#define _TOKC_ #include /* O_ constant definitions */ #include #include "tok.h" void GetFileTime(int fd,struct ftime *buf); #define MAXIF 32 //idrec *crec=NULL; char invaliddecrem[]="invalid token to be decremented"; char mesLOOPNZ[]="LOOPNZ"; char mesIF[]="IF"; char mesELSE[]="ELSE"; char mesWHILE[]="WHILE"; char mesFOR[]="FOR"; char mesRETURN[]="RETURN"; int tok,tok2; /* token holders current, next */ unsigned char string[STRLEN],string2[STRLEN+20], string3[STRLEN]; //содержит не преобразованную строку unsigned int posts=0; /* number of post entrys */ postinfo *postbuf; unsigned int maxposts=MAXPOSTS; unsigned int secondcallnum=1; /* # of different second calls and labels */ unsigned int externnum=0; unsigned long postsize=0; /* total size of all post vars */ unsigned int poststrptr=0; /* post string index in output */ unsigned int outptrsize=MAXDATA; //размер выходного буфера для кода unsigned int outdatasize=MAXDATA; //размер выходного буфера для данных long runfilesize; int error=0; /* current error number holder */ unsigned char dos1=0,dos2=0; /* DOS version required for program execution */ unsigned char cpu=0; /* CPU required, 2 for 80286, 3 for 80386, ... */ unsigned int paramsize=0; /* byte size of all procedure parameters */ unsigned int localsize=0; /* byte size of all procedure local variables */ unsigned int procedure_start=0; /* address of start of procedure */ unsigned int current_proc_type; /* current procedure type */ int returntype; /* return type, (void, byte, word, ...) */ unsigned char warning; /*+++++++++++++++++++++++ Установки по умолчанию +++++++++++++++++++++++*/ unsigned char am32 = FALSE; // режим 32 битной адресации unsigned char comfile = file_com; // output file format unsigned char optimizespeed = 1; // optimize for size or speed flag unsigned char alignword = 1; // flag whether or not to align words unsigned char aligner = 0; // value used to align words unsigned char header = 1; // output SPHINX C-- Ver1 Ver2 header unsigned char chip = 0; // CPU optimization (286,386,486,...) unsigned char killctrlc = 0; // add disable CTRL-C code in header unsigned int stacksize = 2048; // stack size (2048 default) unsigned char splitdata=FALSE; //отделить данные от кода unsigned char AlignCycle=FALSE; //выравнивать начала циклов /*+++++++++++++++++++ end of flexable compiler options ++++++++++++++++++++*/ unsigned char notdoneprestuff = TRUE; // flag if initial stuff has been entered unsigned int datasize=0,alignersize=0; /* size of data and other */ unsigned int outptr=0x100,outptrdata=0x100; /* ptr to output */ unsigned char *output; unsigned char *outputdata=NULL; unsigned int linenumber=0; unsigned char dynamic_flag=0; //флаг обработки динамических элементов unsigned char *input; /* dynamic input buffer */ unsigned int endinptr; /* end index of input array */ unsigned int inptr; /* index in input buffer */ unsigned char cha; /* pipe byte for token production */ char endoffile; /* end of input file flag */ unsigned char insertmode=FALSE; unsigned int numblocks=0; //номер вложенного блока treelocalrec *tlr=NULL; //цепочка локальных блоков treelocalrec *btlr=NULL; //цепочка использованых локальных блоков RETLIST *listreturn=NULL; unsigned int numreturn=0; idrec *staticlist; unsigned char stat_reg[8]; //таблица занятости регистров int sizestack=0; //размер не компенсированных параметров функций unsigned char addstack=TRUE; extern char shorterr[]; extern unsigned long long li[]; /*-----------------01.05.98 19:22------------------- дополнительные переменные для реализации BREAK CONTINUE --------------------------------------------------*/ #define MAXIN 100 //максимальная вложеность циклов unsigned int numbr=0; //счетчик общего числа циклов LOOP DO-WHILE... unsigned int listbr[MAXIN]; //таблица номеров циклов unsigned int usebr[MAXIN]; //использовано break unsigned int useco[MAXIN]; //использовано continue unsigned int curbr=0,curco=0; //текущаявложеность циклов unsigned int startStartup=0x100; unsigned int endStartup=0; unsigned char useStartup=FALSE; unsigned char notpost=FALSE; int retproc; int lastcommand; //последний оператор в блоке unsigned char FastCallApi=TRUE; //разрешить быстрый вызов API процедур unsigned char FixUp=FALSE; //Делать ли таблицу перемещений unsigned char AlignProc=FALSE; //------- работа с union --------------------------------------------- char param[256]; //буфер для параметров процедуры char *BackTextBlock; //буфер для перенесенного текста int SizeBackBuf=0,MaxSizeBackBuf; struct FILEINFO *startfileinfo=NULL; unsigned int totalmodule=0; unsigned int currentfileinfo; unsigned char setzeroflag; //операция меняет zero flag unsigned char notunreach=FALSE; unsigned int initBP=0; int inlineflag=0; // flag for disabling entry and exit codes production unsigned char fstatic=FALSE; unsigned long addESP=0; //добавка стека unsigned char blockproc=FALSE; //идетразборка блока функции unsigned int updatelocalvar(char *str,int tok,unsigned int num); void setuprm(); void doloop(unsigned int typeb); /* both short and long loops */ void doBREAK(unsigned char typeb); void doCONTINUE(unsigned char typeb); void dowhile(unsigned int typeb); void MakeContinue(unsigned char typeb); void dofor(unsigned int typeb); void dodo(); void globalvar(); /* both initialized and unitialized combined */ void doswitch(); void CalcRegPar(int reg,int def,char *&ofsstr); void JXorJMP(); int loadinputfile(char *inpfile); int SaveStartUp(int size,char *var_name); void LoadData(unsigned int size,int filehandle); void SetNewTok(int type,int typev); void doreturn(int type=tokens); /* do return(...); */ void notnegit(int notneg); void insertcode(); // force code procedure at specified location void interruptproc(); void dobigif(); void doif(void); void doasmblock(); void declareextern(); unsigned long dounion(int,int); void RunBackText(); int FindDublString(int segm,unsigned int len,int term); void *liststring=NULL; //цепочка информационных блоков о строках void GetNameLabel(int type,int num); void CheckPosts(); SAVEPAR *SRparam(int save,SAVEPAR *par); //save or restore global param compiler void AddRetList(int pos,int line,int type); void CheckRealizable(); void declare_procedure(int oflag,int orm,int npointr); void labelindata(); void AddRegistr(int razr,int reg); void ClearRegister(); int GetRegister(int mode=0); void RegAddNum(int reg); void dowhilefast(unsigned int typeb); int getrazr(int type); void RestoreSaveReg(); void killlocals(/*int endp=TRUE*/); void leaveproc(); int IsSaveReg(); void CorrectParamVar(); extern void ManyLogicCompare(); extern void maxdataerror(); extern void CompareOr(); extern void dynamiclabelerror(); extern void retvoid(); extern int numberbreak; SAVEREG savereg; SAVEREG *psavereg=&savereg; int loadfile(char *filename,int firstflag) { int hold; for(int i=0;i<=numfindpath;i++){ char *path = findpath[(firstflag==0?i:numfindpath-i)]; // FIXME! (нужно выяснить, почему path может быть равен "\0") if(path && strlen(path)) { sprintf((char *)string2,"%s%s", path, filename); } else { strcpy((char *)string2, filename); } #ifndef _WIN32_ for(char* p=(char *)string2; *p; ++p) if(*p=='\\') *p='/'; #endif if((hold=loadinputfile((char *)string2))!=-2)break; if(firstflag==2||(firstflag==0&&(i+1)==numfindpath))break; } if(hold==-2){ unableopenfile(filename); //сообщение о ошибке exit(e_cannotopeninput); //завершить работу если не смогли загрузить файл } return hold; } void compilefile(char *filename,int firstflag) { int hold; hold=loadfile(filename,firstflag); if(hold==1||hold==-1)return; if(strcmp(filename,"startup.h--")==0)startupfile=currentfileinfo; inptr=0; endoffile=0; startline=(char*)input; endinput=startline+endinptr; warning=gwarning; nextchar(); cha2=cha; //символ из буфера inptr2=inptr; //запомн указатель на след символ linenum2=1; //номер строки { //проверка на файл ресурсов и его обработка char *a; if((a=strrchr(filename,'.'))!=NULL){ if(stricmp(a,".rc")==0){ input_res(); free(input); return; } } } nexttok(); //опр тип первого и второго токена while(tok!=tk_eof){ //цикл пока не кончится файл while(tok==tk_question){ directive();//обработка директив if(tok==tk_semicolon)nexttok(); } usedirectiv=FALSE; if(notdoneprestuff==TRUE)doprestuff();//startup switch(tok){ case tk_ID: case tk_id: if(FindTeg(TRUE)!=NULL){ InitStruct(); break; } if(tok2==tk_colon){ labelindata(); break; } case tk_far: case tk_cdecl: case tk_pascal: case tk_stdcall: case tk_fastcall: case tk_declare: case tk_undefproc: case tk_float: case tk_long: case tk_dword: case tk_word: case tk_byte: case tk_char: case tk_int: case tk_void: case tk_export: case tk_qword: case tk_double: case tk_fpust: if((hold=testInitVar())==FALSE)define_procedure(); else if(hold==TRUE)globalvar(); break; case tk_struct: InitStruct(); break; case tk_interrupt: interruptproc(); break; case tk_at: insertcode(); break; //вставка регистровой процедуры case tk_colon: nexttok(); dynamic_flag=2; break;// опр динамической процедуры case tk_inline: if(testInitVar()){ preerror("Bad header dynamic function"); nexttok(); } dynamic_proc(); break; case tk_static: fstatic=2; nexttok(); break; case tk_enum: doenum(); break; case tk_from: nexttok(); dofrom(); nextseminext(); break; case tk_extract: nexttok(); doextract(); seminext(); break; case tk_loop: case tk_while: case tk_do: case tk_else: case tk_ELSE: case tk_if: case tk_IF: case tk_interruptproc: case tk_proc: case tk_charvar: case tk_intvar: case tk_bytevar: case tk_longvar: case tk_dwordvar: case tk_floatvar: case tk_qwordvar: case tk_doublevar: case tk_wordvar: idalreadydefined(); break; case tk_reg32: case tk_debugreg: case tk_controlreg: case tk_testreg: case tk_reg: case tk_seg: case tk_beg: case tk_reg64: preerror("register name cannot be used as an identifier"); nexttok(); case tk_eof: break; case tk_locallabel: internalerror("local label token found outside function block."); break; case tk_extern: declareextern(); break; case tk_union: dynamic_flag=0; dounion(TRUE,fstatic==0?0:f_static); break; case tk_semicolon: nexttok(); break; case tk_asm: if(tok2==tk_openbrace)doasmblock(); else doasm(); break; case tk_idasm: doasm(TRUE); break; case tk_dollar: doasm(FALSE); break; default: unuseableinput(); /* while(itok.type==tp_stopper&&tok!=tk_eof)*/nexttok(); break; } if(fstatic)fstatic--; else if(dynamic_flag)dynamic_flag--; } (startfileinfo+currentfileinfo)->stlist=staticlist; free(input); } /* ------------------- output procedures start ------------------- */ int CheckCodeSize() //проверка размера буфера для кода { if(!am32){ maxoutputerror(); return FALSE; } outptrsize+=MAXDATA; output=(unsigned char *)REALLOC(output,outptrsize); if(splitdata==FALSE)outputdata=output; return TRUE; } int CheckDataSize() //проверка размера буфера для кода { if(!am32){ maxoutputerror(); return FALSE; } outdatasize+=MAXDATA; outputdata=(unsigned char *)REALLOC(outputdata,outdatasize); return TRUE; } void op(int byte) { if(outptr>=outptrsize&&CheckCodeSize()==FALSE)return; output[outptr++]=(unsigned char)byte; if(splitdata==FALSE)outptrdata=outptr; retproc=FALSE; } void opd(int byte) { if(splitdata==FALSE){ if(outptr>=outptrsize&&CheckCodeSize()==FALSE)return; output[outptr++]=(unsigned char)byte; outptrdata=outptr; } else{ if(outptrdata>=outdatasize&&CheckDataSize()==FALSE)return; outputdata[outptrdata++]=(unsigned char)byte; } } void CorrectOfsBit(int bitofs) { bitofs=(bitofs+7)/8; if(splitdata)outptrdata+=bitofs; else{ outptr+=bitofs; outptrdata=outptr; } } long GetBitMask(int ofs,int size) { return (~((li[size]-1)<=outptrsize&&CheckCodeSize()==FALSE)return; } else{ if((outptrdata+s+8)>=outdatasize&&CheckDataSize()==FALSE)return; } if(size!=32)num=num&(li[size]-1); s=outptrdata+ofs/8; ofs=ofs%8; *(long *)&outputdata[s]&=GetBitMask(ofs,size); *(long *)&outputdata[s]|=(num<32){ *(long *)&outputdata[s+4]&=GetBitMask(0,ofs+size-32); *(long *)&outputdata[s+4]|=(num>>(64-ofs-size)); // printf("continue ofs=%Xh mask=%X value=%X\n",s+4,GetBitMask(0,ofs+size-32),num>>(64-ofs-size)); } } void outword(unsigned int num) { op(num); op(num/256); } void outwordd(unsigned int num) { opd(num); opd(num/256); } void outdword(unsigned long num) { outword((unsigned int)(num&0xFFFFL)); outword((unsigned int)(num/0x10000L)); } void outdwordd(unsigned long num) { outwordd((unsigned int)(num&0xFFFFL)); outwordd((unsigned int)(num/0x10000L)); } void outqword(unsigned long long num) { outdword((unsigned long)(num&0xFFFFFFFFL)); outdword((unsigned long)(num/0x100000000LL)); } void outqwordd(unsigned long long num) { outdwordd((unsigned long)(num&0xFFFFFFFFL)); outdwordd((unsigned long)(num/0x100000000LL)); } void doasmblock() { nexttok(); useasm=TRUE; expecting(tk_openbrace); for(;;){ if(tok==tk_closebrace)break; if(tok==tk_eof){ unexpectedeof(); break; } lastcommand=tok; if(dbg)AddLine(); doasm(TRUE); } useasm=FALSE; nexttok(); } void doblock() { expecting(tk_openbrace); doblock2(); /* for(;;){ if(tok==tk_closebrace)break; if(tok==tk_eof){ unexpectedeof(); break; } docommand(); } RestoreStack();*/ } void doblock2() { for(;;){ if(tok==tk_closebrace)break; if(tok==tk_eof){ unexpectedeof(); break; } docommand(); } if(numblocks==1&&addstack&&sizestack&&localsize&&am32&&ESPloc&&IsSaveReg()==FALSE){ localsize+=sizestack; sizestack=0; } else RestoreStack(); } void gotodo() { nexttok(); if(gotol(0))nexttok(); seminext(); } void GOTOdo() { nexttok(); if(GOTO())nexttok(); seminext(); } void docommand() /* do a single command */ { unsigned int useflag; useflag=0; if(dbg)AddLine(); //loops: lastcommand=tok; // printf("tok=%d %s\n",tok,itok.name); switch(tok){ case tk_ID: useflag++; case tk_id: if((useflag=doid((char)useflag,tk_void))!=tokens){ nextseminext(); if(useflag==tk_fpust)preerror("function returned parametr in FPU stack"); } else if(tok!=tk_closebrace)docommand(); break; case tk_apiproc: case tk_undefproc: case tk_declare: if(doanyundefproc()!=tokens)nextseminext(); else if(tok!=tk_closebrace)docommand(); break; case tk_proc: doanyproc(); nextseminext(); break; case tk_interruptproc: outword(0x0E9C); //pushf //push cs useflag=itok.post; callloc(itok.number); nexttok(); expecting(tk_openbracket); expecting(tk_closebracket); #ifdef OPTVARCONST FreeGlobalConst(); #endif seminext(); clearregstat(useflag); break; case tk_bits: dobits(); break; case tk_charvar: useflag=1; case tk_bytevar: dobytevar(useflag); break; case tk_intvar: useflag=1; case tk_wordvar: do_d_wordvar(useflag,r16); break; case tk_longvar: useflag=1; case tk_dwordvar: do_d_wordvar(useflag,r32); break; case tk_doublevar: useflag=4; case tk_floatvar: dofloatvar(useflag,tk_floatvar,tk_semicolon); break; case tk_qwordvar: doqwordvar(); break; case tk_fpust: dofloatstack(itok.number); break; case tk_structvar: dostruct(); break; case tk_pointer: dopointer(); break; case tk_mult: dovalpointer(); break; case tk_RETURN: case tk_return: RestoreStack(); #ifdef OPTVARCONST ClearLVIC(); #endif doreturn(tok); CheckRealizable(); break; case tk_at: nexttok(); if(tok2==tk_colon){ LLabel(); if(tok!=tk_closebrace)docommand(); } else if(macros(tk_void)!=0)nextseminext(); break; case tk_if: RestoreStack(); doif(); break; case tk_IF: RestoreStack(); dobigif(); break; case tk_loopnz: case tk_LOOPNZ: case tk_loop: RestoreStack(); doloop(tok); break; case tk_while: case tk_WHILE: RestoreStack(); dowhilefast(tok); break; case tk_do: RestoreStack(); dodo(); break; case tk_for: case tk_FOR: RestoreStack(); dofor(tok); break; case tk_reg32: doreg_32((unsigned int)itok.number,r32); break; case tk_reg: doreg_32((unsigned int)itok.number,r16); break; case tk_beg: dobeg((unsigned int)itok.number); break; case tk_reg64: doreg64(itok.number); break; case tk_seg: doseg((unsigned int)itok.number); break; case tk_openbrace: startblock(); doblock(); nexttok(); endblock(); break; case tk_from: nexttok(); dofrom(); nextseminext(); break; case tk_extract: nexttok(); doextract(); seminext(); break; case tk_minus: useflag=8; case tk_not: notnegit(useflag); nextseminext(); break; case tk_locallabel: RestoreStack(); define_locallabel(); break; case tk_camma: case tk_semicolon: nexttok(); break; case tk_else: preerror("else without preceeding if or IF"); nexttok(); break; case tk_ELSE: preerror("ELSE without preceeding IF or if"); nexttok(); break; case tk_eof: unexpectedeof(); break; case tk_void: case tk_long: case tk_dword: case tk_word: case tk_byte: case tk_int: case tk_char: preerror("cannot declare variables within function { } block"); nexttok(); break; case tk_GOTO: RestoreStack(); GOTOdo(); CheckRealizable(); break; case tk_goto: RestoreStack(); gotodo(); CheckRealizable(); break; case tk_BREAK: RestoreStack(); doBREAK(BREAK_SHORT); CheckRealizable(); break; case tk_break: RestoreStack(); doBREAK((unsigned char)(am32==FALSE?BREAK_NEAR:BREAK_32)); CheckRealizable(); break; case tk_CONTINUE: RestoreStack(); doCONTINUE(CONTINUE_SHORT); CheckRealizable(); break; case tk_continue: RestoreStack(); doCONTINUE((unsigned char)(am32==FALSE?CONTINUE_NEAR:CONTINUE_32)); CheckRealizable(); break; case tk_asm: if(tok2==tk_openbrace)doasmblock(); else doasm(); break; case tk_idasm: useflag=TRUE; case tk_dollar: doasm(useflag); break; case tk_SWITCH: case tk_switch: RestoreStack(); doswitch(); break; case tk_delete: dodelete(); break; case tk_new: donew(); seminext(); break; case tk_question: // calcnumber=FALSE; while(tok==tk_question)directive(); break; /* case tk_openbracket: nexttok(); nexttok(); expectingoperand(tk_closebracket); goto loops;*/ default: unuseableinput(); break; } notunreach=FALSE; } void doBREAK(unsigned char typeb) { if(curbr==0)preerror("'BREAK' or 'break' use only in loop, do-while.."); else MakeBreak(typeb); nextseminext(); } void doCONTINUE(unsigned char typeb) { if(curco==0)preerror("'CONTINUE' or 'continue' use only in loop, do-while.."); else MakeContinue(typeb); nextseminext(); } void MakeBreak(unsigned char typeb) { unsigned int nbr=0; if(tok2==tk_number){ nexttok(); nbr=itok.number; if(nbr>=curbr)preerror("'BREAK' or 'break' on incorrect number skip cycle"); } numberbreak=nbr; nbr=curbr-1-nbr; if(usebr[nbr]==0){ GetNameLabel(tk_break,nbr); addlocalvar((char *)string2,tk_locallabel,secondcallnum,TRUE); usebr[nbr]=secondcallnum; secondcallnum++; } addacall(usebr[nbr],typeb); if(typeb==BREAK_SHORT)outword(0x00EB); // JMP SHORT else jumploc0(); } void MakeContinue(unsigned char typeb) { unsigned int nbr=0; if(tok2==tk_number){ nexttok(); nbr=itok.number; if(nbr>=curco)preerror("'CONTINUE' or 'continue' on incorrect number skip cycle"); } nbr=curco-1-nbr; if(useco[nbr]==0){ GetNameLabel(tk_continue,nbr); // printf("%s nbr=%d\n",(char *)string2,nbr); addlocalvar((char *)string2,tk_locallabel,secondcallnum,TRUE); useco[nbr]=secondcallnum; secondcallnum++; } addacall(useco[nbr],typeb); if(typeb==CONTINUE_SHORT)outword(0x00EB); // JMP SHORT else jumploc0(); } int CheckExitProc() { if(strcmp(itok.name,"EXIT")==0||strcmp(itok.name,"ABORT")==0)return TRUE; return FALSE; } void LLabel() { localrec *ptr; #ifdef OPTVARCONST ClearLVIC(); #endif RestoreStack(); clearregstat(); switch(tok){ case tk_id: case tk_ID: FindOff((unsigned char *)itok.name,CS); ptr=addlocalvar(itok.name,tk_number,outptr,TRUE); if(FixUp)ptr->rec.flag=f_reloc; break; case tk_undefproc: ptr=addlocalvar(itok.name,tk_number,outptr,TRUE);//добавить в локальный список if(FixUp)ptr->rec.flag=f_reloc; updatecall((unsigned int)itok.number,outptr,procedure_start);//обработать ранние обращения break; default: preerror("error declaretion local label"); break; } nexttok(); nexttok(); } void AddApiToPost(unsigned int num) { CheckPosts(); (postbuf+posts)->type=CALL_32I; (postbuf+posts)->loc=outptr; (postbuf+posts)->num=num; posts++; outdword(0); } /* ---------------------- Procedure Calling Starts -------------------- */ int doanyundefproc(int jumpsend) { unsigned int cnum,snum; int returnvalue; int regs; char fname[IDLENGTH]; if(tok2==tk_colon){ // if a label #ifdef OPTVARCONST ClearLVIC(); #endif RestoreStack(); clearregstat(); if(CidOrID()==tk_ID){//local label that has been used, but not placed localrec *ptr=addlocalvar(itok.name,tk_number,outptr,TRUE); if(FixUp)ptr->rec.flag=f_reloc; updatecall((unsigned int)itok.number,outptr,procedure_start);//обработать ранние обращения } else{ //глобальная метка tok=tk_proc; itok.number=outptr; string[0]=0; updatecall((unsigned int)updatetree(),(unsigned int)itok.number,0); } nexttok(); // move past id nexttok(); // move past : return(tokens); } if(tok2==tk_openbracket){ strcpy(fname,itok.name); if(tok==tk_declare){ //сменить статус процедуры с объявленой на неизвестную tok=tk_undefproc; updatetree(); if(itok.flag&f_classproc)AddUndefClassProc(); } cnum=(unsigned int)itok.number; regs=itok.post; returnvalue=itok.rm; unsigned int tproc=itok.flag; unsigned char apiproc=FALSE; unsigned int oaddESP=addESP; int sizestack=-1; if(tok==tk_apiproc){ apiproc=TRUE; sizestack=itok.size; //размер стека под параметры } #ifdef OPTVARCONST if(tproc&f_useidx)ClearLVIC(); else FreeGlobalConst(); #endif int exitproc=CheckExitProc(); snum=initparamproc(); if(sizestack!=-1){ if(snum>(unsigned int)sizestack)extraparam(fname); else if(snum<(unsigned int)sizestack)missingpar(fname); } if((tproc&f_typeproc)!=tp_cdecl){ snum=0; addESP=oaddESP; } if(FastCallApi==TRUE&&apiproc!=FALSE){ if(jumpsend)outword(0x25ff); else outword(0x15FF); AddApiToPost(cnum); } else{ addacall(cnum,(unsigned char)((tproc&f_extern)!=0?CALL_EXT:(am32!=FALSE?CALL_32:CALL_NEAR))); if(jumpsend)jumploc0(); else callloc0(); /* produce CALL [#] */ } clearregstat(regs); if(snum!=0&&jumpsend==FALSE)CorrectStack(snum); retproc=exitproc; return(returnvalue); } thisundefined(itok.name); nexttok(); return(tk_long); } void CorrectStack(unsigned int num) { if(addstack){ sizestack+=num; // printf("%s(%d)> Add %d bytes stacks.\n",startfileinfo==NULL?"":(startfileinfo+currentfileinfo)->filename,linenumber,num); } else{ if(short_ok(num)){ outword(0xC483); op(num); } else{ outword(0xC481); if(am32==FALSE)outword(num); else outdword(num); } addESP-=num; } } unsigned int initparamproc() { unsigned int typep=itok.flag,snum=0; ITOK ostructadr=structadr; strcpy(param,(char *)string); nexttok(); switch(typep&f_typeproc){ case tp_cdecl: case tp_stdcall: snum=swapparam(); break; case tp_pascal: doparams(); break; case tp_fastcall: doregparams(); break; } // if(crec)printf("after doparams num=%08X\n",crec->recnumber); if((typep&f_classproc)&&(!(typep&f_static))){ if((current_proc_type&f_static)&&structadr.sib==THIS_PARAM )return snum; structadr=ostructadr; if(structadr.sib==THIS_PARAM){ if(structadr.number==0){ op(0xff); if(ESPloc&&am32){ int num; num=localsize+addESP+4; if(short_ok(num,TRUE)){ outword(0x2474); op(num); } else{ outword(0x24B4); outdword(num); } } else outword(am32==FALSE?0x0476:0x0875);//push[ebp+4] } else{ int reg=GetRegister(1); op(0x8B); if(ESPloc&&am32){ int num; num=localsize+addESP+4; if(short_ok(num,TRUE)){ op(4+reg*8+64); op(0x24); op(num); } else{ op(4+reg*8+128); op(0x24); outdword(num); } } else{ op((am32==FALSE?6:5)+reg*8+64); op((am32==FALSE?4:8));//mov ESI,[ebp+4] } RegAddNum(reg); op(0x50+reg); //push reg warningreg(regs[am32][reg]); } } else if(structadr.sib==THIS_REG){ if(structadr.number/*size*/!=0){ int reg=GetRegister(1); if(reg==structadr.rm)RegAddNum(reg); else{ if(am32==FALSE){ switch(structadr.rm){ case BX: structadr.rm=7; break; case DI: structadr.rm=5; break; case SI: structadr.rm=4; break; case BP: structadr.rm=6; break; default: regBXDISIBPexpected(); } structadr.sib=CODE16; } else structadr.sib=CODE32; structadr.rm|=(structadr.number<128?rm_mod01:rm_mod10); op(0x8d); //lea reg [reg2+num] op(structadr.rm+reg*8); outaddress(&structadr); } op(0x50+reg); warningreg(regs[am32][reg]); } else op(0x50+structadr.rm); } else if(structadr.sib==THIS_NEW){ RunNew(structadr.number); op(0x50); } else if(structadr.sib==THIS_ZEROSIZE){ outword(0x6a); //push 0 } else{ // printf("post=%d\n",structadr.post); if(structadr.post==LOCAL){ int reg=GetRegister(1); structadr.post=0; outseg(&structadr,2); op(0x8d); op(structadr.rm+reg*8); outaddress(&structadr); op(0x50+reg); warningreg(regs[am32][reg]); } else{ if(strinf.bufstr){ int reg=GetRegister(1); int newreg; if((newreg=CheckIDXReg(strinf.bufstr,strinf.size,reg))!=NOINREG){ if(newreg!=SKIPREG){ if(am32==FALSE&&newreg!=BX&&newreg!=DI&&newreg!=SI&&newreg!=BP)goto noopt; waralreadinitreg(regs[am32][reg],regs[am32][newreg]); reg=newreg; } free(strinf.bufstr); goto cont1; } noopt: if(newreg=CheckMassiv(strinf.bufstr,strinf.size,reg)!