{ $Id$ Copyright (c) 1998-2002 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 fpcdefs.inc} interface uses tokens,node; function statement_block(starttoken : ttoken) : tnode; { reads an assembler block } function assembler_block : tnode; implementation uses { common } cutils,cclasses, { global } globtype,globals,verbose, systems,cpuinfo, { aasm } cpubase,aasmbase,aasmtai, { symtable } symconst,symbase,symtype,symdef,symsym,symtable,defutil,defcmp, paramgr,symutil, { pass 1 } pass_1,htypechk, nutils,nbas,nmat,nadd,ncal,nmem,nset,ncnv,ninl,ncon,nld,nflw, { parser } scanner, pbase,pexpr, { codegen } procinfo,cgbase, { assembler reader } rabase ; 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(statement,nil); first:=last; end else begin last.right:=cstatementnode.create(statement,nil); last:=tstatementnode(last.right); 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(p,instruc); if not(token in [_ELSE,_OTHERWISE,_END]) then consume(_SEMICOLON); until (token in [_ELSE,_OTHERWISE,_END]); if (token in [_ELSE,_OTHERWISE]) then begin if not try_to_consume(_ELSE) then consume(_OTHERWISE); elseblock:=statements_til_end; end else begin elseblock:=nil; consume(_END); end; 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; while token<>_UNTIL do begin if first=nil then begin last:=cstatementnode.create(statement,nil); first:=last; end else begin tstatementnode(last).right:=cstatementnode.create(statement,nil); last:=tstatementnode(last).right; end; if not try_to_consume(_SEMICOLON) then break; consume_emptystats; end; consume(_UNTIL); first:=cblocknode.create(first); p_e:=comp_expr(true); repeat_statement:=genloopnode(whilerepeatn,p_e,first,nil,true); 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(whilerepeatn,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; newblock : tblocknode; newstatement : tstatementnode; calltempp, loadp : ttempcreatenode; refp : tnode; htype : ttype; hasimplicitderef : boolean; begin p:=comp_expr(true); do_resulttypepass(p); set_varstate(p,vs_used,false); right:=nil; if (not codegenerror) and (p.resulttype.def.deftype in [objectdef,recorddef]) then begin newblock:=nil; { ignore nodes that don't add instructions in the tree } hp:=p; while { equal type conversions } ( (hp.nodetype=typeconvn) and (ttypeconvnode(hp).convtype=tc_equal) ) or { constant array index } ( (hp.nodetype=vecn) and (tvecnode(hp).right.nodetype=ordconstn) ) do hp:=tunarynode(hp).left; if (hp.nodetype=loadn) and ( (tloadnode(hp).symtable=current_procinfo.procdef.localst) or (tloadnode(hp).symtable=current_procinfo.procdef.parast) or (tloadnode(hp).symtable.symtabletype in [staticsymtable,globalsymtable]) ) then begin { simple load, we can reference direct } loadp:=nil; refp:=p; end else begin calltempp:=nil; { complex load, load in temp first } newblock:=internalstatements(newstatement); { when right is a call then load it first in a temp } if p.nodetype=calln then begin calltempp:=ctempcreatenode.create(p.resulttype,p.resulttype.def.size,tt_persistent); addstatement(newstatement,calltempp); addstatement(newstatement,cassignmentnode.create( ctemprefnode.create(calltempp), p)); p:=ctemprefnode.create(calltempp); resulttypepass(p); end; { classes and interfaces have implicit dereferencing } hasimplicitderef:=is_class_or_interface(p.resulttype.def); if hasimplicitderef then htype:=p.resulttype else htype.setdef(tpointerdef.create(p.resulttype)); { we can't generate debuginfo for a withnode stored in a } { register } if (cs_debuginfo in aktmoduleswitches) then loadp:=ctempcreatenode.create(htype,POINTER_SIZE,tt_persistent) else loadp:=ctempcreatenode.create_reg(htype,POINTER_SIZE,tt_persistent); resulttypepass(loadp); if hasimplicitderef then begin hp:=p; refp:=ctemprefnode.create(loadp); end else begin hp:=caddrnode.create(p); refp:=cderefnode.create(ctemprefnode.create(loadp)); end; addstatement(newstatement,loadp); addstatement(newstatement,cassignmentnode.create( ctemprefnode.create(loadp), hp)); resulttypepass(refp); end; case p.resulttype.def.deftype of objectdef : begin obj:=tobjectdef(p.resulttype.def); withsymtable:=twithsymtable.Create(obj,obj.symtable.symsearch,refp); { include also all parent