kolibrios/programs/develop/cmm/tokb.cpp

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#define _TOKB_
#include "tok.h"
char badadr[]="Bad outrm value in outaddress();";
char CXandDX[]="CX and DX";
char ECXandEDX[]="ECX and EDX";
char BXandFS[]="BX and FS";
int divexpand=FALSE;
int optnumber=FALSE;
ITOK itok,itok2,ptok;
char *pbuf;
SINFO pstr;
LISTFLOAT *floatnum=NULL; //ᯨ᮪ float <20><><EFBFBD><EFBFBD><EFBFBD>
unsigned int numfloatconst=0;
unsigned int maxnumfloatconst;
#define STEPFLOATCONST 16
unsigned int ofsfloatlist=0;
unsigned char idxregs[5]={ESI,EDI,EBX,EDX,255};
int expandvar();
int speedmul(unsigned long num, int razr);
int leamul32(unsigned long num,int reg,int razr);
void Float2reg32(int reg,int addop=0,int reg1=idxregs[0],int reg2=idxregs[1]);
void NegReg(int razr,int reg);
int RshiftReg(int razr,int reg,int sign);
void do_e_axmath2(int sign,int razr,int expand);
int MulReg(int reg,int razr);
void DivMod(int vop,int sign,int razr,int expand);
void DivNum2(unsigned long num,int razr,int sign);
void DivNum(unsigned long num,int razr,int sign);
void ClearDX(int razr,int sign);
void doalmath2(int sign);
void num2bits(ITOK *gtok,unsigned long num,int razr);
void reg2bits(ITOK *gtok,int razr);
void cwpointr(ITOK *wtok,char *&wbuf,SINFO *wstr,int *otok,int npointr,int ureg);
int CheckAddOnly();
void optnumadd64(unsigned long long num,int r1,int r2,int vop);
void CallExternProc(char *name);
void getinto_reg(int gtok,ITOK *gstok,char *&gbuf,SINFO *gstr,int razr,int reg);
void intinstack(int addop);
extern void warningoptnum();
extern void segoperror();
extern void segbyteerror();
extern void regmathoperror();
extern void begmathoperror();
extern void negregerror();
extern void regbyteerror();
extern void begworderror();
extern void regshifterror();
extern void regmatherror();
extern void DevideZero();
extern void wordnotoper();
unsigned long long li[]={0x1,0x2,0x4,0x8,0x10,0x20,0x40,0x80,0x100,0x200,0x400,
0x800,0x1000,0x2000,0x4000,0x8000,0x10000,0x20000,0x40000,0x80000,0x100000,
0x200000,0x400000,0x800000,0x1000000,0x2000000,0x4000000,0x8000000,0x10000000,
0x20000000,0x40000000,0x80000000,0x100000000LL,0x200000000LL,0x400000000LL
,0x800000000LL,0x1000000000LL,0x2000000000LL,0x4000000000LL,0x8000000000LL
,0x10000000000LL,0x20000000000LL,0x40000000000LL,0x80000000000LL
,0x100000000000LL,0x200000000000LL,0x400000000000LL,0x800000000000LL
,0x1000000000000LL,0x2000000000000LL,0x4000000000000LL,0x8000000000000LL
,0x10000000000000LL,0x20000000000000LL,0x40000000000000LL,0x80000000000000LL
,0x100000000000000LL,0x200000000000000LL,0x400000000000000LL,0x800000000000000LL
,0x1000000000000000LL,0x2000000000000000LL,0x4000000000000000LL,0x8000000000000000LL};
unsigned long leanum[24]={3,5,9,15,25,27,45,81,75,125,135,225,243,405,729,
375,675,1215,2187,625,1125,2025,3645,6561};
unsigned int numleamul[24][4]={
{3,0,0,0},{5,0,0,0},{9,0,0,0},{3,5,0,0},{5,5,0,0},{3,9,0,0},{5,9,0,0},
{9,9,0,0},{5,5,3,0},{5,5,5,0},{9,5,3,0},{9,5,5,0},{9,9,3,0},{9,9,5,0},
{9,9,9,0},{5,5,5,3},{5,5,9,3},{9,9,5,3},{9,9,9,3},{5,5,5,5},{9,5,5,5},
{9,9,5,5},{9,9,9,5},{9,9,9,9}};
int RmEqualReg(int reg,int rm,int sib)
{
int rm0;
int reg1=-1,reg2=-1;
rm0=rm&0x7;
if(sib==CODE16){
switch(rm0){
case 0:
reg1=BX;
reg2=SI;
break;
case 1:
reg1=BX;
reg2=DI;
break;
case 2:
reg1=BP;
reg2=SI;
break;
case 3:
reg1=BP;
reg2=DI;
break;
case 4:
reg1=SI;
break;
case 5:
reg1=DI;
break;
case 6:
if((rm&0xC0)!=0)reg1=BP;
break;
case 7:
reg1=BX;
break;
}
}
else{
if(rm0==4){
reg1=sib&7;
reg2=(sib>>3)&7;
if(reg1==5&&(rm&0xc0)==0)reg1=-1;
if(reg2==4)reg2=-1;
}
else{
reg1=rm0;
if(reg1==5&&(rm&0xc0)==0)reg1=-1;
}
}
if(reg==reg1||reg==reg2)return TRUE;
return FALSE;
}
void startmul(int razr)
{
if(razr==r8)outword(0xE08A); //mov ah,al
else{
op66(razr);
outword(0xD08B); //mov dx,ax
warningreg(regs[razr/2-1][2]);
}
}
void lshiftmul(int num,int razr,int reg=AX)
{
if(razr==r8){
if(num==1)outword(0xC002); //add al,al
else{
if(chip==0){
op(0xB1); //mov cl,num
op(num);
outword(0xE0D2); //shl al,cl
warningreg(begs[1]);
}
else{
outword(0xE0C0); //shl al,num
op(num);
}
}
}
else{
if(num==1){
op66(razr);
op(1);
op(0xC0+reg*9); //add reg,reg
}
else{
if(chip==0){
op(0xB1); //mov cl,num
op(num);
op(0xD3);
op(0xE0+reg); //shl ax,cl
warningreg(begs[1]);
}
else{
if(chip>2&&optimizespeed&&leamul32(li[num],reg,razr))return;
op66(razr);
op(0xC1);
op(0xE0+reg); //shl ax,num
op(num);
}
}
}
}
void submul(int razr)
{
if(razr==r8)outword(0xC42A); //sub al,ah
else{
op66(razr);
outword(0xC22B); //sub ax,dx
}
}
void addmul(int razr)
{
if(razr==r8)outword(0xC402); //add al,ah
else{
op66(razr);
outword(0xC203); //add ax,dx
}
}
int leamul32(unsigned long num,int reg,int razr)
{
if(num==0)return FALSE;
int vop=0,i=8*reg+4;
switch(num){
case 9: vop+=0x40;
case 5: vop+=0x40;
case 3: vop+=0x40;
op66(razr);
op67(r32); // AX * n = LEA AX,[EAX*n+?EAX]
op(0x8d);
op(reg==BP?i|rm_mod01:i);
op(vop+9*reg);
if(reg==BP)op(0);
return TRUE;
}
// if(chip>3&&chip<7)return FALSE; //<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> AGI <20><><EFBFBD> 486,p5,p5mmx
switch(num){
case 2: vop=reg; break;
case 4: vop=0x85; break;
case 8: vop=0xc5; break;
default: return FALSE;
}
op66(razr);
op67(r32); // AX * n = LEA AX,[EAX*n+?EAX]
op(0x8d);
if(vop!=0x85&&vop!=0xc5&&reg==BP)i|=rm_mod01;
op(i);
op(vop+8*reg);
if(vop==0x85||vop==0xc5)outdword(0L);
else if(reg==BP)op(0);
return TRUE;
}
int speedmul32(unsigned long num,int reg,int razr)
{
int i;
for(i=3;i<24;i++){
if(leanum[i]==num){
leamul32(numleamul[i][0],reg,razr);
leamul32(numleamul[i][1],reg,razr);
leamul32(numleamul[i][2],reg,razr);
leamul32(numleamul[i][3],reg,razr);
return TRUE;
}
}
for(unsigned int j=1;j<NUMNUM;j++){
unsigned long v=li[j];
if((v*3)>num)break;
for(i=0;i<15;i++){
unsigned long lm=leanum[i]*v;
if(lm==num){
leamul32(numleamul[i][0],reg,razr);
lshiftmul(j,razr,reg);
leamul32(numleamul[i][1],reg,razr);
leamul32(numleamul[i][2],reg,razr);
return TRUE;
}
}
}
if(reg==EAX)return speedmul(num,r32);
return FALSE;
}