=-1)reg=newreg; cont1: strinf.bufstr=NULL; RegAddNum(reg); op(0x50+reg); } else{ op(0x68); if(structadr.post/*&&structadr.post!=USED_DIN_VAR*/)setwordpost(&structadr); else if(FixUp)AddReloc(); if(am32==FALSE)outword((unsigned int)structadr.number); else outdword(structadr.number); } } } snum+=(am32==FALSE?2:4); addESP+=(am32==FALSE?2:4); } if(typep&f_far)op(0x0e); //push cs return snum; } int doanyproc(int jumpsend) { unsigned int cloc,snum; int returnvalue,dynamicindex; int regs; if(tok2==tk_colon){ preerror("dublication global label"); nexttok(); return 0; } cloc=(unsigned int)itok.number; /* get address or handle */ returnvalue=itok.rm; regs=itok.post; // printf("regs=%08X name=%s\n",regs,itok.name); int flag=itok.flag; if(itok.npointr)dopointerproc(); else{ if((itok.flag&f_inline)!=0&&(useinline==TRUE||(useinline==2&&optimizespeed))){ if(macros(tk_void)!=0)return(returnvalue); } dynamicindex=itok.segm; // printf("%s %08X seg=%d\n",rec->recid/*itok.name*/,itok.flag,itok.segm); if(itok.segm==DYNAMIC){ itok.segm=DYNAMIC_USED; updatetree(); } unsigned int oaddESP=addESP; snum=initparamproc(); if((flag&f_typeproc)!=tp_cdecl){ snum=0; addESP=oaddESP; } if(dynamicindexrec.flag=f_reloc; } else{ tok=tk_proc; itok.rm=tk_void; itok.number=outptr; itok.segm=NOT_DYNAMIC; itok.flag=0; string[0]=0; itok.type=tp_ucnovn; addtotree(itok.name); itok.rec->count=cnum; } nexttok(); // move past id nexttok(); // move past : return(tokens); } if(tok2==tk_openbracket){ if((cnum=CheckMacros())!=tokens)return cnum; tobedefined(am32==FALSE?CALL_NEAR:CALL_32,expectedreturn); cnum=posts-1; param[0]=0; int flag=itok.flag; int exitproc=CheckExitProc(); unsigned int oaddESP=addESP; if(itok.flag==tp_stdcall){ nexttok(); swapparam(); } else{ nexttok(); if(uppercase)doregparams(); else doparams(); } (postbuf+cnum)->loc=outptr+1; callloc0(); /* produce CALL [#] */ clearregstat(); addESP=oaddESP; #ifdef OPTVARCONST if(flag&f_useidx)ClearLVIC(); else FreeGlobalConst(); #endif retproc=exitproc; return(expectedreturn); } thisundefined(itok.name); return(tk_long); } int typesize(int vartype) // возвращает размер в байтах кода возврата { switch(vartype){ case tk_char: case tk_byte: return(1); case tk_int: case tk_word: return(2); case tk_float: case tk_dword: case tk_long: return(4); case tk_double: case tk_qword: return 8; } return(0); } void FpuSt2Number() { op66(r32); //push EAX op(0x50); CheckInitBP(); fistp_stack(); RestoreBP(); fwait3(); op66(r32); op(0x58); //pop EAX if(cpu<3)cpu=3; } void FpuSt2QNumber() { op66(r32); //push EAX op(0x50); op66(r32); //push EAX op(0x50); CheckInitBP(); fistp_stack(4); RestoreBP(); fwait3(); op66(r32); op(0x58+EDX); //pop EAX op66(r32); op(0x58); //pop EAX if(cpu<3)cpu=3; } void fwait3_4() { if(chip<4)op(0x9B); } void convert_returnvalue(int expectedreturn,int actualreturn) { if(expectedreturn==tk_void)return; //17.09.05 17:52 if(actualreturn==tk_void/*||expectedreturn==tk_void*/){ retvoid(); return; } switch(expectedreturn){ case tk_byte: case tk_char: case tk_word: case tk_int: if(actualreturn==tk_float||actualreturn==tk_double){ op66(r32); op(0x50); FloatToNumer(actualreturn==tk_float?0:4); } else if(actualreturn==tk_fpust)FpuSt2Number(); else if(expectedreturn==tk_word||expectedreturn==tk_int){ if(actualreturn==tk_char)cbw(); else if(actualreturn==tk_byte)xorAHAH(); } break; case tk_long: case tk_dword: switch(actualreturn){ case tk_char: op66(r32); op(0x0F); outword(0xC0BE); //MOVSX EAX,AL break; case tk_byte: /* MOVZX EAX,AL */ op66(r32); op(0x0F); outword(0xC0B6); break; case tk_word: /* MOVZX EAX,AX */ op66(r32); op(0x0F); outword(0xC0B7); break; case tk_int: /* MOVSX EAX,AX */ op66(r32); op(0x0F); outword(0xC0BF); break; case tk_double: case tk_fpust: FpuSt2Number(); break; // case tk_double: case tk_float: op66(r32); op(0x50); FloatToNumer(/*actualreturn==tk_float?0:4*/); break; } if(cpu<3)cpu=3; break; case tk_qword: switch(actualreturn){ case tk_char: op66(r32); op(0x0F); outword(0xC0BE); //MOVSX EAX,AL cwdq(r32); break; case tk_byte: /* MOVZX EAX,AL */ op66(r32); op(0x0F); outword(0xC0B6); ZeroReg(EDX,r32); break; case tk_word: /* MOVZX EAX,AX */ op66(r32); op(0x0F); outword(0xC0B7); case tk_dword: ZeroReg(EDX,r32); break; case tk_int: /* MOVSX EAX,AX */ op66(r32); op(0x0F); outword(0xC0BF); case tk_long: cwdq(r32); break; case tk_fpust: case tk_double: FpuSt2QNumber(); break; case tk_float: op66(r32); op(0x50); FloatToNumer(actualreturn==tk_float?0:4); cwdq(r32); break; } if(cpu<3)cpu=3; break; case tk_fpust: if(tok2==tk_semicolon)break; switch(actualreturn){ case tk_char: CheckInitBP(); cbw(); op66(r32); outword(0xDF50); //push EAX goto endfxld; //fild ss[bp-4]/[esp] case tk_byte: CheckInitBP(); xorAHAH(); op66(r32); outword(0xDF50); //push EAX goto endfxld; //fild ss[bp-4]/[esp] case tk_word: CheckInitBP(); op66(r16); outword(0x6A); //push 0 op66(r16); outword(0xDB50); //push AX goto endfxld; //fild ss[bp-4]/[esp] case tk_int: CheckInitBP(); op66(r32); outword(0xDF50); //push eax goto endfxld; //fild ss[bp-4]/[esp] case tk_dword: CheckInitBP(); op66(r32); //push 0L outword(0x6A); op66(r32); op(0x50); //push EAX fildq_stack(); RestoreBP(); op66(r32); op(0x58); //pop eax op66(r32); op(0x58); //pop eax break; case tk_long: CheckInitBP(); op66(r32); outword(0xDB50); //push EAX goto endfxld; //fild ss[bp-4]/[esp] case tk_float: CheckInitBP(); op66(r32); outword(0xd950); //push EAX endfxld: fld_stack(4+localsize); RestoreBP(); op66(r32); op(0x58); //pop eax break; case tk_qword: // case tk_double: CheckInitBP(); op66(r32); op(0x50+EDX); //push EDX op66(r32); op(0x50); //push EAX /* if(actualreturn==tk_double){ op(0xDD); fld_stack(8+localsize); } else*/ fildq_stack(); RestoreBP(); op66(r32); op(0x58); //pop eax op66(r32); op(0x58); //pop eax break; } if(cpu<3)cpu=3; break; default: // printf("expectedreturn=%d %s %d\n",expectedreturn,(startfileinfo+currentfileinfo)->filename,linenumber); break; } } int procdo(int expectedreturn) { int actualreturn; char idflag=0; switch(tok){ case tk_ID: idflag++; case tk_id: actualreturn=doid(idflag,expectedreturn); break; case tk_proc: actualreturn=doanyproc(); break; case tk_apiproc: case tk_undefproc: case tk_declare: // if((actualreturn=doanyundefproc())==tk_void)actualreturn=expectedreturn; actualreturn=doanyundefproc(); //17.09.05 17:56 break; default: internalerror("Bad tok in procdo();"); break; } convert_returnvalue(expectedreturn,actualreturn); return actualreturn; } /* +++++++++++++++++++++++ loops and ifs start ++++++++++++++++++++++++ */ void endcmpfloat() { fwait3(); outword(0xE0DF);//fstsw ax op(0x9E); RestoreBP(); } int outcmp(int swapped,int ctok,ITOK *cstok,char *&cbuf,SINFO *cstr,int ctok2,ITOK *cstok2,char *&cbuf2,SINFO *cstr2,int typet) { unsigned char err=0; int typef=0; int vop=0; long long lnumber; unsigned int ofs; int i,reg,reg1; if(typetnumber/256; switch(ctok2){ case tk_reg64: reg1=cstok2->number/256; for(i=0;i<2;i++){ op66(r32); op(0x39); //cmp reg,reg op(0xC0+reg+reg1*8); if(i==1)break; outword(0x75); ofs=outptr; reg=cstok->number&255; reg1=cstok2->number&255; } output[ofs-1]=outptr-ofs; break; case tk_number: case tk_postnumber: case tk_undefofs: lnumber=cstok2->lnumber>>32; for(i=0;i<2;i++){ op66(r32); //проверка на возможность более короткого кода if((cstok2->flag&f_reloc)==0&&ctok2!=tk_postnumber&&ctok2!=tk_undefofs&& short_ok(lnumber,TRUE)){ if(!lnumber){ op(0x85); //test reg,reg op(0xc0+reg*9); } else{ op(0x83); //cmp reg, op(0xF8+reg); op(lnumber); } } else{ if(reg==AX)op(0x3D); else{ op(0x81); op(0xF8+reg); } if(i==1){ if(ctok2==tk_postnumber)(cstok2->flag&f_extern)==0?setwordpost(cstok2):setwordext(&cstok2->number); else if((cstok2->flag&f_reloc)!=0)AddReloc(cstok2->segm); if(ctok2==tk_undefofs)AddUndefOff(2,cstok2->name); } outdword(cstok2->number); } if(i==1)break; outword(0x75); ofs=outptr; reg=cstok->number&255; } output[ofs-1]=outptr-ofs; break; default: if(swapped)err=1; else return(outcmp(1,ctok2,cstok2,cbuf2,cstr2,ctok,cstok,cbuf,cstr,typet)); break; } break; case tk_reg32: case tk_reg: switch(ctok2){ case tk_reg: case tk_reg32: if(ctok!=ctok2)err=1; else{ op66(typet); op(0x39); //cmp reg,reg op(0xC0+(unsigned int)cstok->number+(unsigned int)cstok2->number*8); } break; case tk_number: if(cstok2->number==0&&(cstok2->flag&f_reloc)==0){ op66(typet); op(0x85); //test reg,reg op(0xc0+(unsigned int)cstok->number*9); break; } case tk_postnumber: case tk_undefofs: op66(typet); //проверка на возможность более короткого кода if((cstok2->flag&f_reloc)==0&&ctok2!=tk_postnumber&&ctok2!=tk_undefofs&& short_ok(cstok2->number,ctok==tk_reg?FALSE:TRUE)){ op(0x83); //cmp reg, op(0xF8+(unsigned int)cstok->number); op(cstok2->number); break; } if(cstok->number==AX)op(0x3D); else{ op(0x81); op(0xF8+(unsigned int)cstok->number); } if(ctok2==tk_postnumber)(cstok2->flag&f_extern)==0?setwordpost(cstok2):setwordext(&cstok2->number); else if((cstok2->flag&f_reloc)!=0)AddReloc(cstok2->segm); if(ctok2==tk_undefofs)AddUndefOff(2,cstok2->name); if(ctok==tk_reg)outword((unsigned int)cstok2->number); else outdword(cstok2->number); break; default: if(swapped)err=1; else return(outcmp(1,ctok2,cstok2,cbuf2,cstr2,ctok,cstok,cbuf,cstr,typet)); break; } break; case tk_qwordvar: cstok->number+=4; compressoffset(cstok); switch(ctok2){ case tk_postnumber: case tk_number: case tk_undefofs: lnumber=cstok2->lnumber>>32; CheckAllMassiv(cbuf,8,cstr,cstok); for(i=0;i<2;i++){ op66(r32); outseg(cstok,2); //проверка на возможность более короткого кода if((cstok2->flag&f_reloc)==0&&ctok2!=tk_postnumber&&ctok2!=tk_undefofs&& short_ok(lnumber,1)){ op(0x83); op(0x38+cstok->rm); outaddress(cstok); op(lnumber); } else{ op(0x81); op(0x38+cstok->rm); outaddress(cstok); if(i==1){ if(ctok2==tk_postnumber)(cstok2->flag&f_extern)==0?setwordpost(cstok2):setwordext(&cstok2->number); else if((cstok2->flag&f_reloc)!=0)AddReloc(cstok2->segm); if(ctok2==tk_undefofs)AddUndefOff(2,cstok2->name); } outdword(lnumber); } if(i==1)break; outword(0x75); ofs=outptr; cstok->number-=4; compressoffset(cstok); lnumber=cstok2->lnumber; } output[ofs-1]=outptr-ofs; break; case tk_reg64: CheckAllMassiv(cbuf,8,cstr,cstok); reg=cstok2->number/256; for(i=0;i<2;i++){ op66(r32); outseg(cstok,2); op(0x39); /* CMP [word],AX */ op(cstok->rm+reg*8); outaddress(cstok); if(i==1)break; reg=cstok2->number&255; outword(0x75); ofs=outptr; cstok->number-=4; compressoffset(cstok); } output[ofs-1]=outptr-ofs; break; default: i=EAX|(EDX*256); getintoreg64(i); doregmath64(i); CheckAllMassiv(cbuf,8,cstr,cstok); reg=EDX; for(i=0;i<2;i++){ op66(r32); outseg(cstok,2); op(0x39); /* CMP [word],AX */ op(cstok->rm+reg*8); outaddress(cstok); if(i==1)break; reg=EAX; outword(0x75); ofs=outptr; cstok->number-=4; compressoffset(cstok); } output[ofs-1]=outptr-ofs; break; } break; case tk_intvar: case tk_wordvar: if(swapped&&typet==r32)typet=r16; case tk_longvar: case tk_dwordvar: switch(ctok2){ case tk_reg32: case tk_reg: CheckAllMassiv(cbuf,typet,cstr,cstok); op66(typet); outseg(cstok,2); op(0x39); op((unsigned int)cstok2->number*8+cstok->rm); outaddress(cstok); break; case tk_postnumber: case tk_number: case tk_undefofs: CheckAllMassiv(cbuf,typet,cstr,cstok); op66(typet); outseg(cstok,2); //проверка на возможность более короткого кода if((cstok2->flag&f_reloc)==0&&ctok2!=tk_postnumber&&ctok2!=tk_undefofs&& short_ok(cstok2->number,typet/2-1)){ op(0x83); op(0x38+cstok->rm); outaddress(cstok); op(cstok2->number); break; } op(0x81); op(0x38+cstok->rm); outaddress(cstok); if(ctok2==tk_postnumber)(cstok2->flag&f_extern)==0?setwordpost(cstok2):setwordext(&cstok2->number); else if((cstok2->flag&f_reloc)!=0)AddReloc(cstok2->segm); if(ctok2==tk_undefofs)AddUndefOff(2,cstok2->name); if(typet==r16)outword((unsigned int)cstok2->number); else outdword(cstok2->number); break; case tk_charvar: case tk_intvar: getinto_e_ax(1,ctok2,cstok2,cbuf2,cstr2,typet); CheckAllMassiv(cbuf,typet,cstr,cstok); op66(typet); outseg(cstok,2); op(0x39); /* CMP [word],AX */ op(cstok->rm); outaddress(cstok); break; default: getinto_e_ax(0,ctok2,cstok2,cbuf2,cstr2,typet); // ClearReg(AX); CheckAllMassiv(cbuf,typet,cstr,cstok); op66(typet); outseg(cstok,2); op(0x39); /* CMP [word],AX */ op(cstok->rm); outaddress(cstok); break; } break; case tk_number: if(ctok2==tk_postnumber){ op(0xB8); /* MOV AX,# */ if((cstok->flag&f_reloc)!=0)AddReloc(cstok->segm); if(am32==FALSE)outword((unsigned int)cstok->number); else outdword(cstok->number); op(0x3D); /* CMP AX,# */ (cstok2->flag&f_extern)==0?setwordpost(cstok2):setwordext(&cstok2->number); if(am32==FALSE)outword((unsigned int)cstok2->number); else outdword(cstok2->number); } if(ctok2==tk_number){ if(cstok2->rm!=tk_float&&cstok->rm!=tk_float){ if((unsigned long)cstok2->number<256&&(unsigned long)cstok->number<256){ op(0xB0); //mov al,number op(cstok->number); op(0x3C); //cmp Al,number op(cstok2->number); } else if((unsigned long)cstok2->number<65536&& cstok->number<65536){ op66(r16); op(0xB8); /* MOV AX,# */ if((cstok->flag&f_reloc)!=0)AddReloc(cstok->segm); outword((unsigned int)cstok->number); op66(r16); op(0x3D); /* CMP AX,# */ if((cstok2->flag&f_reloc)!=0)AddReloc(cstok2->segm); outword((unsigned int)cstok2->number); } else{ op66(r32); op(0xB8); /* MOV AX,# */ if((cstok->flag&f_reloc)!=0)AddReloc(cstok->segm); outdword(cstok->number); op66(r32); op(0x3D); /* CMP AX,# */ if((cstok2->flag&f_reloc)!=0)AddReloc(cstok2->segm); outdword(cstok2->number); } } else{ op(0x55); //push bp outword(0xe589);//mov bp,sp op66(r32); if(short_ok(cstok->number,TRUE)){ //push num op(0x6A); op(cstok->number); } else{ op(0x68); outdword(cstok->number); } op66(r32); if(short_ok(cstok2->number,TRUE)){ //push num op(0x6A); op(cstok2->number); } else{ op(0x68); outdword(cstok2->number); } outword(am32==FALSE?0x46d9:0x45d9); op(0xfC);//fld ssdword[bp-4] op(0xD8); outword(0xF85e - am32); //fcomp [bp-8] endcmpfloat(); } } else{ if(swapped)err=1; else return(outcmp(1,ctok2,cstok2,cbuf2,cstr2,ctok,cstok,cbuf,cstr,typet)); } break; case tk_postnumber: if(ctok2==tk_number||ctok2==tk_postnumber){ op(0xB8); /* MOV AX,# */ (cstok->flag&f_extern)==0?setwordpost(cstok):setwordext(&cstok->number); if(am32==FALSE)outword((unsigned int)cstok->number); else outdword(cstok->number); op(0x3D); /* CMP AX,# */ if(ctok2==tk_postnumber)(cstok2->flag&f_extern)==0?setwordpost(cstok2):setwordext(&cstok2->number); else if((cstok2->flag&f_reloc)!=0)AddReloc(cstok2->segm); if(am32==FALSE)outword((unsigned int)cstok2->number); else outdword(cstok2->number); } else{ if(swapped)err=1; else return(outcmp(1,ctok2,cstok2,cbuf2,cstr2,ctok,cstok,cbuf,cstr,typet)); } break; case tk_charvar: case tk_bytevar: switch(ctok2){ case tk_number: CheckAllMassiv(cbuf,1,cstr,cstok); outseg(cstok,2); op(0x80); /* CMP [byte],# */ op(0x38+cstok->rm); outaddress(cstok); op((unsigned int)cstok2->number); break; case tk_reg: case tk_reg32: if(cstok2->number>3)goto defchar; case tk_beg: CheckAllMassiv(cbuf,1,cstr,cstok); outseg(cstok,2); op(0x38); /* CMP [byte],beg */ op((unsigned int)cstok2->number*8+cstok->rm); outaddress(cstok); break; default: defchar: getintoal(ctok2,cstok2,cbuf2,cstr2); CheckAllMassiv(cbuf,1,cstr,cstok); outseg(cstok,2); op(0x38); /* CMP [byte],AL */ op(cstok->rm); outaddress(cstok); break; } break; case tk_beg: switch(ctok2){ case tk_number: if(cstok2->number==0){ op(0x84); //test beg,beg op(0xc0+(unsigned int)cstok->number*9); break; } if((unsigned int)cstok->number==AL)op(0x3C); else{ op(0x80); op(0xF8+(unsigned int)cstok->number); } op((unsigned int)cstok2->number); break; case tk_beg: op(0x38); op(0xC0+(unsigned int)cstok->number+(unsigned int)cstok2->number*8); break; case tk_reg: if((unsigned int)cstok2->number<=BX){ /* CMP beg,beg */ op(0x38); op(0xC0+(unsigned int)cstok->number+(unsigned int)cstok2->number*8); } else{ op66(r16); op(0x89); /* MOV AX,reg */ op(0xC0+(unsigned int)cstok2->number*8); op(0x38); /* CMP beg,AL */ op(0xC0+(unsigned int)cstok->number); } break; default: if(swapped)err=1; else return(outcmp(1,ctok2,cstok2,cbuf2,cstr2,ctok,cstok,cbuf,cstr,typet)); break; } break; case tk_doublevar: vop=4; goto cont_float; case tk_fpust: typef++; if(cstok->type==tp_modif)typef++; else{ if(cstok->number!=0){ op(0xd9); //fld st(x) op(0xC0+cstok->number); typef++; } } case tk_floatvar: cont_float: switch(ctok2){ case tk_beg: CheckInitBP(); switch(cstok2->rm){ case tk_char: case tk_int: case tk_long: outword(0xBE0F); /* MOVSX AX,beg */ op(0xC0+(unsigned int)cstok2->number); break; default: if((optimizespeed&&chip>3&&chip<7)||cstok2->number==AL){ xorAHAH(); if(cstok2->number!=AL){ op(0x88); op(0xC0+cstok2->number*8); //mov al,beg } } else{ outword(0xB60F); // MOVZX AX,beg op(0xC0+(unsigned int)cstok2->number); } break; } outword(0xDF50); //push AX fld_stack(2+localsize); if(typef==2)outword(0xD9DE); //FCOMPP else if(typef==1)outword(0xD9D8); //FCOMP else{ if(ESPloc&&am32&&cstok->segm==SS)cstok->number+=4; CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); } op(0x58); // pop EAX endcmpfloat(); swapped=1; break; case tk_reg: CheckInitBP(); op66(r32); switch(cstok2->rm){ case tk_char: case tk_int: case tk_long: outword(0xBF0F); /* MOVSX EAX,reg */ break; default: if(optimizespeed&&chip>3&&chip<7&&cstok2->number!=AX){ outword(0xC031); // xor EAX,EAX op66(r16); op(0x8B); } else outword(0xB70F); // MOVZX EAX,reg break; } op(0xC0+(unsigned int)cstok2->number); op66(r32); outword(0xDB50); //push EAX fld_stack(4+localsize); if(typef==2)outword(0xD9DE); //FCOMPP else if(typef==1)outword(0xD9D8); //FCOMP else{ if(ESPloc&&am32&&cstok->segm==SS)cstok->number+=4; CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); } op66(r32); op(0x58); // pop EAX endcmpfloat(); swapped=1; break; case tk_reg32: CheckInitBP(); if(cstok2->rm==tk_float){ op66(r32); op(0x50+(unsigned int)cstok2->number); //push reg32 op(0xd9); fld_stack(4+localsize); if(typef==2)outword(0xD9DE); //FCOMPP else if(typef==1)outword(0xD9D8); //FCOMP else{ if(ESPloc&&am32&&cstok->segm==SS)cstok->number+=4; CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); } op66(r32); op(0x58); // pop EAX } else{ if(cstok2->rm!=tk_char&&cstok2->rm!=tk_int&&cstok2->rm!=tk_long){ typet=tk_word; op66(r32); outword(0x6a); //$push 0 if(ESPloc&&am32&&cstok->segm==SS)cstok->number+=4; } op66(r32); op(0x50+cstok2->number); //push reg32 if(typet!=r16)fildq_stack(); else{ op(0xdb); fld_stack(4+localsize); } if(typef==2)outword(0xD9DE); //FCOMPP else if(typef==1)outword(0xD9D8); //FCOMP else{ if(ESPloc&&am32&&cstok->segm==SS)cstok->number+=4; CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); } if(typet!=r16){ if(optimizespeed||am32==FALSE){ outword(0xC483); op(8); } else{ op(0x58); // pop EAX op(0x58); // pop EAX } } else{ op66(r32); op(0x58); // pop EAX } } endcmpfloat(); swapped=1; break; case tk_charvar: CheckAllMassiv(cbuf2,1,cstr2,cstok2); outseg(cstok2,3); /* MOVSX AX,[charvar] */ outword(0xBE0F); op(cstok2->rm); outaddress(cstok2); CheckInitBP(); outword(0xdf50); //push ax fld_stack(2+localsize); if(typef==2)outword(0xD9DE); //FCOMPP else if(typef==1)outword(0xD9D8); //FCOMP else{ if(ESPloc&&am32&&cstok->segm==SS)cstok->number+=4; CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); } op(0x58); // pop EAX endcmpfloat(); swapped=1; break; case tk_intvar: CheckAllMassiv(cbuf2,2,cstr2,cstok2); outseg(cstok2,2); if(typef){ op(0xDE); //ficomp var2 op(cstok2->rm+0x08+typef*8); outaddress(cstok2); } else{ op(0xdf); //fild var op(cstok2->rm); outaddress(cstok2); CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); swapped=1; } fwait3_4(); outword(0xE0DF);//fstsw ax op(0x9E); break; case tk_bytevar: CheckAllMassiv(cbuf2,1,cstr2,cstok2); if(optimizespeed&&chip>3&&chip<7){ outword(0xC031); outseg(cstok2,2); op(0x8A); } else{ outseg(cstok2,3); outword(0xB60F); } op(cstok2->rm); // MOVZX regL,[byte] outaddress(cstok2); CheckInitBP(); outword(0xDF50); //push ax fld_stack(2+localsize); if(typef==2)outword(0xD9DE); //FCOMPP else if(typef==1)outword(0xD9D8); //FCOMP else{ if(ESPloc&&am32&&cstok->segm==SS)cstok->number+=4; CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); } op(0x58); // pop EAX endcmpfloat(); swapped=1; break; case tk_wordvar: CheckInitBP(); op66(r16); outword(0x6a); //push 0 CheckAllMassiv(cbuf2,2,cstr2,cstok2); op66(r16); outseg(cstok2,2); //push var op(0xFF); op(cstok2->rm+0x30); outaddress(cstok2); op(0xDB); fld_stack(4+localsize); if(typef==2)outword(0xD9DE); //FCOMPP else if(typef==1)outword(0xD9D8); //FCOMP else{ if(ESPloc&&am32&&cstok->segm==SS)cstok->number+=4; CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); } op66(r32); op(0x58); // pop EAX endcmpfloat(); swapped=1; break; case tk_dwordvar: CheckInitBP(); op66(r32); //push 0L outword(0x6a); CheckAllMassiv(cbuf2,4,cstr2,cstok2); op66(r32); //push var outseg(cstok2,2); op(0xFF); op(cstok2->rm+0x30); outaddress(cstok2); fildq_stack(); if(typef==2)outword(0xD9DE); //FCOMPP else if(typef==1)outword(0xD9D8); //FCOMP else{ if(ESPloc&&am32&&cstok->segm==SS)cstok->number+=8; CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); } if(optimizespeed||am32==FALSE){ outword(0xC483); op(8); } else{ op(0x58); // pop EAX op(0x58); // pop EAX } endcmpfloat(); swapped=1; break; case tk_longvar: CheckAllMassiv(cbuf2,4,cstr2,cstok2); outseg(cstok2,2); if(typef){ op(0xDA); //ficomp var2 op(cstok2->rm+0x08+typef*8); outaddress(cstok2); } else{ op(0xdb); //fild var op(cstok2->rm); outaddress(cstok2); CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); swapped=1; } endcmpfloat(); break; case tk_number: if(!typef){ CheckAllMassiv(cbuf,4,cstr,cstok); outseg(cstok,2); //fld val op(0xd9); op(cstok->rm); outaddress(cstok); } if(cstok2->rm!=tk_double&&cstok2->rm!=tk_float){ cstok2->dnumber=cstok2->lnumber; cstok2->rm=tk_double; } else if(vop==4&&cstok2->rm==tk_float){ cstok2->dnumber=cstok2->fnumber; cstok2->rm=tk_double; } if(am32&&(cstok2->rm==tk_float&&cstok2->fnumber==0.0)|| (cstok2->rm==tk_double&&cstok2->dnumber==0.0)||cstok2->lnumber==0){ outword(0xe4d9); //ftst if(typef!=1)outword(0xC0DD); //ffree } else{ op66(r32); int rm; rm=(am32==FALSE?0x1eD8:0x1DD8); if(typef==1)rm-=0x800; if(cstok2->rm==tk_double||vop==4)rm+=4; outword(rm); //fcom(p) AddFloatConst(cstok2->lnumber,cstok2->rm); outword(0); if(am32)outword(0); } endcmpfloat(); break; case tk_floatvar: if(!typef){ CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fld val op(0xd9+vop); op(cstok->rm); outaddress(cstok); } CheckAllMassiv(cbuf2,4,cstr2,cstok2); outseg(cstok2,2); //fcomp var op(0xd8); op(cstok2->rm+(typef==1?0x10:0x18)); outaddress(cstok2); endcmpfloat(); break; case tk_doublevar: if(!typef){ CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fld val op(0xd9+vop); op(cstok->rm); outaddress(cstok); } CheckAllMassiv(cbuf2,8,cstr2,cstok2); outseg(cstok2,2); //fcomp var op(0xd8+4); op(cstok2->rm+(typef==1?0x10:0x18)); outaddress(cstok2); endcmpfloat(); break; case tk_fpust: if(typef==2){ //fcomp if(chip>=7){ //fcomip op(0xDF); op(0xF0+cstok2->number+1); swapped=1; break; } op(0xD8); op(0xD8+cstok2->number+1); } else if(typef==1){ //fcom if(chip>=7){ //fcomi op(0xDB); op(0xF0+cstok2->number); swapped=1; break; } op(0xD8); op(0xD0+cstok2->number); } else{ if(cstok2->type!