symtables } levelcount:=1; obj:=obj.childof; symtab:=withsymtable; while assigned(obj) do begin symtab.next:=twithsymtable.create(obj,obj.symtable.symsearch,refp.getcopy); symtab:=symtab.next; 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,refp); withsymtable.next:=symtablestack; symtablestack:=withsymtable; end; end; if try_to_consume(_COMMA) then right:=_with_statement{$ifdef FPCPROCVAR}(){$endif} else begin consume(_DO); if token<>_SEMICOLON then right:=statement else right:=cerrornode.create; end; { remove symtables from the stack } for i:=1 to levelcount do symtablestack:=symtablestack.next; p:=cwithnode.create(right,twithsymtable(withsymtable),levelcount,refp); { Finalize complex withnode with destroy of temp } if assigned(newblock) then begin addstatement(newstatement,p); addstatement(newstatement,ctempdeletenode.create(loadp)); if assigned(calltempp) then addstatement(newstatement,ctempdeletenode.create(calltempp)); p:=newblock; end; _with_statement:=p; end else begin p.free; Message(parser_e_false_with_expr); { try to recover from error } if try_to_consume(_COMMA) then begin hp:=_with_statement{$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 endtokens) 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; oldaktexceptblock: integer; begin include(current_procinfo.flags,pi_uses_exceptions); p_default:=nil; p_specific:=nil; { read statements to try } consume(_TRY); first:=nil; inc(exceptblockcounter); oldaktexceptblock := aktexceptblock; aktexceptblock := exceptblockcounter; while (token<>_FINALLY) and (token<>_EXCEPT) do begin if first=nil then begin last:=cstatementnode.create(statement,nil); first:=last; end else begin tstatementnode(last).right:=cstatementnode.create(statement,nil); last:=tstatementnode(last).right; 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(exceptblockcounter); aktexceptblock := exceptblockcounter; p_finally_block:=statements_til_end; try_statement:=ctryfinallynode.create(p_try_block,p_finally_block); end else begin consume(_EXCEPT); old_block_type:=block_type; block_type:=bt_except; inc(exceptblockcounter); aktexceptblock := exceptblockcounter; 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,vs_value,ot); end else begin sym:=tvarsym.create(objrealname,vs_value,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 symtablestack:=symtablestack.next; if last.nodetype <> onn then exceptsymtable.free; end; if not try_to_consume(_SEMICOLON) then break; consume_emptystats; until (token in [_END,_ELSE]); if try_to_consume(_ELSE) then begin { catch the other exceptions } p_default:=statements_til_end; end else consume(_END); end else begin { catch all exceptions } p_default:=statements_til_end; end; block_type:=old_block_type; try_statement:=ctryexceptnode.create(p_try_block,p_specific,p_default); end; aktexceptblock := oldaktexceptblock; end; function _asm_statement : tnode; var asmstat : tasmnode; Marker : tai; reg : tregister; asmreader : tbaseasmreader; begin Inside_asm_statement:=true; if assigned(asmmodeinfos[aktasmmode]) then begin asmreader:=asmmodeinfos[aktasmmode]^.casmreader.create; asmstat:=casmnode.create(asmreader.assemble as taasmoutput); asmreader.free; end else Message(parser_f_assembler_reader_not_supported); { Read first the _ASM statement } consume(_ASM); { END is read, got a list of changed registers? } if try_to_consume(_LECKKLAMMER) then begin asmstat.used_regs_fpu:=[0..first_fpu_imreg-1]; if token<>_RECKKLAMMER then begin repeat { it's possible to specify the modified registers } reg:=std_regnum_search(lower(pattern)); if reg<>NR_NO then begin if getregtype(reg)=R_INTREGISTER then include(asmstat.used_regs_int,getsupreg(reg)); end else Message(asmr_e_invalid_register); consume(_CSTRING); if not try_to_consume(_COMMA) then break; until false; end; consume(_RECKKLAMMER); end else begin asmstat.used_regs_int:=paramanager.get_volatile_registers_int(current_procinfo.procdef.proccalloption); asmstat.used_regs_fpu:=paramanager.get_volatile_registers_fpu(current_procinfo.procdef.proccalloption); end; { 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 statement : tnode; var p : tnode; code : tnode; filepos : tfileposinfo; srsym : tsym; srsymtable : tsymtable; s : stringid; 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 if token=_ID then consume_sym(srsym,srsymtable) else begin searchsym(pattern,srsym,srsymtable); if srsym=nil then begin identifier_not_found(pattern); srsym:=generrorsym; srsymtable:=nil; end; consume(token); end; 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 (current_procinfo.procdef.proctypeoption<>potype_constructor) then Message(parser_e_fail_only_in_constructor); consume(_FAIL); code:=call_fail_node; end; _ASM : code:=_asm_statement; _EOF : Message(scan_f_end_of_file); else begin p:=expr; { When a colon follows a intconst then transform it into a label } if try_to_consume(_COLON) then begin s:=tostr(tordconstnode(p).value); p.free; searchsym(s,srsym,srsymtable); if assigned(srsym) then begin if tlabelsym(srsym).defined then Message(sym_e_label_already_defined); tlabelsym(srsym).defined:=true; p:=clabelnode.create(tlabelsym(srsym),nil); end else begin Message1(sym_e_label_used_and_not_defined,s); p:=cnothingnode.create; end; end; if p.nodetype=labeln then begin { the pointer to the following instruction } { isn't a very clean way } if token in endtokens then tlabelnode(p).left:=cnothingnode.create else tlabelnode(p).left:=statement{$ifdef FPCPROCVAR}(){$endif}; { be sure to have left also resulttypepass } resulttypepass(tlabelnode(p).left); end; { blockn support because a read/write is changed into a blocknode } { with a separate statement for each read/write operation (JM) } { the same is true for val() if the third parameter is not 32 bit } if not(p.nodetype in [nothingn,calln,ifn,assignn,breakn,inlinen, continuen,labeln,blockn,exitn]) then Message(cg_e_illegal_expression); { Specify that we don't use the value returned by the call. This is used for : - dispose of temp stack space - dispose on FPU stack } if (p.nodetype=calln) then exclude(p.flags,nf_return_value_used); code:=p; end; end; if assigned(code) then code.set_tree_filepos(filepos); statement:=code; end; function statement_block(starttoken : ttoken) : tnode; var first,last : tnode; filepos : tfileposinfo; begin first:=nil; filepos:=akttokenpos; consume(starttoken); while not(token in [_END,_FINALIZATION]) do begin if first=nil then begin last:=cstatementnode.create(statement,nil); first:=last; end else begin tstatementnode(last).right:=cstatementnode.create(statement,nil); last:=tstatementnode(last).right; end; if (token in [_END,_FINALIZATION]) then break else begin { if no semicolon, then error and go on } if token<>_SEMICOLON then begin consume(_SEMICOLON); consume_all_until(_SEMICOLON); end; consume(_SEMICOLON); end; consume_emptystats; end; { don't consume the finalization token, it is consumed when reading the finalization block, but allow it only after an initalization ! } if (starttoken<>_INITIALIZATION) or (token<>_FINALIZATION) then consume(_END); last:=cblocknode.create(first); last.set_tree_filepos(filepos); statement_block:=last; end; function assembler_block : tnode; var p : tnode; locals : longint; begin { Rename the funcret so that recursive calls are possible } if not is_void(current_procinfo.procdef.rettype.def) then symtablestack.rename(current_procinfo.procdef.resultname,'$hiddenresult'); { delphi uses register calling for assembler methods } if (m_delphi in aktmodeswitches) and (po_assembler in current_procinfo.procdef.procoptions) and not(po_hascallingconvention in current_procinfo.procdef.procoptions) then current_procinfo.procdef.proccalloption:=pocall_register; { force the asm statement } if token<>_ASM then consume(_ASM); include(current_procinfo.flags,pi_is_assembler); p:=_asm_statement; {$ifndef sparc} {$ifndef arm} if (po_assembler in current_procinfo.procdef.procoptions) then begin { set the framepointer to esp for assembler functions when the following conditions are met: - if the are no local variables and parameters (except the allocated result) - no reference to the result variable (refcount<=1) - result is not stored as parameter - target processor has optional frame pointer save (vm, i386, vm only currently) } locals:=0; current_procinfo.procdef.localst.foreach_static({$ifdef