{ $Id$ Copyright (c) 1993-98 by Florian Klaempfl Type checking and register allocation for inline nodes 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 tcinl; interface uses tree; procedure firstinline(var p : ptree); implementation uses cobjects,verbose,globals,systems, globtype, symconst,symtable,aasm,types, hcodegen,htypechk,pass_1, tccal,cpubase {$ifdef i386} ,tgeni386 {$endif} ; {***************************************************************************** FirstInLine *****************************************************************************} procedure firstinline(var p : ptree); var vl,vl2 : longint; vr : bestreal; p1,hp,hpp : ptree; {$ifndef NOCOLONCHECK} frac_para,length_para : ptree; {$endif ndef NOCOLONCHECK} extra_register, isreal, dowrite, file_is_typed : boolean; procedure do_lowhigh(adef : pdef); var v : longint; enum : penumsym; begin case Adef^.deftype of orddef: begin if p^.inlinenumber=in_low_x then v:=porddef(Adef)^.low else v:=porddef(Adef)^.high; hp:=genordinalconstnode(v,adef); firstpass(hp); disposetree(p); p:=hp; end; enumdef: begin enum:=Penumdef(Adef)^.firstenum; if p^.inlinenumber=in_high_x then while enum^.nextenum<>nil do enum:=enum^.nextenum; hp:=genenumnode(enum); disposetree(p); p:=hp; end; else internalerror(87); end; end; function getconstrealvalue : bestreal; begin case p^.left^.treetype of ordconstn: getconstrealvalue:=p^.left^.value; realconstn: getconstrealvalue:=p^.left^.value_real; else internalerror(309992); end; end; procedure setconstrealvalue(r : bestreal); var hp : ptree; begin hp:=genrealconstnode(r,bestrealdef^); disposetree(p); p:=hp; firstpass(p); end; procedure handleextendedfunction; begin p^.location.loc:=LOC_FPU; p^.resulttype:=s80floatdef; { redo firstpass for varstate status PM } set_varstate(p^.left,true); if (p^.left^.resulttype^.deftype<>floatdef) or (pfloatdef(p^.left^.resulttype)^.typ<>s80real) then begin p^.left:=gentypeconvnode(p^.left,s80floatdef); firstpass(p^.left); end; p^.registers32:=p^.left^.registers32; p^.registersfpu:=p^.left^.registersfpu; {$ifdef SUPPORT_MMX} p^.registersmmx:=p^.left^.registersmmx; {$endif SUPPORT_MMX} end; begin { if we handle writeln; p^.left contains no valid address } if assigned(p^.left) then begin if p^.left^.treetype=callparan then firstcallparan(p^.left,nil,false) else firstpass(p^.left); left_right_max(p); set_location(p^.location,p^.left^.location); end; inc(parsing_para_level); { handle intern constant functions in separate case } if p^.inlineconst then begin hp:=nil; { no parameters? } if not assigned(p^.left) then begin case p^.inlinenumber of in_const_pi : hp:=genrealconstnode(pi,bestrealdef^); else internalerror(89); end; end else { process constant expression with parameter } begin vl:=0; vl2:=0; { second parameter Ex: ptr(vl,vl2) } vr:=0; isreal:=false; case p^.left^.treetype of realconstn : begin isreal:=true; vr:=p^.left^.value_real; end; ordconstn : vl:=p^.left^.value; callparan : begin { both exists, else it was not generated } vl:=p^.left^.left^.value; vl2:=p^.left^.right^.left^.value; end; else CGMessage(cg_e_illegal_expression); end; case p^.inlinenumber of in_const_trunc : begin if isreal then begin if (vr>=2147483648.0) or (vr<=-2147483649.0) then begin CGMessage(parser_e_range_check_error); hp:=genordinalconstnode(1,s32bitdef) end else hp:=genordinalconstnode(trunc(vr),s32bitdef) end else hp:=genordinalconstnode(trunc(vl),s32bitdef); end; in_const_round : begin if isreal then begin if (vr>=2147483647.5) or (vr<=-2147483648.5) then begin CGMessage(parser_e_range_check_error); hp:=genordinalconstnode(1,s32bitdef) end else hp:=genordinalconstnode(round(vr),s32bitdef) end else hp:=genordinalconstnode(round(vl),s32bitdef); end; in_const_frac : begin if isreal then hp:=genrealconstnode(frac(vr),bestrealdef^) else hp:=genrealconstnode(frac(vl),bestrealdef^); end; in_const_int : begin if isreal then hp:=genrealconstnode(int(vr),bestrealdef^) else hp:=genrealconstnode(int(vl),bestrealdef^); end; in_const_abs : begin if isreal then hp:=genrealconstnode(abs(vr),bestrealdef^) else hp:=genordinalconstnode(abs(vl),p^.left^.resulttype); end; in_const_sqr : begin if isreal then hp:=genrealconstnode(sqr(vr),bestrealdef^) else hp:=genordinalconstnode(sqr(vl),p^.left^.resulttype); end; in_const_odd : begin if isreal then CGMessage1(type_e_integer_expr_expected,p^.left^.resulttype^.typename) else hp:=genordinalconstnode(byte(odd(vl)),booldef); end; in_const_swap_word : begin if isreal then CGMessage1(type_e_integer_expr_expected,p^.left^.resulttype^.typename) else hp:=genordinalconstnode((vl and $ff) shl 8+(vl shr 8),p^.left^.resulttype); end; in_const_swap_long : begin if isreal then CGMessage(type_e_mismatch) else hp:=genordinalconstnode((vl and $ffff) shl 16+(vl shr 16),p^.left^.resulttype); end; in_const_ptr : begin if isreal then CGMessage(type_e_mismatch) else hp:=genordinalconstnode((vl2 shl 16) or vl,voidpointerdef); end; in_const_sqrt : begin if isreal then begin if vr<0.0 then CGMessage(type_e_wrong_math_argument) else hp:=genrealconstnode(sqrt(vr),bestrealdef^) end else begin if vl<0 then CGMessage(type_e_wrong_math_argument) else hp:=genrealconstnode(sqrt(vl),bestrealdef^); end; end; in_const_arctan : begin if isreal then hp:=genrealconstnode(arctan(vr),bestrealdef^) else hp:=genrealconstnode(arctan(vl),bestrealdef^); end; in_const_cos : begin if isreal then hp:=genrealconstnode(cos(vr),bestrealdef^) else hp:=genrealconstnode(cos(vl),bestrealdef^); end; in_const_sin : begin if isreal then hp:=genrealconstnode(sin(vr),bestrealdef^) else hp:=genrealconstnode(sin(vl),bestrealdef^); end; in_const_exp : begin if isreal then hp:=genrealconstnode(exp(vr),bestrealdef^) else hp:=genrealconstnode(exp(vl),bestrealdef^); end; in_const_ln : begin if isreal then begin if vr<=0.0 then CGMessage(type_e_wrong_math_argument) else hp:=genrealconstnode(ln(vr),bestrealdef^) end else begin if vl<=0 then CGMessage(type_e_wrong_math_argument) else hp:=genrealconstnode(ln(vl),bestrealdef^); end; end; else internalerror(88); end; end; disposetree(p); if hp=nil then hp:=genzeronode(errorn); firstpass(hp); p:=hp; end else begin case p^.inlinenumber of in_lo_qword, in_hi_qword, in_lo_long, in_hi_long, in_lo_word, in_hi_word: begin set_varstate(p^.left,true); if p^.registers32<1 then p^.registers32:=1; if p^.inlinenumber in [in_lo_word,in_hi_word] then p^.resulttype:=u8bitdef else if p^.inlinenumber in [in_lo_qword,in_hi_qword] then begin p^.resulttype:=u32bitdef; if (m_tp in aktmodeswitches) or (m_delphi in aktmodeswitches) then CGMessage(type_w_maybe_wrong_hi_lo); end else begin p^.resulttype:=u16bitdef; if (m_tp in aktmodeswitches) or (m_delphi in aktmodeswitches) then CGMessage(type_w_maybe_wrong_hi_lo); end; p^.location.loc:=LOC_REGISTER; if not is_integer(p^.left^.resulttype) then CGMessage(type_e_mismatch) else begin if p^.left^.treetype=ordconstn then begin case p^.inlinenumber of in_lo_word : hp:=genordinalconstnode(p^.left^.value and $ff,p^.left^.resulttype); in_hi_word : hp:=genordinalconstnode(p^.left^.value shr 8,p^.left^.resulttype); in_lo_long : hp:=genordinalconstnode(p^.left^.value and $ffff,p^.left^.resulttype); in_hi_long : hp:=genordinalconstnode(p^.left^.value shr 16,p^.left^.resulttype); in_lo_qword : hp:=genordinalconstnode(p^.left^.value and $ffffffff,p^.left^.resulttype); in_hi_qword : hp:=genordinalconstnode(p^.left^.value shr 