=tp_modif){ op(0xd9); //fld st(x) op(0xC0+cstok2->number); } CheckAllMassiv(cbuf,4+vop,cstr,cstok); outseg(cstok,2); //fcomp var op(0xd8+vop); op(cstok->rm+0x18); outaddress(cstok); } endcmpfloat(); swapped=1; break; default: err=1; break; } break; default: err=1; break; } if(err)preerror("unable to create comparison, check restrictions"); return(swapped); } int CheckCompareTok(int reg) { int comparetok=tk_equalto; if(itok.type==tp_compare)comparetok=tok; else unknowncompop(); getoperand(reg); return comparetok; } int typenumber(int vtok) { switch(vtok){ case tk_char: case tk_beg: case tk_byte: return tk_byte; case tk_int: case tk_reg: case tk_word: return tk_word; case tk_reg64: case tk_qword: return tk_qword; case tk_floatvar: case tk_float: return tk_float; case tk_doublevar: case tk_double: return tk_double; } return tk_dword; } #ifdef OPTVARCONST int constructcompare(int invertflag,unsigned int startloc,LVIC *comconst) #else int constructcompare(int invertflag,unsigned int startloc) #endif /* build cmp for IF, if and do {} while */ { int comparetok=0,jumptype,vartype=tokens,notflag=FALSE; int ittok,ittok2=tokens,type2=tokens;//,retcompare=tokens; int razr=r_undef; char *ibuf,*ibuf2; ITOK htok,htok2; SINFO hstr,hstr2; int preg=(am32==TRUE?EAX:SI); int use_cxz=0; char *ofsstr=NULL,*ofsstr2=NULL; int usereg=-1; int usereg2=-1; //////04.10.04 13:45 int bracket=0; unsigned char oinline=useinline; useinline=0; do{ nexttok(); // printf("tok=%d tok2=%d\n",tok,tok2); if(tok==tk_openbracket)bracket++; if(tok==tk_not)notflag=(notflag+1)%2; }while(tok2==tk_openbracket||tok2==tk_not); if(bracket==0)expected('('); ///////////////// setzeroflag=FALSE; ofsstr=GetLecsem(tk_closebracket,tk_eof,tp_compare); getoperand(); //NEW 04.10.04 13:45 if(tok==tk_openbracket){ bracket++; getoperand(); } if(tok==tk_not){ notflag=(notflag+1)%2; getoperand(); } switch(tok){ case tk_closebracket: useinline=oinline; getoperand(); return voidcompr; case tk_asm: if(tok2==tk_openbrace){ nexttok(); type2=tok; } case tk_dollar: nexttok(); case tk_idasm: if(stricmp(itok.name,"test")==0){ if(iTest(1)==FALSE)InvOperComp(); ittok=0x75; if(type2==tk_openbrace)expecting(tk_closebrace); goto endcomp; } else preerror("Only 'TEST' possible use in compare"); break; case tk_qword: case tk_double: razr+=4; case tk_beg: case tk_reg32: case tk_reg: vartype=tok; break; case tk_float: case tk_long: case tk_dword: razr+=2; case tk_int: case tk_word: razr++; case tk_char: case tk_byte: razr++; vartype=tok; getoperand(); if(tok==tk_closebracket&&bracket>1){ bracket--; getoperand(); } break; case tk_undefproc: case tk_declare: // if(itok.rm==tk_void)itok.rm=(am32==FALSE?tk_word:tk_dword); case tk_proc: case tk_apiproc: vartype=itok.rm; if(vartype==tokens)vartype=(am32==FALSE?tk_word:tk_dword); else if(vartype==tk_void&&(itok.flag&f_retproc)==0){ retvoid(); vartype=itok.rm=(am32==FALSE?tk_word:tk_dword); } if(ofsstr){ free(ofsstr); ofsstr=NULL; } break; case tk_bytevar: vartype=tk_byte; break; case tk_charvar: vartype=tk_char; break; case tk_intvar: vartype=tk_int; break; case tk_wordvar: vartype=tk_word; break; case tk_dwordvar: vartype=tk_dword; break; case tk_longvar: vartype=tk_long; break; case tk_floatvar: vartype=tk_float; break; case tk_qwordvar: vartype=tk_qword; break; case tk_fpust: case tk_doublevar: vartype=tk_double; break; case tk_bits: int i; i=itok.bit.ofs+itok.bit.siz; if(i<=64){ vartype=tk_dword; razr=r64; } if(i<=32){ vartype=tk_dword; razr=r32; } if(i<=16){ vartype=tk_word; razr=r16; } if(i<=8){ vartype=tk_byte; razr=r8; } break; case tk_at: if(ofsstr){ free(ofsstr); ofsstr=NULL; } nexttok(); if(itok.flag&f_retproc){ comparetok=(itok.flag&f_retproc)/256+tk_overflowflag-1; // notflag=(notflag==FALSE?TRUE:FALSE); vartype=tk_ID; ittok2=macros(vartype); if(tok2==tk_closebracket){ nexttok(); ittok=0x70+comparetok-tk_overflowflag; goto endcomp; } if(ittok2==0){ vartype=itok.rm; break; } goto mac1; } if((itok.flag&f_typeproc)==tp_fastcall&&itok.segm!=NOT_DYNAMIC)vartype=itok.rm; else vartype=tk_ID; if((ittok2=macros(vartype))==0){ vartype=itok.rm; break; } mac1: vartype=ittok2; switch(vartype){ case tk_byte: case tk_char: tok=tk_beg; break; case tk_int: case tk_word: tok=tk_reg; break; case tk_float: case tk_dword: case tk_long: tok=tk_reg32; break; case tk_double: case tk_qword: tok=tk_reg64; break; default: preerror("Macro has a return type of void"); tok=tk_reg; vartype=tk_word; break; } itok.number=AX; // or AL or EAX break; default: if((tok>=tk_overflowflag)&&(tok<=tk_plusflag)){ ittok=0x70+tok-tk_overflowflag; nexttok(); if(tok!=tk_closebracket&&(tok==tk_oror||tok==tk_andand||tok==tk_notequal||tok==tk_equalto)){ int oper; int oper2; oper=tok; nexttok(); ittok^=notflag; notflag=0; if(tok==tk_not){ notflag=TRUE; nexttok(); } if((tok>=tk_overflowflag)&&(tok<=tk_plusflag)){ ittok-=0x70; ittok2=tok-tk_overflowflag; ittok2^=notflag; notflag=0; nexttok(); switch(oper){ case tk_oror: if((ittok==2&&ittok2==4)||(ittok==4&&ittok2==2))ittok=6; else if(ittok==4&&(ittok2==8||ittok2==0))ittok=(ittok|ittok2)+1; else unknowncompop(); break; case tk_andand: if((ittok==3&&ittok2==5)||(ittok==5&&ittok2==3))ittok=7; else if(ittok==5&&(ittok2==8||ittok2==0))ittok=(ittok|ittok2)+1; else unknowncompop(); break; case tk_notequal: if((ittok==8&&ittok2==0)||(ittok==0&&ittok2==8))ittok=12; else unknowncompop(); break; case tk_equalto: if((ittok==8&&ittok2==0)||(ittok==0&&ittok2==8))ittok=13; else unknowncompop(); break; } if(tok!=tk_closebracket&&(tok==tk_notequal||tok==tk_equalto)){ oper2=tok; nexttok(); if(tok==tk_not){ notflag=TRUE; nexttok(); } if((tok>=tk_overflowflag)&&(tok<=tk_plusflag)){ ittok2=tok-tk_overflowflag; ittok2^=notflag; notflag=0; nexttok(); if(oper2==tk_notequal){ if(oper==tk_oror&&((ittok==5&&ittok2==8)||(ittok==13&&ittok2==0)))ittok=14; else unknowncompop(); } else{ if(oper==tk_andand&&((ittok==6&&ittok2==8)||(ittok==14&&ittok2==0)))ittok=15; else unknowncompop(); } } else unknowncompop(); } } else unknowncompop(); ittok+=0x70; } goto endcomp; } vartype=(am32==FALSE?tk_word:tk_dword); break; } CheckMinusNum(); if(itok2.type!=tp_compare&&tok2!=tk_closebracket){ //сложный операнд if(ofsstr){ int retreg; razr=getrazr(vartype); if((retreg=CheckIDZReg(ofsstr,AX,razr))!=NOINREG){ GetEndLex(tk_closebracket,tk_semicolon,tp_compare); nexttok(); if(razr==r16)ittok=tk_reg; else if(razr==r32)ittok=tk_reg32; else ittok=tk_beg; usereg=htok.number=retreg==SKIPREG?AX:retreg; goto nn1; } } comparetok=0;//используется временно не посмыслу ittok=tok; htok=itok; ibuf=NULL; hstr.bufstr=NULL; ittok2=tok2; preg=BX; switch(tok2){ case tk_assign: case tk_plusplus: case tk_minusminus: case tk_divequals: case tk_minusequals: case tk_multequals: case tk_plusequals: switch(tok){ case tk_charvar: comparetok=1; case tk_bytevar: if((comparetok=dobytevar(comparetok,0))==tk_reg||comparetok==tk_beg){ usereg=htok.number=AX; ittok=tk_beg; } break; case tk_intvar: comparetok=1; case tk_wordvar: if((comparetok=do_d_wordvar(comparetok,r16,0))==tk_reg){ usereg=htok.number=AX; ittok=tk_reg; } break; case tk_longvar: comparetok=1; case tk_dwordvar: if((comparetok=do_d_wordvar(comparetok,r32,0))==tk_reg32){ usereg=htok.number=AX; ittok=tk_reg32; } break; case tk_floatvar: if(dofloatvar(0,tk_fpust,0)==tk_fpust){ ittok=tk_fpust; htok.type=tp_modif; } break; case tk_qwordvar: if((comparetok=doqwordvar(0))==tk_reg64){ ittok=tk_reg64; usereg=htok.number=EAX|(EDX*256); } break; case tk_reg64: usereg=itok.number; getintoreg64(itok.number); doregmath64(itok.number); comparetok=tk_reg64; break; case tk_reg32: usereg=itok.number; comparetok=doreg_32((unsigned int)itok.number,r32,0); // printf("comparetok=%d\n",comparetok); break; case tk_reg: usereg=itok.number; comparetok=doreg_32((unsigned int)itok.number,r16,0); break; case tk_beg: usereg=itok.number; comparetok=dobeg((unsigned int)itok.number,0); break; default: InvOperComp(); break; } if(ittok=tk_overflowflag&&comparetok<=tk_plusflag))){ if(ittok2!=tk_assign&&ittok2!=tk_divequals&&ittok2!=tk_multequals){ if(tok==tk_closebracket){ ittok=0x75; goto endcomp; } if(tok2==tk_number&&itok2.number==0){ if((ittok2==tk_plusplus||ittok2==tk_minusminus)&& tok!=tk_notequal&&tok!=tk_equalto)break; comparetok=CheckCompareTok(BX); nexttok(); goto createopcode; } } } break; default: switch(vartype){ case tk_int: comparetok=do_e_axmath(1,r16,&ofsstr); ittok=tk_reg; break; case tk_reg: case tk_word: comparetok=do_e_axmath(0,r16,&ofsstr); ittok=tk_reg; break; case tk_char: comparetok=doalmath(1,&ofsstr); ittok=tk_beg; break; case tk_beg: case tk_byte: comparetok=doalmath(0,&ofsstr); ittok=tk_beg; break; case tk_long: comparetok=do_e_axmath(1,r32,&ofsstr); ittok=tk_reg32; break; case tk_reg32: case tk_dword: comparetok=do_e_axmath(0,r32,&ofsstr); ittok=tk_reg32; break; case tk_qword: usereg=htok.number=EAX|(EDX*256); getintoreg64(usereg); doregmath64(usereg); comparetok=ittok=tk_reg64; break; case tk_float: doeaxfloatmath(tk_fpust); ittok=tk_fpust; htok.type=tp_modif; break; default: if(itok.flag&f_retproc){ comparetok=(itok.flag&f_retproc)/256+tk_overflowflag-1; // printf("tok=%d flag=%08X comparetok=%u %s\n",tok,itok.flag,comparetok,itok.name); // notflag=(notflag==FALSE?TRUE:FALSE); switch(tok){ case tk_undefproc: case tk_declare: case tk_apiproc: doanyundefproc(); break; case tk_proc: doanyproc(); break; } nexttok(); if(tok!=tk_closebracket){ retvoid(); do{ nexttok(); }while(tok!=tk_closebracket); } } else{ internalerror("Bad vartype value in constructcompare();"); tok=tk_reg; break; } } if(ittok!=tk_reg64)usereg=htok.number=AX; // same value as AL and EAX } RestoreStack(); } else{ #ifdef OPTVARCONST CheckConstVar3(&tok,&itok,razr); #endif if(tok>=tk_charvar&&tok<=tk_doublevar){ switch(vartype){ case tk_int: tok=tk_intvar; break; case tk_word: tok=tk_wordvar; break; case tk_char: tok=tk_charvar; break; case tk_byte: tok=tk_bytevar; break; case tk_long: tok=tk_longvar; break; case tk_dword: tok=tk_dwordvar; break; case tk_float: tok=tk_floatvar; break; case tk_qword: tok=tk_qwordvar; break; case tk_double: tok=tk_doublevar; break; } } else if(tok==tk_number){ if(tok2==tk_closebracket){ invertflag=(itok.number==0?zerocompr:voidcompr); nexttok(); getoperand(); useinline=oinline; return invertflag; } if(itok.rm==tk_float)vartype=tk_float; } else if(tok==tk_bits){ bits2reg(AX,razr); switch(razr){ case r64: case r32: tok=tk_reg32; break; case r16: tok=tk_reg; break; case r8: tok=tk_beg; break; } itok.number=0; } if(tok==tk_beg||tok==tk_reg||tok==tk_reg32)itok.rm=vartype; //тип содержимого в reg32 ittok=tok; htok=itok; ibuf=bufrm; bufrm=NULL; hstr=strinf; strinf.bufstr=NULL; nexttok(); } nn1: if(razr==r_undef){ switch(vartype){ case tk_qword: case tk_double: razr+=4; case tk_long: case tk_dword: case tk_float: case tk_reg32: razr+=2; case tk_int: case tk_word: case tk_reg: razr++; case tk_char: case tk_byte: case tk_beg: razr++; } } if(tok!=tk_closebracket){ //сравнение ofsstr2=GetLecsem(tk_closebracket); comparetok=CheckCompareTok(preg); if(tok>=tk_char&&tok<=tk_double){ type2=tok; if(ofsstr2)free(ofsstr2); ofsstr2=GetLecsem(tk_closebracket); getoperand(preg); } if(tok==tk_minus){ if(CheckMinusNum()==FALSE){ preerror("only negative of constants valid within compairsons"); nexttok(); } } #ifdef OPTVARCONST CheckConstVar3(&tok,&itok,razr); #endif if(tok==tk_number){ switch(vartype){ case tk_long: case tk_int: case tk_char: htok2.number=doconstlongmath(); itok.flag=(unsigned char)postnumflag; break; case tk_dword: case tk_reg32: case tk_beg: case tk_reg: case tk_word: case tk_byte: htok2.number=doconstdwordmath(); itok.flag=(unsigned char)postnumflag; break; case tk_float: htok2.number=doconstfloatmath(); break; case tk_reg64: case tk_qword: htok2.lnumber=doconstqwordmath(); itok.flag=(unsigned char)postnumflag; break; case tk_double: htok2.lnumber=doconstdoublemath(); break; } htok2.rm=typenumber(vartype); ittok2=tk_number; htok2.flag=itok.flag; } else{ if(ittok>=tk_charvar&&ittok<=tk_doublevar&&(tok==tk_proc||tok==tk_id|| tok==tk_undefproc||tok==tk_declare||tok==tk_apiproc||tok==tk_ID|| itok2.type==tp_opperand||(tok>=tk_charvar&&tok<=tk_doublevar))){ if(ofsstr2){ int retreg; razr=getrazr(vartype); if((retreg=CheckIDZReg(ofsstr2,AX,razr))!=NOINREG){ GetEndLex(tk_closebracket); usereg2=retreg==SKIPREG?AX:retreg; if(razr==r16)ittok2=tk_reg; else if(razr==r32)ittok2=tk_reg32; else ittok2=tk_beg; htok2.number=usereg2; nexttok(); goto en2; } } int sign=0; switch(ittok){ case tk_charvar: sign=1; case tk_bytevar: doalmath(sign,&ofsstr2); usereg2=htok2.number=AX; ittok2=tk_beg; break; case tk_intvar: sign=1; case tk_wordvar: do_e_axmath(sign,r16,&ofsstr2); usereg2=htok2.number=AX; ittok2=tk_reg; break; case tk_longvar: sign=1; case tk_dwordvar: do_e_axmath(sign,r32,&ofsstr2); usereg2=htok2.number=AX; ittok2=tk_reg32; break; case tk_floatvar: doeaxfloatmath(tk_fpust); ittok2=tk_fpust; htok2.type=tp_modif; htok2.number=0; ClearReg(AX); break; case tk_doublevar: doeaxfloatmath(tk_fpust,0,4); ittok2=tk_fpust; htok2.type=tp_modif; htok2.number=0; ClearReg(AX); break; case tk_qwordvar: usereg2=htok2.number=EAX|(EDX*256); getintoreg64(usereg2); doregmath64(usereg2); ittok2=tk_reg64; ClearReg(AX); ClearReg(DX); break; } } else{ if(tok==tk_bits){ int i=itok.bit.ofs+itok.bit.siz; int vops; if(i<=64)vops=r64; if(i<=32)vops=r32; if(i<=16)vops=r16; if(i<=8)vops=r8; if(vops=tk_overflowflag)&&(comparetok<=tk_plusflag)){ ittok=0x70+comparetok-tk_overflowflag; goto endcomp; } htok2.rm=typenumber(vartype); comparetok=tk_notequal; ittok2=tk_number; htok2.number=0; htok2.flag=0; } if(ittok2==tk_number&&htok2.number==0&&(htok2.flag&f_reloc)==0){ if(setzeroflag){ if(comparetok==tk_notequal){ ittok=0x75; goto endcomp; } if(comparetok==tk_equalto){ ittok=0x74; goto endcomp; } } if(htok.number==CX&&optimizespeed==0){ if(ittok==tk_reg||ittok==tk_reg32){ if(comparetok==tk_notequal)use_cxz=notflag==0?cxnzcompr:cxzcompr; else if(comparetok==tk_equalto)use_cxz=notflag==TRUE?cxnzcompr:cxzcompr; } } } en2: if(ittok>=tk_charvar&&ittok<=tk_floatvar){ if(ofsstr){ int retreg; razr=getrazr(vartype); if((retreg=CheckIDZReg(ofsstr,AX,razr))!=NOINREG){ usereg=retreg==SKIPREG?AX:retreg; if(!((ittok2==tk_reg||ittok2==tk_reg32||ittok2==tk_beg)&&usereg==htok2.number)){ if(razr==r16)ittok=tk_reg; else if(razr==r32)ittok=tk_reg32; else ittok=tk_beg; htok.number=usereg; if(ibuf){ free(ibuf); ibuf=NULL; } if(hstr.bufstr){ free(hstr.bufstr); hstr.bufstr=NULL; } } else{ usereg=-1; } } else{ if(ittok==tk_floatvar)ClearReg(AX); else if(ittok>=tk_intvar&&ittok=tk_charvar&&ittok<=tk_doublevar&&ittok2==tk_number&& (htok2.flag&f_reloc)==0&&htok.rec&&(htok.flag&f_useidx)==0){ comconst->rec=htok.rec; comconst->lnumber=htok2.lnumber; comconst->contype=htok2.rm; } else if(ittok2>=tk_charvar&&ittok2<=tk_doublevar&&ittok==tk_number&& (htok.flag&f_reloc)==0&&htok2.rec&&(htok2.flag&f_useidx)==0){ comconst->rec=htok2.rec; comconst->lnumber=htok.lnumber; comconst->contype=htok.rm; } comconst->typevar=comparetok; if(notflag)comconst->typevar=(comparetok==tk_equalto?tk_notequal:tk_equalto); } } #endif if(outcmp(0,ittok,&htok,ibuf,&hstr,ittok2,&htok2,ibuf2,&hstr2,razr)){ switch(comparetok){ case tk_less: comparetok=tk_greater; break; case tk_lessequal: comparetok=tk_greaterequal; break; case tk_greater: comparetok=tk_less; break; case tk_greaterequal: comparetok=tk_lessequal; break; } } createopcode: jumptype=0; if(vartype==tk_char||vartype==tk_int||vartype==tk_long)jumptype=1; switch(comparetok){ case tk_equalto: ittok=0x74; break; case tk_notequal: ittok=0x75; break; case tk_greater: ittok=(jumptype==0?0x77:0x7F); break; case tk_less: ittok=(jumptype==0?0x72:0x7C); break; case tk_greaterequal: ittok=(jumptype==0?0x73:0x7D); break; case tk_lessequal: ittok=(jumptype==0?0x76:0x7E); break; default: unknowncompop(); break; } endcomp: if(ofsstr){ if(usereg!=-1)IDZToReg(ofsstr,usereg,razr); free(ofsstr); } if(ofsstr2){ // printf("usereg2=%08X %s\n",usereg2,ofsstr2); if(usereg2!=-1)IDZToReg(ofsstr2,usereg2,razr); free(ofsstr2); } if(invertflag==2)invertflag=((outptr+2-startloc)>128?1:0); ittok^=invertflag; ittok^=notflag; op(ittok); /* output instruction code */ expecting(tk_closebracket); useinline=oinline; return invertflag|use_cxz; } #ifdef OPTVARCONST ICOMP *compare(int type,unsigned int *numcomp,REGISTERSTAT **bakreg,REGISTERSTAT **changereg,LVIC *comconst) #else ICOMP *compare(int type,unsigned int *numcomp,REGISTERSTAT **bakreg,REGISTERSTAT **changereg) #endif { unsigned int i; ICOMP *icomp; int j=0; int ifline=linenumber; int ptok=tk_oror; int rcompr; int useor=FALSE; REGISTERSTAT *bakregstat=NULL,*changeregstat=NULL; if(am32)j=2; icomp=(ICOMP *)MALLOC(sizeof(ICOMP)*MAXIF); //блок для инфо о сравнениях i=0; do{ #ifdef OPTVARCONST if((rcompr=constructcompare(0,outptr,comconst))==voidcompr||rcompr==zerocompr)i=1; #else if((rcompr=constructcompare(0,outptr))==voidcompr||rcompr==zerocompr)i=1; #endif if(i){ if(rcompr==voidcompr&&ptok==tk_andand){ i=0; ptok=tok; } continue; } op(0x03+j); if(tok!=tk_oror){ JXorJMP(); if(am32!=FALSE)outword(0); outword(0); } (icomp+*numcomp)->loc=outptr; (icomp+*numcomp)->type=tok; // (icomp+*numcomp)->use_cxz=rcompr&0xFC; (*numcomp)++ ; if(*numcomp==MAXIF){ ManyLogicCompare(); free(icomp); return NULL; } ptok=tok; /* if(tok!=tk_andand&&tok!=tk_oror&&bakregstat==NULL){ bakregstat=BakRegStat(); changeregstat=BakRegStat(); }*/ }while(tok==tk_oror||tok==tk_andand); if(tok==tk_closebracket)nexttok(); for(i=0;i<*numcomp;i++){ unsigned long temp=outptr-(icomp+i)->loc; if((icomp+i)->type==tk_oror){ #ifdef OPTVARCONST if(comconst)comconst->rec=NULL; #endif if(temp>127)CompareOr(); output[(icomp+i)->loc-1]=(unsigned char)temp; clearregstat(); useor=TRUE; } else if(chip>2){ if(am32==FALSE)*(unsigned short *)&output[(icomp+i)->loc-2]=(unsigned short)temp; else *(unsigned long *)&output[(icomp+i)->loc-4]=(unsigned long)temp; } } if(bakregstat==NULL){ bakregstat=BakRegStat(); changeregstat=BakRegStat(); } if(type==tk_if&&rcompr!=zerocompr){ if(rcompr==voidcompr)warcompeqconst(); if(tok==tk_return||tok==tk_RETURN){ if(tok2==tk_semicolon||(tok2==tk_openbracket&&ScanTok3()==tk_closebracket)){ if(insertmode||(!optimizespeed)){ if(tok==tk_return||tok==tk_RETURN)goto merge_if; } } startblock(); doreturn(tok); endblock(); int di; if(rcompr==voidcompr)di=0; else di=am32==FALSE?2:4; for(unsigned int i=0;i<*numcomp;i++){ if((icomp+i)->type!=tk_oror){ if(am32==FALSE)*(unsigned short *)&output[(icomp+i)->loc-di]=(unsigned short)(outptr-(icomp+i)->loc); else *(unsigned long *)&output[(icomp+i)->loc-di]=(unsigned long)(outptr-(icomp+i)->loc); } } if((outptr-icomp->loc)<=127)warningjmp(mesIF,ifline); if(tok==tk_else||tok==tk_ELSE){ notunreach=TRUE; nexttok(); docommand(); } free(icomp); return NULL; } if(tok==tk_break||tok==tk_BREAK||tok==tk_continue||tok==tk_CONTINUE||tok==tk_goto||tok==tk_GOTO){ merge_if: if(rcompr==voidcompr)goto endp; if(chip<3){ for(i=0;i<*numcomp;i++){ if((icomp+i)->type==tk_oror)output[(icomp+i)->loc-1]=(unsigned char)(output[(icomp+i)->loc-1]-3-j); else{ if((icomp+i)->type!=tk_andand)output[(icomp+i)->loc-5-j]=(unsigned char)(output[(icomp+i)->loc-5-j]^1); else{ if(am32==FALSE)*(unsigned short *)&output[(icomp+i)->loc-2]=(unsigned short)(outptr-(icomp+i)->loc); else *(unsigned long *)&output[(icomp+i)->loc-4]=(unsigned long)(outptr-(icomp+i)->loc); } } } outptr-=3+j; } else{ for(i=0;i<*numcomp;i++){ if((icomp+i)->type==tk_oror)output[(icomp+i)->loc-1]=(unsigned char)(output[(icomp+i)->loc-1]-2-j); else{ if((icomp+i)->type!=tk_andand){ output[(icomp+i)->loc-4-j]=(unsigned char)(output[(icomp+i)->loc-3-j]-0x10); output[(icomp+i)->loc-3-j]=(unsigned char)(3+j); } else{ if(am32==FALSE)*(unsigned short *)&output[(icomp+i)->loc-2]=(unsigned short)(outptr-(icomp+i)->loc+1); else *(unsigned long *)&output[(icomp+i)->loc-4]=(unsigned long)(outptr-(icomp+i)->loc+1); } } } outptr-=2+j; if(cpu<3)cpu=3; } int delta=0; //new 07.06.06 20:27 if(tok==tk_break||tok==tk_BREAK){ if(useor==FALSE){ int ooutptr=outptr-2; int otok=tok; i=(unsigned char)(output[ooutptr]^1); outptr--; if(tok==tk_break)i+=0x10; else outptr--; doBREAK((unsigned char)(tok==tk_BREAK?BREAK_SHORT:(am32==FALSE?BREAK_NEAR:BREAK_32))); if(otok==tk_break){ output[ooutptr]=0x0f; output[ooutptr+1]=i; delta=-1; } else{ output[ooutptr]=i; delta=(am32==TRUE?-5:-3); } } else{ if(tok==tk_BREAK){ output[outptr-1]-=(am32==TRUE?3:1); } doBREAK((unsigned char)(tok==tk_BREAK?BREAK_SHORT:(am32==FALSE?BREAK_NEAR:BREAK_32))); } } else if(tok==tk_return||tok==tk_RETURN){ //new 07.06.06 21:12 if(useor==FALSE){ int ooutptr=outptr-2; int otok=tok; i=(unsigned char)(output[ooutptr]^1); outptr--; if(tok==tk_return){ i+=0x10; } else outptr--; AddRetList(outptr+1,linenumber,tok); if(tok2==tk_openbracket){ nexttok(); nexttok(); } if(otok==tk_return){ output[ooutptr]=0x0f; output[ooutptr+1]=i; delta=-1; } else{ output[ooutptr]=i; delta=(am32==TRUE?-5:-3); } } else{ if(tok==tk_RETURN)output[outptr-1]-=(am32==TRUE?3:1); AddRetList(outptr+1,linenumber,tok); if(tok==tk_return&&tok2==tk_openbracket){ nexttok(); nexttok(); } } nextseminext(); clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif } else if(tok==tk_goto||tok==tk_GOTO){ int ooutptr=outptr; if(useor==FALSE){ if(tok==tk_GOTO){ outptr-=2; i=(unsigned char)(output[outptr]^1); GOTOdo(); output[outptr-2]=i; delta=(am32==0?-3:-5); } else{ int otok2=tok2; gotodo(); if(output[ooutptr]==0xEB){ //был короткий переход outptr=ooutptr-2; op(output[outptr]^1); op(output[ooutptr+1]+2); delta=(am32==0?-3:-5); } else if(am32&&otok2==tk_number){ outptr=ooutptr-2; i=(unsigned char)((output[outptr]^1)+0x10); op(0x0f); op(i); if(output[outptr]==0xE9)outdword(*(unsigned long *)&output[ooutptr+1]+1); else outdword(*(unsigned short *)&output[ooutptr+2]); delta=-1; } } } else{ // useor if(tok==tk_goto)gotodo(); else GOTOdo(); if(output[ooutptr]==0xEB){ //был короткий переход output[ooutptr-1]-=(am32==TRUE?3:1); } } } else{ if(useor==FALSE){ int ooutptr=outptr-2; int otok=tok; i=(unsigned char)(output[ooutptr]^1); outptr--; if(tok==tk_continue)i+=0x10; else outptr--; doCONTINUE((unsigned char)(tok==tk_CONTINUE?CONTINUE_SHORT:(am32==FALSE?CONTINUE_NEAR:CONTINUE_32))); if(otok==tk_continue){ output[ooutptr]=0x0f; output[ooutptr+1]=i; delta=-1; } else{ output[ooutptr]=i; delta=(am32==TRUE?-5:-3); } } else{ if(tok==tk_CONTINUE){ output[outptr-1]-=(am32==TRUE?3:1); } doCONTINUE((unsigned char)(tok==tk_CONTINUE?CONTINUE_SHORT:(am32==FALSE?CONTINUE_NEAR:CONTINUE_32))); } } for(i=0;i<*numcomp;i++){ // if((icomp+i)->type==tk_oror)output[(icomp+i)->loc-1]+=delta; // else if((icomp+i)->type==tk_andand){ if(am32==FALSE)*(signed short *)&output[(icomp+i)->loc-2]+=delta; else *(signed long *)&output[(icomp+i)->loc-4]+=delta; } } if(tok==tk_else||tok==tk_ELSE){ notunreach=TRUE; nexttok(); docommand(); } free(icomp); return NULL; } } endp: if(type!=tk_for){ startblock(); if(rcompr==zerocompr)warcompneqconst(); if(tok==tk_openbrace){ if(rcompr==zerocompr){ cha=cha2; inptr=inptr2; SkipBlock(); inptr2=inptr; cha2=cha; linenum2=linenumber; nexttok(); } else{ #ifdef OPTVARCONST if(comconst&&comconst->rec&&comconst->typevar==tk_equalto){ Const2VarRec(comconst); } #endif doblock(); nexttok(); } } else{ if(rcompr==zerocompr){ do{ nexttok(); }while(tok!=tk_semicolon&&tok!=tk_eof); } else{ #ifdef OPTVARCONST if(comconst&&comconst->rec&&comconst->typevar==tk_equalto){ Const2VarRec(comconst); } #endif docommand(); } } endblock(); RestoreStack(); } if(bakreg)*bakreg=bakregstat; if(changereg)*changereg=changeregstat; return icomp; } void opt_if_else_stop(unsigned int newptr) { unsigned int ooutptr,ooutptrdata; unsigned char instr; dbgact++; ooutptr=outptr; ooutptrdata=outptrdata; outptr=newptr; instr=output[outptr]; docommand(); if(output[newptr]==0xEB){ signed char ofs=output[newptr+1]; if(output[newptr-1]==0x0F&&instr>=0x80&&instr<0x90){ ofs--; if(am32)ofs-=(signed char)2; } if(am32)*(long *)&output[newptr+1]=ofs; else*(short *)&output[newptr+1]=ofs; } if(am32&&output[newptr]==0x66&&output[newptr+1]==0xE9){ signed short ofs=(signed short)(*(short *)&output[newptr+2]-1); *(long *)&output[newptr+1]=ofs; } output[newptr]=instr; outptr=ooutptr; outptrdata=ooutptrdata; dbgact--; } void doif() { unsigned int startloc,elseline,numcomp=0,ifline; ICOMP *icomp; REGISTERSTAT *bakregstat=NULL,*changeregstat=NULL; unsigned int oaddESP=addESP; ifline=linenumber; #ifdef OPTVARCONST LVIC comconst; comconst.rec=NULL; icomp=compare(tk_if,&numcomp,&bakregstat,&changeregstat,&comconst); #else icomp=compare(tk_if,&numcomp,&bakregstat,&changeregstat); #endif // i=CheckStopBlock(); /*-----------------19.08.99 22:35------------------- Убирать else можно только после первого if После else if в следующий else убирать нельзя --------------------------------------------------*/ if(icomp!=NULL){ elseline=linenumber; unsigned long temp; unsigned int j=0; unsigned int otok=tok; unsigned int oinptr=inptr2; unsigned char ocha=cha2; unsigned int oline=linenumber; if(tok==tk_else||tok==tk_ELSE){ if(dbg)AddLine(); j=(am32==FALSE?3:5); if(tok2==tk_goto||tok2==tk_break||tok2==tk_continue||//поглотить их tok2==tk_RETURN||tok2==tk_return||tok2==tk_GOTO||tok2==tk_BREAK||tok2==tk_CONTINUE){ nexttok(); switch(tok){ case tk_GOTO: otok=tk_goto; break; case tk_BREAK: otok=tk_break; break; case tk_CONTINUE: otok=tk_continue; break; case tk_return: case tk_RETURN: if(tok2==tk_semicolon||(tok2==tk_openbracket&& ScanTok3()==tk_closebracket)){ startblock(); otok=tk_return; break; } tok=otok; //невозможно оптимизировать inptr2=oinptr; cha2=ocha; linenumber=oline; goto nooptim; default:otok=tok; break; } oinptr=inptr2; ocha=cha2; oline=linenumber; for(unsigned int i=0;itype!