int speedmul(unsigned long num, int razr) //<2F><><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E3ACAD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><>
//ᤢ<><E1A4A2><EFBFBD> <20><><E1ABAE><EFBFBD><EFBFBD><EFBFBD>
{
int first,second;
for(unsigned int j=1;j<NUMNUM;j++){
unsigned long v=li[j];
if((v-1)>num)break;
if((num%(v-1))==0){
second=caselong(num/(v-1));
if(second!=NUMNUM){
first=caselong(v);
if(first!=1){
startmul(razr);
lshiftmul(first,razr);
submul(razr);
if(second!=0)lshiftmul(second,razr);
setzeroflag=TRUE;
return TRUE;
}
}
}
if((v+1)>num)break;
if((num%(v+1))==0){
second=caselong(num/(v+1));
if(second!=NUMNUM){
first=caselong(v);
startmul(razr);
lshiftmul(first,razr);
addmul(razr);
if(second!=0)lshiftmul(second,razr);
setzeroflag=TRUE;
return TRUE;
}
}
if(num>10){
if((v-1)>(num-1))break;
if(((num-1)%(v-1))==0){
second=caselong((num-1)/(v-1));
if(second!=NUMNUM&&second!=1){
first=caselong(v);
if(first!=1){
startmul(razr);
lshiftmul(first,razr);
submul(razr);
lshiftmul(second,razr);
addmul(razr);
setzeroflag=TRUE;
return TRUE;
}
}
}
if((v+1)>(num-1))break;
if(((num-1)%(v+1))==0){
second=caselong((num-1)/(v+1));
if(second!=NUMNUM){
first=caselong(v);
startmul(razr);
lshiftmul(first,razr);
addmul(razr);
lshiftmul(second,razr);
addmul(razr);
setzeroflag=TRUE;
return TRUE;
}
}
if((v-1)>(num+1))break;
if(((num+1)%(v-1))==0){
second=caselong((num+1)/(v-1));
if(second!=NUMNUM){
first=caselong(v);
if(first!=1){
startmul(razr);
lshiftmul(first,razr);
submul(razr);
lshiftmul(second,razr);
submul(razr);
setzeroflag=TRUE;
return TRUE;
}
}
}
if((v+1)>(num+1))break;
if(((num+1)%(v+1))==0){
second=caselong((num+1)/(v+1));
if(second!=NUMNUM&&second!=1){
first=caselong(v);
startmul(razr);
lshiftmul(first,razr);
addmul(razr);
lshiftmul(second,razr);
submul(razr);
setzeroflag=TRUE;
return TRUE;
}
}
}
}
return FALSE;
}
void CheckRegForLea(int reg,int *idx,int *base, int *zoom,unsigned long *val,
unsigned int *rflag,ITOK *posttok)
{
// printf("in:reg=%02X base=%02X idx=%02X zoom=%02X\n",reg,*base,*idx,*zoom);
for(;;){
// printf("tok=%d flag=%08X %s\n",tok2,itok2.flag,itok2.name);
// printf("tok=%d tok2=%d %s\n",tok,tok2,itok2.name);
if((tok==tk_plus||tok==tk_minus)&&(tok2==tk_minus||
(tok2==tk_number&&itok2.rm!=tk_float&&itok2.rm!=tk_double)||
(tok2==tk_postnumber&&posttok->post==0)||(tok==tk_plus&&tok2==tk_rmnumber&&(itok2.flag&f_useidx)==0))){
goto con1;
}
if((tok!=tk_plus&&(!(tok2==tk_number&&itok2.rm!=tk_float&&itok2.rm!=tk_double)))
||(tok2!=tk_reg32&&tok2!=tk_number)||tok2==tk_rmnumber){
break;
}
if(tok==tk_plus&&tok2==tk_reg32&&(itok2.number==reg||(*idx!=-1&&*base!=-1))){
break;
}
if(tok==tk_mult&&(tok2!=tk_number||*zoom!=-1||*val!=0||*idx!=-1))break;
con1:
if(tok==tk_minus){
if(tok2==tk_postnumber||(tok2==tk_number&&(itok2.flag&f_reloc)))break;
nexttok();
if(tok==tk_minus){
if(tok2!=tk_number)break;
nexttok();
*val+=itok.number;
}
else *val-=itok.number;
if(tok==tk_number)*rflag^=itok.flag;
else *posttok=itok;
}
else if(tok==tk_plus){
nexttok();
if(tok==tk_number){
*val+=itok.number;
*rflag^=itok.flag;
}
else if(tok==tk_postnumber){
*val+=itok.number;
*posttok=itok;
}
else if(tok==tk_rmnumber){
int r1,r2,z;
ExpandRm(itok.rm,itok.sib,&z,&r1,&r2);
if(z&&*zoom>0)break;
if(r1>=0&&r2>=0&&(*idx>=0||*base>=0))break;
*val+=itok.number;
if(*zoom<=0)*zoom=z;
if(*base==-1){
if(r1>=0){
*base=r1;
r1=-1;
}
else{
*base=r2;
r2=-1;
}
}
if(*idx==-1){
if(r1>=0)*idx=r1;
else if(r2>=0)*idx=r2;
}
}
else{
if(*base==-1)*base=itok.number;
else *idx=itok.number;
}
}
else if(tok==tk_mult){
*zoom=0;
switch(itok2.number){
case 8: *zoom=*zoom+1;
case 4: *zoom=*zoom+1;
case 2: *zoom=*zoom+1;
case 1:
*idx=*base;
*base=-1;
break;
case 9: *zoom=*zoom+1;
case 5: *zoom=*zoom+1;
case 3:
*zoom=*zoom+1;
*idx=*base;
break;
default: *zoom=-1;
}
if(*zoom==-1)break;
nexttok();
}
else break;
nexttok();
if(*base!=-1&&*idx!=-1&&tok2!=tk_number)break;
}
if(*zoom==-1&&*base==-1){
*base=*idx;
*idx=-1;
}
// printf("out:reg=%02X base=%02X idx=%02X zoom=%02X\n",reg,*base,*idx,*zoom);
}
int OutLea(int reg,int idx,int base, int zoom,unsigned long val,
unsigned int rflag,ITOK *posttok)
{
int mod=rm_mod00;
int q;
if(zoom==-1)zoom=0;
if(val!=0){
if(short_ok(val,TRUE)!=0)mod=rm_mod01;
else mod=rm_mod10;
}
if((rflag&f_reloc)!=0||posttok->post)mod=rm_mod10;
if(idx==-1){
idx=base;
base=-1;
}
if(base==-1){
if(zoom==0){
op66(r32);
op67(r32);
op(0x8d);
if(idx==5&&mod==rm_mod00)mod=rm_mod01;
op((reg*8+idx)|mod);
if(idx==4)op(idx*9);
}
else{
if(idx==4)return FALSE;
mod=rm_mod10;
op66(r32);
op67(r32);
op(0x8d);
op(reg*8+4);
op(idx*8+5+(zoom<<6));
}
}
else{
if(idx==4){
if(base==-1){ idx=-1; base=4;}
else if(zoom==0){
q=base;
base=idx;
idx=q;
}
else return FALSE;
}
if(base==5&&mod==rm_mod00){
if(idx!=-1&&idx!=5){
if(zoom==0){
q=base;
base=idx;
idx=q;
}
else mod=rm_mod01;
}
else mod=rm_mod01;
}
op66(r32);
op67(r32);
op(0x8d);
op((reg*8+4)|mod); //sib
op((zoom<<6)+(idx<<3)+base);
}
if(mod==rm_mod01)op(val);
else if(mod==rm_mod10){
if(posttok->post)setwordpost(posttok);
else if((rflag&f_reloc)!=0)AddReloc();
outdword(val);
}
else if(mod==rm_mod00&&base==5)outdword(val);
return TRUE;
}
int Reg32ToLea2(int reg) //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E1ABAE><EFBFBD><EFBFBD><EFBFBD> 32-<2D><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E0A5A3><EFBFBD><20> LEA
{
int idx,base,zoom;
unsigned long val;
int otok,otok2,otype2;
unsigned char ocha,next;
unsigned int oinptr,rflag;
int oline;
ITOK oitok;
ITOK posttok;
if(tok!=tk_minus&&tok!=tk_plus&&tok!=tk_mult)return FALSE;
if(tok==tk_minus&&(!((tok2==tk_number&&itok2.rm!=tk_float&&itok2.rm!=tk_double)||tok2==tk_postnumber)))return FALSE;
if(tok==tk_mult&&(!(tok2==tk_number&&itok2.rm!=tk_float&&itok2.rm!=tk_double&&(itok2.flag&f_reloc)==0)))return FALSE;
if(tok==tk_plus&&tok2!=tk_reg32&&tok2!=tk_number&&tok2!=tk_postnumber&&(!(tok2==tk_rmnumber&&(itok2.flag&f_useidx)==0)))return FALSE;
if(cur_mod)return FALSE;
posttok.post=0;
idx=zoom=-1;
base=reg;
if(tok==tk_mult){
zoom=0;
switch(itok2.number){
case 8: zoom++;
case 4: zoom++;
case 2: zoom++;
case 1:
idx=reg;
base=-1;
break;
//new!