32,p^.left^.resulttype); end; disposetree(p); firstpass(hp); p:=hp; end; end; end; in_sizeof_x: begin set_varstate(p^.left,false); if push_high_param(p^.left^.resulttype) then begin getsymonlyin(p^.left^.symtable,'high'+pvarsym(p^.left^.symtableentry)^.name); hp:=gennode(addn,genloadnode(pvarsym(srsym),p^.left^.symtable), genordinalconstnode(1,s32bitdef)); if (p^.left^.resulttype^.deftype=arraydef) and (parraydef(p^.left^.resulttype)^.elesize<>1) then hp:=gennode(muln,hp,genordinalconstnode(parraydef(p^.left^.resulttype)^.elesize,s32bitdef)); disposetree(p); p:=hp; firstpass(p); end; if p^.registers32<1 then p^.registers32:=1; p^.resulttype:=s32bitdef; p^.location.loc:=LOC_REGISTER; end; in_typeof_x: begin set_varstate(p^.left,false); if p^.registers32<1 then p^.registers32:=1; p^.location.loc:=LOC_REGISTER; p^.resulttype:=voidpointerdef; end; in_ord_x: begin set_varstate(p^.left,true); if (p^.left^.treetype=ordconstn) then begin hp:=genordinalconstnode(p^.left^.value,s32bitdef); disposetree(p); p:=hp; firstpass(p); end else begin if (p^.left^.resulttype^.deftype=orddef) then if (porddef(p^.left^.resulttype)^.typ in [uchar,bool8bit]) then begin if porddef(p^.left^.resulttype)^.typ=bool8bit then begin hp:=gentypeconvnode(p^.left,u8bitdef); putnode(p); p:=hp; p^.convtyp:=tc_bool_2_int; p^.explizit:=true; firstpass(p); end else begin hp:=gentypeconvnode(p^.left,u8bitdef); putnode(p); p:=hp; p^.explizit:=true; firstpass(p); end; end { can this happen ? } else if (porddef(p^.left^.resulttype)^.typ=uvoid) then CGMessage(type_e_mismatch) else { all other orddef need no transformation } begin hp:=p^.left; putnode(p); p:=hp; end else if (p^.left^.resulttype^.deftype=enumdef) then begin hp:=gentypeconvnode(p^.left,s32bitdef); putnode(p); p:=hp; p^.explizit:=true; firstpass(p); end else begin { can anything else be ord() ?} CGMessage(type_e_mismatch); end; end; end; in_chr_byte: begin set_varstate(p^.left,true); hp:=gentypeconvnode(p^.left,cchardef); putnode(p); p:=hp; p^.explizit:=true; firstpass(p); end; in_length_string: begin set_varstate(p^.left,true); if is_ansistring(p^.left^.resulttype) then p^.resulttype:=s32bitdef else p^.resulttype:=u8bitdef; { we don't need string conversations here } if (p^.left^.treetype=typeconvn) and (p^.left^.left^.resulttype^.deftype=stringdef) then begin hp:=p^.left^.left; putnode(p^.left); p^.left:=hp; end; { check the type, must be string or char } if (p^.left^.resulttype^.deftype<>stringdef) and (not is_char(p^.left^.resulttype)) then CGMessage(type_e_mismatch); { evaluates length of constant strings direct } if (p^.left^.treetype=stringconstn) then begin hp:=genordinalconstnode(p^.left^.length,s32bitdef); disposetree(p); firstpass(hp); p:=hp; end { length of char is one allways } else if is_constcharnode(p^.left) then begin hp:=genordinalconstnode(1,s32bitdef); disposetree(p); firstpass(hp); p:=hp; end; end; in_assigned_x: begin set_varstate(p^.left,true); p^.resulttype:=booldef; p^.location.loc:=LOC_FLAGS; end; in_ofs_x, in_seg_x : set_varstate(p^.left,false); in_pred_x, in_succ_x: begin p^.resulttype:=p^.left^.resulttype; if is_64bitint(p^.resulttype) then begin if (p^.registers32<2) then p^.registers32:=2 end else begin if (p^.registers32<1) then p^.registers32:=1; end; p^.location.loc:=LOC_REGISTER; set_varstate(p^.left,true); if not is_ordinal(p^.resulttype) then CGMessage(type_e_ordinal_expr_expected) else begin if (p^.resulttype^.deftype=enumdef) and (penumdef(p^.resulttype)^.has_jumps) then CGMessage(type_e_succ_and_pred_enums_with_assign_not_possible) else if p^.left^.treetype=ordconstn then begin if p^.inlinenumber=in_succ_x then hp:=genordinalconstnode(p^.left^.value+1,p^.left^.resulttype) else