=tk_oror){ notunreach=TRUE; tok=otok; inptr2=oinptr; cha2=ocha; linenumber=oline; opt_if_else_stop((icomp+i)->loc-j); } } if(otok==tk_return)endblock(); if((outptr+j-icomp->loc)<=127)warningjmp(mesIF,ifline); free(icomp); retproc=FALSE; lastcommand=tk_if; return; } nooptim: if(tok==tk_ELSE)j=2; } notunreach=TRUE; for(unsigned int i=0;itype!=tk_oror){ if(am32==FALSE)*(unsigned short *)&output[(icomp+i)->loc-2]=(unsigned short)(outptr+j-(icomp+i)->loc); else *(unsigned long *)&output[(icomp+i)->loc-4]=(unsigned long)(outptr+j-(icomp+i)->loc); } } if((outptr+j-icomp->loc)<=127)warningjmp(mesIF,ifline); switch(lastcommand){ case tk_return: case tk_RETURN: case tk_goto: case tk_GOTO: case tk_break: case tk_BREAK: case tk_continue: case tk_CONTINUE: addESP=oaddESP; break; } if(retproc)CopyRegStat(bakregstat); else{ switch(lastcommand){ case tk_return: case tk_RETURN: case tk_goto: case tk_GOTO: case tk_break: case tk_BREAK: case tk_continue: case tk_CONTINUE: CopyRegStat(bakregstat); break; default: CompareRegStat(changeregstat); break; } } // printf("lastcommand=%d\n",lastcommand); // CompareRegStat(changeregstat); if(tok==tk_else/*&&i==FALSE*/){ addESP=oaddESP; RestoreStack(); CopyRegStat(bakregstat); jumploc0(); startloc=outptr; getoperand(); #ifdef OPTVARCONST if(tok!=tk_if&&tok!=tk_IF&&comconst.rec&&comconst.typevar==tk_notequal){ Const2VarRec(&comconst); } #endif startblock(); if(tok==tk_return||tok==tk_RETURN){ if(dbg)AddLine(); doreturn(tok); } else docommand(); endblock(); RestoreStack(); temp=outptr-startloc; if(temp<=127)warningjmp(mesELSE,elseline); if(am32==FALSE)*(unsigned short *)&output[startloc-2]=(unsigned short)temp; else *(unsigned long *)&output[startloc-4]=temp; CompareRegStat(changeregstat); } else if(tok==tk_ELSE/*&&i==FALSE*/){ addESP=oaddESP; RestoreStack(); CopyRegStat(bakregstat); outword(0x00EB); startloc=outptr; getoperand(); #ifdef OPTVARCONST if(tok!=tk_if&&tok!=tk_IF&&comconst.rec&&comconst.typevar==tk_notequal){ Const2VarRec(&comconst); } #endif startblock(); if(tok==tk_return||tok==tk_RETURN){ if(dbg)AddLine(); doreturn(tok); } else docommand(); endblock(); RestoreStack(); temp=outptr-startloc; if(temp>127)jumperror(elseline,mesELSE); output[startloc-1]=(unsigned char)temp; CompareRegStat(changeregstat); } /* else{ if(i!=FALSE&&(tok==tk_else||tok==tk_ELSE))nexttok(); }*/ free(icomp); CopyRegStat(changeregstat); } FreeStat(bakregstat); FreeStat(changeregstat); retproc=FALSE; lastcommand=tk_if; } #ifdef OPTVARCONST ICOMP *bigcompare(int type,unsigned int *numcomp,REGISTERSTAT **bakreg,REGISTERSTAT **changereg,LVIC *comconst) #else ICOMP *bigcompare(int type,unsigned int *numcomp,REGISTERSTAT **bakreg,REGISTERSTAT **changereg) #endif { unsigned int ifline; ICOMP *icomp; unsigned int i=0; int j=0; int ptok=tk_oror; int rcompr; int useor=FALSE; REGISTERSTAT *bakregstat=NULL,*changeregstat=NULL; if(am32!=FALSE)j=2; icomp=(ICOMP *)MALLOC(sizeof(ICOMP)*MAXIF); //блок для инфо о сравнениях ifline=linenumber; do{ #ifdef OPTVARCONST if((rcompr=constructcompare(1,outptr,comconst))==voidcompr||rcompr==zerocompr)i=1; #else if((rcompr=constructcompare(1,outptr))==voidcompr||rcompr==zerocompr)i=1; #endif (icomp+*numcomp)->use_cxz=rcompr&0xFC; if(i){ if(rcompr==voidcompr&&ptok==tk_andand){ i=0; ptok=tok; } continue; } op(0x00); (icomp+*numcomp)->loc=outptr; (icomp+*numcomp)->type=tok; (*numcomp)++; if(*numcomp==MAXIF){ ManyLogicCompare(); free(icomp); return NULL; } ptok=tok; /* if(tok==tk_andand&&bakregstat==NULL){ bakregstat=BakRegStat(); changeregstat=BakRegStat(); }*/ }while(tok==tk_oror||tok==tk_andand); if(tok==tk_closebracket)nexttok(); for(i=0;i<*numcomp;i++){ if(outptr-(icomp+i)->loc>127)CompareOr(); output[(icomp+i)->loc-1]=(unsigned char)(outptr-(icomp+i)->loc); if((icomp+i)->type==tk_oror){ #ifdef OPTVARCONST if(comconst)comconst->rec=NULL; #endif output[(icomp+i)->loc-2]=(unsigned char)(output[(icomp+i)->loc-2]^1); clearregstat(); useor=TRUE; } } if(bakregstat==NULL){ bakregstat=BakRegStat(); changeregstat=BakRegStat(); } if(type==tk_IF&&rcompr!=zerocompr){ if(rcompr==voidcompr)warcompeqconst(); if(tok==tk_return||tok==tk_RETURN){ if(tok2==tk_semicolon||(tok2==tk_openbracket&&ScanTok3()==tk_closebracket)){ if(insertmode||(!optimizespeed)){ if(tok==tk_RETURN)goto merge_if; else if(chip>2&&(insertmode||(paramsize&& (current_proc_type&f_typeproc)!=tp_cdecl)))goto merge_if2; } } startblock(); doreturn(tok); endblock(); for(unsigned int i=0;i<*numcomp;i++){ if((icomp+i)->type!=tk_oror){ if((outptr-(icomp+i)->loc)>127)jumperror(ifline,mesIF); output[(icomp+i)->loc-1]=(unsigned char)(outptr-(icomp+i)->loc); } } if(tok==tk_else||tok==tk_ELSE){ notunreach=TRUE; getoperand(); docommand(); } free(icomp); return NULL; } if(tok==tk_BREAK||tok==tk_CONTINUE||tok==tk_GOTO){ merge_if: int otok=tok; for(i=0;i<*numcomp;i++){ unsigned char oldcode; if(((icomp+i)->type==tk_oror)||((i+1)==*numcomp)){ outptr=(icomp+i)->loc-2; oldcode=output[outptr]; if(tok==tk_BREAK)MakeBreak(BREAK_SHORT); else if(tok==tk_RETURN){ AddRetList(outptr+1,ifline,tk_RETURN); clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif } else if(tok==tk_GOTO){ if((i+1)!=*numcomp){ int optr,ocha,oline; optr=inptr2; ocha=cha2; oline=linenum2; GOTOdo(); if(outptr!=(icomp+i)->loc)jumperror(oline,"GOTO"); inptr2=optr; cha2=(unsigned char)ocha; linenum2=oline; tok=tk_GOTO; } else{ getoperand(); CheckIP(); if(tok==tk_number||tok==tk_interruptproc||tok==tk_proc){ long hnumber; if(tok==tk_number)hnumber=doconstdwordmath(); else{ hnumber=itok.number; nexttok(); } long loc=hnumber-outptr-2; if(loc>-129&&loc<128){ op((unsigned char)(oldcode^1)); op(loc); } else{ loc-=3; outptr++; op(am32==0?3:5); op(0xE9); if(am32==FALSE)outword(loc); else{ loc-=2; outdword(loc); } } seminext(); break; } else if(GOTO())nexttok(); seminext(); } } else MakeContinue(CONTINUE_SHORT); if((i+1)==*numcomp)oldcode^=1; output[outptr-2]=oldcode; } } if(tok==tk_RETURN&&tok2==tk_openbracket){ nexttok(); nexttok(); } if(otok!=tk_GOTO&&rcompr!=voidcompr)nextseminext(); if(tok==tk_else||tok==tk_ELSE){ notunreach=TRUE; getoperand(); docommand(); } free(icomp); return NULL; } if((tok==tk_break||tok==tk_continue||tok==tk_goto)&&chip>2){ merge_if2: // printf("%s (%u) %s %s tok=%d\n",(startfileinfo+currentfileinfo)->filename,linenumber,itok.name,string,tok); if(*numcomp==1&&(!(tok==tk_goto&&(tok2==tk_reg||tok2==tk_reg32)))){ outptr-=2; i=(output[outptr]^1)+0x10; op(0x0F); } if(tok==tk_break)doBREAK((unsigned char)(am32==FALSE?BREAK_NEAR:BREAK_32)); else if(tok==tk_return){ AddRetList(outptr+1,ifline,tk_return); if(tok2==tk_openbracket){ nexttok(); nexttok(); } nextseminext(); clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif } else if(tok==tk_goto){ nexttok(); CheckIP(); if((tok==tk_number&&*numcomp==1)||tok==tk_interruptproc||tok==tk_proc){ if(tok==tk_proc&&tok2==tk_openbracket)doanyproc(TRUE); else{ long hnumber; if(tok==tk_number)hnumber=doconstdwordmath(); else{ hnumber=itok.number; nexttok(); } long loc=hnumber-outptr-2; if(loc>-130&&loc<127){ outptr--; op((unsigned char)(i-0x10)); op(loc+1); seminext(); goto c1; } else{ loc--; op(0xE9); if(am32==FALSE)outword(loc); else{ loc-=2; outdword(loc); } } } } else{ if(tok==tk_reg||tok==tk_reg32){ i=outptr; if(gotol(0))nexttok(); i=outptr-i; output[outptr-i-1]=(unsigned char)i; goto c1; } if(gotol(0))nexttok(); } seminext(); } else doCONTINUE((unsigned char)(am32==FALSE?CONTINUE_NEAR:CONTINUE_32)); if(*numcomp==1)output[outptr-3-j]=(unsigned char)i; c1: if(cpu<3)cpu=3; if(tok==tk_else||tok==tk_ELSE){ notunreach=TRUE; getoperand(); docommand(); } if(*numcomp!=1){ for(unsigned int i=0;i<*numcomp;i++){ if((icomp+i)->type!=tk_oror){ if((outptr-(icomp+i)->loc)>127)jumperror(ifline,mesIF); output[(icomp+i)->loc-1]=(unsigned char)(outptr-(icomp+i)->loc); } } } free(icomp); return NULL; } } if((icomp+(*numcomp-1))->use_cxz==cxnzcompr){ outptr-=4; outword(0xE3); (icomp+(*numcomp-1))->loc=outptr; for(i=(*numcomp-1);i!=0;i--){ if((icomp+i-1)->type==tk_oror)output[(icomp+i-1)->loc-1]-=(unsigned char)2; } } if(type!=tk_FOR){ startblock(); if(rcompr==zerocompr)warcompneqconst(); if(tok==tk_openbrace){ if(rcompr==zerocompr){ cha=cha2; inptr=inptr2; SkipBlock(); inptr2=inptr; cha2=cha; linenum2=linenumber; nexttok(); } else{ #ifdef OPTVARCONST if(comconst&&comconst->rec&&comconst->typevar==tk_equalto)Const2VarRec(comconst); #endif doblock(); nexttok(); } } else{ if(rcompr==zerocompr){ do{ nexttok(); }while(tok!=tk_semicolon&&tok!=tk_eof); } else{ #ifdef OPTVARCONST if(comconst&&comconst->rec&&comconst->typevar==tk_equalto)Const2VarRec(comconst); #endif docommand(); } } endblock(); RestoreStack(); } if(bakreg)*bakreg=bakregstat; if(changereg)*changereg=changeregstat; return icomp; } void dobigif() { unsigned int ifline,numcomp=0,j=0; ICOMP *icomp; int ic; unsigned int oaddESP=addESP; REGISTERSTAT *bakregstat=NULL,*changeregstat=NULL; ifline=linenumber; #ifdef OPTVARCONST LVIC comconst; comconst.rec=NULL; icomp=bigcompare(tk_IF,&numcomp,&bakregstat,&changeregstat,&comconst); #else icomp=bigcompare(tk_IF,&numcomp,&bakregstat,&changeregstat); #endif if(icomp!=NULL){ unsigned int elseline; elseline=linenumber; if(tok==tk_else)j=(am32==FALSE?3:5); else if(tok==tk_ELSE)j=2; notunreach=TRUE; if(dbg)AddLine(); for(unsigned int i=0;itype!=tk_oror){ if((outptr+j-(icomp+i)->loc)>127)jumperror(ifline,mesIF); output[(icomp+i)->loc-1]=(unsigned char)(outptr+j-(icomp+i)->loc); } } switch(lastcommand){ case tk_return: case tk_RETURN: case tk_goto: case tk_GOTO: case tk_break: case tk_BREAK: case tk_continue: case tk_CONTINUE: addESP=oaddESP; break; } if(retproc)CopyRegStat(bakregstat); else{ switch(lastcommand){ case tk_return: case tk_RETURN: case tk_goto: case tk_GOTO: case tk_break: case tk_BREAK: case tk_continue: case tk_CONTINUE: CopyRegStat(bakregstat); break; default: CompareRegStat(changeregstat); break; } // CompareRegStat(changeregstat); } if(tok==tk_else/*&&i==FALSE*/){ addESP=oaddESP; RestoreStack(); CopyRegStat(bakregstat); jumploc0(); ic = outptr; getoperand(); #ifdef OPTVARCONST if(tok!=tk_if&&tok!=tk_IF&&comconst.rec&&comconst.typevar==tk_notequal)Const2VarRec(&comconst); #endif startblock(); if(tok==tk_return||tok==tk_RETURN){ if(dbg)AddLine(); doreturn(tok); } else docommand(); endblock(); RestoreStack(); if((outptr-ic)<=127)warningjmp(mesELSE,elseline); if(am32==FALSE)*(unsigned short *)&output[ic-2]=(unsigned short)(outptr-ic); else *(unsigned long *)&output[ic-4]=(unsigned long)(outptr-ic); CompareRegStat(changeregstat); } else if(tok==tk_ELSE/*&&ic==FALSE*/){ addESP=oaddESP; RestoreStack(); CopyRegStat(bakregstat); outword(0x00EB); ic=outptr; getoperand(); #ifdef OPTVARCONST if(tok!=tk_if&&tok!=tk_IF&&comconst.rec&&comconst.typevar==tk_notequal)Const2VarRec(&comconst); #endif startblock(); if(tok==tk_return||tok==tk_RETURN){ if(dbg)AddLine(); doreturn(tok); } else docommand(); endblock(); RestoreStack(); if((outptr-ic)>127)jumperror(elseline,mesELSE); output[ic-1]=(unsigned char)(outptr-ic); CompareRegStat(changeregstat); } free(icomp); CopyRegStat(changeregstat); } FreeStat(bakregstat); FreeStat(changeregstat); retproc=FALSE; lastcommand=tk_IF; } void JXorJMP() { if(chip<3){ op(0xE9); } else{ unsigned char i; outptr-=2; i=(unsigned char)((output[outptr]^1)+0x10); op(0x0F); op(i); if(cpu<3)cpu=3; } } void dowhile(unsigned int typeb) { unsigned int ifline,conloc,numcomp=0; ICOMP *icomp; REGISTERSTAT *bakregstat=NULL,*changeregstat=NULL; uptdbr(); if(AlignCycle)AlignCD(CS,aligncycle); conloc=outptr; ifline=linenumber; if(typeb==tk_while) #ifdef OPTVARCONST icomp=compare(typeb,&numcomp,&bakregstat,&changeregstat,NULL); #else icomp=compare(typeb,&numcomp,&bakregstat,&changeregstat); #endif else #ifdef OPTVARCONST icomp=bigcompare(typeb,&numcomp,&bakregstat,&changeregstat,NULL); #else icomp=bigcompare(typeb,&numcomp,&bakregstat,&changeregstat); #endif SetContinueLabel(); jumploc(conloc); if(icomp!=NULL){ if(typeb==tk_WHILE){ for(unsigned int i=0;itype!=tk_oror){ if((outptr-(icomp+i)->loc)>127)jumperror(ifline,mesWHILE); output[(icomp+i)->loc-1]=(unsigned char)(outptr-(icomp+i)->loc); } } } else{ for(unsigned int i=0;itype!=tk_oror){ if(am32==FALSE)*(unsigned short *)&output[(icomp+i)->loc-2]=(unsigned short)(outptr-(icomp+i)->loc); else *(unsigned long *)&output[(icomp+i)->loc-4]=(unsigned long)(outptr-(icomp+i)->loc); } } if((outptr-icomp->loc)<=127)warningjmp(mesWHILE,ifline); } free(icomp); } if(retproc){ if(bakregstat)CopyRegStat(bakregstat); } else if(changeregstat)CompareRegStat(changeregstat); if(changeregstat)CopyRegStat(changeregstat); SetBreakLabel(); if(usebr[curbr]!=0)clearregstat(); FreeStat(bakregstat); FreeStat(changeregstat); #ifdef OPTVARCONST ClearLVIC(); #endif lastcommand=tk_do; } void dowhilefast(unsigned int typeb) { unsigned int numcomp=0; unsigned int startloc,i; ICOMP *icomp; ITOK oitok,ostructadr; SINFO ostr; unsigned int oldinptr; int otok,otok2; char *ostring,*obufrm; int blinenum,olinenum,oinptr; char *ostartline,*bstartline; char ocha,bcha; int jmptocompr=0; int rcompr; unsigned char *oinput; unsigned int oaddESP=addESP; ocha=cha2; oinptr=inptr2; olinenum=linenumber; ostartline=startline; clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif do{ nexttok(); if(tok2==tk_openbracket)nexttok(); if(tok2==tk_closebracket){ nexttok(); jmptocompr=1; break; } if(tok2==tk_number){ nexttok(); if(tok2==tk_closebracket){ if(itok.number!=0)jmptocompr=1; else jmptocompr=2; nexttok(); break; } } nexttok(); //необходимо для избежания предупреждения о неинициализированной переменной cha=cha2; inptr=inptr2; SkipParam(); inptr2=inptr; cha2=cha; linenum2=linenumber; nexttok(); if(typeb==tk_while&&tok==tk_oror&&optimizespeed==0){ cha2=ocha; inptr2=oinptr; linenumber=linenum2=olinenum; startline=ostartline; dowhile(typeb); if(ESPloc&&am32&&oaddESP!=addESP)warESP(); return; } if(bufrm){ free(bufrm); bufrm=NULL; } if(strinf.bufstr){ free(strinf.bufstr); strinf.bufstr=NULL; } }while(tok==tk_andand||tok==tk_oror); while(tok==tk_closebracket)nexttok(); if(!jmptocompr){ if(typeb==tk_WHILE)outword(0x00EB); // JMP SHORT else jumploc0(); } i=outptr; if(AlignCycle)AlignCD(CS,aligncycle); startloc=outptr; uptdbr(); if(tok!=tk_openbrace){ if(jmptocompr==2){ do{ nexttok(); }while(tok!=tk_semicolon&&tok!=tk_eof); } else docommand(); } else{ if(jmptocompr==2){ cha=cha2; inptr=inptr2; SkipBlock(); inptr2=inptr; cha2=cha; linenum2=linenumber; nexttok(); } else{ startblock(); doblock(); nexttok(); endblock(); } } RestoreStack(); if(!jmptocompr){ if(typeb==tk_WHILE){ if(i!=outptr){ if((outptr-i)>127)jumperror(olinenum,mesWHILE); output[i-1]=(unsigned char)(outptr-i); } else{ if(dbg&1)KillLastLine(); outptr-=2; startloc-=2; } } else{ if(i!=outptr){ if((outptr-i)<=127)warningjmp(mesWHILE,olinenum); if(am32) *(unsigned long *)&output[i-4]=(unsigned long)(outptr-i); else *(unsigned short *)&output[i-2]=(unsigned short)(outptr-i); } else{ i=3; if(am32)i+=2; if(dbg){ KillLastLine(); KillLastLine(); } outptr-=i; startloc-=i; } } } SetContinueLabel(); clearregstat(); //06.09.04 21:56 #ifdef OPTVARCONST ClearLVIC(); #endif icomp=(ICOMP *)MALLOC(sizeof(ICOMP)*MAXIF); //блок для инфо о сравнениях // oitok2=itok2; ostring=BackString((char *)string); oldinptr=inptr2; oinput=input; bcha=cha2; otok=tok; otok2=tok2; oitok=itok; ostructadr=structadr; ostr=strinf; strinf.bufstr=NULL; obufrm=bufrm; int oldendinptr=endinptr; COM_MOD *tempcurmod=cur_mod; if(cur_mod)BackMod(); bufrm=NULL; blinenum=linenum2; inptr2=oinptr; cha2=ocha; linenumber=linenum2=olinenum; bstartline=startline; startline=ostartline; if(dbg)AddLine(); int ptok=tk_oror; do{ i=0; #ifdef OPTVARCONST if((rcompr=constructcompare(2,startloc,NULL))==voidcompr||rcompr==zerocompr)i=1; #else if((rcompr=constructcompare(2,startloc))==voidcompr||rcompr==zerocompr)i=1; #endif if(i){ if(ptok==tk_andand){ // i=0; ptok=tok; } continue; } if((rcompr&1)){; op(0x03); if(tok!=tk_andand){ JXorJMP(); if(am32==FALSE)outword(startloc-(outptr+2)); else outdword(startloc-(outptr+4)); } } else{ op(startloc-(outptr+1)); /* the small jump */ if(tok==tk_andand)output[outptr-2]=(unsigned char)(output[outptr-2]^1); } (icomp+numcomp)->loc=outptr; (icomp+numcomp)->type=tok; numcomp++; if(numcomp==MAXIF){ ManyLogicCompare(); break; } ptok=tok; }while(tok==tk_oror||tok==tk_andand); if(jmptocompr==1)jumploc(startloc); startline=bstartline; strinf=ostr; inptr2=oldinptr; input=oinput; endinptr=oldendinptr; cha2=bcha; tok=otok; itok=oitok; structadr=ostructadr; bufrm=obufrm; tok2=otok2; cur_mod=tempcurmod; strcpy((char *)string,ostring); free(ostring); linenumber=linenum2=blinenum; itok2=oitok; for(i=0;itype==tk_andand){ if(outptr-(icomp+i)->loc>127)CompareOr(); output[(icomp+i)->loc-1]=(unsigned char)(outptr-(icomp+i)->loc); } } if(rcompr==cxzcompr){ outptr-=4; op(0xE3); op(startloc-outptr-1); for(i=(numcomp-1);i!=0;i--){ if((icomp+i-1)->type==tk_andand)output[(icomp+i-1)->loc-1]-=(unsigned char)2; } } SetBreakLabel(); clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif free(icomp); if(ESPloc&&am32&&oaddESP!=addESP)warESP(); lastcommand=tk_do; } void dodo() { unsigned int startloc,numcomp=0,i=0; ICOMP *icomp; int ptok=tk_oror; int rcompr; unsigned int oaddESP=addESP; nexttok(); if(AlignCycle)AlignCD(CS,aligncycle); startloc=outptr; uptdbr(); if(dbg&1)KillLastLine(); clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif docommand(); SetContinueLabel(); if(dbg)AddLine(); if(tok!=tk_while)preerror("'while' expected following 'do'"); icomp=(ICOMP *)MALLOC(sizeof(ICOMP)*MAXIF); //блок для инфо о сравнениях do{ #ifdef OPTVARCONST if((rcompr=constructcompare(2,startloc,NULL))==voidcompr||rcompr==zerocompr)i=1; #else if((rcompr=constructcompare(2,startloc))==voidcompr||rcompr==zerocompr)i=1; #endif if(i){ if(ptok==tk_andand){ i=0; ptok=tok; } continue; } if((rcompr&1)){; op(0x03); if(tok!=tk_andand){ JXorJMP(); if(am32==FALSE)outword(startloc-(outptr+2)); else outdword(startloc-(outptr+4)); } } else{ op(startloc-(outptr+1)); /* the small jump */ if(tok==tk_andand)output[outptr-2]=(unsigned char)(output[outptr-2]^1); } (icomp+numcomp)->loc=outptr; (icomp+numcomp)->type=tok; numcomp++; if(numcomp==MAXIF){ ManyLogicCompare(); goto end; } ptok=tok; }while(tok==tk_oror||tok==tk_andand); if(i)jumploc(startloc); if(tok==tk_closebracket)nexttok(); for(i=0;itype==tk_andand){ if(outptr-(icomp+i)->loc>127)CompareOr(); output[(icomp+i)->loc-1]=(unsigned char)(outptr-(icomp+i)->loc); } } if(rcompr==cxzcompr){ outptr-=4; op(0xE3); op(startloc-outptr-1); for(i=(numcomp-1);i!=0;i--){ if((icomp+i-1)->type==tk_andand)output[(icomp+i-1)->loc-1]-=(unsigned char)2; } } seminext(); SetBreakLabel(); if(usebr[curbr]!=0||useco[curco]!=0)clearregstat(); end: #ifdef OPTVARCONST ClearLVIC(); #endif free(icomp); if(ESPloc&&am32&&oaddESP!=addESP)warESP(); lastcommand=tk_do; } void dofor(unsigned int typeb) { unsigned int ifline,conloc,blinenum,numcomp=0; unsigned char bcha; unsigned char COMPARE=FALSE,modif=FALSE; int i; unsigned char *buf; unsigned int oaddESP=addESP; ICOMP *icomp=NULL; REGISTERSTAT *bakregstat=NULL,*changeregstat=NULL; ifline=linenumber; // printf("start for, curco=%u curbr=%u\n",curco,curbr); uptdbr(); nexttok(); i=inptr2; bcha=cha2; expecting(tk_openbracket); //пров на откр скобку if(tok!=tk_semicolon){ //ЕСТЬ ПРЕДВАРИТЕЛЬНЫЕ УСТАНОВКИ for(;;){ //записать их в буфер AddBackBuf(i,bcha); if(tok==tk_semicolon)break; if(tok!=tk_camma){ expecting(tk_semicolon); break; } i=inptr2; bcha=cha2; nexttok(); } if(bufrm){ free(bufrm); bufrm=NULL; } if(strinf.bufstr){ free(strinf.bufstr); strinf.bufstr=NULL; } CharToBackBuf('}'); CharToBackBuf(0); RunBackText(); //выполнить его } clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif bcha=cha2; i=inptr2; nexttok(); if(AlignCycle)AlignCD(CS,aligncycle); conloc=outptr; //запомнить точку начала цикла if(tok!=tk_semicolon){ //если есть условие if(tok!=tk_openbracket){ //если условие начинается не с ( CharToBackBuf('('); //добавить ее COMPARE=TRUE; //и флаг установить } AddBackBuf(i,bcha); //запомнить условие if(tok!=tk_semicolon)expected(';'); SizeBackBuf--; if(COMPARE)CharToBackBuf(')'); //если надо, закрыть скобку CharToBackBuf(0); int oendinptr=endinptr; endinptr=SizeBackBuf-1;//strlen(BackTextBlock); i=inptr2; buf=input; bcha=cha2; input=(unsigned char *)BackTextBlock; SizeBackBuf=0; inptr2=1; cha2='('; if(typeb==tk_for) #ifdef OPTVARCONST icomp=compare(typeb,&numcomp,&bakregstat,&changeregstat,NULL); #else icomp=compare(typeb,&numcomp,&bakregstat,&changeregstat); #endif else #ifdef OPTVARCONST icomp=bigcompare(typeb,&numcomp,&bakregstat,&changeregstat,NULL); #else icomp=bigcompare(typeb,&numcomp,&bakregstat,&changeregstat); #endif free(input); input=buf; inptr2=i; cha2=bcha; endinptr=oendinptr; COMPARE=TRUE; nexttok(); } else{ i=inptr2; bcha=cha2; nexttok(); } if(tok!=tk_closebracket){ //есть модификация modif=TRUE; while(tok!=tk_closebracket){ AddBackBuf(i,bcha); if(cha==')'||cha==26){ CharToBackBuf(';'); nextchar(); cha2=cha; inptr2=inptr; break; } if(bufrm){ free(bufrm); bufrm=NULL; } if(strinf.bufstr){ free(strinf.bufstr); strinf.bufstr=NULL; } i=inptr2; bcha=cha2; nexttok(); } CharToBackBuf('}'); CharToBackBuf(0); buf=(unsigned char *)REALLOC(BackTextBlock,SizeBackBuf); SizeBackBuf=0; } blinenum=linenumber; nexttok(); /////////////////// if(tok==tk_openbrace){ if(COMPARE&&(icomp+numcomp)->use_cxz==zerocompr){ warcompneqconst(); cha=cha2; inptr=inptr2; SkipBlock(); inptr2=inptr; cha2=cha; linenum2=linenumber; nexttok(); } else{ startblock(); doblock(); nexttok(); endblock(); } } else{ if(COMPARE&&(icomp+numcomp)->use_cxz==zerocompr){ warcompneqconst(); do{ nexttok(); }while(tok!=tk_semicolon&&tok!=tk_eof); } else docommand(); } RestoreStack(); SetContinueLabel(); // puts((char *)string2); // printf("end for, curco=%u curbr=%u\n",curco,curbr); if(modif){ unsigned int oldlinenum=linenum2; ITOK oitok; oitok=itok2; BackTextBlock=(char *)buf; linenum2=blinenum; RunBackText(); linenumber=linenum2=oldlinenum; itok2=oitok; } if(COMPARE==FALSE||(COMPARE&&(icomp+numcomp)->use_cxz!=zerocompr)){ if(COMPARE&&(icomp+numcomp)->use_cxz==voidcompr)warcompeqconst(); jumploc(conloc);//JMP на начало цикла } if(COMPARE){ for(unsigned int i=0;itype!=tk_oror){ if(typeb==tk_FOR){ if((outptr-(icomp+i)->loc)>127)jumperror(ifline,mesFOR); output[(icomp+i)->loc-1]=(unsigned char)(outptr-(icomp+i)->loc); } else{ if((outptr-(icomp+i)->loc)<=127)warningjmp(mesFOR,ifline); if(am32==FALSE)*(unsigned short *)&output[(icomp+i)->loc-2]=(unsigned short)(outptr-(icomp+i)->loc); else *(unsigned long *)&output[(icomp+i)->loc-4]=(unsigned long)(outptr-(icomp+i)->loc); } } } free(icomp); } if(retproc){ if(bakregstat)CopyRegStat(bakregstat); } else if(changeregstat)CompareRegStat(changeregstat); if(changeregstat)CopyRegStat(changeregstat); SetBreakLabel(); if(usebr[curbr]!=0||useco[curco]!=0)clearregstat(); FreeStat(bakregstat); FreeStat(changeregstat); #ifdef OPTVARCONST ClearLVIC(); #endif if(ESPloc&&am32&&oaddESP!=addESP)warESP(); lastcommand=tk_for; } void decit(int dectok,ITOK *detok,char *&decbuf,SINFO *dstr) // outputs code to decrement the given variable one. { int vop=0,i=0,razr=r16; switch(dectok){ case tk_dwordvar: case tk_longvar: CheckAllMassiv(decbuf,4,dstr,detok); op66(r32); if(cpu<3)cpu=3; vop=1; goto l2; case tk_wordvar: case tk_intvar: vop=1; op66(r16); i=1; case tk_bytevar: case tk_charvar: i++; CheckAllMassiv(decbuf,i,dstr,detok); if(vop!=0)op66(r16); l2: outseg(detok,2); op(0xFE + vop); op(0x08+detok->rm); outaddress(detok); break; case tk_reg32: if(cpu<3)cpu=3; razr=r32; case tk_reg: op66(razr); op(0x48+detok->number); break; case tk_beg: op(0xFE); op(0xC8+detok->number); break; default: preerror(invaliddecrem); break; } } void uptdbr(/*int usesw*/) { listbr[curbr]=numbr; //номер этого цикла usebr[curbr]=0; curbr++; //число вложений numbr++; //всего циклов // if(!usesw){ useco[curco]=0; curco++; // } if(curbr==MAXIN)preerror("to many inside bloks"); } void doloop(unsigned int typeb) // both short and long loops { unsigned int startloc,startloc2; int looptok; ITOK lootok; char *loopbuf; signed char delta; SINFO lstr; int j=0,sline=linenumber; unsigned int oaddESP=addESP; nexttok(); // printf("tok=%u name=%s bufrm=%s\n",tok,itok.name,bufrm); expecting(tk_openbracket); looptok=tok; lootok=itok; loopbuf=bufrm; bufrm=NULL; lstr=strinf; strinf.bufstr=NULL; // printf("bufrm=%s strinf=%s\n",loopbuf,lstr.bufstr); clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif uptdbr(); if(dbg&1)KillLastLine(); if((toktk_dwordvar)&&tok!=tk_reg&&tok!=tk_reg32 &&tok!=tk_beg&&tok!