FPCPROCVAR}@{$endif}count_locals,@locals); current_procinfo.procdef.parast.foreach_static({$ifdef FPCPROCVAR}@{$endif}count_locals,@locals); if (locals=0) and (current_procinfo.procdef.owner.symtabletype<>objectsymtable) and (not assigned(current_procinfo.procdef.funcretsym) or (tvarsym(current_procinfo.procdef.funcretsym).refcount<=1)) and not(paramanager.ret_in_param(current_procinfo.procdef.rettype.def,current_procinfo.procdef.proccalloption)) then begin { Only need to set the framepointer, the locals will be inserted with the correct reference in tcgasmnode.pass_2 } current_procinfo.framepointer:=NR_STACK_POINTER_REG; end; end; {$endif arm} {$endif sparc} { Flag the result as assigned when it is returned in a register. } if assigned(current_procinfo.procdef.funcretsym) and (not paramanager.ret_in_param(current_procinfo.procdef.rettype.def,current_procinfo.procdef.proccalloption)) then tvarsym(current_procinfo.procdef.funcretsym).varstate:=vs_assigned; { because the END is already read we need to get the last_endtoken_filepos here (PFV) } last_endtoken_filepos:=akttokenpos; assembler_block:=p; end; end. { $Log$ Revision 1.128 2004-02-03 19:47:45 jonas * don't put the temp of a withnode in a register if debugging info is on, because then our stabs generation internalerror's Revision 1.127 2004/02/03 16:46:51 jonas + support to store ttempcreate/ref/deletenodes in registers * put temps for withnodes and some newnodes in registers Note: this currently only works because calling ungetregister() multiple times for the same register doesn't matter. We need again a way to specify that a register is currently a regvar and as such should not be freed when you call ungetregister() on it. Revision 1.126 2004/01/22 17:24:49 peter * except is also an end of block token * after a label don't try to parse a statement when the next token is an end token Revision 1.125 2004/01/12 16:36:53 peter * removed asmmode_direct Revision 1.124 2003/12/07 16:40:45 jonas * moved count_locals from pstatmnt to symutils * use count_locals in powerpc/cpupi to check whether we should set the first temp offset (and as such generate a stackframe) Revision 1.123 2003/12/03 17:39:04 florian * fixed several arm calling conventions issues * fixed reference reading in the assembler reader * fixed a_loadaddr_ref_reg Revision 1.122 2003/11/12 16:05:39 florian * assembler readers OOPed + typed currency constants + typed 128 bit float constants if the CPU supports it Revision 1.121 2003/11/11 21:10:12 peter * remove temporary stdcall hack Revision 1.120 2003/11/10 22:02:52 peter * cross unit inlining fixed Revision 1.119 2003/10/29 20:34:20 peter * move check for unused object constructor result to blocknode Revision 1.117 2003/10/29 15:40:20 peter * support indexing and offset retrieval for locals Revision 1.116 2003/10/17 14:38:32 peter * 64k registers supported * fixed some memory leaks Revision 1.115 2003/10/10 17:48:13 peter * old trgobj moved to x86/rgcpu and renamed to trgx86fpu * tregisteralloctor renamed to trgobj * removed rgobj from a lot of units * moved location_* and reference_* to cgobj * first things for mmx register allocation Revision 1.114 2003/10/08 19:19:45 peter * set_varstate cleanup Revision 1.113 2003/10/07 20:06:37 peter * set calling convention before assembler block is parsed Revision 1.112 2003/10/02 21:15:59 peter * delphi mode uses register calling by default for assembler Revision 1.111 2003/10/01 20:34:49 peter * procinfo unit contains tprocinfo * cginfo renamed to cgbase * moved cgmessage to verbose * fixed ppc and sparc compiles Revision 1.110 2003/09/23 17:56:05 peter * locals and paras are allocated in the code generation * tvarsym.localloc contains the location of para/local when generating code for the current procedure Revision 1.109 2003/09/16 16:17:01 peter * varspez in calls to push_addr_param Revision 1.108 2003/09/07 22:09:35 peter * preparations for different default calling conventions * various RA fixes Revision 1.107 2003/09/03 15:55:01 peter * NEWRA branch merged Revision 1.106.2.3 2003/08/31 15:46:26 peter * more updates for tregister Revision 1.106.2.2 2003/08/29 17:28:59 peter * next batch of updates Revision 1.106.2.1 2003/08/28 18:35:08 peter * tregister