hp:=genordinalconstnode(p^.left^.value-1,p^.left^.resulttype); disposetree(p); firstpass(hp); p:=hp; end; end; end; in_inc_x, in_dec_x: begin p^.resulttype:=voiddef; if assigned(p^.left) then begin firstcallparan(p^.left,nil,true); set_varstate(p^.left,true); if codegenerror then exit; { first param must be var } valid_for_assign(p^.left^.left,false); { check type } if (p^.left^.resulttype^.deftype in [enumdef,pointerdef]) or is_ordinal(p^.left^.resulttype) then begin { two paras ? } if assigned(p^.left^.right) then begin { insert a type conversion } { the second param is always longint } p^.left^.right^.left:=gentypeconvnode(p^.left^.right^.left,s32bitdef); { check the type conversion } firstpass(p^.left^.right^.left); { need we an additional register ? } if not(is_constintnode(p^.left^.right^.left)) and (p^.left^.right^.left^.location.loc in [LOC_MEM,LOC_REFERENCE]) and (p^.left^.right^.left^.registers32<=1) then inc(p^.registers32); { do we need an additional register to restore the first parameter? } if p^.left^.right^.left^.registers32>=p^.registers32 then inc(p^.registers32); if assigned(p^.left^.right^.right) then CGMessage(cg_e_illegal_expression); end; end else CGMessage(type_e_ordinal_expr_expected); end else CGMessage(type_e_mismatch); end; in_read_x, in_readln_x, in_write_x, in_writeln_x : begin { needs a call } procinfo^.flags:=procinfo^.flags or pi_do_call; p^.resulttype:=voiddef; { true, if readln needs an extra register } extra_register:=false; { we must know if it is a typed file or not } { but we must first do the firstpass for it } file_is_typed:=false; if assigned(p^.left) then begin dowrite:=(p^.inlinenumber in [in_write_x,in_writeln_x]); firstcallparan(p^.left,nil,true); set_varstate(p^.left,dowrite); { now we can check } hp:=p^.left; while assigned(hp^.right) do hp:=hp^.right; { if resulttype is not assigned, then automatically } { file is not typed. } if assigned(hp) and assigned(hp^.resulttype) then Begin if (hp^.resulttype^.deftype=filedef) and (pfiledef(hp^.resulttype)^.filetyp=ft_typed) then begin file_is_typed:=true; { test the type } hpp:=p^.left; while (hpp<>hp) do begin if (hpp^.left^.treetype=typen) then CGMessage(type_e_cant_read_write_type); if not is_equal(hpp^.resulttype,pfiledef(hp^.resulttype)^.typedfiletype.def) then CGMessage(type_e_mismatch); { generate the high() value for the shortstring } if ((not dowrite) and is_shortstring(hpp^.left^.resulttype)) or (is_chararray(hpp^.left^.resulttype)) then gen_high_tree(hpp,true); hpp:=hpp^.right; end; end; end; { endif assigned(hp) } { insert type conversions for write(ln) } if (not file_is_typed) then begin hp:=p^.left; while assigned(hp) do begin if (hp^.left^.treetype=typen) then CGMessage(type_e_cant_read_write_type); if assigned(hp^.left^.resulttype) then begin isreal:=false; { support writeln(procvar) } if (hp^.left^.resulttype^.deftype=procvardef) then begin p1:=gencallnode(nil,nil); p1^.right:=hp^.left; p1^.resulttype:=pprocvardef(hp^.left^.resulttype)^.rettype.def; firstpass(p1); hp^.left:=p1; end; case hp^.left^.resulttype^.deftype of filedef : begin { only allowed as first parameter } if assigned(hp^.right) then CGMessage(type_e_cant_read_write_type); end; stringdef : begin { generate the high() value for the shortstring } if (not dowrite) and is_shortstring(hp^.left^.resulttype) then gen_high_tree(hp,true); end; pointerdef : begin if not is_pchar(hp^.left^.resulttype) then CGMessage(type_e_cant_read_write_type); end; floatdef : begin isreal:=true; end; orddef : begin case porddef(hp^.left^.resulttype)^.typ of uchar, u32bit,s32bit, u64bit,s64bit: ; u8bit,s8bit, u16bit,s16bit : if dowrite then hp^.left:=gentypeconvnode(hp^.left,s32bitdef); bool8bit, bool16bit, bool32bit : if dowrite