case 9: zoom++;
case 5: zoom++;
case 3:
// if(!(am32==FALSE&&tok!=tk_plus&&(!(tok2==tk_minus||tok2==tk_number)))){
if(am32){
zoom++;
idx=base=reg;
break;
}
// end new!!
default: return FALSE;
}
if(zoom==0){
zoom=-1;
base=reg;
idx=-1;
}
}
val=0;
rflag=0;
oinptr=inptr2;
ocha=cha2;
otok=tok;
oitok=itok;
otok2=tok2;
otype2=itok2.type;
oline=linenumber;
if(tok==tk_mult){
nexttok();
nexttok();
}
CheckRegForLea(reg,&idx,&base,&zoom,&val,&rflag,&posttok);
next=0;
if(idx==-1)next=1;
if(base==-1)next|=2;
if(zoom==-1)next|=4;
if(val==0&&rflag==0&&posttok.post==0)next|=8;
// printf("next=%d\n",next);
switch(next){
case 1: // idx=-1 Rb+N
if(base==ESP&&val==1)goto retfalse;
case 4: // zoom=-1 Rb+Ri+N
if(val<2||val>127)goto retfalse;
break;
case 2: // base=-1 Ri*Z+N
if(zoom<3){
if(zoom==2&&val>2){
if(val<128)goto retfalse;
break;
}
goto retfalse;
}
case 0:
case 8: // val=0 Rb+Ri*Z
break;
default:
// case 12: // val=0 zoom=-1 Rb+Ri
// case 10: // val=0 base=-1 Ri*Z
// case 13: // val=0 idx=-1 zoom=-1 Rb
// case 5: // idx=-1 zoom=-1 Rb+N
// case 3: // idx=-1 base=-1 N
// case 6: // base=-1 zoom=-1 Ri+N
// case 11: // val=0 base=-1 idx=-1 -
// case 9: // val=0 idx=-1 Rb
// case 14: // val=0 base=-1 zoom=-1 Ri
// case 7: // idx=-1 base=-1 zoom=-1 N
// case 15: // val=0 base=-1 idx=-1 zoom=-1
retfalse:
inptr2=oinptr;
cha2=ocha;
tok=otok;
itok=oitok;
tok2=otok2;
itok2.type=(unsigned short)otype2;
if(bufrm){
free(bufrm);
bufrm=NULL;
}
if(strinf.bufstr){
free(strinf.bufstr);
strinf.bufstr=NULL;
}
endoffile=0;
linenum2=linenumber=oline;
return FALSE;
}
if(OutLea(reg,idx,base,zoom,val,rflag,&posttok)==FALSE)goto retfalse;
ClearReg(reg);
// printf("%s (%u) Combination %d\n",(startfileinfo+currentfileinfo)->filename,linenumber,next);
return TRUE;
}
int RegEqualToLea(int reg)
{
int idx,base,zoom;
unsigned long val;
int otok,otok2;
unsigned char ocha,next;
unsigned int oinptr,rflag;
ITOK oitok;
ITOK oitok2;
ITOK posttok;
if(cur_mod)return FALSE;
oinptr=inptr2;
ocha=cha2;
otok=tok;
oitok=itok;
otok2=tok2;
oitok2=oitok;
base=idx=zoom=-1;
val=0;
rflag=0;
posttok.post=0;
tok=tk_plus;
CheckRegForLea(reg,&idx,&base,&zoom,&val,&rflag,&posttok);
if(tok!=tk_semicolon)goto retfalse;
if(base==-1)base=reg;
else if(idx==-1)idx=reg;
else goto retfalse;
next=0;
if(idx==-1)next=1;
if(base==-1)next|=2;
if(zoom==-1)next|=4;
if(val==0&&rflag==0&&posttok.post==0)next|=8;
// printf("base=%d idx=%d zoom=%d val=%d next=%d\n",base,idx,zoom,val,next);
if(val==0&&rflag==0&&posttok.post==0)next|=8;
switch(next){
case 5: // idx=-1 zoom=-1 Rb+N
if(reg==EAX&&(val>127||val<0xffffff80))goto retfalse;
if(val<3||val>0xfffffffd)goto retfalse;
if(base==ESP)goto retfalse;
break;
case 4: // zoom=-1 Rb+Ri+N
if(val==1||val==0xffffffff)goto retfalse;
break;
case 0:
case 8: // val=0 Rb+Ri*Z
break;
default:
// case 13: // val=0 idx=-1 zoom=-1 Rb
// case 3: // idx=-1 base=-1 N
// case 6: // base=-1 zoom=-1 Ri+N
// case 11: // val=0 base=-1 idx=-1 -
// case 9: // val=0 idx=-1 Rb
// case 14: // val=0 base=-1 zoom=-1 Ri
// case 7: // idx=-1 base=-1 zoom=-1 N
// case 15: // val=0 base=-1 idx=-1 zoom=-1
retfalse:
inptr2=oinptr;
cha2=ocha;
tok=otok;
itok=oitok;
tok2=otok2;
itok2=oitok2;
endoffile=0;
if(bufrm){
free(bufrm);
bufrm=NULL;
}
if(strinf.bufstr){
free(strinf.bufstr);
strinf.bufstr=NULL;
}
// printf("return input=%08X inptr=%08X\n",input,inptr2);
return FALSE;
}
// printf("next=%d\n",next);
if(OutLea(reg,idx,base,zoom,val,rflag,&posttok)==FALSE)goto retfalse;
return TRUE;
}
int Reg32ToLea(int reg) //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E1ABAE><EFBFBD><EFBFBD><EFBFBD> 32-<2D><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E0A5A3><EFBFBD><20> LEA
{
int idx,base,zoom;
unsigned long val;
int otok,otok2,otype2;
unsigned char ocha,next;
unsigned int oinptr,rflag;
int oline;
ITOK oitok;
ITOK posttok;
if(tok!=tk_reg32&&tok!=tk_number&&tok!=tk_postnumber&&(!(tok==tk_rmnumber&&(itok.flag&f_useidx)==0)))return FALSE;
if(cur_mod)return FALSE;
posttok.post=0;
idx=base=zoom=-1;
val=0;
rflag=0;
// printf("input=%08X inptr=%08X\n",input,inptr2);
oinptr=inptr2;
ocha=cha2;
otok=tok;
oitok=itok;
otok2=tok2;
otype2=itok2.type;
oline=linenumber;
// printf("tok=%d type=%d %s\n",tok,itok.type,itok.name);
if(tok==tk_number){
if(itok.rm==tk_float||itok.rm==tk_double||itok.rm==tk_qword)return FALSE;
val=doconstdwordmath();
rflag=postnumflag;
if((rflag&f_reloc)&&tok==tk_mult)goto retfalse;
}
else if(tok==tk_postnumber){
posttok=itok;
tok=tk_number;
val=doconstdwordmath();
if(tok==tk_mult)goto retfalse;
}
else if(tok==tk_rmnumber){
ExpandRm(itok.rm,itok.sib,&zoom,&base,&idx);
val=itok.number;
nexttok();
}
else{
base=itok.number;
nexttok();
}
if(tok==tk_mult){
nexttok();
if(base==-1&&tok==tk_reg32){
if(itok.number==reg)goto retfalse;
idx=itok.number;
}
else if(base!=-1&&tok==tk_number){
if((itok.flag&f_reloc)&&(itok.rm==tk_float||itok.rm==tk_double||itok.rm==tk_qword))goto retfalse;
idx=base;
base=-1;
val=itok.number;
}
else goto retfalse;
nexttok();
zoom=0;
switch(val){
case 8: zoom++;
case 4: zoom++;
case 2: zoom++;
case 1: break;
//new!
case 9: zoom++;
case 5: zoom++;
case 3:
// if(!(am32==FALSE&&tok!=tk_plus&&(!(tok2==tk_minus||tok2==tk_number)))){
if(am32||((tok==tk_plus||tok==tk_minus)&&(tok2==tk_number||tok2==tk_minus))){
zoom++;
base=idx;
break;
}
// end new!!