=tk_closebracket) preerror(invaliddecrem); if(tok!=tk_closebracket){ if(typeb!=tk_loop){ if(dbg)AddLine(); int vop=tok==tk_reg?r16:r32; if(typeb==tk_LOOPNZ&&((tok==tk_reg&&itok.number==CX)|| (tok==tk_reg32&&itok.number==ECX))&&(!(optimizespeed&&chip>3&&chip<7))){ op67(vop); outword(0xE3); } else{ if(tok==tk_reg||tok==tk_reg32||tok==tk_beg){ if(tok==tk_beg)op(0x84); else{ op66(vop); op(0x85); } op(0xc0+(unsigned int)itok.number*9); } else{ ITOK htok2; htok2.number=0; htok2.rm=(am32==FALSE?rm_d16:rm_d32); htok2.segm=DS; htok2.post=0; htok2.sib=(am32==FALSE?CODE16:CODE32); htok2.flag=0; int razr=r_undef; switch(tok){ case tk_longvar: case tk_dwordvar: razr=2; case tk_intvar: case tk_wordvar: razr++; case tk_charvar: case tk_bytevar: razr++; } outcmp(0,tok,&itok,bufrm,&strinf,tk_number,&htok2,loopbuf,&lstr,razr); } if(typeb==tk_LOOPNZ)outword(0x74); else{ if(chip<3){ outword(0x0375); // JNZ past jump up op(0xE9); } else{ outword(0x840F); } outword(0); if(am32!=FALSE)outword(0); } } } nexttok(); //то что уменьшается } expecting(tk_closebracket); startloc2=outptr; if(AlignCycle)AlignCD(CS,aligncycle); startloc=outptr; docommand(); RestoreStack(); SetContinueLabel(); if(looptok!=tk_closebracket){ if(((outptr-startloc)<=(127-3))&&(chip<3||optimizespeed==0)&& ((looptok==tk_reg&&lootok.number==CX)||(looptok==tk_reg32&&lootok.number==ECX))){ delta=(char)(startloc-(outptr+2)); if(op67(looptok==tk_reg?r16:r32)!=FALSE)delta--; op(0xE2); op(delta); /* LOOP 'delta' */ } else{ decit(looptok,&lootok,loopbuf,&lstr); if((outptr-startloc)>(unsigned int)(127-2-j)){ /* long jump */ if(chip<3){ outword(0x0374); // JZ past jump up op(0xE9); } /* JMP top of loop */ else{ outword(0x850F); if(cpu<3)cpu=3; } if(am32==FALSE)outword(startloc-(outptr+2)); else outdword(startloc-(outptr+4)); } else{ op(0x75); // short jump op(startloc-(outptr+1)); } /* JNZ 'delta' */ } } else jumploc(startloc);//JMP на начало цикла if(typeb!=tk_loop){ looptok=outptr-startloc2; if(typeb==tk_LOOPNZ){ if(looptok>127)jumperror(sline,mesLOOPNZ); output[startloc2-1]=(unsigned char)looptok; } else{ if(looptok<=127)warningjmp(mesLOOPNZ,sline); if(am32==FALSE)*(unsigned short *)&output[startloc2-2]=(unsigned short)looptok; else *(unsigned long *)&output[startloc2-4]=(unsigned long)looptok; } } SetBreakLabel(); if(usebr[curbr]!=0||useco[curco]!=0||typeb!=tk_loop)clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif if(ESPloc&&am32&&oaddESP!=addESP)warESP(); lastcommand=tk_loop; } void GetNameLabel(int type,int num) { sprintf((char *)string2,type==tk_break?"BREAK%04X":"CONTINUE%04X",listbr[num]); } void SetBreakLabel() { curbr--; if(usebr[curbr]!=0){ GetNameLabel(tk_break,curbr); updatecall((unsigned int)updatelocalvar((char *)string2,tk_number,outptr),outptr,procedure_start); // clearregstat(); } } void SetContinueLabel() { curco--; if(useco[curco]!=0){ GetNameLabel(tk_continue,curco); updatecall((unsigned int)updatelocalvar((char *)string2,tk_number,outptr),outptr,procedure_start); } } /* +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ */ void SaveDataVal(unsigned int ssize,unsigned long long val) { switch(ssize){ case 1: opd(val); break; case 2: outwordd(val); break; case 4: outdwordd(val); break; case 8: outqwordd(val); break; } } long AddVarString() { long loop=0; int term; do{ term=itok.flag; for(int i=0;i0xFFFFL)tobigpost(); else postsize=longpostsize; } } void labelindata() { //idrec *varrec; FindOff((unsigned char *)itok.name,DS); tok=tk_number; itok.number=outptrdata; itok.segm=DS; string[0]=0; if(FixUp)itok.flag=f_reloc; /*varrec=*/addtotree(itok.name); /*varrec->count=*/FindOff((unsigned char *)itok.name,DS); nexttok(); nexttok(); } void globalvar() /* both initialized and unitialized combined */ { long size,loop,i,elements,ssize; char done=0,typev; char var_name[IDLENGTH]; int type=itok.rm,typebak; //тип переменной unsigned int flag,fflag=itok.flag,dynamic; unsigned int npointr=itok.npointr; int count; idrec *varrec; size=typesize(type); //размер переменной if(FixUp)fflag|=f_reloc; typebak=type; while(tok!=tk_eof&&done==0){ int nnpointr=0; typev=variable; ssize=size; flag=fflag; type=typebak; // printf("type=%d\n",type); if(tok==tk_far){ flag|=f_far; nexttok(); } while(tok==tk_mult){ //указатель npointr++; nexttok(); } if(tok==tk_openbracket){ nexttok(); while(tok==tk_mult){ //указатель на процедуру nnpointr++; nexttok(); } } if(npointr){ if((flag&f_far)!=0||am32!=FALSE)ssize=4; else ssize=2; typev=pointer; type=am32==FALSE?tk_word:tk_dword; } // printf("tok=%d %s\n",tok,itok.name); switch(tok){ case tk_id: case tk_ID: if(tok2==tk_openbracket||nnpointr){ if(npointr)type=am32==FALSE?tk_word:tk_dword; declare_procedure(flag,type,nnpointr); break; } strcpy(var_name,itok.name); //имя переменной elements=1; nexttok(); if(tok==tk_openblock){ //[ nexttok(); if(tok==tk_closeblock){//неизвестное число элементов elements=0; nexttok(); } else{ CheckMinusNum(); if(tok!=tk_number){ numexpected(); nexttok(); } else{ elements=doconstlongmath(); //число элементов expecting(tk_closeblock); } } } if(type==tk_void){ preerror("type 'void' not use for declare variables"); break; } dynamic=FALSE; if(tok==tk_assign||(notpost==TRUE&&dynamic_flag==0)){ //= инициализированая переменная if((flag&f_extern))preerror("extern variable do not initialize at declare"); i=tok; itok.type=tp_gvar;// 11.07.05 21:56 tp_ucnovn; SetNewTok(type,typev); if(useStartup==TRUE&&i!=tk_assign&&SaveStartUp(size*elements,var_name)!=FALSE){ if(elements==0)ZeroMassiv(); //ошибка tok=i; break; } if(alignword&&ssize&&(!dynamic_flag))alignersize+=AlignCD(DS,ssize); itok.number=dynamic_flag==0?outptrdata:0; itok.segm=(comfile==file_rom&&modelmem==TINY?CS:DS); itok.flag=flag; // itok.post=dynamic; itok.size=elements*ssize; itok.rm=(am32==FALSE?rm_d16:rm_d32); itok.npointr=(unsigned short)npointr; varrec=addtotree(var_name); if((count=FindOff((unsigned char *)var_name,DS))==0){ if(dynamic_flag)dynamic=DYNAMIC_VAR; } else if(dynamic_flag)dynamic=USED_DIN_VAR; if(i!=tk_assign){ if(elements==0)ZeroMassiv(); else if(notpost==TRUE){ for(loop=0;looprecsize=loop; datasize+=loop; } tok=i; break; } if(dynamic){ varrec->sbuf=dynamic_var(); varrec->recpost=dynamic; } else{ loop=initglobalvar(type,elements,ssize,typev); varrec->recsize=loop; datasize+=loop; } varrec->count=count; } else{ if(elements==0){ ZeroMassiv(); break; } if(CheckUseAsUndef((unsigned char *)var_name)==0&&dynamic_flag)dynamic=TRUE; switch(tok){ //неинициализированные default: expected(';'); case tk_semicolon: done=1;// ; case tk_camma: //, post global type itok.type=tp_postvar;//11.07.05 21:57 tp_ucnovn; SetNewTok(type,typev); if((flag&f_extern)==0&&useStartup==TRUE&&dynamic==0){ if(SaveStartUp(ssize*elements,var_name)!=FALSE){ nexttok(); break; } } if((flag&f_extern)==0&&alignword&&dynamic==0){ //выровнять на четный адрес if(ssize==2){ if(postsize%2==1)postsize++; } else if(ssize==4&&postsize%4!=0)postsize+=4-(postsize%4); } count=FindOff((unsigned char *)var_name,VARPOST); itok.post=dynamic+1; itok.segm=DS; loop=elements*ssize; itok.number=(flag&f_extern)==0?postsize:externnum++; itok.flag=flag; itok.size=loop; itok.rm=(am32==FALSE?rm_d16:rm_d32); itok.npointr=(unsigned short)npointr; varrec=addtotree(var_name); varrec->count=count; if((flag&f_extern)==0)AddPostData(loop); nexttok(); break; } } break; case tk_undefproc: if(tok2==tk_openbracket||nnpointr){ if(npointr)type=am32==FALSE?tk_word:tk_dword; declare_procedure(flag,type,nnpointr); break; } case tk_proc: case tk_floatvar: case tk_dwordvar: case tk_longvar: case tk_charvar: case tk_intvar: case tk_bytevar: case tk_pointer: case tk_wordvar: idalreadydefined(); nexttok(); break; default: expected(';'); case tk_semicolon: done=1; case tk_camma: nexttok(); break; } npointr=0; } dopoststrings(); } void SetNewTok(int type,int typev) { switch(typev){ case variable: if(type>=tk_char&&type<=tk_double)tok=type+(tk_charvar-tk_char); break; case pointer: // if(type>=tk_void&&type<=tk_float){ tok=tk_pointer; itok.type=(unsigned short)type; // } break; } } int SaveStartUp(int size,char *var_name) { int i=0; if((startStartup+size)<=endStartup){ if(alignword){ //выровнять на четный адрес if(size==2){ if(startStartup%2==1)i=1; } else if(size==4&&startStartup%4!=0)i=4-(startStartup%4); } if((startStartup+size+i)<=endStartup){ startStartup+=i; itok.number=startStartup; itok.segm=DS; itok.flag=0; itok.post=0; itok.rm=(am32==FALSE?rm_d16:rm_d32); itok.type=tp_ucnovn; addtotree(var_name); startStartup+=size; return TRUE; } } return FALSE; } /* ======= старт заголовка процедуры ======== */ void setuprm() { itok.rm=returntype=(itok.rm==tokens?am32==FALSE?tk_word:tk_dword:itok.rm); if(itok.npointr)itok.rm=returntype=(am32==FALSE?tk_word:tk_dword); } void eaxToFloat(int reg=AX) { int next=1; CheckMinusNum(); if(itok2.type==tp_opperand){ //составное doeaxfloatmath(tk_reg32,reg); next=0; } else{ switch(tok){ case tk_number: if(itok.rm==tk_double)itok.fnumber=itok.dnumber; else if(itok.rm!=tk_float){ float temp=itok.number; *(float *)&itok.number=temp; } op66(r32); op(0xb8+reg); // MOV EAX,# outdword(itok.number); break; case tk_floatvar: if(reg==AX&&itok.rm==rm_d16&&itok.sib==CODE16){ op66(r32); outseg(&itok,1); op(0xA1); outword((unsigned int)itok.number); } else{ CheckAllMassiv(bufrm,4,&strinf); op66(r32); outseg(&itok,2); op(0x8B); op(itok.rm+reg*8); outaddress(&itok); } break; default: if(doeaxfloatmath(tk_reg32,reg)!=tk_reg32&®!=AX){ if(!am32)Leave(); op66(r32); op(0x89); op(0xc0+reg); } next=0; } } if(next)nexttok(); } void CalcRegPar(int reg,int def,char **ofsstr) { char signflag=0; int razr; unsigned char oinline=useinline; useinline=0; // if(*ofsstr)puts(*ofsstr); if(tok!=tk_camma){ if(tok==tk_openbracket){ nexttok(); if(tok>=tk_char&&tok<=tk_double)def=tok; nexttok(); expectingoperand(tk_closebracket); } if(tok>=tk_char&&tok<=tk_double){ def=tok; getoperand(); } if(tok==tk_string){ op(0xB8+reg); if(am32==FALSE)outword(addpoststring()); else outdword(addpoststring()); nexttok(); razr=(am32==FALSE?r16:r32); } else if(tok==tk_floatvar)eaxToFloat(reg); else{ switch(def){ case tk_int: signflag=1; case tk_word: if(reg==AX)do_e_axmath(signflag,r16,ofsstr); else getintoreg(reg,r16,signflag,ofsstr); razr=r16; break; case tk_char: signflag=1; case tk_byte: if(reg==AX)doalmath(signflag,ofsstr); else{ getintobeg(reg,ofsstr); dobegmath(reg); } razr=r8; break; case tk_long: signflag=1; case tk_dword: if(reg==AX)do_e_axmath(signflag,r32,ofsstr); else getintoreg(reg,r32,signflag,ofsstr); razr=r32; break; case tk_float: eaxToFloat(reg); razr=r32; break; case tk_qword: getintoreg64(reg); doregmath64(reg); razr=r64; break; case tokens: razr=(am32==FALSE?r16:r32); if(reg==AX)do_e_axmath(0,razr,ofsstr); else getintoreg(reg,razr,signflag,ofsstr); break; } } AddRegistr(razr,reg); // printf("%08X\n",reg); } useinline=oinline; } int GetTypeParam(char c) { switch(c){ case 'B': return tk_byte; case 'W': return tk_word; case 'D': return tk_dword; case 'C': return tk_char; case 'I': return tk_int; case 'L': return tk_long; case 'F': return tk_float; case 'A': return tk_multipoint; case 'Q': return tk_qword; case 'E': return tk_double; case 'S': return tk_fpust; case 'T': return tk_struct; case 'U': return tokens; default: extraparam(); // printf("%c\n",c); return 0; } } void doregparams() { int i=0; char *ofsstr=NULL; int razr; int retreg; ClearRegister(); if(tok!=tk_openbracket)expected('('); while(tok2==tk_camma){ nexttok(); i++; } ofsstr=GetLecsem(tk_camma,tk_closebracket); getoperand(); if(tok!=tk_closebracket){ if(strlen(param)!=0){ int def; char *oparam=BackString(param); for(;;){ while(tok==tk_camma){ if(ofsstr)free(ofsstr); ofsstr=GetLecsem(tk_camma,tk_closebracket); getoperand(); } if((def=GetTypeParam(oparam[i++]))==0){ nexttok(); break; } if(def==tk_qword){ int c1,c2; c1=oparam[i++]-0x30; c2=oparam[i++]-0x30; retreg=c1|(c2*256); // printf("%08X\n",retreg); } else retreg=oparam[i++]-0x30; if(ofsstr){ if((razr=getrazr(def))!=r64){ int retr; if((retr=CheckIDZReg(ofsstr,retreg,razr))!=NOINREG){ GetEndLex(tk_camma,tk_closebracket); if(retr!=SKIPREG)GenRegToReg(retreg,retr,razr); nexttok(); goto endparam; } } } if(def==tk_fpust)float2stack(retreg); else CalcRegPar(retreg,def,&ofsstr); endparam: if(ofsstr&&razr!=r64){ IDZToReg(ofsstr,retreg,razr); free(ofsstr); ofsstr=NULL; } if(tok!=tk_camma){ if(tok!=tk_closebracket)expected(')'); if(oparam[i]!=0)missingpar(); break; } } free(oparam); } else{ char regpar[6]={AX,BX,CX,DX,DI,SI}; for(;i<6;i++){ if(tok==tk_camma){ if(ofsstr)free(ofsstr); ofsstr=GetLecsem(tk_camma,tk_closebracket); getoperand(); if(tok==tk_camma)continue; } retreg=regpar[i]; if(ofsstr&&tok!=tk_camma){ razr=(am32==FALSE?r16:r32); int retr; if((retr=CheckIDZReg(ofsstr,retreg,razr))!=NOINREG){ GetEndLex(tk_camma,tk_closebracket); if(retr!=SKIPREG)GenRegToReg(retreg,retr,razr); nexttok(); goto endparam1; } } CalcRegPar(retreg,tokens,&ofsstr); endparam1: if(ofsstr){ IDZToReg(ofsstr,retreg,razr); free(ofsstr); ofsstr=NULL; } if(tok!=tk_camma){ if(tok!=tk_closebracket)expected(')'); break; } } } setzeroflag=FALSE; } if(ofsstr)free(ofsstr); } int CheckUses() { int i; int regs=0; int bracket=FALSE; memset((SAVEREG *)psavereg,0,sizeof(SAVEREG)); if(tok==tk_openbracket){ if(stricmp(itok2.name,"uses")==0){ bracket=TRUE; nexttok(); } else return 0; } if(stricmp(itok.name,"uses")==0){ nexttok(); while(tok==tk_reg32||tok==tk_reg||tok==tk_beg){ i=r32; switch(tok){ case tk_beg: if(itok.number>3)itok.number-=4; i=(am32+1)*2; break; case tk_reg: if(!am32)i=r16; break; } regs=regs|(1<reg[itok.number]=i; i=1; if((am32&&i==r16)||(am32==0&&i==r32))i=2; psavereg->size+=i; nexttok(); if(tok==tk_camma)nexttok(); } if(strcmp(itok.name,"allregs")==0){ psavereg->size=1; psavereg->all=1; regs=dEAX|dEBX|dECX|dEDX|dEBP|dEDI|dESI; nexttok(); } } if(bracket)expecting(tk_closebracket); return regs; } void Enter() { if(ESPloc==FALSE||am32==FALSE){ op(0x55); //push bp outword(0xe589);//mov bp,sp } } void setproc(int defflag) { char *bstring; unsigned char oinline,ooptimizespeed; ITOK otok; unsigned int i; int regs=0; unsigned char oESPloc=ESPloc; int startline=linenumber; unsigned int oregidx; clearregstat(); addESP=inlineflag=0; oinline=useinline; ooptimizespeed=optimizespeed; oregidx=*(unsigned int *)&idxregs; current_proc_type=itok.flag; if(itok.flag&f_extern)notexternfun(); //new 18.04.07 12:20 // printf("%s tok=%d flag=%08X\n",itok.name,tok,itok.flag); tok=lastcommand=tk_proc; itok.number=outptr; if(itok.segmcount=i; } bstring=BackString((char *)string); otok=itok; if(strcmp(mesmain,otok.name)==0){ if(startuptomain==TRUE&&comfile==file_com)doprestuff(); if(numdomain!=0){ for(i=0;iloc=outptr+1; callloc0(); /* produce CALL [#] */ break; case tk_declare: tok=tk_undefproc; updatetree(); case tk_undefproc: addacall(itok.number,(unsigned char)((itok.flag&f_extern)!=0?CALL_EXT:(am32!=FALSE?CALL_32:CALL_NEAR))); callloc0(); /* produce CALL [#] */ break; case tk_proc: if(itok.flag&f_far)op(0x0e); //push cs if(itok.segmbaza; for(i=0;inumoper;i++){ if((bazael+i)->tok==tk_baseclass)CallDestructor((structteg *)(bazael+i)->rec); } } i=numreturn; setreturn(); if(inlineflag==0&&retproc==FALSE&&(i||(lastcommand!=tk_goto&&lastcommand!=tk_GOTO)))leaveproc(); endblock(); initBP=0; strcpy((char *)string,bstring); itok=otok; tok=tk_proc; itok.size=outptr-procedure_start; itok.rec->recpost=regs; // printf("reg=%08X set=%s\n",regs,itok.name); #ifdef OPTVARCONST if(inlineflag)itok.flag|=f_useidx; #endif updatetree(); if(mapfile)mapfun(startline); i=linenumber; linenumber=startline; killlocals(); linenumber=i; free(bstring); optimizespeed=ooptimizespeed; useinline=oinline; *(unsigned int *)&idxregs=oregidx; if(searchteg)searchteg=NULL; blockproc=FALSE; ESPloc=oESPloc; nexttok(); } void insertproc(/*int sizepar*/) { unsigned char oinline,ooptimizespeed; struct treelocalrec *otlr; struct structteg *olteglist; //struct idrec *olstructlist; struct idrec *rec; unsigned int oparamsize; unsigned int olocalsize; unsigned char oinsertmode; unsigned int onumblocks; //номер вложенного блока unsigned int osizestack; RETLIST *olistreturn; unsigned int onumreturn; int oinlineflag; SAVEREG *osavr; unsigned int oaddESP=addESP; addESP=0; clearregstat(); osavr=psavereg; psavereg=(SAVEREG*)MALLOC(sizeof(SAVEREG)); oinsertmode=insertmode; insertmode=TRUE; //флаг режима вставки oinline=useinline; ooptimizespeed=optimizespeed; current_proc_type=itok.flag; rec=itok.rec; otlr=tlr; olteglist=ltegtree; // olstructlist=lstructlist; oinlineflag=inlineflag; osizestack=sizestack; sizestack=0; tlr=NULL; ltegtree=NULL; // lstructlist=0; oparamsize=paramsize; olocalsize=localsize; onumblocks=numblocks; olistreturn=listreturn; onumreturn=numreturn; paramsize=0; localsize=0; numblocks=0; //номер вложенного блока listreturn=NULL; numreturn=0; inlineflag=0; nextexpecting2(tk_openbracket); if(tok!=tk_closebracket){ if((current_proc_type&f_typeproc)!=tp_fastcall)declareparams(); else declareparamreg(); } CorrectParamVar(); nexttok(); if(tok==tk_inline){ nexttok(); inlineflag=1; expecting(tk_openbrace); } else{ if((current_proc_type&f_typeproc)!=tp_fastcall&¶msize>0)Enter(); // PUSH BP MOV BP,SP rec->recpost|=CheckUses(); if(tok!=tk_openbrace)declarelocals(0); expecting(tk_openbrace); declarelocals(1); } retproc=FALSE; #ifdef OPTVARCONST ClearLVIC(); #endif startblock(); doblock2(); sizestack=osizestack; // do proc setreturn(); endblock(); RestoreSaveReg(); if(inlineflag==0&&(localsize||paramsize)&&(ESPloc==FALSE||am32==FALSE))Leave(); killlocals(/*0*/); optimizespeed=ooptimizespeed; useinline=oinline; paramsize=oparamsize; localsize=olocalsize; tlr=otlr; ltegtree=olteglist; // lstructlist=olstructlist; insertmode=oinsertmode; numblocks=onumblocks; listreturn=olistreturn; numreturn=onumreturn; inlineflag=oinlineflag; free(psavereg); psavereg=osavr; addESP=oaddESP; // nexttok(); // printf("tok=%d\n",tok); } void AddTypeVar(int type,int pos) { switch(type){ case tk_char: param[pos]='C'; break; case tk_byte: param[pos]='B'; break; case tk_int: param[pos]='I'; break; case tk_word: param[pos]='W'; break; case tk_long: param[pos]='L'; break; case tk_dword: param[pos]='D'; break; case tk_float: param[pos]='F'; break; case tk_qword: param[pos]='Q'; break; case tk_double: param[pos]='E'; break; } } void declareparamreg() /* declare procedure parameters */ { int i=0,num=1; unsigned char j=0; do{ if(tok>=tk_char&&tok<=tk_double){ AddTypeVar(tok,i++); nexttok(); j=1; } else{ switch(tok){ case tk_beg: if(j==0)param[i++]='B'; param[i++]=(char)(itok.number+0x30); j=0; break; case tk_reg: if(j==0)param[i++]='W'; param[i++]=(char)(itok.number+0x30); j=0; break; case tk_reg32: if(j==0)param[i++]='D'; param[i++]=(char)(itok.number+0x30); j=0; break; case tk_reg64: param[i++]='Q'; param[i++]=(char)((itok.number&255)+0x30); param[i++]=(char)((itok.number/256)+0x30); j=0; break; case tk_fpust: param[i++]='S'; param[i++]=(char)(itok.number+0x30); j=0; break; case tk_closebracket: if(j==0)goto endproc; default: edpip(num); } nexttok(); if(tok==tk_camma){ if(j!=0){ edpip(num); param[i++]='0'; j=0; } nexttok(); } } num++; }while(tok!=tk_closebracket); endproc: if(j!=0){ edpip(num-1); param[i++]='0'; } param[i]=0; } void AddMultiPoint(int pos) { param[pos]='A'; nexttok(); if(tok!=tk_closebracket)SwTok(tk_closebracket); } void declareparamstack() /* declare procedure parameters */ { int i=0,num=1; unsigned char j=0; /* 1 - объявлен тип 2 - была запятая 3 - была точка с запятой 4 - 5 - был идентификатор 6 - тип void */ int typevar=tk_multipoint; structteg *tteg=NULL; int size; do{ if(tok==tk_struct)nexttok(); if(tok>=tk_char&&tok<=tk_double){ if(j>3||j==1)edpip(num); j=1; typevar=tok; nexttok(); } else if((tteg=FindTeg(TRUE))!=NULL){ size=Align(tteg->size,(am32+1)*2); // printf("%s size=%u\n",itok.name,size); j=1; typevar=tk_struct; nexttok(); } while(tok==tk_mult){ param[i++]='*'; nexttok(); } if(tok==tk_camma){ if(j==1){ if(typevar==tk_struct)i+=sprintf(¶m[i],"T%u",size); else AddTypeVar(typevar,i++); } else if(j!=5)edpip(num); j=2; num++; } else if(tok==tk_semicolon){ if(j==1){ if(typevar==tk_struct)i+=sprintf(¶m[i],"T%u",size); else AddTypeVar(typevar,i++); } else if(j!=5)edpip(num); j=3; num++; } else if(tok==tk_multipoint){ AddMultiPoint(i++); break; } else if(tok==tk_closebracket){ if(j==0)param[i++]='A'; else if(j==1){ if(typevar==tk_struct)i+=sprintf(¶m[i],"T%u",size); else AddTypeVar(typevar,i++); } else if(j<4)edpip(num); break; } else if(tok==tk_void){ if(j!=0)edpip(num); param[i++]='V'; j=6; } else if(tok==tk_beg||tok==tk_reg||tok==tk_reg32||tok==tk_reg64||tok==tk_fpust){ if(j==1){ if(typevar==tk_struct)i+=sprintf(¶m[i],"T%u",size); else AddTypeVar(typevar,i++); } else if(j<4){ switch(tok){ case tk_beg: param[i++]='B'; break; case tk_reg: param[i++]='W'; break; case tk_reg32: param[i++]='D'; break; case tk_fpust: param[i++]='S'; break; case tk_reg64: param[i++]='Q'; param[i++]=(char)((itok.number&255)+0x30); itok.number/=256; break; } } else edpip(num); param[i++]=(char)(itok.number+0x30); j=5; } else{ if(j==1||j==2){ if(typevar==tk_struct)i+=sprintf(¶m[i],"T%u",size); else AddTypeVar(typevar,i++); } else edpip(num); j=5; } nexttok(); }while(tok!=tk_eof); param[i]=0; // puts(param); } void CorrectParamVar() { unsigned int addnum; int fspin; struct localrec *ptr; if(paramsize==0)return; if(insertmode)addnum=0; //ret-address else addnum=2; if(ESPloc==FALSE||am32==FALSE)addnum+=2; //EBP if((current_proc_type&f_far))addnum+=2;// move over seg on stack if(am32)addnum*=2; if((current_proc_type&f_typeproc)==tp_cdecl||(current_proc_type&f_typeproc)==tp_stdcall)fspin=FALSE; else fspin=TRUE; treelocalrec *ntlr=tlr; while(ntlr&&ntlr->level>1)ntlr=ntlr->next; for(ptr=ntlr->lrec;;ptr=ptr->rec.next){ if(ptr->rec.type==tp_paramvar){ if(fspin)ptr->rec.recnumber=paramsize-ptr->rec.recnumber-Align(ptr->rec.recsize,am32==FALSE?2:4); ptr->rec.recnumber+=addnum; } if(ptr->rec.next==NULL)break; } } void declareparams() /* declare procedure parameters */ { int paramtok,sparamtok,i=0,type; char flag=33; int numpointr; localrec *lrec; structteg *tteg=NULL,*nteg; do{ if(flag!=33)nexttok(); flag=1; if(tok==tk_multipoint){ AddMultiPoint(i++); break; } if(tok==tk_void){ param[i++]='V'; nexttok(); if(tok!=tk_closebracket)SwTok(tk_closebracket); break; } if(tok>=tk_char&&tok<=tk_double){ type=tok; SetNewTok(tok,variable); paramtok=tok; } else if(tok==tk_beg||tok==tk_reg||tok==tk_reg32||tok==tk_reg64||tok==tk_fpust)flag=3; else{ if(tok==tk_struct)nexttok(); if((tteg=FindTeg(TRUE))!=NULL)paramtok=tk_struct; else{ datatype_expected(); flag=0; nexttok(); } } if(flag){ do{ numpointr=0; skipfind=TRUE; if(flag!=3)nexttok(); while(tok==tk_mult){ nexttok(); numpointr++; param[i++]='*'; } if(tok==tk_id||tok==tk_ID){ //проверить на типы определенные через define skipfind=FALSE; int otok=tok; searchtree(&ptok,&otok,string); if(otok>=tk_char&&otok<=tk_double){ tok=otok; itok=ptok; } skipfind=TRUE; } if(tok==tk_struct){ nexttok(); if((tteg=FindTeg(TRUE))!=NULL){ paramtok=tk_struct; nexttok(); } else{ edpip(); nexttok(); goto endparam1; } } else { if((nteg=FindTeg(TRUE))!=NULL){ tteg=nteg; paramtok=tk_struct; nexttok(); } else{ if(tok>=tk_char&&tok<=tk_double){ type=tok; SetNewTok(tok,variable); paramtok=tok; nexttok(); while(tok==tk_mult){ nexttok(); numpointr++; param[i++]='*'; } flag=2; } skipfind=FALSE; if(tok==tk_beg||tok==tk_reg||tok==tk_reg32||tok==tk_reg64||tok==tk_fpust){ if(flag==2)AddTypeVar(type,i++); else{ switch(tok){ case tk_beg: param[i++]='B'; break; case tk_reg: param[i++]='W'; break; case tk_reg32: param[i++]='D'; break; case tk_fpust: param[i++]='S'; break; case tk_reg64: param[i++]='Q'; param[i++]=(char)((itok.number&255)+0x30); itok.number/=256; break; } } param[i++]=(unsigned char)(itok.number+0x30); flag=1; goto endparam1; } } } sparamtok=paramtok; if(tok==tk_multipoint){ AddMultiPoint(i++); break; } if(tok!=tk_ID&&tok!=tk_id){ idalreadydefined(); break; } int lsize; if(am32)lsize=4; else{ lsize=2; if(sparamtok>=tk_longvar&&sparamtok<=tk_floatvar&&numpointr==0) lsize+=2;//add 2 more bytes } if((sparamtok==tk_qwordvar||sparamtok==tk_doublevar)&&numpointr==0)lsize=8; AddTypeVar(type,i++); if(sparamtok==tk_struct){ //idrec *newrec,*trec; lsize=Align(tteg->size,(am32+1)*2); i+=sprintf(¶m[i],"T%u",lsize); // newrec=(struct idrec *)MALLOC(sizeof(struct idrec)); // if(lstructlist==NULL)lstructlist=newrec; // else{ // trec=lstructlist; // while(trec->left!