then hp^.left:=gentypeconvnode(hp^.left,booldef) else CGMessage(type_e_cant_read_write_type); else CGMessage(type_e_cant_read_write_type); end; if not(dowrite) and not(is_64bitint(hp^.left^.resulttype)) then extra_register:=true; end; arraydef : begin if is_chararray(hp^.left^.resulttype) then gen_high_tree(hp,true) else CGMessage(type_e_cant_read_write_type); end; else CGMessage(type_e_cant_read_write_type); end; { some format options ? } if hp^.is_colon_para then begin if hp^.right^.is_colon_para then begin frac_para:=hp; length_para:=hp^.right; hp:=hp^.right; hpp:=hp^.right; end else begin length_para:=hp; frac_para:=nil; hpp:=hp^.right; end; isreal:=(hpp^.left^.resulttype^.deftype=floatdef); if (not is_integer(length_para^.left^.resulttype)) then CGMessage1(type_e_integer_expr_expected,length_para^.left^.resulttype^.typename) else length_para^.left:=gentypeconvnode(length_para^.left,s32bitdef); if assigned(frac_para) then begin if isreal then begin if (not is_integer(frac_para^.left^.resulttype)) then CGMessage1(type_e_integer_expr_expected,frac_para^.left^.resulttype^.typename) else frac_para^.left:=gentypeconvnode(frac_para^.left,s32bitdef); end else CGMessage(parser_e_illegal_colon_qualifier); end; { do the checking for the colon'd arg } hp:=length_para; end; end; hp:=hp^.right; end; end; { pass all parameters again for the typeconversions } if codegenerror then exit; firstcallparan(p^.left,nil,true); set_varstate(p^.left,true); { calc registers } left_right_max(p); if extra_register then inc(p^.registers32); end; end; in_settextbuf_file_x : begin { warning here p^.left is the callparannode not the argument directly } { p^.left^.left is text var } { p^.left^.right^.left is the buffer var } { firstcallparan(p^.left,nil); already done in firstcalln } { now we know the type of buffer } getsymonlyin(systemunit,'SETTEXTBUF'); hp:=gencallnode(pprocsym(srsym),systemunit); hp^.left:=gencallparanode( genordinalconstnode(p^.left^.left^.resulttype^.size,s32bitdef),p^.left); putnode(p); p:=hp; firstpass(p); end; { the firstpass of the arg has been done in firstcalln ? } in_reset_typedfile, in_rewrite_typedfile : begin procinfo^.flags:=procinfo^.flags or pi_do_call; firstpass(p^.left); set_varstate(p^.left,true); p^.resulttype:=voiddef; end; in_str_x_string : begin procinfo^.flags:=procinfo^.flags or pi_do_call; p^.resulttype:=voiddef; { check the amount of parameters } if not(assigned(p^.left)) or not(assigned(p^.left^.right)) then begin CGMessage(parser_e_wrong_parameter_size); exit; end; { first pass just the string for first local use } hp:=p^.left^.right; p^.left^.right:=nil; firstcallparan(p^.left,nil,true); set_varstate(p^.left,false); { remove warning when result is passed } set_funcret_is_valid(p^.left^.left); p^.left^.right:=hp; firstcallparan(p^.left^.right,nil,true); set_varstate(p^.left^.right,true); hp:=p^.left; { valid string ? } if not assigned(hp) or (hp^.left^.resulttype^.deftype<>stringdef) or (hp^.right=nil) then CGMessage(cg_e_illegal_expression); { we need a var parameter } valid_for_assign(hp^.left,false); { generate the high() value for the shortstring } if is_shortstring(hp^.left^.resulttype) then gen_high_tree(hp,true); { !!!! check length of string } while assigned(hp^.right) do hp:=hp^.right; { check and convert the first param } if hp^.is_colon_para then CGMessage(cg_e_illegal_expression); isreal:=false; case hp^.resulttype^.deftype of orddef : begin case porddef(hp^.left^.resulttype)^.typ of u32bit,s32bit, s64bit,u64bit: ; u8bit,s8bit, u16bit,s16bit: hp^.left:=gentypeconvnode(hp^.left,s32bitdef); else CGMessage(type_e_integer_or_real_expr_expected); end; end; floatdef : begin isreal:=true; end; else