changed to cardinal Revision 1.106 2003/07/08 21:24:59 peter * sparc fixes Revision 1.105 2003/06/17 16:34:44 jonas * lots of newra fixes (need getfuncretparaloc implementation for i386)! * renamed all_intregisters to paramanager.get_volatile_registers_int(pocall_default) and made it processor dependent Revision 1.104 2003/06/13 21:19:31 peter * current_procdef removed, use current_procinfo.procdef instead Revision 1.103 2003/06/09 18:27:14 peter * load calln in temprefn in with statement Revision 1.102 2003/05/23 22:33:48 florian * fix some small flaws which prevent sparc linux system unit from compiling * some reformatting done Revision 1.101 2003/05/23 15:15:36 peter * better error for undefined ordinal labels Revision 1.100 2003/05/17 13:30:08 jonas * changed tt_persistant to tt_persistent :) * tempcreatenode now doesn't accept a boolean anymore for persistent temps, but a ttemptype, so you can also create ansistring temps etc Revision 1.99 2003/05/15 18:58:53 peter * removed selfpointer_offset, vmtpointer_offset * tvarsym.adjusted_address * address in localsymtable is now in the real direction * removed some obsolete globals Revision 1.98 2003/05/13 19:14:41 peter * failn removed * inherited result code check moven to pexpr Revision 1.97 2003/05/11 14:45:12 peter * tloadnode does not support objectsymtable,withsymtable anymore * withnode cleanup * direct with rewritten to use temprefnode Revision 1.96 2003/05/09 17:47:03 peter * self moved to hidden parameter * removed hdisposen,hnewn,selfn Revision 1.95 2003/04/30 22:15:59 florian * some 64 bit adaptions in ncgadd * x86-64 now uses ncgadd * tparamanager.ret_in_acc doesn't return true anymore for a void-def Revision 1.94 2003/04/27 11:21:34 peter * aktprocdef renamed to current_procinfo.procdef * procinfo renamed to current_procinfo * procinfo will now be stored in current_module so it can be cleaned up properly * gen_main_procsym changed to create_main_proc and release_main_proc to also generate a tprocinfo structure * fixed unit implicit initfinal Revision 1.93 2003/04/27 07:29:50 peter * current_procinfo.procdef cleanup, current_procinfo.procdef is now always nil when parsing a new procdef declaration * aktprocsym removed * lexlevel removed, use symtable.symtablelevel instead * implicit init/final code uses the normal genentry/genexit * funcret state checking updated for new funcret handling Revision 1.92 2003/04/26 11:30:59 florian * fixed the powerpc to work with the new function result handling Revision 1.91 2003/04/25 20:59:34 peter * removed funcretn,funcretsym, function result is now in varsym and aliases for result and function name are added using absolutesym * vs_hidden parameter for funcret passed in parameter * vs_hidden fixes * writenode changed to printnode and released from extdebug * -vp option added to generate a tree.log with the nodetree * nicer printnode for statements, callnode Revision 1.90 2002/04/25 20:15:40 florian * block nodes within expressions shouldn't release the used registers, fixed using a flag till the new rg is ready Revision 1.89 2003/04/25 08:25:26 daniel * Ifdefs around a lot of calls to cleartempgen * Fixed registers that are allocated but not freed in several nodes * Tweak to register allocator to cause less spills * 8-bit registers now interfere with esi,edi and ebp Compiler can now compile rtl successfully when using new register allocator Revision 1.88 2003/03/28 19:16:57 peter * generic constructor working for i386 * remove fixed self register * esi added as address register for i386 Revision 1.87 2003/03/17 18:55:30 peter * allow more tokens instead of only semicolon after inherited Revision 1.86 2003/02/19 22:00:14 daniel * Code generator converted to new register notation - Horribily outdated todo.txt removed Revision 1.85 2003/01/08 18:43:56 daniel * Tregister changed into a record Revision 1.84 2003/01/01 21:05:24 peter * fixed assembler methods stackpointer optimization that was broken after the previous change Revision 1.83 2002/12/29 18:59:34 peter * fixed parsing of declarations before asm statement Revision 1.82 2002/12/27 18:18:56 peter * check for else after empty raise statement Revision 1.81 