=NULL)trec=trec->left; // trec->left=newrec; // } // newrec->right=newrec->left=NULL; lrec=addlocalvar(itok.name,tk_structvar,paramsize); lrec->rec.newid=(char *)tteg; lrec->rec.flag=tteg->flag; lrec->rec.recrm=1; lrec->rec.recpost=LOCAL; goto endparam; } lrec=addlocalvar(itok.name,sparamtok,paramsize); lrec->rec.npointr=(unsigned short)numpointr; endparam: lrec->rec.type=tp_paramvar; lrec->rec.recsize=lsize; paramsize+=lsize; endparam1: nexttok(); }while(tok==tk_camma); } }while(tok==tk_semicolon); param[i]=0; // puts(param); } void CharToBackBuf(char c) { if(SizeBackBuf==0){ MaxSizeBackBuf=STRLEN; BackTextBlock=(char *)MALLOC(STRLEN); } else if(SizeBackBuf==MaxSizeBackBuf){ MaxSizeBackBuf+=STRLEN; BackTextBlock=(char *)REALLOC(BackTextBlock,MaxSizeBackBuf); } BackTextBlock[SizeBackBuf++]=c; } void AddBackBuf(int oinptr,char ocha) //создать листинг начальной инициализации лосальных переменных { int numblock=0; unsigned char save; char bcha; inptr=oinptr; cha=ocha; for(;;){ save=TRUE; switch(cha){ case '(': case '{': case '[': numblock++; break; case ')': case '}': case ']': numblock--; if(numblock<0)return; break; case ',': if(numblock>0)break; tok=tk_camma; goto endp; case ';': case 26: tok=tk_semicolon; endp: CharToBackBuf(';'); nextchar(); inptr2=inptr; cha2=cha; return; case '/': //отследить комментарии nextchar(); if(cha=='*'){ do{ nextchar(); if(cha=='*'){ nextchar(); if(cha=='/'){ save=FALSE; break; } } }while(cha!=26); } else if(cha=='/'){ do{ nextchar(); }while(cha!=13&&cha!=26); } else CharToBackBuf('/'); break; case '"': case '\'': bcha=cha; do{ CharToBackBuf(cha); nextchar(); if(cha=='\\'){ CharToBackBuf(cha); nextchar(); CharToBackBuf(cha); nextchar(); } }while(cha!=bcha); break; } if(save)CharToBackBuf(cha); nextchar(); } } void RunBackText() { ITOK oitok,ostructadr; SINFO ostr; unsigned char *oldinput; unsigned int oldinptr,oldendinptr; unsigned char bcha; int otok,otok2; char *ostartline; char *ostring,*obufrm; COM_MOD *ocurmod; ostring=BackString((char *)string); oldinput=input; //сохр некотор переменые oldinptr=inptr2; ostructadr=structadr; bcha=cha2; oldendinptr=endinptr; otok=tok; otok2=tok2; oitok=itok; ostr=strinf; strinf.bufstr=NULL; obufrm=bufrm; bufrm=NULL; ocurmod=cur_mod; cur_mod=NULL; input=(unsigned char *)BackTextBlock; inptr2=1; cha2=input[0]; tok=tk_openbrace; SizeBackBuf=0; ostartline=startline; startline=(char*)input; endinptr=strlen((char *)input); endinput=startline+endinptr; doblock(); endoffile=0; startline=ostartline; strinf=ostr; free(input); input=oldinput; inptr2=oldinptr; cha2=bcha; endinptr=oldendinptr; tok=otok; itok=oitok; if(bufrm)free(bufrm); bufrm=obufrm; tok2=otok2; strcpy((char *)string,ostring); if(strinf.bufstr)free(strinf.bufstr); structadr=ostructadr; free(ostring); cur_mod=ocurmod; } int PushLocInit(int ofs) { ITOK oitok,ostructadr,wtok; SINFO ostr; unsigned char *oldinput; unsigned int oldinptr,oldendinptr; unsigned char bcha; int otok,otok2; char *ostartline; char *ostring,*obufrm; int retcode=FALSE; // if(bufrm)puts(bufrm); ostring=BackString((char *)string); oldinput=input; //сохр некотор переменые oldinptr=inptr2; ostructadr=structadr; bcha=cha2; oldendinptr=endinptr; otok=tok; otok2=tok2; oitok=itok; ostr=strinf; strinf.bufstr=NULL; obufrm=bufrm; bufrm=NULL; input=(unsigned char *)BackTextBlock; inptr2=ofs; ostartline=startline; cha2=input[inptr2++]; endinptr=strlen((char *)input); startline=(char *)input+ofs; endinput=startline+endinptr; nexttok(); wtok=itok; nexttok(); nexttok(); if((retcode=Push(&wtok))!=FALSE){ retcode=TRUE; for(inptr2=ofs;;inptr2++){ cha2=input[inptr2]; input[inptr2]=' '; if(cha2==';'||cha2==0)break; } } endoffile=0; startline=ostartline; strinf=ostr; input=oldinput; inptr2=oldinptr; cha2=bcha; endinptr=oldendinptr; tok=otok; itok=oitok; if(bufrm)free(bufrm); bufrm=obufrm; tok2=otok2; strcpy((char *)string,ostring); if(strinf.bufstr)free(strinf.bufstr); structadr=ostructadr; free(ostring); return retcode; } int pushinit(int localline,unsigned int ofs) { int oline=linenumber; COM_MOD *bcur_mod; int retcode; linenum2=localline; bcur_mod=cur_mod; cur_mod=NULL; retcode=PushLocInit(ofs); cur_mod=bcur_mod; linenumber=linenum2=oline; return retcode; } int PossiblePush() { int retcode=FALSE; nexttok(); switch(tok){ case tk_dwordvar: case tk_longvar: case tk_reg32: if(am32==FALSE)break; case tk_postnumber: case tk_string: case tk_intvar: case tk_wordvar: case tk_reg: if(tok2==tk_semicolon||tok2==tk_camma)retcode=TRUE; break; case tk_undefofs: tok=tk_number; goto chnum; case tk_minus: if(tok2!=tk_number)break; nexttok(); case tk_number: chnum: doconstlongmath(); if(tok==tk_semicolon||tok==tk_camma)retcode=TRUE; break; } //// New 20.07.07 22:01 if(bufrm){ free(bufrm); bufrm=NULL; } if(strinf.bufstr){ free(strinf.bufstr); strinf.bufstr=NULL; } //////////////////////////// return retcode; } #define MAXLOCVAR 128 void declarelocals(int mode,int finline) /* declare locals */ /*-----------------01.06.02 15:12------------------- mode = 0 if local vars prior { mode = 1 if local vars after { --------------------------------------------------*/ { unsigned int size,ssize,localtok; int binptr; int flag=0; char bcha; int slocaltok; int numpointr,type; unsigned int loop; static int localline; static int numinit; static int maxlocvar; static LILV *lilv=NULL; static int headerinit; if(localsize==0)localline=0; if(lilv==NULL){ numinit=0; lilv=(LILV *)MALLOC(sizeof(LILV)*MAXLOCVAR); maxlocvar=MAXLOCVAR; if(paramsize&&(!finline))headerinit=TRUE; else headerinit=FALSE; } dynamic_flag=0; do{ while(tok==tk_semicolon)nexttok(); if(tok==tk_static){ flag|=f_static; nexttok(); } size=0; switch(tok){ case tk_union: loop=dounion(0,flag); goto locstruct; case tk_struct: loop=LocalStruct(flag,&localline); locstruct: (lilv+numinit)->size=-loop; break; case tk_int: localtok=tk_intvar; size=2; break; case tk_word: localtok=tk_wordvar; size=2; break; case tk_char: localtok=tk_charvar; size=1; break; case tk_byte: localtok=tk_bytevar; size=1; break; case tk_long: localtok=tk_longvar; size=4; break; case tk_dword: localtok=tk_dwordvar; size=4; break; case tk_float: localtok=tk_floatvar; size=4; break; case tk_qword: localtok=tk_qwordvar; size=8; break; case tk_double: localtok=tk_doublevar; size=8; break; default: if((tok>=tk_bits&&tok<=tk_doublevar)||tok==tk_pointer||tok==tk_proc ||tok==tk_declare||tok==tk_undefproc||tok==tk_structvar|| (FindTeg(FALSE)==NULL&&FindTeg(TRUE)==NULL)){ if(mode==0){ (lilv+numinit)->size=0; datatype_expected(); nexttok(); } else{ if(localsize){ if(!finline){ numpointr=0; if(SizeBackBuf){ BackTextBlock[SizeBackBuf]=0; for(type=numinit-1,numpointr=0;type>=0;type--){//опр число иниц. переменных в конце if((lilv+type)->size<=0)break; numpointr+=(lilv+type)->size; } type++; //число оставшихся переменных ssize=type; } size=localsize; if(lilv->size<=0&&optimizespeed==0&&chip>1){ size-=numpointr; if(headerinit)outptr-=3; /* remove PUSH BP and MOV BP,SP */ op(0xC8); /* ENTER */ outword(size); /* # of locals */ op(0x00); /* level = 0 */ flag=0; type=0; headerinit=TRUE; size=numpointr; } else{ if(headerinit==FALSE){ Enter(); headerinit=TRUE; } flag=1; } if(SizeBackBuf){ if(lilv->size>0){ //есть иниц переменные в начале for(loop=0;loopsize,BackTextBlock); if((lilv+loop)->size<=0)break; if(pushinit(localline,(lilv+loop)->ofs)==FALSE)break; (lilv+loop)->rec->fuse|=INITVAR; size-=Align((lilv+loop)->size,(am32==FALSE?2:4)); type--; } } if(size){ binptr=size-numpointr; if(binptr){ if(!optimizespeed&&type<3&&(type*(am32+1)*2)>=binptr)for(;type!=0;type--)op(0x50+ECX); else{ if(binptr<128){ outword(0xEC83); op(binptr); } else{ outword(0xEC81); if(am32==FALSE)outword(binptr); else outdword((unsigned long)binptr); } } } if(numpointr){ for(;ssizesize,BackTextBlock); if(pushinit(localline,(lilv+ssize)->ofs)==FALSE)break; (lilv+ssize)->rec->fuse|=INITVAR; } } } } else if(flag){ if(localsize<128){ outword(0xEC83); op(localsize); } else{ outword(0xEC81); if(am32==FALSE)outword(localsize); else outdword((unsigned long)localsize); } } } else{ //finline if(SizeBackBuf!=0){ free(BackTextBlock); SizeBackBuf=0; } } } if(psavereg->size){ if(psavereg->all){ op(0x60); addESP+=am32==FALSE?16:32; } else{ for(int i=0;i<8;i++){ if(psavereg->reg[i]){ op66(psavereg->reg[i]); op(0x50+i); addESP+=am32==FALSE?2:4; } } } if(ESPloc&&am32&&(itok.type==tp_localvar||itok.type==tp_paramvar))itok.number+=addESP; } // printf("numinit=%d firstinit=%d\n%s\n",numinit,firstinit,BackTextBlock); if(SizeBackBuf!=0){ CharToBackBuf('}'); CharToBackBuf(0); int oline=linenumber; linenum2=localline; COM_MOD *bcur_mod; bcur_mod=cur_mod; cur_mod=NULL; RunBackText(); cur_mod=bcur_mod; linenumber=linenum2=oline; } if(lilv){ free(lilv); lilv=NULL; } return; } } else{ loop=LocalStruct(flag,&localline); (lilv+numinit)->size=-loop; } break; } if(size!=0){ do{ binptr=inptr2; bcha=cha2; skipfind=TRUE; //запретить искать в глобальном дереве nexttok(); if(tok==tk_static){ flag|=f_static; binptr=inptr2; bcha=cha2; nexttok(); } slocaltok=localtok; ssize=size; numpointr=0; type=tp_localvar; while(tok==tk_mult){ binptr=inptr2; bcha=cha2; nexttok(); numpointr++; } if(tok!=tk_ID&&tok!=tk_id)idalreadydefined(); else{ long numcopyvar; numcopyvar=1; localrec *lrec=addlocalvar(itok.name,slocaltok,(flag&f_static)==0?localsize:postsize); loop=ssize; if(numpointr)loop=am32==TRUE?4:2; skipfind=FALSE; //разрешить поиск в глобальном дереве if(tok2==tk_openblock){//[ nexttok(); nexttok(); CheckMinusNum(); if(tok!=tk_number){ numexpected(); nexttok(); } else numcopyvar=doconstlongmath(); loop=numcopyvar*ssize; if(tok!=tk_closeblock)expected(']'); } lrec->rec.recsize=loop; if(!mode){ nexttok(); } if(flag&f_static){ if(tok==tk_assign||(mode&&tok2==tk_assign)){ if(mode)nexttok(); if(numpointr){ type=tk_char+slocaltok-tk_charvar; slocaltok=tk_pointer; } lrec->rec.rectok=slocaltok; lrec->rec.recnumber=0; lrec->rec.recpost=DYNAMIC_VAR; lrec->rec.line=linenumber; lrec->rec.file=currentfileinfo; lrec->rec.count=0; // lptr->rec.type=(unsigned short)type; lrec->rec.npointr=(unsigned short)numpointr; lrec->rec.sbuf=dynamic_var(); lrec->rec.recsib=type; lrec->rec.type=tp_gvar; // if(strcmp(lrec->rec.recid,"nnil")==0)crec=&lrec->rec; } else{ lrec->rec.type=tp_postvar; AddPostData(loop); if(mode)nexttok(); } } else{ lrec->rec.type=tp_localvar; lrec->rec.npointr=(unsigned short)numpointr; localsize+=loop; if(mode)nexttok(); (lilv+numinit)->size=-loop; if(tok==tk_assign){ if(localline==0)localline=linenumber; if(numcopyvar!=1){ int i=binptr; while(input[i]!='[')i++; i++; input[i]='0'; i++; for ( int j=1;j!=0;i++){ switch(input[i]){ case '[': j++; break; case ']': j--; break; } if(j!=0)input[i]= ' '; } } else{ switch(slocaltok){ case tk_floatvar: case tk_doublevar: case tk_qwordvar: // (lilv+numinit)->ofs=-1; break; default: if(PossiblePush()){ (lilv+numinit)->size=loop; (lilv+numinit)->rec=lrec; } break; } } (lilv+numinit)->ofs=SizeBackBuf; AddBackBuf(binptr,bcha); // if(bufrm)puts(bufrm); } numinit++; if(numinit==maxlocvar){ maxlocvar+=MAXLOCVAR; lilv=(LILV *)REALLOC(lilv,maxlocvar*sizeof(LILV)); } lrec->rec.recnumber=-lrec->rec.recnumber-Align(loop,(am32==FALSE?2:4)); } } if(localsize)localsize=Align(localsize,(am32==FALSE?2:4)); }while(tok==tk_camma); seminext(); } else{ numinit++; if(numinit==maxlocvar){ maxlocvar+=MAXLOCVAR; lilv=(LILV *)REALLOC(lilv,maxlocvar*sizeof(LILV)); } } flag=0; // printf("tok=%d %s\n",tok,BackTextBlock); }while(tok!=tk_openbrace&&tok!=tk_eof); } int CheckDeclareProc() { unsigned int i=inptr2-1; while(input[i]!='('){ i++; if(i>=endinptr){ unexpectedeof(); break; } } lab1: i++; for(int j=1;j!=0;i++){ char c=input[i]; if(c=='(')j++; else if(c==')')j--; if(i>=endinptr){ unexpectedeof(); break; } } for(;;i++){ if(input[i]=='(')goto lab1; if(input[i]>' ')break; if(i>=endinptr){ unexpectedeof(); break; } } for(;;i++){ if(input[i]==';'||input[i]==',')return TRUE; //объявление процедуры if(input[i]>' ')break; if(i>=endinptr){ unexpectedeof(); break; } } return FALSE; } void IsUses(idrec *rec) { int i; if(tok==tk_openbracket&&stricmp(itok2.name,"uses")==0){ nexttok(); i=0; nexttok(); while(tok==tk_reg32||tok==tk_reg||tok==tk_beg){ if(tok==tk_beg&&itok.number>3)itok.number-=4; i=i|(1<recpost=0xFF^i; expecting(tk_closebracket); } } void declare_procedure(int oflag,int orm,int npointr) { int i,next=TRUE,j; char pname[IDLENGTH]; idrec *rec; strcpy(pname,itok.name); param[0]=0; nexttok(); if(npointr)expecting(tk_closebracket); expecting(tk_openbracket); if((oflag&f_typeproc)==tp_fastcall)declareparamreg(); else declareparamstack(); if(tok2==tk_assign)nexttok(); itok.post=1; if(npointr){ itok.segm=DS; itok.type=tk_proc; itok.sib=am32==FALSE?rm_d16:rm_d32; i=2; if(am32||(oflag&f_far))i=4; if(tok==tk_assign||(notpost==TRUE&&dynamic_flag==0)){ //= инициализированая переменная if((oflag&f_extern))preerror("extern variable do not initialize at declare"); if(alignword&&(!dynamic_flag))alignersize+=AlignCD(DS,i); FindOff((unsigned char *)pname,DS); itok.number=outptrdata; if(tok!=tk_assign){ if(dbg&2)AddDataLine(i); outword(0); if(i==4)outword(0); } else{ ITOK oitok; oitok=itok; initglobalvar(tk_word,1,i,variable); itok=oitok; next=FALSE; } itok.post=0; datasize+=i; } else{ if((oflag&f_extern)==0){ itok.number=postsize; AddPostData(i); } else itok.number=externnum++; } j=tok; tok=tk_pointer; } else{ tok=tk_declare; itok.type=tp_declare; itok.number=(oflag&f_extern)!=0?externnum++:secondcallnum++; itok.segm=NOT_DYNAMIC; itok.post=0; } itok.npointr=(unsigned short)npointr; itok.rm=orm; itok.flag=oflag; if(itok.rm==tokens)itok.rm=(am32==0?tk_word:tk_dword); // printf("rm=%d %s\n",itok.rm,itok.name); strcpy((char *)string,param); rec=addtotree(pname); if(next)nexttok(); else tok=j; IsUses(rec); } void define_procedure() { if(dynamic_flag)dynamic_proc(); else{ itok.segm=NOT_DYNAMIC; if(AlignProc!=FALSE)AlignCD(CS,alignproc); procedure_start=outptr; if(dbg)AddLine(); // itok.flag&=~f_static; 26.08.05 00:09 setproc((tok==tk_id||tok==tk_ID)?0:1); dopoststrings(); } } void interruptproc() { char *bstring; ITOK otok; inlineflag=0; procedure_start=outptr; returntype=tk_void; current_proc_type=f_interrupt; localsize=paramsize=0; nexttok(); // FindOff((unsigned char *)itok.name,CS); itok.number=outptr; itok.segm=NOT_DYNAMIC; itok.post=0; itok.rm=tk_void; itok.flag=0; if(tok==tk_ID||tok==tk_id){ tok=tk_interruptproc; itok.type=tp_ucnovn; addtotree((char *)string); } else if(tok==tk_undefproc){ tok=tk_interruptproc; long hold=updatetree(); updatecall((unsigned int)hold,(unsigned int)outptr,0); } else idalreadydefined(); itok.rec->count=FindOff((unsigned char *)itok.name,CS); bstring=BackString((char *)string); otok=itok; nextexpecting2(tk_openbracket); expecting(tk_closebracket); if(tok==tk_inline){ inlineflag=1; nexttok(); } else if(tok!=tk_openbrace)declarelocals(0); expecting(tk_openbrace); declarelocals(1); startblock(); doblock2(); /* do proc */ endblock(); if(retproc==FALSE){ if(inlineflag==0)leaveproc(); else if(localsize>0)Leave(); } initBP=0; strcpy((char *)string,bstring); itok=otok; tok=tk_interruptproc; itok.size=outptr-procedure_start; updatetree(); free(bstring); killlocals(); nexttok(); dopoststrings(); } int skipstring(int pos,unsigned char term) { unsigned char c; do{ pos++; c=input[pos]; if(c==0x5C){ pos++; continue; // c=input[pos+1]; } }while(c!=term); return pos; } int skipcomment(int pos) { if(input[pos+1]=='*'){ pos+=2; for(;;pos++){ if(input[pos]==13){ linenumber++; } else if(input[pos]=='*'){ pos++; if(input[pos]=='/')break; } if((unsigned int)pos>=endinptr){ unexpectedeof(); break; } } } else if(input[pos+1]=='/'){ pos+=2; for(;;pos++){ if(input[pos]==13){ linenumber++; break; } if(input[pos]==10)break; } } return pos; } int swapparam() { int i,ns,j,lastofs; int linep,linebak; char c,ochar; unsigned char *bufpar; int numpar=0; unsigned char *oldinput; paraminfo *pi; if(tok!=tk_openbracket){ expected('('); do{ nexttok(); }while(tok2!=tk_semicolon&&tok!=tk_eof); return 0; } pi=(paraminfo *)MALLOC(128*sizeof(paraminfo)); do{ inptr2--; }while(input[inptr2]!='('); inptr2++; pi->ofspar=inptr2; pi->type[0]=0; linep=linenumber; for(i=inptr2,ns=1;ns>0;i++){ //поиск конца параметров switch(input[i]){ case '(': ns++; break; case ')': ns--; break; case ',': if(ns==1){ if(numpar==127)preerror("To many parametrs in function"); numpar++; (pi+numpar)->ofspar=i+1; (pi+numpar)->type[0]=0; } break; case '/': i=skipcomment(i); break; case '"': case 0x27: i=skipstring(i,input[i]); break; case 13: linenumber++; break; } if((unsigned int)i>=endinptr){ unexpectedeof(); break; } } for(j=0,ns=0;param[j]!=0;j++,ns++){//перевернуть задекларируемые параметры lastofs=0; ochar=c=param[j]; (pi+ns)->type[0]=c; while(c=='*'){ j++; ochar=c=param[j]; (pi+ns)->type[++lastofs]=c; } if(c=='A'){ if(ns){ while(ns<=numpar){ (pi+ns)->type[0]='U'; (pi+ns)->type[1]=0; ns++; } break; } } if(ochar=='T'){ do{ j++; lastofs++; c=param[j]; (pi+ns)->type[lastofs]=c; }while(isdigit(c)); (pi+ns)->type[lastofs]=0; j--; continue; } c=param[j+1]; if(c>='0'&&c<='7'){ (pi+ns)->type[1]=c; j++; lastofs++; if(ochar=='Q'){ (pi+ns)->type[2]=param[j+1]; j++; lastofs++; } } (pi+ns)->type[++lastofs]=0; } ns--; for(j=0;ns>=0;ns--){ lastofs=0; c=(pi+ns)->type[lastofs++]; while(c!=0){ param[j++]=c; c=(pi+ns)->type[lastofs++]; } } param[j]=0; // puts(param); // if(crec)printf("start0 swapparams num=%08X\n",crec->recnumber); bufpar=(unsigned char *)MALLOC(i-inptr2+2); // printf("crec=%08X size=%d bufpar=%08X size=%d\n",crec,sizeof(idrec),bufpar,i-inptr2+2); inptr2=i; ochar=input[inptr2]; inptr2++; i--; lastofs=0; for(;;){ j=(pi+numpar)->ofspar;//[numpar]; for(ns=0;(j+ns)!=i;ns++){ bufpar[lastofs++]=input[j+ns]; } i=j-1; numpar--; if(numpar<0)break; bufpar[lastofs++]=','; } bufpar[lastofs++]=')'; *(short *)&bufpar[lastofs++]=';'; free(pi); oldinput=input; //сохр некотор переменые // puts((char *)(input+inptr)); // printf("cur_mod=%08X input=%08X\n",cur_mod,input); ns=inptr2; j=endinptr; input=bufpar; // puts((char *)bufpar); inptr2=1; cha2=input[0]; endinptr=lastofs; tok=tk_openbracket; if(bufrm!=NULL){ free(bufrm); bufrm=NULL; } if(strinf.bufstr!=NULL){ free(strinf.bufstr); strinf.bufstr=NULL; } linebak=linenumber; linenumber=linep; i=doparams(); endoffile=0; input=oldinput; inptr2=ns; cha2=ochar; endinptr=j; linenumber=linebak; // printf("cur_mod=%08X input=%08X\n",cur_mod,input); free(bufpar); // puts((char *)input); return i; } int getrazr(int type) { switch(type){ case tk_char: case tk_byte: return r8; case tk_word: case tk_int: return r16; case tk_long: case tk_dword: case tk_float: return r32; case tk_qword: case tk_double: return r64; } if(am32)return r32; return r16; } int doparams() /* do stack procedure parameter pushing */ { char done=0,next; int vartype; int stackpar=0; int i; int jj=0; char *bparam; //буфер для декларируемых параметров int ip=-1; //номер параметра char *ofsstr=NULL; int useAX=FALSE; int retreg=AX; unsigned char oaddstack=addstack; unsigned char oinline=useinline; useinline=0; int structsize; struct idrec *ptrs; addstack=FALSE; if(am32!=FALSE)jj=2; bparam=BackString(param); if(param[0]!=0)ip=0; ofsstr=GetLecsem(tk_camma,tk_closebracket); expectingoperand(tk_openbracket); ClearRegister(); if(tok!=tk_closebracket){ while(tok!=tk_eof&&done==0){ useAX=FALSE; retreg=AX; i=0; next=1; if(ip!=-1){ if(bparam[ip]=='*'){ while(bparam[ip]=='*')ip++; ip++; vartype=(am32==FALSE?tk_word:tk_dword); } else{ if((vartype=GetTypeParam(bparam[ip++]))==0)ip=-1; else{ int c=bparam[ip]; if(vartype==tk_struct){ structsize=0; while(isdigit(c)){ c-='0'; structsize=structsize*10+c; ip++; c=param[ip]; } } else if(c>='0'&&c<='7'){ ip++; c-=0x30; if(vartype==tk_fpust)float2stack(c); else{ if(vartype==tk_qword){ c|=(bparam[ip]-0x30)*256; ip++; } CalcRegPar(c,vartype,&ofsstr); } goto endparam; } } } if(vartype==tk_multipoint){ vartype=tokens; ip--; } } if(tok==tk_string){ if(chip<2||(optimizespeed&&(chip==5||chip==6))){ op(0xB8); if(am32!=FALSE)outdword(addpoststring()); else outword(addpoststring()); // MOV AX,imm16 op(0x50); useAX=TRUE; ClearReg(EAX); //надо добавить оптимизацию регистров а пока так } /* PUSH AX */ else{ op(0x68); /* PUSH imm16 */ if(am32!=FALSE)outdword(addpoststring()); else outword(addpoststring()); if(cpu<2)cpu=2; } stackpar+=2+jj; addESP+=2+jj; nexttok(); } else{ if(tok>=tk_char&&tok<=tk_double){ vartype=tok; getoperand(); } else if(tok==tk_openbracket){ nexttok(); if(tok>=tk_char&&tok<=tk_double)vartype=tok; nexttok(); expectingoperand(tk_closebracket); } else{ if(ip==-1||vartype==tokens){ switch(tok){ case tk_longvar: vartype=tk_long; break; case tk_floatvar: vartype=tk_float; break; case tk_dwordvar: vartype=tk_dword; break; case tk_doublevar: vartype=tk_double; break; case tk_qwordvar: vartype=tk_qword; break; case tk_number: vartype=(itok.rm==tk_float?tk_float:(am32==FALSE?tk_word:tk_dword)); break; case tk_reg32: vartype=tk_dword; break; case tk_reg64: vartype=tk_qword; break; case tk_minus: if(tok2==tk_number){ vartype=itok2.rm==tk_float?tk_float:(am32==FALSE?tk_word:tk_dword); break; } default: vartype=(am32==FALSE?tk_word:tk_dword); break; } } } if(tok==tk_minus&&tok2==tk_number&&vartype!=tk_float){ //проверка отрицательного числа nexttok(); itok.lnumber=-itok.lnumber; } int razr; if(ofsstr){ razr=getrazr(vartype); int retr; if((retr=CheckIDZReg(ofsstr,AX,razr))!=NOINREG){ // printf("reg=%d\n",retr); GetEndLex(tk_camma,tk_closebracket); if(razr==r8)razr=am32==0?r16:r32; if(retr==SKIPREG)retreg=AX; else retreg=retr; op66(razr); op(0x50+retreg); useAX=TRUE; stackpar+=razr; addESP+=razr; goto endparam1; } // printf("reg=%d\n",retr); } razr=r32; if(itok2.type==tp_opperand||tok==tk_minus){ //составное switch(vartype){ case tk_struct: i=structsize/((am32+1)*2); do_e_axmath(0,r32,&ofsstr); ClearReg(AX); if(am32){ i--; itok.number=structsize; for(;i>0;i--){ itok.number-=4; outword(0x70FF); op(itok.number); } outword(0x30FF); } else{ ClearReg(BX); warningreg(regs[1][BX]); outword(0xC389); i--; itok.number=structsize; for(;i>0;i--){ itok.number-=2; outword(0x77FF); op(itok.number); } outword(0x37FF); } stackpar+=structsize; addESP+=structsize; break; case tk_char: i=1; case tk_byte: stackpar+=jj; doalmath((char)i,&ofsstr); addESP+=2+jj; break; case tk_int: i=1; case tk_word: if(am32==FALSE)razr=r16; stackpar+=jj; goto blokl; case tk_long: i=1; case tk_dword: if(cpu<3)cpu=3; stackpar+=2; blokl: if(chip>=2&&(!(optimizespeed&&(chip==5||chip==6)))&&(tok==tk_number ||tok==tk_undefofs||tok==tk_postnumber)){ int otok=tok; ITOK oitok=itok; tok=tk_number; if(OnlyNumber(i)){ op66(razr); if(otok==tk_number&&(postnumflag&f_reloc)==0&&short_ok(itok.number,razr==r16?FALSE:TRUE)!=0){ op(0x6A); // PUSH 8 extend to 32 bit op((unsigned int)itok.number); } else{ op(0x68); // PUSH const if(otok==tk_undefofs)AddUndefOff(0,oitok.name); else if(otok==tk_postnumber)(oitok.flag&f_extern)==0?setwordpost(&oitok):setwordext(&oitok.number); else if((postnumflag&f_reloc)!=0)AddReloc(); if(razr==r16)outword(itok.number); else outdword(itok.number); } addESP+=razr==r16?2:4; goto nopush; } tok=otok; } do_e_axmath(i,razr,&ofsstr); addESP+=razr==r16?2:4; op66(razr); break; case tk_double: if(doeaxfloatmath(tk_stackstart,0,4)!=tk_stackstart){ op66(r32); op(0x50+EDX); // PUSH EDX op66(r32); op(0x50); //push eax useAX=TRUE; } if(cpu<3)cpu=3; stackpar+=6; addESP+=8; goto nopush; case tk_float: if(doeaxfloatmath(tk_stackstart)!=tk_stackstart){ op66(r32); if(!am32){ op(0x89); // mov ssdword[bp+2]=eax op(0x46); op(2); Leave(); } else{ op(0x50); //push eax useAX=TRUE; } } if(cpu<3)cpu=3; stackpar+=2; addESP+=4; goto nopush; case tk_qwordvar: i=EAX|(EDX*256); getintoreg64(i); doregmath64(i); op66(r32); op(0x50+EDX); // PUSH EDX op66(r32); next=0; if(cpu<3)cpu=3; stackpar+=6; addESP+=8; break; default: goto deflt; } op(0x50);/* PUSH AX or EAX */ useAX=TRUE; nopush: stackpar+=2; } else{ //одиночное // next=1; // printf("vartype=%d\n",vartype); if(vartype==tk_struct){ // printf("tok=%d %s\n",tok,itok.name); i=structsize/((am32+1)*2); switch(tok){ case tk_structvar: ptrs=itok.rec; if(ptrs->recpost==LOCAL){ if(ESPloc&&am32){ itok.rm=rm_mod10|rm_sib; itok.sib=0x24; itok.number+=addESP; } else{ itok.rm=rm_mod10|(am32==FALSE?rm_BP:rm_EBP); } itok.segm=SS; itok.post=0; compressoffset(&itok); } else{ itok.segm=DS; itok.rm=(am32==FALSE?rm_d16:rm_d32); //установки по умолчанию itok.post=ptrs->recpost; if(i>1&&am32){ outseg(&itok,1); op(0xB8); outaddress(&itok); ClearReg(AX); i--; itok.number=structsize; for(;i>0;i--){ itok.number-=4; outword(0x70FF); op(itok.number); } outword(0x30FF); break; } } itok.sib=(am32==FALSE?CODE16:CODE32); itok.flag=ptrs->flag; itok.number+=structsize; for(;i>0;i--){ itok.number-=(am32+1)*2; outseg(&itok,2); op(0xFF); // PUSH [dword] op(0x30+itok.rm); outaddress(&itok); } break; case tk_rmnumber: itok.number+=structsize; for(;i>0;i--){ itok.number-=(am32+1)*2; outseg(&itok,2); op(0xFF); // PUSH [dword] op(0x30+itok.rm); outaddress(&itok); } break; case tk_undefofs: itok.rm=(am32==FALSE?rm_d16:rm_d32); //установки по умолчанию case tk_postnumber: if(i>1&&am32){ if(tok!