CGMessage(type_e_integer_or_real_expr_expected); end; { some format options ? } hpp:=p^.left^.right; if assigned(hpp) and hpp^.is_colon_para then begin firstpass(hpp^.left); set_varstate(hpp^.left,true); if (not is_integer(hpp^.resulttype)) then CGMessage1(type_e_integer_expr_expected,hpp^.resulttype^.typename) else hpp^.left:=gentypeconvnode(hpp^.left,s32bitdef); hpp:=hpp^.right; if assigned(hpp) and hpp^.is_colon_para then begin if isreal then begin if (not is_integer(hpp^.resulttype)) then CGMessage1(type_e_integer_expr_expected,hpp^.resulttype^.typename) else begin firstpass(hpp^.left); set_varstate(hpp^.left,true); hpp^.left:=gentypeconvnode(hpp^.left,s32bitdef); end; end else CGMessage(parser_e_illegal_colon_qualifier); end; end; { pass all parameters again for the typeconversions } if codegenerror then exit; firstcallparan(p^.left,nil,true); { calc registers } left_right_max(p); end; in_val_x : begin procinfo^.flags:=procinfo^.flags or pi_do_call; p^.resulttype:=voiddef; { check the amount of parameters } if not(assigned(p^.left)) or not(assigned(p^.left^.right)) then begin CGMessage(parser_e_wrong_parameter_size); exit; end; If Assigned(p^.left^.right^.right) Then {there is a "code" parameter} Begin { first pass just the code parameter for first local use} hp := p^.left^.right; p^.left^.right := nil; make_not_regable(p^.left^.left); firstcallparan(p^.left, nil,true); set_varstate(p^.left,false); if codegenerror then exit; p^.left^.right := hp; {code has to be a var parameter} if valid_for_assign(p^.left^.left,false) then begin if (p^.left^.left^.resulttype^.deftype <> orddef) or not(porddef(p^.left^.left^.resulttype)^.typ in [u16bit,s16bit,u32bit,s32bit]) then CGMessage(type_e_mismatch); end; hpp := p^.left^.right End Else hpp := p^.left; {now hpp = the destination value tree} { first pass just the destination parameter for first local use} hp:=hpp^.right; hpp^.right:=nil; {hpp = destination} make_not_regable(hpp^.left); firstcallparan(hpp,nil,true); set_varstate(hpp,false); if codegenerror then exit; { remove warning when result is passed } set_funcret_is_valid(hpp^.left); hpp^.right := hp; if valid_for_assign(hpp^.left,false) then begin If Not((hpp^.left^.resulttype^.deftype = floatdef) or ((hpp^.left^.resulttype^.deftype = orddef) And (POrdDef(hpp^.left^.resulttype)^.typ in [u32bit,s32bit, u8bit,s8bit,u16bit,s16bit,s64bit,u64bit]))) Then CGMessage(type_e_mismatch); end; {hp = source (String)} { count_ref := false; WHY ?? } firstcallparan(hp,nil,true); set_varstate(hp,true); if codegenerror then exit; { if not a stringdef then insert a type conv which does the other type checking } If (hp^.left^.resulttype^.deftype<>stringdef) then begin hp^.left:=gentypeconvnode(hp^.left,cshortstringdef); firstpass(hp); end; { calc registers } left_right_max(p); { val doesn't calculate the registers really } { correct, we need one register extra (FK) } if is_64bitint(hpp^.left^.resulttype) then inc(p^.registers32,2) else inc(p^.registers32,1); end; in_include_x_y, in_exclude_x_y: begin p^.resulttype:=voiddef; if assigned(p^.left) then begin firstcallparan(p^.left,nil,true); set_varstate(p^.left,true); p^.registers32:=p^.left^.registers32; p^.registersfpu:=p^.left^.registersfpu; {$ifdef SUPPORT_MMX} p^.registersmmx:=p^.left^.registersmmx; {$endif SUPPORT_MMX} { remove warning when result is passed } set_funcret_is_valid(p^.left^.left); { first param must be var } valid_for_assign(p^.left^.left,false); { check type } if (p^.left^.resulttype^.deftype=setdef) then begin { two paras ? } if assigned(p^.left^.right) then begin { insert a type conversion } { to the type of the set elements } p^.left^.right^.left:=gentypeconvnode( p^.left^.right^.left, psetdef(p^.left^.resulttype)^.elementtype.def); { check