default:
goto retfalse;
}
if(zoom==0){
zoom=-1;
base=idx;
idx=-1;
}
val=0;
}
CheckRegForLea(reg,&idx,&base,&zoom,&val,&rflag,&posttok);
next=0;
if(idx==-1)next=1;
if(base==-1)next|=2;
if(zoom==-1)next|=4;
if(val==0&&rflag==0&&posttok.post==0)next|=8;
switch(next){
case 5: // idx=-1 zoom=-1 Rb+N
case 1: // idx=-1 Rb+N
if(base==ESP&&val==1)goto retfalse;
case 12: // val=0 zoom=-1 Rb+Ri
if(base==reg)goto retfalse;
break;
case 10: // val=0 base=-1 Ri*Z
if(optimizespeed==FALSE||idx==reg)goto retfalse;
break;
case 2: // base=-1 Ri*Z+N
if(optimizespeed)break;
if(zoom<3){
if(zoom==2&&val>2){
if(val<128){
if(idx!=reg)break;
goto retfalse;
}
break;
}
if(zoom==1&&val>3&&idx!=reg)break;
goto retfalse;
}
case 0:
case 4: // zoom=-1 Rb+Ri+N
case 8: // val=0 Rb+Ri*Z
break;
default:
// case 13: // val=0 idx=-1 zoom=-1 Rb
// case 3: // idx=-1 base=-1 N
// case 6: // base=-1 zoom=-1 Ri+N
// case 11: // val=0 base=-1 idx=-1 -
// case 9: // val=0 idx=-1 Rb
// case 14: // val=0 base=-1 zoom=-1 Ri
// case 7: // idx=-1 base=-1 zoom=-1 N
// case 15: // val=0 base=-1 idx=-1 zoom=-1
retfalse:
inptr2=oinptr;
cha2=ocha;
tok=otok;
itok=oitok;
tok2=otok2;
itok2.type=(unsigned short)otype2;
linenum2=linenumber=oline;
endoffile=0;
if(bufrm){
free(bufrm);
bufrm=NULL;
}
if(strinf.bufstr){
free(strinf.bufstr);
strinf.bufstr=NULL;
}
// printf("return input=%08X inptr=%08X\n",input,inptr2);
return FALSE;
}
// printf("flag=%08X\n",rflag);
if(OutLea(reg,idx,base,zoom,val,rflag,&posttok)==FALSE)goto retfalse;
ClearReg(reg);
return TRUE;
}
void CheckRegForLea16(int reg,int *idx,int *base,unsigned long *val,unsigned int *rflag,ITOK *posttok)
{
int endloop=FALSE;
for(;;){
if(tok!=tk_plus&&(!(tok==tk_minus&&((tok2==tk_number&&itok2.rm!=tk_float&&itok2.rm!=tk_qword&&itok2.rm!=tk_double)||tok2==tk_postnumber))))break;
if(tok2==tk_postnumber&&(posttok->post||tok==tk_minus))break;
if(tok2==tk_reg){
if(itok2.number==reg)endloop=TRUE;
else if(*base==-1){
switch(itok2.number){
case BX:
case BP:
case SI:
case DI:
*base=itok2.number;
break;
default: endloop=TRUE; break;
}
}
else if(*idx==-1){
switch(itok2.number){
case BX:
case BP:
if(*base==BX||*base==BP)endloop=TRUE;
else{
*idx=*base;
*base=itok2.number;
}
break;
case SI:
case DI:
if(*base==SI||*base==DI)endloop=TRUE;
else{
*idx=itok2.number;
}
break;
default: endloop=TRUE; break;
}
}
else break;
if(endloop)break;
nexttok();
}
else if(tok2==tk_number&&itok2.rm!=tk_float&&itok2.rm!=tk_qword&&itok2.rm!=tk_double){
if(tok==tk_plus)*val+=itok2.number;
else *val-=itok2.number;
nexttok();
*rflag^=itok.flag;
}
else if(tok2==tk_postnumber){
if(posttok->post)break;
if(tok==tk_plus)*val+=itok2.number;
else *val-=itok2.number;
nexttok();
*posttok=itok;
}
else break;
nexttok();
}
}
void OutLea16(int reg,int idx,int base,unsigned int val,int rflag,ITOK *posttok)
{
int mod=rm_mod00;
int rm;
if(val!=0){
if(short_ok(val,FALSE)!=0)mod=rm_mod01;
else mod=rm_mod10;
}
if((rflag&f_reloc)!=0||posttok->post)mod=rm_mod10;
rm=CalcRm16(base,idx);
op66(r16);
op67(r16);
op(0x8D);
op((rm+reg*8)|mod);
if(mod==rm_mod01)op(val);
else if(mod==rm_mod10){
if(posttok->post)setwordpost(posttok);
else if((rflag&f_reloc)!=0)AddReloc();
outword(val);
}
}
int Reg16ToLea(int reg) //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E1ABAE><EFBFBD><EFBFBD><EFBFBD> 16-<2D><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E0A5A3><EFBFBD><20> LEA
{
int idx,base;
unsigned long val;
int otok,otok2,otype2;
unsigned char ocha,next;
unsigned int oinptr,rflag;
int oline;
ITOK oitok;
ITOK posttok;
if(cur_mod)return FALSE;
posttok.post=0;
// if(tok!=tk_reg&&tok!=tk_number&&am32!=0&&tok2!=tk_plus)return FALSE;
if(!((tok==tk_reg||(tok==tk_number&&itok.rm!=tk_float&&itok.rm!=tk_double)&&tok==tk_postnumber)&&tok2==tk_plus))return FALSE;
idx=base=-1;
if(tok==tk_reg){
if(itok.number==reg)return FALSE;
switch(itok.number){
case BX:
case BP:
case SI:
case DI:
base=itok.number;
break;
default: return FALSE;
}
}
val=0;
rflag=0;
oinptr=inptr2;
ocha=cha2;
otok=tok;
oitok=itok;
otok2=tok2;
otype2=itok2.type;
oline=linenumber;
if(tok==tk_postnumber){
posttok=itok;
tok=tk_number;
}
if(tok==tk_number){
val=doconstdwordmath();
rflag=postnumflag;
}
else nexttok();
CheckRegForLea16(reg,&idx,&base,&val,&rflag,&posttok);
next=0;
if(idx==-1)next=1;
if(base==-1)next|=2;
if(val==0&&rflag==0&&posttok.post==0)next|=4;
switch(next){
case 0: //base+idx+num
case 1: //base+num
// case 2: //idx+num
// case 3: //num
case 4: //base+idx
// case 6: //idx
// case 7: //
break;
case 5: //base
if(am32==0)break;
default:
retfalse:
inptr2=oinptr;
cha2=ocha;
tok=otok;
itok=oitok;
tok2=otok2;
itok2.type=(unsigned short)otype2;
linenum2=linenumber=oline;
endoffile=0;
if(bufrm){
free(bufrm);
bufrm=NULL;
}
if(strinf.bufstr){
free(strinf.bufstr);
strinf.bufstr=NULL;
}
return FALSE;
}
OutLea16(reg,idx,base,val,rflag,&posttok);
return TRUE;
}
int Reg16ToLea2(int reg) //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E1ABAE><EFBFBD><EFBFBD><EFBFBD> 16-<2D><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E0A5A3><EFBFBD><20> LEA
{
int idx,base;
unsigned long val;
int otok,otok2,otype2;
unsigned char ocha,next;
unsigned int oinptr,rflag;
int oline;
ITOK oitok;
ITOK posttok;
if(cur_mod)return FALSE;
posttok.post=0;
if(tok==tk_plus&&((tok2==tk_reg&&itok2.number!=reg)||(tok2==tk_number&&itok2.rm!=tk_float&&itok2.rm!=tk_double))&&
(reg==BX||reg==BP||reg==SI||reg==DI)){
val=0;
rflag=0;
oinptr=inptr2;
ocha=cha2;
otok=tok;
oitok=itok;
otok2=tok2;
otype2=itok2.type;
oline=linenumber;
idx=-1;
base=reg;
CheckRegForLea16(reg,&idx,&base,&val,&rflag,&posttok);
next=0;
if(idx==-1)next=1;
if(base==-1)next|=2;
if(val==0&&rflag==0&&posttok.post==0)next|=4;
switch(next){
case 1: //base+num
if(val<3&&rflag==0&&posttok.post==0)goto retfalse;
case 0: //base+idx+num
// case 2: //idx+num
// case 3: //num
case 4: //base+idx
// case 6: //idx
// case 7: //
break;
// case 5: //base
default:
retfalse:
inptr2=oinptr;
cha2=ocha;
tok=otok;
itok=oitok;
tok2=otok2;
itok2.type=(unsigned short)otype2;
endoffile=0;
linenum2=linenumber=oline;
if(bufrm){
free(bufrm);
bufrm=NULL;
}
if(strinf.bufstr){
free(strinf.bufstr);
strinf.bufstr=NULL;
}
return FALSE;
}
OutLea16(reg,idx,base,val,rflag,&posttok);
return TRUE;
}
return FALSE;