=tk_undefofs)outseg(&itok,1); op(0xB8); if(tok==tk_undefofs){ AddUndefOff(0,(char *)string); outdword(itok.number); } else outaddress(&itok); ClearReg(AX); i--; itok.number=structsize; for(;i>0;i--){ itok.number-=4; outword(0x70FF); op(itok.number); } outword(0x30FF); break; } itok.number+=structsize; for(;i>0;i--){ itok.number-=(am32+1)*2; if(tok!=tk_undefofs)outseg(&itok,2); op(0xFF); // PUSH [dword] op(0x30+itok.rm); if(tok==tk_undefofs){ AddUndefOff(0,(char *)string); outdword(itok.number); } else outaddress(&itok); } break; case tk_reg32: i--; itok.rm=structsize; for(;i>0;i--){ itok.rm-=4; op(0xFF); op(0x70+itok.number); op(itok.rm); } op(0xFF); op(0x30+itok.number); break; default: // preerror("for parametr function required structure"); do_e_axmath(0,r32,&ofsstr); ClearReg(AX); if(am32){ i--; itok.number=structsize; for(;i>0;i--){ itok.number-=4; outword(0x70FF); op(itok.number); } outword(0x30FF); } else{ ClearReg(BX); warningreg(regs[1][BX]); outword(0xC389); i--; itok.number=structsize; for(;i>0;i--){ itok.number-=2; outword(0x77FF); op(itok.number); } outword(0x37FF); } break; } stackpar+=structsize; addESP+=structsize; } else if(vartype=2/*&&(!(optimizespeed&&(chip==5||chip==6)))*/){ //28.03.07 19:04 if((itok.flag&f_reloc)==0&&short_ok(itok.number)){ op(0x6A); /* PUSH const */ op((unsigned int)itok.number); } else{ op(0x68); /* PUSH const */ if((itok.flag&f_reloc)!=0)AddReloc(); if(am32==FALSE)outword((unsigned int)itok.number); else outdword(itok.number); } if(cpu<2)cpu=2; } else{ MovRegNum(r16,itok.flag&f_reloc,itok.number,EAX); op(0x50); } break; case tk_apioffset: op(0x68); // PUSH const AddApiToPost(itok.number); break; case tk_postnumber: case tk_undefofs: if(chip>=2&&(!(optimizespeed&&(chip==5||chip==6)))){ op(0x68); // PUSH const if(tok==tk_undefofs)AddUndefOff(0,(char *)string); else (itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number); if(am32==FALSE)outword((unsigned int)itok.number); else outdword(itok.number); break; } default: deflt: //if(tok==tk_new)puts("monovar default"); switch(vartype){ case tk_int: i=1; case tk_word: do_e_axmath(i,r16,&ofsstr); break; case tk_char: i=1; case tk_byte: doalmath((char)i,&ofsstr); break; default: beep(); break; } op(0x50); /* PUSH AX */ useAX=TRUE; next=0; break; } stackpar+=2+jj; addESP+=2+jj; } else if(vartype>32; for(i=0;i<2;i++){ op66(r32); if((i==0||(itok.flag&f_reloc)==0)&&short_ok(itok.number,TRUE)!=0){ op(0x6A); // PUSH 8 extend to 32 bit op((unsigned int)itok.number); } else{ op(0x68); // PUSH const if(i==1&&(itok.flag&f_reloc)!=0)AddReloc(); outdword(itok.number); } if(i==1)break; itok.number=lnumber; } break; case tk_postnumber: case tk_undefofs: op66(r32); outword(0x6A); // PUSH 8 extend to 32 bit op66(r32); op(0x68); // PUSH const if(tok==tk_undefofs)AddUndefOff(0,(char *)string); else (itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number); outdword(itok.number); break; default: if(vartype==tk_double)doeaxfloatmath(tk_stackstart,0,4); else{ op66(r32); outword(0x6A); do_e_axmath(0,r32,&ofsstr); op66(r32); op(0x50); // PUSH EAX useAX=TRUE; } next=0; break; } stackpar+=8; addESP+=8; if(cpu<3)cpu=3; } endparam1: if(next)nexttok(); } } endparam: if(ofsstr){ if(useAX)IDZToReg(ofsstr,retreg,getrazr(vartype)); free(ofsstr); ofsstr=NULL; } if(tok==tk_camma){ ofsstr=GetLecsem(tk_camma,tk_closebracket); getoperand(); } else if(tok==tk_closebracket)done=1; else{ expected(')'); done=1; } } } if(ofsstr){ if(useAX)IDZToReg(ofsstr,retreg,getrazr(vartype)); free(ofsstr); } if(ip!=-1&&bparam[ip]!=0&&bparam[ip]!='A'&&bparam[ip]!='V')missingpar(); free(bparam); setzeroflag=FALSE; addstack=oaddstack; useinline=oinline; return stackpar; } void CheckDir() { do{ switch(itok.number){ case d_ifdef: case d_ifndef: case d_endif: case d_else: case d_if: case d_elif: inptr2=inptr; cha2=cha; linenum2=linenumber; directive(); inptr=inptr2; cha=cha2; break; default: FastTok(0); break; } if(tok==tk_eof)break; }while(tok==tk_question); } char *dynamic_var() { int start,size; char *bstring; int use_extract=FALSE; #define TBUFSIZE 2048 #define MTBUFSIZE TBUFSIZE-IDLENGTH int curbsize; COM_MOD *ocur_mod; bstring=(char *)MALLOC(TBUFSIZE); curbsize=TBUFSIZE; size=0; if(tok2==tk_extract)use_extract=TRUE; do{ start=inptr2-1; ocur_mod=cur_mod; if(size>(curbsize-IDLENGTH)){ curbsize+=TBUFSIZE; bstring=(char *)REALLOC(bstring,curbsize); } nexttok(); if(tok==tk_openbrace){ bstring[size]='{'; size++; do{ start=inptr2-1; ocur_mod=cur_mod; if(size>(curbsize-IDLENGTH)){ curbsize+=TBUFSIZE; bstring=(char *)REALLOC(bstring,curbsize); } nexttok(); if(tok==tk_number){ switch(itok.rm){ case tk_double: case tk_float: sprintf(itok.name,"%e",itok.dnumber); break; case tk_qword: sprintf(itok.name,"0x%X%08X",itok.lnumber>>16,itok.number); break; default: sprintf(itok.name,"0x%X",itok.number); break; } } if(itok.name[0]!=0){ strcpy(bstring+size,itok.name); size+=strlen(itok.name); } else{ if(cur_mod!=ocur_mod){ start=inptr2-2; if(start<0)start=0; } strncpy(bstring+size,(char *)(input+start),inptr2-1-start); size+=inptr2-1-start; } }while(tok!=tk_closebrace&&tok!=tk_eof); if(tok!=tk_eof)continue; } if(tok==tk_number){ switch(itok.rm){ case tk_double: case tk_float: sprintf(itok.name,"%e",itok.dnumber); break; case tk_qword: sprintf(itok.name,"0x%X%08X",itok.lnumber>>16,itok.number); break; default: sprintf(itok.name,"0x%X",itok.number); break; } } if(itok.name[0]!=0){ strcpy(bstring+size,itok.name); size+=strlen(itok.name); } else{ if(cur_mod!=ocur_mod){ start=inptr2-2; if(start<0)start=0; } strncpy(bstring+size,(char *)(input+start),inptr2-1-start); size+=inptr2-1-start; } if(tok==tk_eof){ unexpectedeof(); return NULL; } if(tok==tk_camma&&use_extract==FALSE)break; }while(tok!=tk_semicolon); // size++; bstring[size]=0; return bstring; } int SkipBlock() { for(int i=1;i!=0;){ FastTok(0); if(tok==tk_question)CheckDir(); switch(tok){ case tk_eof: unexpectedeof(); return FALSE; case tk_openbrace: i++; break; case tk_closebrace: i--; break; } } return TRUE; } int SkipParam() { for(int i=1;i!=0;){ FastTok(0); if(tok==tk_question)CheckDir(); switch(tok){ case tk_openbracket: i++; break; case tk_closebracket: i--; break; case tk_eof: unexpectedeof(); return FALSE; } } return TRUE; } int SkipLocalVar() { while(tok!=tk_openbrace&&tok!=tk_eof){ if(tok==tk_question){ CheckDir(); continue; } if(tok==tk_id&&(strcmp(itok.name,"struct")==0||strcmp(itok.name,"union")==0)){ do{ FastTok(0); if(tok==tk_eof){ unexpectedeof(); return FALSE; } }while(tok!=tk_semicolon&&tok!=tk_openbrace); if(tok==tk_openbrace){ FastTok(0); if(!SkipBlock())return FALSE; } } FastTok(1); } return TRUE; } SAVEPAR *SRparam(int save,SAVEPAR *par) //save or restore global param compiler { if(save){ par=(SAVEPAR *)MALLOC(sizeof(SAVEPAR)); par->ooptimizespeed=optimizespeed; par->owarning= warning; par->odbg= dbg; par->odosstring= dosstring; par->ouseinline= useinline; par->oam32= am32; par->oalignword= alignword; par->oAlignCycle= AlignCycle; par->oidasm= idasm; //асс par->ooptnumber= optnumber; par->odivexpand= divexpand; par->ooptstr= optstr; //оп par->ochip= chip; par->oaligncycle= aligncycle; par->ouselea= uselea; par->oregoverstack= regoverstack; return par; } if(par){ optimizespeed=par->ooptimizespeed; warning= par->owarning; dbg= par->odbg; dosstring= par->odosstring; useinline= par->ouseinline; am32= par->oam32; alignword= par->oalignword; AlignCycle= par->oAlignCycle; idasm= par->oidasm; //асс optnumber= par->ooptnumber; divexpand= par->odivexpand; optstr= par->ooptstr; //оп chip= par->ochip; aligncycle= par->oaligncycle; uselea = par->ouselea; regoverstack= par->oregoverstack; free(par); } return NULL; } void dynamic_proc() { int dtok,start,size,line; ITOK otok; char *bstring; idrec *ptr; _PROCINFO_ *pinfo; if(itok.npointr)itok.rm=(am32==TRUE?tk_dword:tk_word); dtok=tok; otok=itok; line=linenum2; switch(tok){ case tk_id: case tk_ID: string[0]=0; case tk_undefproc: case tk_declare: break; default: idalreadydefined(); break; } if(itok.flag&f_export)preerror("'_export' not use in dynamic functions"); bstring=BackString((char *)string); start=inptr2-1; pinfo=(_PROCINFO_ *)MALLOC(sizeof(_PROCINFO_)); if(itok.flag&f_classproc)pinfo->classteg=searchteg; else pinfo->classteg=NULL; pinfo->warn=warning; pinfo->speed=optimizespeed; pinfo->lst=(dbg&2)>>1; pinfo->typestring=dosstring; pinfo->inlinest=useinline; pinfo->code32=am32; pinfo->align=alignword; pinfo->acycle=AlignCycle; pinfo->idasm=idasm; pinfo->opnum=optnumber; pinfo->de=divexpand; pinfo->ostring=optstr; pinfo->chip=chip; pinfo->sizeacycle=aligncycle; pinfo->uselea=uselea; pinfo->regoverstack=regoverstack; nexttok(); if(dtok==tk_id||dtok==tk_ID){ param[0]=0; if(tok2!=tk_closebracket&&(otok.flag&f_typeproc)==tp_fastcall){ nexttok(); //параметры регистровой процедуры declareparamreg(); free(bstring); bstring=BackString((char *)param); nexttok(); inptr=inptr2; cha=cha2; linenumber=linenum2; } } else{ inptr=inptr2; cha=cha2; if(!SkipParam()){ free(bstring); return; } FastTok(1); } if(tok==tk_semicolon)preerror("error declare dynamic function"); if((!SkipLocalVar())||(!SkipBlock())){ free(bstring); return; } size=inptr-start+1; inptr2=inptr; cha2=cha; linenum2=linenumber; linenumber=line; itok=otok; strcpy((char *)string,bstring); free(bstring); bstring=(char *)MALLOC(size+1); strncpy(bstring,(char *)(input+start),size); bstring[size-1]=';'; bstring[size]=0; // printf("tok=%d %s\n%s\n",dtok,itok.name,bstring); itok.size=0; tok=tk_proc; itok.segm=DYNAMIC; if(dtok==tk_id||dtok==tk_ID){ int i; itok.number=secondcallnum++; itok.type=tp_ucnovn; if((i=FindUseName(itok.name))!=0)itok.segm=DYNAMIC_USED; ptr=addtotree(itok.name); if(i){ ptr->count=i; ptr=itok.rec; AddDynamicList(ptr); } } else{ if(dtok==tk_undefproc)itok.segm=DYNAMIC_USED; updatetree(); ptr=itok.rec; //11.08.04 23:38 strcpy(ptr->recid,itok.name); if(dtok==tk_undefproc&&(itok.flag&f_classproc))AddDynamicList(ptr); } ptr->line=linenumber; ptr->file=currentfileinfo; pinfo->buf=bstring; ptr->pinfo=pinfo; // ptr->sbuf=bstring; // linenumber=linenum2; if(searchteg)searchteg=NULL; nexttok(); } /* ======= procedure handling ends here ======== */ int macros(int expectedreturn) { int dynamicindex,actualreturn; ITOK otok; int orettype; unsigned int oproctype; int otok2; unsigned int typep; int snum=0; actualreturn=(am32==FALSE?tk_word:tk_dword); switch(tok){ case tk_ID: case tk_id: dynamicindex=NOT_DYNAMIC; break; case tk_proc: case tk_undefproc: case tk_declare: dynamicindex=itok.segm; actualreturn=itok.rm; break; default: idalreadydefined(); return expectedreturn; } typep=itok.flag; otok=itok; if(tok==tk_ID)param[0]=0; else strcpy(param,(char *)string); nexttok(); orettype=returntype; returntype=actualreturn; //01.08.04 14:45 oproctype=current_proc_type; if(dynamicindex==NOT_DYNAMIC)doregparams(); else{ switch(typep&f_typeproc){ case tp_cdecl: case tp_stdcall: snum=swapparam(); break; case tp_pascal: snum=doparams(); break; case tp_fastcall: doregparams(); break; } } itok=otok; otok2=tok2; if(dynamicindex==NOT_DYNAMIC){ if((actualreturn=includeit(0))==-1){ char holdstr[IDLENGTH+16]; sprintf(holdstr,"unknown macro '%s'",itok.name); preerror(holdstr); } } else insert_dynamic(TRUE); if(actualreturn!=tk_void&&expectedreturn!=tk_ID)convert_returnvalue(expectedreturn,actualreturn); returntype=orettype; current_proc_type=oproctype; if(snum!=0){ if(typep&f_retproc)warningdestroyflags(); CorrectStack(snum); } tok2=otok2; return actualreturn; } int updatecall(unsigned int which,unsigned int where,unsigned int top) /* update output with newly defined location, but only for addresses after and including top. return the number of addresses updated. which - адрес процедуры where - текущий адрес*/ { unsigned int count=0; long hold; int updates=0; while(counttype>=CALL_SHORT&&(postbuf+count)->type<=CONTINUE_32)&& (postbuf+count)->num==which&&(postbuf+count)->loc>=top){ hold=(long)where-(long)(postbuf+count)->loc; if((postbuf+count)->type>=CALL_NEAR&&(postbuf+count)->type<=CONTINUE_NEAR){ //NEAR hold-=2; *(unsigned short *)&output[(postbuf+count)->loc]=(unsigned short)hold; } else if((postbuf+count)->type>=CALL_32&&(postbuf+count)->type<=CONTINUE_32){//32-BIT hold-=4; *(unsigned long *)&output[(postbuf+count)->loc]=(unsigned long)hold; } else{ //SHORT hold--; // CALL_SHORT if(short_ok(hold))output[(postbuf+count)->loc]=(unsigned char)hold; else{ if((postbuf+count)->type==BREAK_SHORT)preerror3("BREAK distance too large, use break",(postbuf+count)->line); else if((postbuf+count)->type==CONTINUE_SHORT)preerror3("CONTINUE distance too large, use continue",(postbuf+count)->line); else preerror3(shorterr,(postbuf+count)->line,(postbuf+count)->file); } } if(hold<127){ if((postbuf+count)->type==JMP_NEAR||(postbuf+count)->type==JMP_32)warningjmp("GOTO",(postbuf+count)->line,(postbuf+count)->file); if((postbuf+count)->type==BREAK_NEAR||(postbuf+count)->type==BREAK_32)warningjmp("BREAK",(postbuf+count)->line); if((postbuf+count)->type==CONTINUE_NEAR||(postbuf+count)->type==CONTINUE_32)warningjmp("CONTINUE",(postbuf+count)->line); } killpost(count); updates++; } else count++; } if(updates==1&&hold==0)return -1; return(updates); } void define_locallabel() { FindOff(string,CS); updatecall((unsigned int)updatelocalvar((char *)string,tk_number,outptr),outptr,procedure_start); nextexpecting2(tk_colon); RestoreStack(); clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif } void addacall(unsigned int idnum,unsigned char callkind) { CheckPosts(); (postbuf+posts)->num=idnum; (postbuf+posts)->loc=outptr+1; (postbuf+posts)->type=callkind; (postbuf+posts)->line=(unsigned short)linenumber; (postbuf+posts)->file=(unsigned short)currentfileinfo; posts++; } unsigned int dofrom() // returns number of bytes read from FROM file { int filehandle; long filesize; if(tok!=tk_string){ stringexpected(); return(0); } #ifndef _WIN32_ for(char* p=(char *)string3; *p; ++p) if(*p=='\\') *p='/'; #endif filehandle=open((char *)string3,O_BINARY|O_RDONLY); if(filehandle==-1){ unableopenfile((char *)string3); return(0); } if((filesize=getfilelen(filehandle))==-1L){ preerror("Unable to determine FROM file size"); close(filehandle); return(0); } if(am32==FALSE&&filesize>=0xFFFFL){ preerror("FROM file too large"); close(filehandle); return(0); } LoadData(filesize,filehandle); return filesize; } unsigned int doextract() // returns number of bytes EXTRACTed { unsigned int sizetoread; int filehandle; long filesize,startpos; if(tok!=tk_string){ stringexpected(); return(0); } filehandle=open((char *)string3,O_BINARY|O_RDONLY); if(filehandle==-1){ unableopenfile((char *)string3); return(0); } nexttok(); expecting(tk_camma); if(tok!=tk_number){ numexpected(); return(0); } startpos=doconstlongmath(); expecting(tk_camma); if(tok!=tk_number){ numexpected(); return(0); } sizetoread=doconstlongmath(); if((filesize=getfilelen(filehandle))==-1L){ preerror("Unable to determine EXTRACT file size"); close(filehandle); return(0); } if(filesize<=startpos){ preerror("EXTRACT offset exceeds the length of the file"); close(filehandle); return(0); } if(sizetoread==0)sizetoread=filesize-startpos; if(am32==FALSE&&sizetoread>=0xFFFFL){ preerror("Block to EXTRACT exceeds 64K"); close(filehandle); return(0); } lseek(filehandle,startpos,0); // error checking required on this LoadData(sizetoread,filehandle); return sizetoread; } void LoadData(unsigned int size,int filehandle) { if(splitdata){ while(((unsigned long)size+(unsigned long)outptrdata)>=outdatasize){ if(CheckDataSize()==0)break; } if((unsigned int)read(filehandle,outputdata+outptrdata,size)!=size)errorreadingfile((char *)string3); outptrdata+=size; } else{ while(((unsigned long)size+(unsigned long)outptr)>=outptrsize){ if(CheckCodeSize()==0)break; } if((unsigned int)read(filehandle,output+outptr,size)!=size)errorreadingfile((char *)string3); outptr+=size; outptrdata=outptr; } close(filehandle); } void op66(int ctok) { if((am32==FALSE&&ctok==r32)||(am32!=FALSE&&ctok==r16)){ if(cpu<3)cpu=3; op(0x66); } } int op67(int ctok) { if((am32==FALSE&&ctok==r32)||(am32!=FALSE&&ctok==r16)){ if(cpu<3)cpu=3; op(0x67); return TRUE; } return FALSE; } void outseg(ITOK *outtok,unsigned int locadd) { int rmm1; rmm1=outtok->rm&7; if(outtok->sib!=CODE16){ if(am32==FALSE)op(0x67); if(rmm1==4)locadd++; } else if(am32!=FALSE)op(0x67); switch(outtok->segm){ case ES: op(0x26); break; case CS: op(0x2E); break; case FS: op(0x64); if(cpu<3)cpu=3; break; case GS: op(0x65); if(cpu<3)cpu=3; break; case SS: if(outtok->sib==CODE16){ if(rmm1!=2&&rmm1!=3&&!(rmm1==6&&outtok->rm!=6))op(0x36); } else{ if(rmm1==4){ rmm1=outtok->sib&7; if(rmm1!=4){ if(rmm1==5){ if(outtok->rm==4)op(0x36); break; } op(0x36); } } else if(rmm1==5){ if(outtok->rm==5)op(0x36); else break; } else op(0x36); } break; case DS: if(outtok->sib==CODE16){ if(rmm1==2||rmm1==3||(rmm1==6&&outtok->rm!=6))op(0x3E); } else{ if(rmm1==4){ rmm1=outtok->sib&7; if(rmm1==4||(rmm1==5&&outtok->rm!=4))op(0x3e); } else if(rmm1==5&&outtok->rm!=5)op(0x3e); } } CheckPosts(); if(outtok->post!=0&&outtok->post!=UNDEF_OFSET){ if((outtok->flag&f_extern)){ (postbuf+posts)->type=EXT_VAR; (postbuf+posts)->num=outtok->number&0xFFFF; outtok->number>>=16; } else if(outtok->post==USED_DIN_VAR){ (postbuf+posts)->type=(unsigned short)(am32==0?DIN_VAR:DIN_VAR32); // printf("Add tok=%d %08X sib=%d %s\n",outtok->rec->rectok,outtok->rec->right,outtok->rec->recsib,outtok->rec->recid); if(outtok->rec->rectok==tk_structvar&&outtok->rec->recsib==tp_gvar){ (postbuf+posts)->num=(int)outtok->rec;//02.09.05 17:10 ->right; } else (postbuf+posts)->num=(int)outtok->rec; } // else if((outtok->flag&f_dataseg))(postbuf+posts)->type=(unsigned short)(am32==0?DATABLOCK_VAR:DATABLOCK_VAR32); else (postbuf+posts)->type=(unsigned short)(am32==0?POST_VAR:POST_VAR32); (postbuf+posts)->loc=outptr+locadd; posts++; } else if(outtok->flag&f_reloc){ (postbuf+posts)->type=(unsigned short)(am32==0?FIX_VAR:FIX_VAR32); (postbuf+posts)->loc=outptr+locadd; posts++; } } int addpoststring(int segm,int len,int term) /* add a string to the post queue */ { int i; int returnvalue; if((returnvalue=FindDublString(segm,len,term))!=-1)return returnvalue; CheckPosts(); (postbuf+posts)->type=(unsigned short)(am32==FALSE?POST_STRING:POST_STRING32); (postbuf+posts)->loc=(segm==CS?outptr:outptrdata); (postbuf+posts)->num=segm; posts++; returnvalue=poststrptr; if((int)(len+poststrptr+1)>=sbufstr){ sbufstr+=SIZEBUF; bufstr=(char *)REALLOC(bufstr,sbufstr); } for(i=0;itype=(unsigned short)(am32==FALSE?POST_STRING:POST_STRING32); (postbuf+posts)->loc=(segm==CS?outptr:outptrdata); (postbuf+posts)->num=segm; posts++; return outs.ofs+j; } } prevstr=nextstr; nextstr=outs.next; } outs.next=(void *)MALLOC(sizeof(STRING_LIST)+len); memcpy(outs.next,&ins,sizeof(STRING_LIST)); if(len!=0)memcpy((char *)outs.next+sizeof(STRING_LIST),&string,len); if(prevstr!=NULL)memcpy(prevstr,&outs,sizeof(STRING_LIST)); else liststring=outs.next; return -1; } void killpost(unsigned int poz) { posts--; memcpy((postinfo *)(postbuf+poz),(postinfo *)(postbuf+posts),sizeof(postinfo)); } void dopoststrings() { unsigned int addvalue,i; if(poststrptr==0)return; if(splitdata){ addvalue=outptrdata; if((outptrdata+poststrptr)>=outdatasize)CheckDataSize(); } else{ addvalue=outptr; if((outptr+poststrptr)>=outptrsize)CheckCodeSize(); } datasize+=poststrptr; if(dbg&2)AddDataNullLine(3); memcpy(&outputdata[outptrdata],bufstr,poststrptr); outptrdata+=poststrptr; if(!splitdata)outptr=outptrdata; for(i=0;inum; if((postbuf+i)->type==POST_STRING){ if(segm==CS)*(unsigned short *)&output[(postbuf+i)->loc]+=(unsigned short)addvalue; else *(unsigned short *)&outputdata[(postbuf+i)->loc]+=(unsigned short)addvalue; if(splitdata&&modelmem==TINY)(postbuf+i)->type=(unsigned short)DATABLOCK_VAR; else if(FixUp==FALSE)killpost(i--); else (postbuf+i)->type=(unsigned short)(segm==DS?FIX_VAR:FIX_CODE); } else if((postbuf+i)->type==POST_STRING32){ if(segm==CS)*(unsigned int *)&output[(postbuf+i)->loc]+=addvalue; else *(unsigned int *)&outputdata[(postbuf+i)->loc]+=addvalue; if(splitdata&&modelmem==TINY)(postbuf+i)->type=(unsigned short)DATABLOCK_VAR32; else if(FixUp==FALSE)killpost(i--); else (postbuf+i)->type=(unsigned short)(segm==DS?FIX_VAR32:FIX_CODE32); } } poststrptr=0; /* reset the poststrptr */ STRING_LIST ins; void *nextstr=liststring; while(nextstr!=NULL){ memcpy(&ins,nextstr,sizeof(STRING_LIST)); if(ins.plase!=0){ ins.plase=0; ins.ofs+=addvalue; memcpy(nextstr,&ins,sizeof(STRING_LIST)); } nextstr=ins.next; } if(dbg&2)AddCodeNullLine(); } void insertcode() // force code procedure at specified location { nexttok(); testInitVar(FALSE); if((itok.flag&f_extern)!=0){ notexternfun(); return; } int tproc=itok.flag&f_typeproc; setuprm(); switch(tok){ case tk_undefproc: case tk_declare: tok=tk_proc; itok.number=outptr; updatecall((unsigned int)updatetree(),(unsigned int)itok.number,0); if(tproc==tp_fastcall){ if(includeit(1)==-1)thisundefined(itok.name); } else if(includeproc()==-1)thisundefined(itok.name); break; case tk_id: case tk_ID: tok=tk_proc; itok.number=outptr; string[0]=0; itok.type=tp_ucnovn; addtotree(itok.name); if(tproc==tp_fastcall){ if(includeit(1)==-1)thisundefined(itok.name); } else if(includeproc()==-1)thisundefined(itok.name); break; case tk_proc: if(itok.segmstlist=staticlist; oendinptr=endinptr; endoffile=0; ostartline=startline; idrec *ptr=itok.rec; pinfo=ptr->pinfo; input=(unsigned char *)pinfo->buf; inptr2=1; startline=(char *)input; cha2=input[0]; endinptr=strlen((char *)input); endinput=startline+endinptr; linenumber=linenum2=ptr->line; currentfileinfo=ptr->file; staticlist=(startfileinfo+currentfileinfo)->stlist; par=SRparam(TRUE,NULL); warning=pinfo->warn; optimizespeed=pinfo->speed; dosstring=pinfo->typestring; useinline=pinfo->inlinest; am32=pinfo->code32; alignword=pinfo->align; AlignCycle=pinfo->acycle; idasm=pinfo->idasm; optnumber=pinfo->opnum; divexpand=pinfo->de; optstr=pinfo->ostring; chip=pinfo->chip; aligncycle=pinfo->sizeacycle; uselea=pinfo->uselea; regoverstack=pinfo->regoverstack; if(pinfo->classteg!=NULL){ /*if((itok.flag&f_static)==0)*/searchteg=(structteg *)pinfo->classteg; insert=0; } if(pinfo->lst)dbg|=2; else dbg&=0xFD; // puts(itok.name); if(!insert){ procedure_start=outptr; if(dbg){ if(dbg&2){ char m1[130]; //11.08.04 23:39 // if(searchteg)sprintf(m1,"%s::%s()",searchteg->name,itok.name); // else sprintf(m1,"%s()",itok.name); sprintf(m1,"%s()",itok.name); AddCodeNullLine(m1); } else AddLine(); } if(AlignProc)AlignCD(CS,alignproc); // puts((char *)input); if(pinfo->classteg==NULL)itok.flag&=~f_static; setproc(1); dopoststrings(); } else insertproc(); input=oinput; inptr2=oinptr; cha2=ocha; linenum2=oline; // printf("cur_mod=%08X\n",cur_mod); (startfileinfo+currentfileinfo)->stlist=staticlist; currentfileinfo=ofile; staticlist=(startfileinfo+currentfileinfo)->stlist; endinptr=oendinptr; endoffile=0; startline=ostartline; SRparam(FALSE,par); if(oinsert)searchteg=osearchteg; else searchteg=NULL; // if(insert)nexttok(); // printf("tok=%d %08X\n",tok,cur_mod); } idrec *addtotree(char *keystring)//добавить строку в дерево { struct idrec *ptr,*newptr; int cmpresult; //выделить память под новую проц newptr=(struct idrec *)MALLOC(sizeof(struct idrec)); ptr=(itok.flag&f_static)!=0?staticlist:treestart; //начало дерева if(ptr==NULL)((itok.flag&f_static)!=0?staticlist:treestart)=newptr;//начало дерева else{ //поиск строки в дереве while(((cmpresult=strcmp(ptr->recid,keystring))<0&&ptr->left!=NULL)|| (cmpresult>0&&ptr->right!=NULL))ptr=(cmpresult<0?ptr->left:ptr->right); (cmpresult<0?ptr->left:ptr->right)=newptr; } strcpy(newptr->recid,keystring);//скопир название newptr->newid=NULL; if(string[0]!