the type conversion } firstpass(p^.left^.right^.left); { only three parameters are allowed } if assigned(p^.left^.right^.right) then CGMessage(cg_e_illegal_expression); end; end else CGMessage(type_e_mismatch); end else CGMessage(type_e_mismatch); end; in_low_x, in_high_x: begin set_varstate(p^.left,false); if p^.left^.treetype in [typen,loadn,subscriptn] then begin case p^.left^.resulttype^.deftype of orddef,enumdef: begin do_lowhigh(p^.left^.resulttype); firstpass(p); end; setdef: begin do_lowhigh(Psetdef(p^.left^.resulttype)^.elementtype.def); firstpass(p); end; arraydef: begin if p^.inlinenumber=in_low_x then begin hp:=genordinalconstnode(Parraydef(p^.left^.resulttype)^.lowrange, Parraydef(p^.left^.resulttype)^.rangetype.def); disposetree(p); p:=hp; firstpass(p); end else begin if is_open_array(p^.left^.resulttype) or is_array_of_const(p^.left^.resulttype) then begin getsymonlyin(p^.left^.symtable,'high'+pvarsym(p^.left^.symtableentry)^.name); hp:=genloadnode(pvarsym(srsym),p^.left^.symtable); disposetree(p); p:=hp; firstpass(p); end else begin hp:=genordinalconstnode(Parraydef(p^.left^.resulttype)^.highrange, Parraydef(p^.left^.resulttype)^.rangetype.def); disposetree(p); p:=hp; firstpass(p); end; end; end; stringdef: begin if p^.inlinenumber=in_low_x then begin hp:=genordinalconstnode(0,u8bitdef); disposetree(p); p:=hp; firstpass(p); end else begin if is_open_string(p^.left^.resulttype) then begin getsymonlyin(p^.left^.symtable,'high'+pvarsym(p^.left^.symtableentry)^.name); hp:=genloadnode(pvarsym(srsym),p^.left^.symtable); disposetree(p); p:=hp; firstpass(p); end else begin hp:=genordinalconstnode(Pstringdef(p^.left^.resulttype)^.len,u8bitdef); disposetree(p); p:=hp; firstpass(p); end; end; end; else CGMessage(type_e_mismatch); end; end else CGMessage(type_e_varid_or_typeid_expected); end; in_cos_extended: begin if p^.left^.treetype in [ordconstn,realconstn] then setconstrealvalue(cos(getconstrealvalue)) else handleextendedfunction; end; in_sin_extended: begin if p^.left^.treetype in [ordconstn,realconstn] then setconstrealvalue(sin(getconstrealvalue)) else handleextendedfunction; end; in_arctan_extended: begin if p^.left^.treetype in [ordconstn,realconstn] then setconstrealvalue(arctan(getconstrealvalue)) else handleextendedfunction; end; in_pi: if block_type=bt_const then setconstrealvalue(pi) else begin p^.location.loc:=LOC_FPU; p^.resulttype:=s80floatdef; end; in_abs_extended: begin if p^.left^.treetype in [ordconstn,realconstn] then setconstrealvalue(abs(getconstrealvalue)) else handleextendedfunction; end; in_sqr_extended: begin if p^.left^.treetype in [ordconstn,realconstn] then setconstrealvalue(sqr(getconstrealvalue)) else handleextendedfunction; end; in_sqrt_extended: begin if p^.left^.treetype in [ordconstn,realconstn] then begin vr:=getconstrealvalue; if vr<0.0 then begin CGMessage(type_e_wrong_math_argument); setconstrealvalue(0); end else setconstrealvalue(sqrt(vr)); end else handleextendedfunction; end; in_ln_extended: begin if p^.left^.treetype in [ordconstn,realconstn] then begin vr:=getconstrealvalue; if vr<=0.0 then begin CGMessage(type_e_wrong_math_argument); setconstrealvalue(0); end else setconstrealvalue(ln(vr)); end else handleextendedfunction; end; {$ifdef SUPPORT_MMX} in_mmx_pcmpeqb..in_mmx_pcmpgtw: begin end; {$endif SUPPORT_MMX} in_assert_x_y : begin p^.resulttype:=voiddef; if assigned(p^.left) then begin firstcallparan(p^.left,nil,true); set_varstate(p^.left,true); p^.registers32:=p^.left^.registers32; p^.registersfpu:=p^.left^.registersfpu; {$ifdef SUPPORT_MMX} p^.registersmmx:=p^.left^.registersmmx; {$endif SUPPORT_MMX} { check type } if is_boolean(p^.left^.resulttype) then