}
int OptimNum() //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><E0AEA2> <20><><EFBFBD><EFBFBD><E0A0AD><EFBFBD>
{
int otok,oinptr,deistv,negflag,starttok;
char ocha2;
long long val;
unsigned int flag,oflag;
int plusreloc=0;
if(optnumber==FALSE||cur_mod)return FALSE; //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><EFBFBD><EFBFBD>
if(tok==tk_minus&&(itok2.flag&f_reloc))return FALSE;
deistv=0;
negflag=0;
starttok=otok=tok;
oflag=itok.flag;
oinptr=inptr2;
ocha2=cha2;
nexttok();
flag=itok.flag;
val=itok.lnumber;
switch(otok){
case tk_minus:
val=-val;
case tk_plus:
for(;;){ //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E1ABAE><EFBFBD><EFBFBD><EFBFBD>-<2D><><EFBFBD><EFBFBD><EFBFBD><E2A0AD>
nexttok();
if((tok!=tk_plus&&tok!=tk_minus)||tok2!=tk_number||
(tok==tk_minus&&(itok2.flag&f_reloc)&&plusreloc==0)){//<2F><> <20><><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD> <20><><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD>
tok=otok;
cha2=ocha2;
inptr2=oinptr;
endoffile=0;
if(deistv==0)break; //<2F><><EFBFBD> <20><> <20><20><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><E0AEA2><EFBFBD>
warningoptnum();
tok=tk_plus;
itok.lnumber=val;
itok.flag|=flag;
return TRUE;
}
deistv=tok;
nexttok();
oinptr=inptr2;
ocha2=cha2;
if(deistv==tk_minus){
val-=itok.lnumber;
if(itok.flag&f_reloc)plusreloc--;
}
else{
val+=itok.lnumber;
if(itok.flag&f_reloc)plusreloc++;
}
flag^=itok.flag;
}
break;
case tk_divminus:
otok=tk_div;
goto LL1;
case tk_multminus:
otok=tk_mult;
LL1:
negflag=TRUE;
case tk_div:
case tk_mult:
for(;;){
nexttok();
if((tok!=tk_div&&tok!=tk_mult&&tok!=tk_divminus&&tok!=tk_multminus)||
tok2!=tk_number||
(otok!=tok&&((val>itok2.lnumber&&(val%itok2.lnumber)!=0)
||(val<itok2.lnumber&&(itok2.lnumber%val)!=0)))||
((flag&f_reloc)&&(itok2.flag&f_reloc))){
tok=starttok;
cha2=ocha2;
inptr2=oinptr;
endoffile=0;
if(deistv==0)break;
warningoptnum();
tok=otok;
if(negflag==TRUE)val=-val;
itok.lnumber=val;
itok.flag|=flag;
return TRUE;
}
if(tok==tk_divminus){
tok=tk_div;
negflag^=TRUE;
}
else if(tok==tk_multminus){
tok=tk_mult;
negflag^=TRUE;
}
deistv=tok;
nexttok();
oinptr=inptr2;
ocha2=cha2;
if(otok==deistv)val=val*itok.lnumber;
else{
if(val>itok.lnumber)val=val/itok.lnumber;
else if(val<itok.lnumber){
val=itok.lnumber/val;
otok=deistv;
}
else{
val=1;
otok=tk_mult;
}
}
flag|=itok.flag;
}
break;
default:
tok=starttok;
cha2=ocha2;
inptr2=oinptr;
itok.flag=oflag;
}
if(bufrm){
free(bufrm);
bufrm=NULL;
}
if(strinf.bufstr){
free(strinf.bufstr);
strinf.bufstr=NULL;
}
return FALSE;
}
int expandvar()
{
if(divexpand==FALSE)return FALSE;
for(int i=inptr2-1;;i++){
switch(input[i]){
case '"':
case ';':
case '*':
case '|':
case '^':
case ',':
case 0:
case '&': return FALSE;
case '/':
i++;
if(input[i]=='/'||input[i]=='*')return FALSE;
case '%': goto en;
}
}
en:
warningexpand();
return TRUE;
}
void RegMulNum(int reg,unsigned long num,int razr,int sign,int *expand,int flag)
{
int vop,i=0;
if((flag&f_reloc)!=0)goto num_imul;
if(razr==r16)num&=0xffff;
if(chip>2&&(*expand==FALSE)&&optimizespeed&&leamul32(num,reg,razr)){
setzeroflag=FALSE;
return;
}
switch(num){
case 0:
ZeroReg(reg,razr);
setzeroflag=TRUE;
case 1: *expand=FALSE; break; /* AX * 1 = AX */
case 2: /* AX * 2 = ADD AX,AX */
if(*expand==TRUE){
if(optimizespeed==FALSE)goto num_imul;
if(sign)cwdq(razr);
else{
op66(razr);
outword(0xD231);
}
}
op66(razr);
op(1);
op(0xC0+9*reg); // ADD reg,reg
if(*expand==TRUE){
op66(razr);
outword(0xd283); //adc dx,0
op(0);
ClearReg(DX);
}
setzeroflag=TRUE;
break;
default:
vop=caselong(num);
if(vop!=NUMNUM){
if(chip<1&&razr==r16){
if(*expand==TRUE){
if(optimizespeed==FALSE)goto num_imul;
op(0xB1); op(vop); /* MOV CL,num */
op66(r16);
if(sign)op(0x99);
else outword(0xD231);
outdword(0xd213c001); //ADD AX,AX ADC DX,DX
outword(0xfae2); //LOOP -6
warningreg(regs[0][2]);
ClearReg(DX);
}
else{
if(reg==CX)goto num_imul;
if(vop>3){
for(;vop!=0;vop--){
op66(r16);
op(3); //add
op(0xc0+reg*9);
}
return;
}
op(0xB1); op(vop); /* MOV CL,num */
op(0xD3);
op(0xE0+reg); //SHL reg,CL
}
ConstToReg(vop,CL,r8);
warningreg(begs[1]);
}
else{/* SHL AX,num */
if(*expand==TRUE){
if(optimizespeed==FALSE)goto num_imul;
// op66(razr);
ClearDX(razr,sign);
/* if(sign)cwdq(razr);
else{
op66(razr);
outword(0xC031);
}*/
if(chip<3&&razr==r16){
op(0xB1); op(vop); /* MOV CL,num */
outdword(0xd213c001); //ADD AX,AX ADC DX,DX
outword(0xfae2); //LOOP -6
ConstToReg(vop,CL,r8);
warningreg(begs[1]);
}
else{
op66(razr);
op(0x0f);
outword(0xC2a4); //SHLD DX,AX,num
op(vop);
op66(razr);
outword(0xE0C1); //SHL AX,num
op(vop);
}
ClearReg(DX);
warningreg(regs[razr/2-1][2]);
}
else{
op66(razr);
op(0xc1);
op(0xe0+reg); // SHL reg,imm8
op(vop);
if(cpu<2)cpu=2;
}
}
setzeroflag=TRUE;
break;
}
if(chip<7&&*expand==FALSE&&optimizespeed&&speedmul32(num,reg,razr))break;
num_imul:
if((razr==r16&&chip<2)||(*expand==TRUE)){
if(reg==AX){
op66(razr);
op(0xB9); /* MOV CX,# */
if((flag&f_reloc)!=0)AddReloc();
razr==r16?outword((unsigned int)num):outdword(num);
op66(razr);
if(sign)outword(0xE9F7); /* IMUL CX */
else outword(0xE1F7); /* MUL CX */
ConstToReg(num,CX,razr);
warningreg(regs[razr/2-1][1]);
}
else{
op66(r16);
op(0x90+reg); //XCHG AX,reg
op66(r16);
op(reg!=DX?0xBA:0xB9);
outword(num); //mov DX,num
op66(r16);
op(0xF7);
op(reg!=DX?0xE2:0xE1); // mul DX
op66(r16);
op(0x90+reg); //XCHG AX,reg
warningreg(regs[0][reg!=DX?2:1]);
ClearReg(DX);
}
}
else{
if((flag&f_reloc)==0&&short_ok(num,razr/2-1))i=2; //<2F><><EFBFBD><EFBFBD><EFBFBD> <20><>
op66(razr);
op(0x69+i); //imul
op(0xc0+reg*9);
if(i==2)op(num);
else{
if((flag&f_reloc)!=0)AddReloc();
razr==r16?outword((unsigned int)num):outdword(num);
}
}
setzeroflag=FALSE;
break;
}
}
/* --------------- byte, char, word, int math starts ----------------- */
long long CalcNumber(int sign)
{
long long hold;
switch(sign){
case 0:
hold=doconstdwordmath();
break;
case 1:
hold=doconstlongmath();
break;
case 2:
hold=doconstfloatmath();
break;
case 3:
hold=doconstdoublemath();
break;
default:
hold=doconstqwordmath();
break;
}
return hold;
}
int OnlyNumber(int sign)
/*-----------------11.09.00 12:44-------------------
<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD><EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD>.