2002/11/27 02:37:14 peter * case statement inlining added * fixed inlining of write() * switched statementnode left and right parts so the statements are processed in the correct order when getcopy is used. This is required for tempnodes Revision 1.80 2002/11/25 17:43:22 peter * splitted defbase in defutil,symutil,defcmp * merged isconvertable and is_equal into compare_defs(_ext) * made operator search faster by walking the list only once Revision 1.79 2002/11/18 17:31:58 peter * pass proccalloption to ret_in_xxx and push_xxx functions Revision 1.78 2002/09/07 19:34:08 florian + tcg.direction is used now Revision 1.77 2002/09/07 15:25:07 peter * old logs removed and tabs fixed Revision 1.76 2002/09/07 12:16:03 carl * second part bug report 1996 fix, testrange in cordconstnode only called if option is set (also make parsing a tiny faster) Revision 1.75 2002/09/02 18:40:52 peter * fixed parsing of register names with lowercase Revision 1.74 2002/09/01 14:43:12 peter * fixed direct assembler for i386 Revision 1.73 2002/08/25 19:25:20 peter * sym.insert_in_data removed * symtable.insertvardata/insertconstdata added * removed insert_in_data call from symtable.insert, it needs to be called separatly. This allows to deref the address calculation * procedures now calculate the parast addresses after the procedure directives are parsed. This fixes the cdecl parast problem * push_addr_param has an extra argument that specifies if cdecl is used or not Revision 1.72 2002/08/17 09:23:40 florian * first part of procinfo rewrite Revision 1.71 2002/08/16 14:24:58 carl * issameref() to test if two references are the same (then emit no opcodes) + ret_in_reg to replace ret_in_acc (fix some register allocation bugs at the same time) + save_std_register now has an extra parameter which is the usedinproc registers Revision 1.70 2002/08/11 14:32:27 peter * renamed current_library to objectlibrary Revision 1.69 2002/08/11 13:24:12 peter * saving of asmsymbols in ppu supported * asmsymbollist global is removed and moved into a new class tasmlibrarydata that will hold the info of a .a file which corresponds with a single module. Added librarydata to tmodule to keep the library info stored for the module. In the future the objectfiles will also be stored to the tasmlibrarydata class * all getlabel/newasmsymbol and friends are moved to the new class Revision 1.68 2002/08/10 14:46:30 carl + moved target_cpu_string to cpuinfo * renamed asmmode enum. * assembler reader has now less ifdef's * move from nppcmem.pas -> ncgmem.pas vec. node. Revision 1.67 2002/08/09 19:11:44 carl + reading of used registers in assembler routines is now cpu-independent Revision 1.66 2002/08/06 20:55:22 florian * first part of ppc calling conventions fix Revision 1.65 2002/07/28 20:45:22 florian + added direct assembler reader for PowerPC Revision 1.64 2002/07/20 11:57:56 florian * types.pas renamed to defbase.pas because D6 contains a types unit so this would conflicts if D6 programms are compiled + Willamette/SSE2 instructions to assembler added Revision 1.63 2002/07/19 11:41:36 daniel * State tracker work * The whilen and repeatn are now completely unified into whilerepeatn. This allows the state tracker to change while nodes automatically into repeat nodes. * Resulttypepass improvements to the notn. 'not not a' is optimized away and 'not(a>b)' is optimized into 'a<=b'. * Resulttypepass improvements to the whilerepeatn. 'while not a' is optimized by removing the notn and later switchting the true and falselabels. The same is done with 'repeat until not a'. Revision 1.62 2002/07/16 15:34:20 florian * exit is now a syssym instead of a keyword Revision 1.61 2002/07/11 14:41:28 florian * start of the new generic parameter handling Revision 1.60 2002/07/04 20:43:01 florian * first x86-64 patches Revision 1.59 2002/07/01 18:46:25 peter * internal linker * reorganized aasm layer Revision 1.58 2002/05/18 13:34:13 peter * readded missing revisions Revision 1.57 2002/05/16 19:46:44 carl + defines.inc -> fpcdefs.inc to avoid conflicts if compiling by hand + try to fix temp allocation (still in ifdef) + generic constructor calls + start of tassembler / tmodulebase class cleanup }