begin { must always be a string } p^.left^.right^.left:=gentypeconvnode(p^.left^.right^.left,cshortstringdef); firstpass(p^.left^.right^.left); end else CGMessage(type_e_mismatch); end else CGMessage(type_e_mismatch); { We've checked the whole statement for correctness, now we can remove it if assertions are off } if not(cs_do_assertion in aktlocalswitches) then begin disposetree(p^.left); putnode(p); { we need a valid node, so insert a nothingn } p:=genzeronode(nothingn); end; end; else internalerror(8); end; end; { generate an error if no resulttype is set } if not assigned(p^.resulttype) then p^.resulttype:=generrordef; dec(parsing_para_level); end; end. { $Log$ Revision 1.62 1999-12-02 12:38:45 florian + added support for succ/pred() Revision 1.61 1999/11/30 10:40:58 peter + ttype, tsymlist Revision 1.60 1999/11/18 15:34:49 pierre * Notes/Hints for local syms changed to Set_varstate function Revision 1.59 1999/11/17 17:05:07 pierre * Notes/hints changes Revision 1.58 1999/11/06 14:34:30 peter * truncated log to 20 revs Revision 1.57 1999/10/29 15:28:51 peter * fixed assert, the tree is now disposed in firstpass if assertions are off. Revision 1.56 1999/10/26 12:30:46 peter * const parameter is now checked * better and generic check if a node can be used for assigning * export fixes * procvar equal works now (it never had worked at least from 0.99.8) * defcoll changed to linkedlist with pparaitem so it can easily be walked both directions Revision 1.55 1999/10/22 14:37:31 peter * error when properties are passed to var parameters Revision 1.54 1999/10/21 16:41:41 florian * problems with readln fixed: esi wasn't restored correctly when reading ordinal fields of objects futher the register allocation didn't take care of the extra register when reading ordinal values * enumerations can now be used in constant indexes of properties Revision 1.53 1999/09/28 20:48:27 florian * fixed bug 610 + added $D- for TP in symtable.pas else it can't be compiled anymore (too much symbols :() Revision 1.52 1999/09/27 23:45:01 peter * procinfo is now a pointer * support for result setting in sub procedure Revision 1.51 1999/09/15 20:35:46 florian * small fix to operator overloading when in MMX mode + the compiler uses now fldz and fld1 if possible + some fixes to floating point registers + some math. functions (arctan, ln, sin, cos, sqrt, sqr, pi) are now inlined * .... ??? Revision 1.50 1999/09/07 14:05:11 pierre * halt removed in do_lowhigh Revision 1.49 1999/08/28 15:34:21 florian * bug 519 fixed Revision 1.48 1999/08/23 23:41:04 pierre * in_inc_x register allocation corrected Revision 1.47 1999/08/06 12:43:13 jonas * fix for regvars with the val code Revision 1.46 1999/08/05 16:53:23 peter * V_Fatal=1, all other V_ are also increased * Check for local procedure when assigning procvar * fixed comment parsing because directives * oldtp mode directives better supported * added some messages to errore.msg Revision 1.45 1999/08/04 00:23:40 florian * renamed i386asm and i386base to cpuasm and cpubase Revision 1.44 1999/08/03 22:03:32 peter * moved bitmask constants to sets * some other type/const renamings Revision 1.43 1999/07/30 12:28:43 peter * fixed crash with unknown id and colon parameter in write Revision 1.42 1999/07/18 14:47:35 florian * bug 487 fixed, (inc() isn't allowed) * more fixes to compile with Delphi Revision 1.41 1999/07/05 20:25:40 peter * merged Revision 1.40 1999/07/05 20:13:18 peter * removed temp defines Revision 1.39 1999/07/03 14:14:31 florian + start of val(int64/qword) * longbool, wordbool constants weren't written, fixed Revision 1.38 1999/07/01 15:49:22 florian * int64/qword type release + lo/hi for int64/qword }