--------------------------------------------------*/
{
ITOK oitok=itok;
unsigned char ocha=cha2;
unsigned int oinptr=inptr2;
unsigned int otok2=tok2;
int otype2=itok2.type;
itok.lnumber=CalcNumber(sign);
// printf("tok=%d num=%d type=%d\n",tok,itok.number,itok.type);
if(itok.type==tp_stopper){
return TRUE; //⮫쪮 <20><><EFBFBD><EFBFBD><EFBFBD>
}
cha2=ocha; //<2F><><EFBFBD><EFBFBD><E2A0AD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><E5AEA4><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
inptr2=oinptr;
tok2=otok2;
tok=tk_number;
itok=oitok;
itok2.type=(unsigned short)otype2;
if(bufrm){
free(bufrm);
bufrm=NULL;
}
if(strinf.bufstr){
free(strinf.bufstr);
strinf.bufstr=NULL;
}
return FALSE;
}
void MultiAssignFloat(int type,int npointr=0)
{
int otok;
ITOK wtok;
char *wbuf;
SINFO wstr;
char *ofsstr=NULL;
if(tok!=type)illegalfloat();
wstr=strinf;
strinf.bufstr=NULL;
wtok=itok;
wbuf=bufrm;
bufrm=NULL;
otok=tok;
nexttok();
// getoperand();
int numpointr=0;
nexttok();
if(tok==tk_float||tok==tk_double)nexttok();
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr)unuseableinput();
if(tok2==tk_assign)MultiAssignFloat(type,numpointr);
else{
if(tok==tk_pointer)cpointr(BX,numpointr);
if(tok==tk_floatvar&&tok2==tk_semicolon){
tok=tk_dwordvar;
do_e_axmath(1,r32,&ofsstr);
}
else doeaxfloatmath(tk_reg32,AX);
}
if(otok==tk_pointer){
if(wtok.type==tk_proc){
wtok.rm=wtok.sib;
if(am32)wtok.sib=CODE32;
else wtok.sib=CODE16;
compressoffset(&wtok);
}
else{
int razr=typesize(itok.type);
if(npointr<=wtok.npointr)getpointeradr(&wtok,wbuf,&wstr,npointr-1,razr,BX);
else unuseableinput();
wtok=itok;
}
}
if((wtok.rm==rm_d16&&wtok.sib==CODE16)||(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0))){
op66(r32);
outseg(&wtok,1);
op(0xA3); /* MOV [word],AX */
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number); //????
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,r32,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(0x89); op(wtok.rm); /* MOV [rmword],reg */
outaddress(&wtok);
}
}
int MultiAssign(int razr,int usereg,int npointr)
{
int otok;
ITOK wtok;
char *wbuf;
SINFO wstr;
int sign=0,rettype,nrazr,posiblret,pointr=0;
int hnumber=0;
int ureg;
char *ofsstr=NULL;
wstr=strinf;
strinf.bufstr=NULL;
wtok=itok;
wbuf=bufrm;
bufrm=NULL;
otok=tok;
if(tok==tk_bits){
usereg=EAX;//USEONLY_AX;
nrazr=r32;
rettype=tk_dword;
int i=itok.bit.siz+itok.bit.ofs;
if(i<9){
nrazr=r8;
rettype=tk_byte;
}
else if(i<17){
rettype=tk_word;
nrazr=r16;
}
else if(i>32)nrazr=r64;
}
else{
nrazr=GetVarSize(tok);
switch(tok){
case tk_beg:
ureg=itok.number;
if(ureg>3)ureg-=4;
if(usereg>ureg)usereg=ureg;
break;
case tk_reg:
case tk_reg32:
if(usereg>itok.number)usereg=itok.number;
break;
}
// if(tok==tk_beg)usereg|=USEFIRST4REG;
}
posiblret=nrazr;
if(nrazr>razr&&nrazr<r64)razr=nrazr;
switch ( razr ) {
case r8:
rettype=tk_byte;
break;
case r16:
rettype=tk_word;
break;
case r32:
rettype=tk_dword;
break;
}
nexttok();
int numpointr=0;
ofsstr=GetLecsem(tk_assign,tk_semicolon);
nexttok();
convert_type(&sign,&rettype,&pointr);
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr){
unuseableinput();
}
ureg=AX;
if(tok2==tk_assign){
ureg=hnumber=MultiAssign(razr,usereg,numpointr);
if(ofsstr){
free(ofsstr);
ofsstr=NULL;
}
}
else{
if(tok==tk_pointer){
int reg=idxregs[2];
if(reg==ureg)reg=idxregs[1];
cpointr(reg,numpointr);
}
if(usereg==USEALLREG){
switch(tok){
case tk_reg:
case tk_reg32:
usereg=itok.number;
break;
case tk_beg:
usereg=(itok.number>3?itok.number-4:itok.number);
break;
default:
usereg=EAX;
break;
}
}
switch(rettype){
case tk_char:
case tk_byte:
if(tok2==tk_semicolon&&usereg!=0&&usereg<4){
ureg=hnumber=usereg;
// if(tok==tk_beg&&itok.number<4)ureg=hnumber=itok.number;
getintoreg(usereg,r16,sign,&ofsstr);
}
/* if(tok2==tk_semicolon&&tok==tk_beg&&usereg<2){
if((usereg==1&&itok.number<4)||usereg==0){
ureg=hnumber=itok.number;
nexttok();
break;
}
}*/
else doalmath(sign,&ofsstr);
if(ofsstr)IDZToReg(ofsstr,usereg,r8);
break;
case tk_int:
case tk_word:
if(tok2==tk_semicolon&&usereg!=0){
ureg=hnumber=usereg;
// if(tok==tk_reg)ureg=hnumber=itok.number;
getintoreg(usereg,r16,sign,&ofsstr);
}
else do_e_axmath(sign,r16,&ofsstr);
if(ofsstr)IDZToReg(ofsstr,usereg,r16);
break;
case tk_float:
doeaxfloatmath(tk_reg32,AX);
break;
default:
if(tok2==tk_semicolon&&usereg!=0&&tok!=tk_floatvar){
ureg=hnumber=usereg;
// if(tok==tk_reg32)ureg=hnumber=itok.number;
getintoreg(usereg,r32,sign,&ofsstr);
}
else{
if(tok==tk_floatvar&&tok2==tk_semicolon)tok=tk_dwordvar;
do_e_axmath(sign,r32,&ofsstr);
}
if(ofsstr)IDZToReg(ofsstr,usereg,r32);
break;
}
}
if(ofsstr){
free(ofsstr);
ofsstr=NULL;
}
switch ( nrazr ) {
case r8:
posiblret=tk_byte;
break;
case r16:
posiblret=tk_word;
break;
case r32:
posiblret=tk_dword;
break;
}
convert_returnvalue(posiblret,rettype);
if(otok==tk_pointer)cwpointr(&wtok,wbuf,&wstr,&otok,npointr,ureg);
switch ( otok ) {
case tk_intvar:
case tk_wordvar:
case tk_longvar:
case tk_dwordvar:
case tk_floatvar:
#ifdef OPTVARCONST
CheckRegToConst(hnumber,&wtok,otok>tk_wordvar?r32:r16);
#endif
KillVar(wtok.name);
AddRegVar(hnumber,razr,&wtok);
if(hnumber==0&&((wtok.rm==rm_d16&&wtok.sib==CODE16)||(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
op66(nrazr);
outseg(&wtok,1);
op(0xA3); /* MOV [word],AX */
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number); //????
