e_no_paras_for_destructor); consume_all_until(_RKLAMMER); consume(_RKLAMMER); end; end; end; end; { we need the real called method } cleartempgen; do_resulttypepass(p2); if not codegenerror then begin if is_new then begin if (tcallnode(p2).procdefinition.proctypeoption<>potype_constructor) then Message(parser_e_expr_have_to_be_constructor_call); p2:=cnewnode.create(p2); do_resulttypepass(p2); p2.resulttype:=p.resulttype; p2:=cassignmentnode.create(p,p2); end else begin if (tcallnode(p2).procdefinition.proctypeoption<>potype_destructor) then Message(parser_e_expr_have_to_be_destructor_call); end; end; new_dispose_statement:=p2; end; end else begin if (p.resulttype.def.deftype<>pointerdef) then Begin Message1(type_e_pointer_type_expected,p.resulttype.def.typename); new_dispose_statement:=cerrornode.create; end else begin if (tpointerdef(p.resulttype.def).pointertype.def.deftype=objectdef) and (oo_has_vmt in tobjectdef(tpointerdef(p.resulttype.def).pointertype.def).objectoptions) then Message(parser_w_use_extended_syntax_for_objects); if (tpointerdef(p.resulttype.def).pointertype.def.deftype=orddef) and (torddef(tpointerdef(p.resulttype.def).pointertype.def).typ=uvoid) then begin if (m_tp in aktmodeswitches) or (m_delphi in aktmodeswitches) then Message(parser_w_no_new_dispose_on_void_pointers) else Message(parser_e_no_new_dispose_on_void_pointers); end; if is_new then new_dispose_statement:=csimplenewdisposenode.create(simplenewn,p) else new_dispose_statement:=csimplenewdisposenode.create(simpledisposen,p); end; end; consume(_RKLAMMER); end; function statement : tnode; var p : tnode; code : tnode; filepos : tfileposinfo; srsym : tsym; srsymtable : tsymtable; begin filepos:=akttokenpos; case token of _GOTO : begin if not(cs_support_goto in aktmoduleswitches)then Message(sym_e_goto_and_label_not_supported); consume(_GOTO); if (token<>_INTCONST) and (token<>_ID) then begin Message(sym_e_label_not_found); code:=cerrornode.create; end else begin consume_sym(srsym,srsymtable); if srsym.typ<>labelsym then begin Message(sym_e_id_is_no_label_id); code:=cerrornode.create; end else begin code:=cgotonode.create(tlabelsym(srsym)); tgotonode(code).labsym:=tlabelsym(srsym); { set flag that this label is used } tlabelsym(srsym).used:=true; end; end; end; _BEGIN : code:=statement_block(_BEGIN); _IF : code:=if_statement; _CASE : code:=case_statement; _REPEAT : code:=repeat_statement; _WHILE : code:=while_statement; _FOR : code:=for_statement; _WITH : code:=with_statement; _TRY : code:=try_statement; _RAISE : code:=raise_statement; { semicolons,else until and end are ignored } _SEMICOLON, _ELSE, _UNTIL, _END: code:=cnothingnode.create; _FAIL : begin if (aktprocsym.definition.proctypeoption<>potype_constructor) then Message(parser_e_fail_only_in_constructor); consume(_FAIL); code:=cfailnode.create; end; _EXIT : code:=exit_statement; _ASM : code:=_asm_statement; _EOF : Message(scan_f_end_of_file); else begin if (idtoken=_NEW) or (idtoken=_DISPOSE) then code:=new_dispose_statement else begin p:=expr; if p.nodetype=labeln then begin { the pointer to the following instruction } { isn't a very clean way } tlabelnode(p).left:=statement{$ifdef FPCPROCVAR}(){$endif}; { be sure to have left also resulttypepass } resulttypepass(tlabelnode(p).left); end; if not(p.nodetype in [calln,assignn,breakn,inlinen,continuen,labeln]) then Message(cg_e_illegal_expression); { specify that we don't use the value returned by the call } { Question : can this be also improtant for inlinen ?? it is used for : - dispose of temp stack space - dispose on FPU stack } if p.nodetype=calln then exclude(p.flags,nf_return_value_used); code:=p; end; end; end; if assigned(code) then code.set_tree_filepos(filepos); statement:=code; end; function statement_block(starttoken : ttoken) : tnode; var first,last : tnode; filepos : tfileposinfo; begin first:=nil; filepos:=akttokenpos; consume(starttoken); inc(statement_level); while not(token in [_END,_FINALIZATION]) do begin if first=nil then begin last:=cstatementnode.create(nil,statement); first:=last; end else begin tstatementnode(last).left:=cstatementnode.create(nil,statement); last:=tstatementnode(last).left; end; if (token in [_END,_FINALIZATION]) then break else begin { if no semicolon, then error and go on } if token<>_SEMICOLON then begin consume(_SEMICOLON); consume_all_until(_SEMICOLON); end; consume(_SEMICOLON); end; consume_emptystats; end; { don't consume the finalization token, it is consumed when reading the finalization block, but allow it only after an initalization ! } if (starttoken<>_INITIALIZATION) or (token<>_FINALIZATION) then consume(_END); dec(statement_level); last:=cblocknode.create(first); last.set_tree_filepos(filepos); statement_block:=last; end; function assembler_block : tnode; begin { temporary space is set, while the BEGIN of the procedure } if symtablestack.symtabletype=localsymtable then procinfo^.firsttemp_offset := -symtablestack.datasize else procinfo^.firsttemp_offset := 0; { assembler code does not allocate } { space for the return value } if not is_void(procinfo^.returntype.def) then begin if ret_in_acc(procinfo^.returntype.def) then begin { in assembler code the result should be directly in %eax procinfo^.retoffset:=procinfo^.firsttemp-procinfo^.retdef.size; procinfo^.firsttemp:=procinfo^.retoffset; } {$ifndef newcg} {$ifdef i386} usedinproc:=usedinproc or ($80 shr byte(R_EAX)) {$else} usedinproc:=usedinproc + [accumulator]; {$endif i386} {$endif newcg} end { else if not is_fpu(procinfo^.retdef) then should we allow assembler functions of big elements ? YES (FK)!! Message(parser_e_asm_incomp_with_function_return); } end; { set the framepointer to esp for assembler functions } { but only if the are no local variables } { added no parameter also (PM) } { disable for methods, because self pointer is expected } { at -8(%ebp) (JM) } { why if se use %esp then self is still at the correct address PM } if {not(assigned(procinfo^._class)) and} (po_assembler in aktprocsym.definition.procoptions) and (aktprocsym.definition.localst.datasize=0) and (aktprocsym.definition.parast.datasize=0) and not(ret_in_param(aktprocsym.definition.rettype.def)) then begin procinfo^.framepointer:=stack_pointer; { set the right value for parameters } dec(aktprocsym.definition.parast.address_fixup,target_info.size_of_pointer); dec(procinfo^.para_offset,target_info.size_of_pointer); end; { force the asm statement } if token<>_ASM then consume(_ASM); procinfo^.Flags := procinfo^.Flags Or pi_is_assembler; assembler_block:=_asm_statement; { becuase the END is already read we need to get the last_endtoken_filepos here (PFV) } last_endtoken_filepos:=akttokenpos; end; end. { $Log$ Revision 1.31 2001-06-03 21:57:37 peter + hint directive parsing support Revision 1.30 2001/05/17 13:25:24 jonas * fixed web bugs 1480 and 1481 Revision 1.29 2001/05/04 15:52:04 florian * some Delphi incompatibilities fixed: - out, dispose and new can be used as idenfiers now - const p = apointerype(nil); is supported now + support for const p = apointertype(pointer(1234)); added Revision 1.28 2001/04/21 12:03:11 peter * m68k updates merged from fixes branch Revision 1.27 2001/04/18 22:01:57 peter * registration of targets and assemblers Revision 1.26 2001/04/15 09:48:30 peter * fixed crash in labelnode * easier detection of goto and label in try blocks Revision 1.25 2001/04/14 14:07:11 peter * moved more code from pass_1 to det_resulttype Revision 1.24 2001/04/13 01:22:13 peter * symtable change to classes * range check generation and errors fixed, make cycle DEBUG=1 works * memory leaks fixed Revision 1.23 2001/04/04 22:43:52 peter * remove unnecessary calls to firstpass Revision 1.22 2001/04/02 21:20:34 peter * resulttype rewrite Revision 1.21 2001/03/22 22:35:42 florian + support for type a = (a=1); in Delphi mode added + procedure p(); in Delphi mode supported + on isn't keyword anymore, it can be used as id etc. now Revision 1.20 2001/03/11 22:58:50 peter * getsym redesign, removed the globals srsym,srsymtable Revision 1.19 2000/12/25 00:07:27 peter + new tlinkedlist class (merge of old tstringqueue,tcontainer and tlinkedlist objects) Revision 1.18 2000/12/23 19:59:35 peter * object to class for ow/og objects * split objectdata from objectoutput Revision 1.17 2000/12/16 22:45:55 jonas * fixed case statements with int64 values Revision 1.16 2000/11/29 00:30:37 florian * unused units removed from uses clause * some changes for widestrings Revision 1.15 2000/11/27 15:47:19 jonas * fix for web bug 1251 (example 1) Revision 1.14 2000/11/22 22:43:34 peter * fixed crash with exception without sysutils (merged) Revision 1.13 2000/11/04 14:25:21 florian + merged Attila's changes for interfaces, not tested yet Revision 1.12 2000/10/31 22:02:50 peter * symtable splitted, no real code changes Revision 1.11 2000/10/14 21:52:56 peter * fixed memory leaks Revision 1.10 2000/10/14 10:14:52 peter * moehrendorf oct 2000 rewrite Revision 1.9 2000/10/01 19:48:25 peter * lot of compile updates for cg11 Revision 1.8 2000/09/24 21:19:50 peter * delphi compile fixes Revision 1.7 2000/09/24 15:06:24 peter * use defines.inc Revision 1.6 2000/08/27 16:11:52 peter * moved some util functions from globals,cobjects to cutils * splitted files into finput,fmodule Revision 1.5 2000/08/12 15:41:15 peter * fixed bug 1096 (merged) Revision 1.4 2000/08/12 06:46:06 florian + case statement for int64/qword implemented Revision 1.3 2000/07/13 12:08:27 michael + patched to 1.1.0 with former 1.09patch from peter Revision 1.2 2000/07/13 11:32:45 michael + removed logs }