=0)newptr->newid=BackString((char *)string); newptr->rectok=tok; newptr->recnumber=itok.number; newptr->recsegm=itok.segm; newptr->recrm=itok.rm; newptr->recpost=itok.post; newptr->flag=itok.flag; newptr->recsize=itok.size; newptr->left=newptr->right=NULL; newptr->sbuf=NULL; newptr->recsib=itok.sib; newptr->line=linenumber; newptr->file=currentfileinfo; newptr->count=0; newptr->type=itok.type; newptr->npointr=itok.npointr; itok.rec=newptr; return newptr; } long updatetree() // returns the old number value { struct idrec *ptr; long hold; ptr=itok.rec; if(ptr==0)internalerror("address record not found when update tree"); if(ptr->newid)free(ptr->newid); ptr->newid=NULL; if(string[0]!=0)ptr->newid=BackString((char *)string); ptr->rectok=tok; hold=ptr->recnumber; ptr->recnumber=itok.number; ptr->recsegm=itok.segm; ptr->recrm=itok.rm; ptr->flag=itok.flag; ptr->recsize=itok.size; ptr->recsib=itok.sib; return hold; } /* --------------- local variable handling starts here ----------------- */ unsigned int updatelocalvar(char *str,int tok4,unsigned int num) { struct localrec *ptr; unsigned int retvalue; treelocalrec *ntlr=tlr; while(ntlr&&ntlr->level>1)ntlr=ntlr->next; for(ptr=ntlr->lrec;;ptr=ptr->rec.next){ if(strcmp(ptr->rec.recid,str)==0){ retvalue=ptr->rec.recnumber; ptr->rec.rectok=tok4; ptr->rec.recnumber=num; break; } if(ptr->rec.next==NULL)break; } return(retvalue); } localrec * addlocalvar(char *str,int tok4,unsigned int num,int addmain) { localrec *ptr,*newptr; localrec *uptr; treelocalrec *ntlr; if(addmain){ ntlr=tlr; while(ntlr&&ntlr->level>1)ntlr=ntlr->next; uptr=ntlr->lrec; } else uptr=tlr->lrec; newptr=(struct localrec *)MALLOC(sizeof(struct localrec)); if(uptr==NULL){ if(addmain)ntlr->lrec=newptr; else tlr->lrec=newptr; } else{ ptr=uptr; while(ptr->rec.next!=NULL)ptr=ptr->rec.next; ptr->rec.next=newptr; } strcpy(newptr->rec.recid,str); newptr->rec.rectok=tok4; newptr->rec.recnumber=num; newptr->rec.next=NULL; newptr->rec.right=NULL; newptr->rec.recsize=0; newptr->fuse=NOTINITVAR; newptr->rec.type=tp_ucnovn; newptr->rec.flag=0; newptr->rec.npointr=0; newptr->rec.recpost=LOCAL; newptr->li.count=0; newptr->li.start=linenumber; return newptr; } void KillTegList(structteg *tteg) { if(tteg){ KillTegList(tteg->left); KillTegList(tteg->right); if(tteg->baza)free(tteg->baza); free(tteg); } } void killlocals(/*int endp*/) /* Clear and free the local linked list, check for any unresolved local jump labels. */ { /* if(endp){ dopoststrings(); for(int i=0;itype,(postbuf+i)->num); if((postbuf+i)->type==DIN_VAR||(postbuf+i)->type==DIN_VAR32){ idrec *ptr=(idrec *)(postbuf+i)->num; // printf("sib=%d num=%08X %s\n",ptr->recsib,ptr->recnumber,ptr->recid); if(ptr->recsib!=tp_gvar)continue; puts("recsib=tp_gvar"); if(ptr->recpost==USED_DIN_VAR){ unsigned int otok,otok2; ITOK oitok; oitok=itok; otok=tok; otok2=tok2; setdindata(ptr,i); itok=oitok; tok=otok; tok2=otok2; } else{ if((postbuf+i)->type==DIN_VAR)*(unsigned short *)&output[(postbuf+i)->loc]+=(unsigned short)(ptr->recnumber); else *(unsigned long *)&output[(postbuf+i)->loc]+=ptr->recnumber; } if(FixUp)(postbuf+i)->type=(unsigned short)((postbuf+i)->type==DIN_VAR?FIX_VAR:FIX_VAR32); else killpost(i--); } } dopoststrings(); } */ treelocalrec *ftlr,*ftlr1; struct localrec *ptr, *ptr1; for(ftlr=btlr;ftlr!=NULL;){ ftlr1=ftlr; for(ptr=ftlr->lrec;ptr!=NULL;){ ptr1=ptr; if(ptr->rec.rectok==tk_locallabel){ /* check for unresolved labels */ char holdstr[32+IDLENGTH]; sprintf(holdstr,"local jump label '%s' unresolved",ptr1->rec.recid); preerror(holdstr); } // printf("type=%d post=%08X %s\n",ptr->rec.type,ptr->rec.recpost,ptr->rec.recid); if(ptr->rec.rectok==tk_structvar){ if(ptr->rec.count==0){ warningnotused(ptr->rec.recid,5); if(ptr->rec.type==tp_gvar)free(ptr->rec.sbuf); } } else if(ptr->fuserec.type==tp_localvar||ptr->rec.type==tp_postvar||ptr->rec.type==tp_gvar)warningnotused(ptr->rec.recid,3); else if(ptr->rec.type==tp_paramvar)warningnotused(ptr->rec.recid,4); if(ptr->rec.type==tp_gvar)free(ptr->rec.sbuf); } ptr=ptr->rec.next; if(ptr1->rec.recpost!=USED_DIN_VAR)free(ptr1); } ftlr=ftlr->next; free(ftlr1); } btlr=NULL; paramsize=0; localsize=0; KillTegList(ltegtree); ltegtree=NULL; } /* ================ input procedures start ================= */ int loadinputfile(char *inpfile) //считывание файла в память { unsigned long size; int filehandle; if((filehandle=open(inpfile,O_BINARY|O_RDONLY))==-1)return -2; if((size=getfilelen(filehandle))==0){ badinfile(inpfile); close(filehandle); return(-1); } if(totalmodule==0){ startfileinfo=(struct FILEINFO *)MALLOC(sizeof(FILEINFO)); totalmodule=1; currentfileinfo=0; } else{ //поиск емени файла в списке обработанных for(currentfileinfo=0;currentfileinfofilename)==0)break; } if(currentfileinfo!=totalmodule){ if(crif!=FALSE)return 1; goto cont_load; } totalmodule++; startfileinfo=(struct FILEINFO *)REALLOC(startfileinfo,sizeof(FILEINFO)*(totalmodule)); } (startfileinfo+currentfileinfo)->stlist=NULL; (startfileinfo+currentfileinfo)->filename=(char *)MALLOC(strlen(inpfile)+1); strcpy((startfileinfo+currentfileinfo)->filename,inpfile); (startfileinfo+currentfileinfo)->numdline=0; //GetFileTime(filehandle,&(startfileinfo+currentfileinfo)->time); // bug // getftime(filehandle,&(startfileinfo+currentfileinfo)->time); cont_load: staticlist=(startfileinfo+currentfileinfo)->stlist; input=(unsigned char *)MALLOC(size+1); printf("%08lX %s %lu\n",input,inpfile,size); if((endinptr=read(filehandle,input,size))!=size){ printf("%d\n",endinptr); errorreadingfile(inpfile); close(filehandle); return(-1); } close(filehandle); return(0); } void notnegit(int notneg) /* produce NOT .. or NEG .. */ { int wordadd=0,i=0; getoperand(); switch(tok){ case tk_reg: wordadd=1; op66(r16); ClearReg(itok.number); case tk_beg: if(optimizespeed&&(chip==5||chip==6)){ if(wordadd==0&&itok.number==AL)outword(0xFF34); else{ if(wordadd)op(0x83); else op(0x80); op(0xF0+itok.number); op(0xFF); } if(notneg){ if(wordadd){ op66(r16); op(0x40+itok.number); } else{ op(0xFE); op(0xC0+itok.number); } } } else{ op(0xF6+wordadd); op(0xD0+notneg+itok.number); } if(wordadd==0)ClearReg(itok.number&3); break; case tk_wordvar: case tk_intvar: wordadd=1; i=1; case tk_bytevar: case tk_charvar: i++; CheckAllMassiv(bufrm,i,&strinf); if(wordadd)op66(r16); outseg(&itok,2); if((!notneg)&&optimizespeed&&(chip==5||chip==6)){ op(wordadd!=0?0x83:0x80); op(0x30+itok.rm); outaddress(&itok); op(0xFF); } else{ op(0xF6+wordadd); op(0x10+notneg+itok.rm); outaddress(&itok); } KillVar(itok.name); break; case tk_reg32: op66(r32); if(optimizespeed&&(chip==5||chip==6)){ op(0x83); outword(0xFFF0+itok.number); if(notneg){ op66(r32); op(0x40+itok.number); } } else{ op(0xF7); op(0xD0+notneg+itok.number); } if(cpu<3)cpu=3; ClearReg(itok.number); break; case tk_reg64: int r1,r2; r1=itok.number&255; r2=itok.number/256; op66(r32); op(0xF7); op(0xD0+notneg+r2); // NEG reg op66(r32); op(0xF7); op(0xD0+notneg+r1); // NEG reg op66(r32); op(0x83); op(0xD8+r2); op(0); ClearReg(r1); ClearReg(r2); break; case tk_longvar: case tk_dwordvar: CheckAllMassiv(bufrm,4,&strinf); op66(r32); outseg(&itok,2); if((!notneg)&&optimizespeed&&(chip==5||chip==6)){ op(0x83); op(0x30+itok.rm); outaddress(&itok); op(0xFF); } else{ op(0xF7); op(0x10+notneg+itok.rm); outaddress(&itok); } if(cpu<3)cpu=3; KillVar(itok.name); break; case tk_qword: itok.number+=4; compressoffset(&itok); for(i=0;i<2;i++){ CheckAllMassiv(bufrm,8,&strinf); op66(r32); outseg(&itok,2); op(0xF7); op(0x10+notneg+itok.rm); outaddress(&itok); if(i==1)break; itok.number-=4; compressoffset(&itok); } itok.number-=4; compressoffset(&itok); CheckAllMassiv(bufrm,8,&strinf); op66(r32); outseg(&itok,2); op(0x83); op(0x18+itok.rm); outaddress(&itok); op(0); KillVar(itok.name); if(cpu<3)cpu=3; break; case tk_doublevar: i=4; case tk_floatvar: if(notneg!=8)illegalfloat(); CheckAllMassiv(bufrm,4+i,&strinf); outseg(&itok,2); //fld var op(0xd9+i); op(itok.rm); outaddress(&itok); outword(0xe0d9); //fchs outseg(&itok,2);//fstp var op(0xd9+i); op(itok.rm+0x18); outaddress(&itok); fwait3(); break; default: varexpected(0); } } void setreturn() { if(numreturn){ unsigned int pos,dist; //int j=0; //restart: for(int i=0;iuse)continue; pos=(listreturn+i)->loc; dist=outptr-pos; if((listreturn+i)->type==tk_RETURN){ dist--; // if(dist){ if(dist>127/*&&i>=j*/)jumperror((listreturn+i)->line,mesRETURN); output[pos]=(unsigned char)dist; /* } else{ outptr-=2; j=i; (listreturn+i)->use=FALSE; goto restart; }*/ } else{ dist-=(am32==0?2:4); // if(dist){ if(dist<128/*&&i>=j*/)warningjmp(mesRETURN,(listreturn+i)->line,currentfileinfo); if(am32)*(unsigned long *)&output[pos]=dist; else*(unsigned short *)&output[pos]=(unsigned short)dist; /* } else{ outptr-=3; if(am32)outptr-=2; j=i; (listreturn+i)->use=FALSE; goto restart; }*/ } } free(listreturn); listreturn=NULL; numreturn=0; } } void RestoreSaveReg() { if(psavereg->all){ op(0x61); addESP-=am32==FALSE?16:32; } else{ for(int i=7;i>=0;i--){ if(psavereg->reg[i]){ op66(psavereg->reg[i]); op(0x58+i); addESP-=am32==FALSE?2:4; } } } } void AddRetList(int pos,int line,int type) { if(numreturn==0)listreturn=(RETLIST *)MALLOC(sizeof(RETLIST)); else listreturn=(RETLIST *)REALLOC(listreturn,sizeof(RETLIST)*(numreturn+1)); (listreturn+numreturn)->loc=pos; (listreturn+numreturn)->line=line; (listreturn+numreturn)->type=type; // (listreturn+numreturn)->use=TRUE; if(type==tk_return)jumploc0(); else outword(0x00EB); // JMP SHORT numreturn++; } void RetProc() { if((current_proc_type&f_far)){ if((current_proc_type&f_typeproc)==tp_cdecl)retf(); else{ if(paramsize==0)retf(); /* RETF */ else{ op(0xCA); outword(paramsize); } } } else{ if((current_proc_type&f_typeproc)==tp_cdecl)ret(); else if(current_proc_type==f_interrupt)op(0xCF);//interrupt procedure IRET else{ if(paramsize==0)ret(); /* RET */ else{ op(0xC2); outword(paramsize); } } } } void doreturn(int typer) /* do return(...); */ { char sign=0; int line=linenumber; char *ofsstr=NULL; int i; unsigned int oaddESP=addESP; if(tok2==tk_openbracket)nexttok(); if((ofsstr=GetLecsem(tk_closebracket,tk_semicolon))){ int retreg; int razr=getrazr(returntype); if((retreg=CheckIDZReg(ofsstr,AX,razr))!=NOINREG){ GetEndLex(tk_closebracket,tk_semicolon); if(razr==r16)tok=tk_reg; else if(razr==r32)tok=tk_reg32; else tok=tk_beg; itok.number=retreg==SKIPREG?AX:retreg; goto nn1; } } getoperand(); if(tok!=tk_closebracket&&tok!=tk_semicolon){ nn1: switch(returntype){ case tk_int: sign=1; case tk_word: do_e_axmath(sign,r16,&ofsstr); break; case tk_char: sign=1; case tk_byte: doalmath(sign,&ofsstr); break; case tk_long: sign=1; case tk_dword: do_e_axmath(sign,r32,&ofsstr); break; case tk_qword: getintoreg64(EAX|(EDX*256)); if(itok.type!=tp_stopper&&tok!=tk_eof&&itok.type!=tp_compare)doregmath64(EAX|(EDX*256)); break; case tk_void: retvoid(); nexttok(); break; case tk_double: /* if(tok2==tk_closebracket)doregmath64(EAX|(EDX*256)); else doeaxfloatmath(tk_reg64); break;*/ case tk_fpust: doeaxfloatmath(tk_fpust); break; case tk_float: if(itok2.type==tp_stopper&&(tok==tk_floatvar||tok==tk_number)){ if(tok==tk_floatvar){ tok=tk_dwordvar; do_e_axmath(0,r32,&ofsstr); } else doeaxfloatmath(tk_reg32,0,0); } else{ doeaxfloatmath(tk_stackstart,0,0); op66(r32); op(0x58); //pop eax } break; // default: // printf("returntype=%d\n",returntype); } } if(tok==tk_closebracket)nexttok(); seminext(); if(ofsstr)free(ofsstr); clearregstat(); #ifdef OPTVARCONST ClearLVIC(); #endif if(typer!=tokens){ i=(am32==0?2:4); if(typer==tk_RETURN)i=1; if(paramsize||localsize)i--; if(insertmode||((!optimizespeed)&¶msize&& (current_proc_type&f_typeproc)!=tp_cdecl)||psavereg->size>i){ if(numblocks>1){ //заменить return на goto AddRetList(outptr+1,line,typer); retproc=TRUE; return; } else{ setreturn(); if(insertmode)return; } } } if(numblocks==1)setreturn(); //06.09.04 22:20 if(!inlineflag)leaveproc(); else{ AutoDestructor(); RestoreStack(); RestoreSaveReg(); RetProc(); } retproc=TRUE; if(numblocks>1||(numblocks==1&&tok!=tk_closebrace))addESP=oaddESP; } int IsSaveReg() { if(psavereg->all)return TRUE; for(int i=7;i>=0;i--){ if(psavereg->reg[i])return TRUE; } return FALSE; } void leaveproc() { AutoDestructor(); RestoreStack(); RestoreSaveReg(); if(ESPloc==FALSE||am32==FALSE){ if(localsize)Leave(); else if(paramsize)op(0x5D); /* POP BP */ else if(initBP)Leave(); } else if(localsize){ if(short_ok(localsize,TRUE)){ outword(0xC483); op(localsize); } else{ outword(0xC481); outdword(localsize); } } RetProc(); } DLLLIST *FindDLL() { DLLLIST *newdll; if(listdll!=NULL){ //список DLL не пуст for(newdll=listdll;stricmp(newdll->name,(char *)string)!=0;newdll=newdll->next){ if(newdll->next==NULL){ //последняя в списке newdll->next=(DLLLIST *)MALLOC(sizeof(DLLLIST));//создать новую newdll=newdll->next; newdll->next=NULL; newdll->num=0; newdll->list=NULL; strcpy(newdll->name,(char *)string); break; } } } else{ listdll=newdll=(DLLLIST *)MALLOC(sizeof(DLLLIST)); newdll->next=NULL; newdll->num=0; newdll->list=NULL; strcpy(newdll->name,(char *)string); } return newdll; } void declareextern() { int next; nexttok(); if(comfile==file_w32&&strcmp(itok.name,"WINAPI")==0){ nexttok(); if(tok!=tk_string)stringexpected(); DLLLIST *newdll; newdll=FindDLL(); nextexpecting2(tk_openbrace); //открытие списка процедур APIPROC *listapi=newdll->list; returntype=tk_declare; do{ if(tok==tk_enum)doenum(); else if(tok==tk_struct)InitStruct(); else{ next=TRUE; if(testInitVar(FALSE)!=FALSE)preerror("Error declare WINAPI"); if(itok.rm==tokens)itok.rm=tk_dword; if(itok.npointr)itok.rm=(am32==TRUE?tk_dword:tk_word); ITOK hitok=itok; int htok=tok; param[0]=0; hitok.sib=hitok.size=-1; if(tok2==tk_period){ nexttok(); if(tok2==tk_number){ nexttok(); hitok.sib=itok.number; } } if(tok2==tk_at){ nexttok(); if(tok2==tk_number){ nexttok(); hitok.size=itok.number; } } else{ nextexpecting2(tk_openbracket); if((hitok.flag&f_typeproc)==tp_fastcall)declareparamreg(); else declareparamstack(); } if(htok==tk_id||htok==tk_ID){ tok=tk_apiproc; itok=hitok; itok.number=secondcallnum++; itok.segm=NOT_DYNAMIC; itok.post=dEBX|dEDI|dESI; //05.09.04 01:36 strcpy((char *)string,param); itok.type=tp_ucnovn; if(newdll->num==0)listapi=(APIPROC *)MALLOC(sizeof(APIPROC)); //первая в списке else listapi=(APIPROC *)REALLOC(listapi,sizeof(APIPROC)*(newdll->num+1)); (listapi+newdll->num)->recapi=addtotree(itok.name); if(tok2==tk_openbracket){ next=0; nexttok(); IsUses((listapi+newdll->num)->recapi); } newdll->num++; } else warningdefined(hitok.name); if(next)nexttok(); seminext(); } }while(tok!=tk_closebrace); returntype=tokens; newdll->list=listapi; nexttok(); } else{ itok.flag=f_extern; switch(tok){ case tk_far: case tk_cdecl: case tk_pascal: case tk_stdcall: case tk_fastcall: case tk_declare: case tk_undefproc: case tk_ID: case tk_id: case tk_float: case tk_long: case tk_dword: case tk_word: case tk_byte: case tk_char: case tk_int: case tk_void: int j; if((j=testInitVar())==FALSE)define_procedure(); else if(j==TRUE)globalvar(); break; case tk_struct: InitStruct(); break; default: preerror("Error declare extern"); } if((!fobj)&&(!sobj))preerror("extern using only for compilation obj files"); } } int testInitVar(int checkaldef) { unsigned int ffar=0; unsigned int fexport=0; unsigned int tproc=0; unsigned int fretproc=0; int rettype=tokens; unsigned int flag=itok.flag; unsigned int npointr=0; if(fstatic){ flag|=f_static; fstatic=FALSE; } if(tok==tk_inline){ flag=f_inline; nexttok(); } for(;;){ if(tok==tk_far)ffar=f_far; else if(tok==tk_export)fexport=f_export; else if(tok>=tk_pascal&&tok<=tk_fastcall)tproc=tok; else if((tok>=tk_void&&tok<=tk_double)||tok==tk_fpust){ if(rettype!=tokens)unknowntype(); rettype=tok; } else if(tok==tk_id){ if(CheckDef())continue; if(tok2==tk_dblcolon)goto classdecl; if(tproc==0)tproc=(comfile==file_w32?tp_stdcall:tp_pascal); //тип проц по умолчанию else tproc=(tproc-tk_pascal)*2; break; } else if(tok==tk_ID){ if(CheckDef())continue; if(tok2==tk_dblcolon){ classdecl: itok.flag=(unsigned int)(flag|ffar|fexport|fretproc|f_classproc); itok.rm=rettype; itok.npointr=(unsigned short)npointr; doclassproc(tproc); return 2; } if(tproc==0)tproc=tp_fastcall; //тип проц по умолчанию else tproc=(tproc-tk_pascal)*2; break; } else if(tok==tk_undefproc||tok==tk_declare/*||tok==tk_apiproc*/){ flag|=itok.flag; //new 18.04.07 12:19 if(tproc==0){ if(CidOrID()==tk_ID)tproc=tp_fastcall; else tproc=(comfile==file_w32?tp_stdcall:tp_pascal); } else tproc=(tproc-tk_pascal)*2; // 17.09.05 17:06 if((flag&f_extern)!=0||tproc!=(itok.flag&f_typeproc)|| ffar!=(itok.flag&f_far)||(unsigned short)npointr!=itok.npointr|| ((flag&f_static)&&(itok.flag&f_static)==0)){ if(strcmp(itok.name,"main")){ if(rettype==itok.rm||(rettype==tokens&&(itok.rm==(am32==0?tk_word:tk_dword))))break; // printf("rm=%d rmnew=%d\n",itok.rm,rettype); if(checkaldef)redeclare(itok.name); } } break; } else if(tok==tk_proc||tok==tk_apiproc){ if(checkaldef)idalreadydefined(); break; } else if((tok>=tk_bits&&tok<=tk_doublevar)||tok==tk_structvar||tok==tk_pointer){ idalreadydefined(); return 2; } else if(tok==tk_mult){ do{ npointr++; nexttok(); }while(tok==tk_mult); if(rettype==tokens)rettype=am32==FALSE?tk_word:tk_dword; continue; } else if(tok==tk_openbracket){ if(tok2!=tk_mult){ unuseableinput(); return 2; } if(tproc!=0)tproc=(tproc-tk_pascal)*2; itok.flag=(unsigned int)(flag|ffar|tproc|fexport|fretproc); itok.rm=rettype; itok.npointr=(unsigned short)npointr; return TRUE; } else if((tok>=tk_overflowflag&&tok<=tk_notzeroflag)||tok==tk_minusflag|| tok==tk_plusflag)fretproc=(tok-tk_overflowflag+1)*256; else if(tok==tk_static)flag|=f_static; else if(tok==tk_fpust)rettype=tk_fpust; else{ unuseableinput(); return 2; } nexttok(); } itok.flag=(unsigned int)(flag|ffar|tproc|fexport|fretproc); itok.rm=rettype; itok.npointr=(unsigned short)npointr; if(returntype==tk_declare&& (tok2==tk_openbracket||tok2==tk_at||tok2==tk_period))return FALSE; if(tok2==tk_openbracket)return CheckDeclareProc(); if(rettype==tokens){ thisundefined(itok.name);//02.09.04 20:55 was unuseableinput(); return 2; } return TRUE; /*-----------------23.12.01 02:11------------------- rerurn: FALSE - если определение, вставка процедуры TRUE - переменная или объявление процедуры 2 - ошибка или обработано - никаких действий не предпринимать. --------------------------------------------------*/ } int CidOrID() { unsigned char cha; unsigned char *string4=(unsigned char *)itok.name; for(;;){ cha=*string4; if(cha>='a'&&cha<='z')return tk_id; if(cha==0)break; string4++; } return tk_ID; } void unpackteg(structteg *tteg) { int i; elementteg *bazael; structteg *newteg; int ssize=0,count; idrec *newrec,*ptr; if(alignword){ //выровнять на четный адрес if(am32==0){ if(postsize%2==1)postsize++; } else if(ssize==4&&postsize%4!=0)postsize+=4-(postsize%4); } bazael=tteg->baza; string[0]=0; for(i=0;inumoper;i++){ // printf("tok=%d %s\n",(bazael+i)->tok,(bazael+i)->name); switch((bazael+i)->tok){ case tk_floatvar: case tk_longvar: case tk_dwordvar: case tk_wordvar: case tk_bytevar: case tk_charvar: case tk_intvar: case tk_doublevar: case tk_qwordvar: ssize=GetVarSize((bazael+i)->tok); //размер переменной itok.type=tp_ucnovn; tok=(bazael+i)->tok; count=FindOff((unsigned char *)(bazael+i)->name,VARPOST); itok.post=1; itok.segm=DS; itok.number=postsize; itok.flag=tteg->flag; itok.size=(bazael+i)->numel*ssize; itok.rm=(am32==FALSE?rm_d16:rm_d32); itok.npointr=0; newrec=addtotree((bazael+i)->name); newrec->count=count; break; case tk_struct: case tk_structvar: strcpy(itok.name,(bazael+i)->name); newteg=(structteg *)(bazael+i)->nteg; newrec=(struct idrec *)MALLOC(sizeof(struct idrec)); ptr=((tteg->flag&f_static)==0?treestart:staticlist); //начало дерева if(ptr==NULL)((tteg->flag&f_static)==0?treestart:staticlist)=newrec;//начало дерева else{ //поиск строки в дереве while(((ssize=strcmp(ptr->recid,itok.name))<0&&ptr->left!=NULL)||(ssize>0&&ptr->right!=NULL)){ ptr=(ssize<0?ptr->left:ptr->right); } (ssize<0?ptr->left:ptr->right)=newrec; //строка меньше } newrec->recsib=0; strcpy(newrec->recid,itok.name);//скопир название newrec->newid=(char *)newteg; newrec->left=NULL; newrec->right=NULL; newrec->rectok=tk_structvar; newrec->flag=tteg->flag|newteg->flag; newrec->line=linenumber; newrec->file=currentfileinfo; if(FixUp)newrec->flag|=f_reloc; newrec->recrm=(bazael+i)->numel; newrec->recsize=(bazael+i)->numel*newteg->size; newrec->recpost=1; count=FindOff((unsigned char *)newrec->recid,VARPOST); newrec->count=count; break; default: declareanonim(); break; } } AddPostData(tteg->size); } void unpackteg2(structteg *tteg) { int i; elementteg *bazael; structteg *newteg; //idrec *newrec,*trec; localrec *lrec; bazael=tteg->baza; string[0]=0; for(i=0;inumoper;i++){ switch((bazael+i)->tok){ case tk_floatvar: case tk_longvar: case tk_dwordvar: case tk_wordvar: case tk_bytevar: case tk_charvar: case tk_intvar: case tk_doublevar: case tk_qwordvar: lrec=addlocalvar((bazael+i)->name,(bazael+i)->tok,localsize); lrec->rec.recsize=(bazael+i)->numel*GetVarSize((bazael+i)->tok); lrec->rec.type=tp_localvar; lrec->rec.npointr=0; lrec->rec.recnumber=-lrec->rec.recnumber-Align(lrec->rec.recsize,(am32==FALSE?2:4)); break; case tk_struct: case tk_structvar: newteg=(structteg *)(bazael+i)->nteg; lrec=addlocalvar((bazael+i)->name,tk_structvar,localsize); lrec->rec.newid=(char *)tteg; lrec->rec.flag=tteg->flag; lrec->rec.type=tp_localvar; lrec->rec.recrm=(bazael+i)->numel; lrec->rec.recsize=(bazael+i)->numel*newteg->size; lrec->rec.recpost=LOCAL; lrec->rec.recnumber=-lrec->rec.recnumber-Align(lrec->rec.recsize,(am32==FALSE?2:4)); break; default: declareanonim(); break; } } localsize+=tteg->size; localsize=Align(localsize,(am32==FALSE?2:4)); } unsigned long dounion(int Global,int flag) { structteg *tteg; int noname=FALSE; nexttok(); if(tok==tk_openbrace)noname=TRUE; else if((tok!=tk_id&&tok!=tk_ID)||FindTeg(Global)||(Global==FALSE&&FindTeg(TRUE))){ idalreadydefined(); SkipBlock2(); return 0; } if((tteg=CreatTeg(Global,TRUE,noname))!=NULL){ if(tok==tk_semicolon){ if(noname==TRUE){ if(Global)unpackteg(tteg); else unpackteg2(tteg); if(tteg->baza)free(tteg->baza); free(tteg); } nexttok(); } else{ if(Global)InitStruct2(flag,tteg); else return LocalStruct2(flag,0,0,0,tteg); } } else declareunion(); return 0; } char *BackString(char *str) { char *retbuf=(char *)MALLOC(strlen(str)+1); strcpy(retbuf,str); return retbuf; } void GetFileTime(int fd,struct ftime *buf) { /* struct stat sb; struct tm *tblock; fstat(fd,&sb); tblock=localtime(&sb.st_atime); buf->ft_tsec=tblock->tm_sec; buf->ft_min=tblock->tm_min; buf->ft_hour=tblock->tm_hour; buf->ft_day=tblock->tm_mday; buf->ft_month=tblock->tm_mon; buf->ft_year=tblock->tm_year-80;*/ } void CheckPosts() { if(posts==maxposts){ maxposts+=MAXPOSTS; postbuf=(postinfo *)REALLOC(postbuf,maxposts*sizeof(postinfo)); } } void CheckRealizable() { switch(tok){ case tk_case: case tk_CASE: case tk_default: case tk_closebrace: return; } if(tok2==tk_colon)return; if(notunreach){ notunreach=FALSE; return; } warningunreach(); // preerror("Unreachable code"); } void AddRegistr(int razr,int reg) { if(razr==r8&®>3)reg-=4; if(razr==r64){ stat_reg[reg&255]=1; stat_reg[reg/256]=1; } else stat_reg[reg]=1; } void ClearRegister() { for(int i=0;i<8;i++)stat_reg[i]=0; } int GetRegister(int mode) { int reg=SI; if(am32!=FALSE||mode){ if(stat_reg[AX]==0)reg=AX; else if(stat_reg[SI]==0)reg=SI; else if(stat_reg[DI]==0)reg=DI; else if(stat_reg[BX]==0)reg=BX; else if(stat_reg[CX]==0)reg=CX; else if(stat_reg[DX]==0)reg=DX; } else{ if(stat_reg[SI]==0)reg=SI; else if(stat_reg[DI]==0)reg=DI; else if(stat_reg[BX]==0)reg=BX; } return reg; } void RegAddNum(int reg) { if((!structadr.post)&&optnumadd(structadr.number,reg,am32==FALSE?r16:r32,0)!=FALSE)return; if(reg==AX)op(5); else{ op(0x81); op(0xC0+reg); } if(structadr.post)setwordpost(&structadr); if(am32)outdword(structadr.number); else outword(structadr.number); } void RestoreStack() { if(addstack&&sizestack){ if(short_ok(sizestack,am32)){ outword(0xC483); op(sizestack); } else{ outword(0xC481); if(am32==FALSE)outword(sizestack); else outdword(sizestack); } // printf("%s(%d)> Restore %d bytes stacks.\n",startfileinfo==NULL?"":(startfileinfo+currentfileinfo)->filename,linenumber,sizestack); addESP-=sizestack; sizestack=0; } } void startblock() { treelocalrec *nrec; numblocks++; // printf("start block %d\n",numblocks); nrec=(treelocalrec*)MALLOC(sizeof(treelocalrec)); nrec->level=numblocks; nrec->lrec=NULL; nrec->addesp=addESP; nrec->next=tlr; tlr=nrec; } void endblock() { treelocalrec *orec; // printf("end block %d\n",numblocks); orec=tlr; tlr=tlr->next; if(tlr)numblocks=tlr->level; else numblocks=0; if(orec->lrec==NULL){ free(orec); return; } orec->endline=linenumber; orec->next=btlr; btlr=orec; // if(addESP!=orec->addesp)??? } /* end of TOKC.C */