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,nrazr,&wstr,&wtok);
op66(nrazr);
outseg(&wtok,2);
op(0x89); op(wtok.rm+hnumber*8); /* MOV [rmword],reg */
outaddress(&wtok);
}
break;
case tk_charvar:
case tk_bytevar:
#ifdef OPTVARCONST
CheckRegToConst(hnumber,&wtok,r8);
#endif
KillVar(wtok.name);
AddRegVar(hnumber,r8,&wtok);
if(hnumber==0&&((wtok.rm==rm_d16&&wtok.sib==CODE16)||(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
outseg(&wtok,1);
op(0xA2); /* MOV [byte],AL */
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number);
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,1,&wstr,&wtok);
outseg(&wtok,2); /* MOV [rmbyte],AL */
op(0x88);
op(wtok.rm+hnumber*8);
outaddress(&wtok);
}
break;
case tk_bits:
if(razr!=r64){
op66(nrazr==r32?r32:r16);
op(0x50); //push eax
if(ESPloc&&am32&&wtok.segm==SS)wtok.number+=4;
reg2bits(&wtok,razr);
op66(nrazr==r32?r32:r16);
op(0x58); //pop eax
}
else{
op66(r32);
op(0x50); //push eax
int siz=wtok.bit.siz;
op66(r32);
op(0x50); //push eax
wtok.bit.siz=32-wtok.bit.ofs;
if(ESPloc&&am32&&wtok.segm==SS)wtok.number+=8;
reg2bits(&wtok,r32);
op66(r32);
op(0x58); //pop eax
op66(r32); //shr eax,size
outword(0xE8C1);
op(wtok.bit.siz);
wtok.bit.siz=siz+wtok.bit.ofs-32;
wtok.bit.ofs=0;
wtok.number+=4;
reg2bits(&wtok,r8);
op66(r32);
op(0x58); //pop eax
}
break;
case tk_reg:
case tk_reg32:
if(wtok.number!=hnumber){
if(RegToReg(hnumber,wtok.number,nrazr)==NOINREG){
op66(nrazr);
op(0x89);
op(0xC0+wtok.number+hnumber*8); //mov reg,AX
}
else waralreadinitreg(regs[nrazr/4][wtok.number],regs[nrazr/4][hnumber]);
}
break;
case tk_beg:
if(razr>r8&&wtok.number>3&&(wtok.number%4)==hnumber)preerror("register AH,BH,CH,DH should be first");
if(wtok.number!=hnumber){
if(RegToReg(hnumber,wtok.number,r8)==NOINREG){
op(0x88);
op(0xC0+wtok.number+hnumber*8); //mov beg,AL
}
else waralreadinitreg(begs[wtok.number],begs[hnumber]);
}
break;
case tk_seg:
op(0x8E); /* MOV SEG,AX */
op(0xC0+wtok.number*8+hnumber);
break;
default:
thisundefined(wtok.name);
}
return hnumber;
}
int do_d_wordvar(int sign,int razr,int terminater) //signed or unsigned 16 or 32 bit memory variable
{
unsigned char next=1,getfromAX=0;
unsigned int vop=0,otok,rettype,posiblret;
ITOK wtok;
char *wbuf,*rbuf;
SINFO wstr;
int retrez=0,pointr=0,hnumber=EAX;
int numpointr=0;
char *ofsstr=NULL;
int reg1=idxregs[0],reg2=idxregs[1];
#ifdef OPTVARCONST
int initconst=FALSE;
int operand;
#endif
unsigned int oaddESP=addESP;
// sign==0?rettype=(razr==r16?tk_word:tk_dword):rettype=(razr==r16?tk_int:tk_long);
posiblret=rettype=(sign==0?(razr==r16?tk_word:tk_dword):(razr==r16?tk_int:tk_long));
wstr=strinf;
strinf.bufstr=NULL;
wtok=itok;
wbuf=bufrm;
bufrm=NULL;
otok=tok;
while(RmEqualReg(hnumber,itok.rm,itok.sib))hnumber++;
nexttok();
#ifdef OPTVARCONST
operand=tok;
#endif
switch(tok){
case tk_assign: //=
if(!((tok2==tk_reg||tok2==tk_reg32)&&ScanTok3()==terminater)){
ofsstr=GetLecsem(terminater);
}
if(ofsstr){
int retreg;
if((retreg=CheckIDZReg(ofsstr,AX,razr))!=NOINREG){
GetEndLex(terminater);
if(retreg==SKIPREG)retreg=AX;
if((GetRegVar(&wtok)&(1<<retreg))!=0){
free(ofsstr);
if(wbuf)free(wbuf);
if(wstr.bufstr)free(wstr.bufstr);
break;
}
if(razr==r16)tok=tk_reg;
else tok=tk_reg32;
itok.number=retreg;
if(reg1==itok.number){
reg1=idxregs[1]; reg2=idxregs[2];
}
if(reg2==itok.number){
reg2=idxregs[2];
}
goto regtovar;
}
}
nexttok();
// printf("tok=%d %s\n",tok,itok.name);
convert_type(&sign,(int *)&rettype,&pointr);
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr){
unuseableinput();
}
if(tok2==tk_assign){
hnumber=MultiAssign(razr,USEALLREG,numpointr);
if(ofsstr){
free(ofsstr);
ofsstr=NULL;
}
next=0;
goto getfromax;
}
if(tok==tk_pointer)cpointr(am32==TRUE?EAX:BX,numpointr);
CheckMinusNum();
// printf("tok=%d tok2=%d\n",tok,tok2);
if(itok2.type==tp_opperand){ //᫮<><E1ABAE><EFBFBD><EFBFBD> <20><><EFBFBD><E0A0A6><EFBFBD><EFBFBD>
if(tok==tk_number){ //<2F><EFBFBD><20> <20><EFBFBD><EFBFBD><E0AEA2><EFBFBD><EFBFBD> <20><>
if(OnlyNumber(rettype==tk_float?2:sign)){
next=0;
itok.flag=(unsigned char)postnumflag;
if(postnumflag==0)goto loadconst;
goto numbertovar;
}
}
goto labl1;
}
else{
// if(hnumber!=EAX&&(tok==tk_reg||tok==tk_reg32)&&itok.number==EAX)goto labl1;
#ifdef OPTVARCONST
CheckConstVar3(&tok,&itok,razr);
#endif
switch(tok){
case tk_number:
loadconst:
if((itok.flag&f_reloc)==0){
#ifdef OPTVARCONST
if(razr==r16)itok.lnumber&=0xffff;
else itok.lnumber&=0xffffffff;
if((initconst=Const2Var(&wtok,itok.lnumber,itok.rm))==FALSE){
waralreadinitvar(wtok.name,itok.number);
initconst=TRUE;
break;
}
#endif
if(itok.number==0){
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0x83);
op(wtok.rm+0x20);
outaddress(&wtok);
op(0);
break;
}
if((razr==r32&&itok.number==0xFFFFFFFF)||(razr==r16&&itok.number==0xFFFF)){
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0x83);
op(wtok.rm+0x8);
outaddress(&wtok);
op(0xFF);
break;
}
if(regoverstack&&razr==r32&&short_ok(itok.number,TRUE)){
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
op(0x6A);
op(itok.number); //push short number
op66(razr);
outseg(&wtok,2);
op(0x8f);
op(wtok.rm);
outaddress(&wtok);
break;
}
}
case tk_postnumber:
case tk_undefofs:
numbertovar:
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0xC7); //mov word[],number
op(wtok.rm);
outaddress(&wtok);
if(tok==tk_postnumber)(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
else if(tok==tk_undefofs)AddUndefOff(0,itok.name);
else if((itok.flag&f_reloc)!=0)AddReloc();
if(razr==r16){
if(am32!=FALSE&&tok!=tk_number)dwordvalexpected();
outword((unsigned int)itok.number);
}
else outdword(itok.number);
break;
case tk_apioffset:
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0xC7); //mov word[],number
op(wtok.rm);
outaddress(&wtok);
AddApiToPost(itok.number);
break;
case tk_reg32:
// if(razr==r16)goto labl1;
case tk_reg:
if(razr==r32&&tok==tk_reg)goto labl1;
regtovar:
if((unsigned int)itok.number==0){
getfromAX=1;
hnumber=0;
}
else{
// if(wbuf==0&&wstr.bufstr==NULL){
KillVar(wtok.name);
AddRegVar(itok.number,razr,&wtok);
vop++;
// }
CheckAllMassiv(wbuf,razr,&wstr,&wtok,reg1,reg2);
op66(razr);
outseg(&wtok,2);
op(0x89);
op((unsigned int)itok.number*8+wtok.rm);
outaddress(&wtok);
}
break;
case tk_seg:
if(razr==r32)goto labl1;
CheckAllMassiv(wbuf,2,&wstr,&wtok);
op66(r16);
outseg(&wtok,2);
op(0x8C);
op((unsigned int)itok.number*8+wtok.rm);
outaddress(&wtok);
if((unsigned int)itok.number==FS||(unsigned int)itok.number==GS)if(cpu<3)cpu=3;
break;
case tk_string:
CheckAllMassiv(wbuf,1,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0xC7);
op(wtok.rm);
outaddress(&wtok);
if(razr==r16){
if(am32)dwordvalexpected();
outword(addpoststring());
}
else outdword(addpoststring());
break;
case tk_doublevar:
vop=4;
case tk_floatvar:
intinstack(vop);
getfromAX=0;
CheckAllMassiv(wbuf,4,&wstr,&wtok);
outseg(&wtok,2); //fistp var
op(razr==r16?0xDF:0xDB);
op(wtok.rm+0x18);
outaddress(&wtok);
if(sign==0)warningretsign();
fwait3();
hnumber=EAX;
break;
case tk_new:
donew();
getfromAX=1;
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
if(ofsstr){
free(ofsstr);
ofsstr=NULL;
}
hnumber=0;
break;
case tk_delete:
dodelete();
terminater=next=0;
getfromAX=1;
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
if(ofsstr)free(ofsstr);
hnumber=0;
break;
case tk_longvar:
case tk_dwordvar:
if((rettype==tk_long||rettype==tk_dword)&&hnumber&&regoverstack)goto pushvar;
goto labl1;
case tk_intvar:
case tk_wordvar:
if((rettype==tk_int||rettype==tk_word)&&hnumber&&regoverstack){
pushvar:
CheckAllMassiv(bufrm,razr,&strinf);
op66(razr);
outseg(&itok,2);
op(0xFF); // PUSH [dword]
op(0x30+itok.rm);
outaddress(&itok);
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0x8f);
op(wtok.rm);
outaddress(&wtok);
break;
}
goto labl1;
default:
labl1:
getfromAX=1;
if(rettype==tk_char||rettype==tk_byte){
if(hnumber==0)retrez=doalmath(sign,&ofsstr);
else{
retrez=getintoreg(hnumber,razr,sign,&ofsstr);
posiblret=rettype;
}
}
else if(rettype==tk_int||rettype==tk_word){
if(hnumber==0)retrez=do_e_axmath(sign,r16,&ofsstr);
else retrez=getintoreg(hnumber,r16,sign,&ofsstr);
}
else if(rettype==tk_float||rettype==tk_double){
doeaxfloatmath(tk_fpust,AX,rettype==tk_float?0:4);
getfromAX=0;
CheckAllMassiv(wbuf,4,&wstr,&wtok);
outseg(&wtok,2); //fistp var
op(razr==r16?0xDF:0xDB);
op(wtok.rm+0x18);
outaddress(&wtok);
if(sign==0)warningretsign();
fwait3();
hnumber=EAX;
}
else{
if(hnumber==0)retrez=do_e_axmath(sign,r32,&ofsstr);
else retrez=getintoreg(hnumber,r32,sign,&ofsstr);
}
next=0;
break;
}
}
if(getfromAX){
getfromax:
#ifdef OPTVARCONST
initconst=CheckRegToConst(hnumber,&wtok,razr);
#endif
if(retrez==0)retrez=razr==r16?tk_reg:tk_reg32;
convert_returnvalue(posiblret,rettype);
if(addESP!=oaddESP&&am32&&ESPloc&&(wtok.type==tp_paramvar||wtok.type==tp_localvar))wtok.number+=addESP-oaddESP;
if(wbuf==NULL&&wstr.bufstr==NULL&&hnumber==0&&
((wtok.rm==rm_d16&&wtok.sib==CODE16)||
(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
op66(razr);
outseg(&wtok,1);
op(0xA3); // MOV [word],AX
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number); //????
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,razr,&wstr,&wtok,reg1,reg2);
// printf("flag=%08X rm=%d num=%d post=%d sib=%d\n",wtok.flag,wtok.rm,wtok.number,wtok.post,wtok.sib);
op66(razr);
outseg(&wtok,2);
op(0x89); op(wtok.rm+hnumber*8); // MOV [rmword],AX
outaddress(&wtok);
}
if(ofsstr)IDZToReg(ofsstr,hnumber,razr);
else ClearReg(hnumber);
KillVar(wtok.name);
AddRegVar(hnumber,razr,&wtok);
}
else{
// printf("vop=%d %s\n",vop,wtok.name);
if(vop==0)KillVar(wtok.name);
}
if(ofsstr)free(ofsstr);
break;
case tk_minusminus: vop=0x8;
case tk_plusplus:
#ifdef OPTVARCONST
initconst=UpdVarConst(&wtok,1,tk_byte,tok);
#endif
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0xFF); op(vop+wtok.rm);
outaddress(&wtok);
KillVar(wtok.name);
break;
case tk_cdecl:
case tk_pascal:
case tk_fastcall:
case tk_stdcall:
vop=tok;
nexttok();
if(tok!=tk_openbracket){
expected('(');
FindStopTok();
}
case tk_openbracket: //<2F><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD> <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><E0A5A3><EFBFBD><EFBFBD><EFBFBD>
param[0]=0;
int i;
i=0;
switch ( vop ) {
case tk_cdecl:
case tk_stdcall:
i=swapparam();
break;
case tk_pascal:
doparams();
break;
case tk_fastcall:
doregparams();
break;
default:
if(comfile==file_w32)swapparam();
else doparams();
}
if(vop!=tk_cdecl)i=0;
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2);
op(0xFF); op(0x10+wtok.rm);
outaddress(&wtok);
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
if(i)CorrectStack(i);
break;
case tk_xorequals: vop+=0x08;
case tk_minusequals: vop+=0x08;
case tk_andequals: vop+=0x18;
case tk_orequals: vop+=0x08;
case tk_plusequals:
getoperand(am32==TRUE?EAX:BX);
if(tok==tk_float){
getoperand(am32==TRUE?EAX:BX);
doeaxfloatmath(tk_reg32,AX);
goto axtovar;
}
if(itok2.type==tp_opperand){
if(tok==tk_number){
if(OnlyNumber(sign)){
next=0;
otok=tok;
tok=tk_number;
goto num;
}
}
retrez=razr==r16?tk_reg:tk_reg32;
do_e_axmath(sign,razr,&ofsstr);
if(addESP!=oaddESP&&am32&&ESPloc&&(wtok.type==tp_paramvar||wtok.type==tp_localvar))wtok.number+=addESP-oaddESP;
axtovar:
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0x01+vop); op(wtok.rm); /* ADD [anyword],AX */
outaddress(&wtok);
next=0;
}
else{
switch(tok){
case tk_number:
case tk_postnumber:
case tk_undefofs:
num:
#ifdef OPTVARCONST
if(tok==tk_number&&(itok.flag&f_reloc)==0){
initconst=UpdVarConst(&wtok,itok.lnumber,itok.rm,operand);
}
#endif
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
if(tok==tk_number&&(itok.flag&f_reloc)==0&&itok.number==1&&(vop==0||vop==0x28)){
if(vop)vop=8;
op(0xFF); op(vop+wtok.rm);
outaddress(&wtok);
}
else if(tok!=tk_undefofs&&tok!=tk_postnumber&&(itok.flag&f_reloc)==0&&
short_ok(itok.number,razr/2-1)){
op(0x83);
op(vop+wtok.rm);
outaddress(&wtok);
op((unsigned int)itok.number);
}
else{
op(0x81);
op(vop+wtok.rm);
outaddress(&wtok);
if(tok==tk_postnumber)(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
else if(tok==tk_undefofs)AddUndefOff(0,itok.name);
else if((itok.flag&f_reloc)!=0)AddReloc();
razr==r16?outword(itok.number):outdword(itok.number);
}
if(next==0)tok=otok;
break;
case tk_apioffset:
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0x81);
op(vop+wtok.rm);
outaddress(&wtok);
AddApiToPost(itok.number);
break;
case tk_reg32:
if(razr==r16)goto defxor;
case tk_reg:
if(tok==tk_reg&&razr==r32)goto defxor;
#ifdef OPTVARCONST
initconst=CheckUpdRegToConst(itok.number,&wtok,operand,razr);
#endif
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0x01+vop); op((unsigned int)itok.number*8+wtok.rm);
outaddress(&wtok);
break;
default:
defxor:
retrez=razr==r16?tk_reg:tk_reg32;
do_e_axmath(sign,razr,&ofsstr);
if(addESP!=oaddESP&&am32&&ESPloc&&(wtok.type==tp_paramvar||wtok.type==tp_localvar))wtok.number+=addESP-oaddESP;
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0x01+vop); op(wtok.rm); /* ADD [anyword],AX */
outaddress(&wtok);
next=0;
break;
}
}
// puts(wtok.name);
KillVar(wtok.name);
break;
case tk_multequals:
getoperand(am32==TRUE?EAX:BX);
if(itok2.type==tp_stopper){
if(tok==tk_number){
if(itok.number==1)break;
if(itok.number==0){
ZeroReg(hnumber,razr);
goto getfromax;
}
#ifdef OPTVARCONST
if((itok.flag&f_reloc)==0){
initconst=UpdVarConst(&wtok,itok.lnumber,itok.rm,operand);
}
#endif
if(hnumber==0)getinto_e_ax(sign,otok,&wtok,wbuf,&wstr,razr,TRUE);
else getinto_reg(otok,&wtok,wbuf,&wstr,razr,hnumber);
vop=0;
RegMulNum(hnumber,itok.number,razr,sign,(int *)&vop,itok.flag);
goto getfromax;
}
}
if(hnumber==0)do_e_axmath(sign,razr,&ofsstr);
else getintoreg(hnumber,razr,sign,&ofsstr);
if(addESP!=oaddESP&&am32&&ESPloc&&(wtok.type==tp_paramvar||wtok.type==tp_localvar)){
wtok.number+=addESP-oaddESP;
oaddESP=addESP;
}
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
if(hnumber==0){
outseg(&wtok,2);
op(0xF7); // imul/mul var
if(sign)op(0x28+wtok.rm);
else op(0x20+wtok.rm);
}
else{
outseg(&wtok,3);
outword(0xaf0f);
op(wtok.rm+hnumber*8);
}
outaddress(&wtok);
next=0;
KillVar(wtok.name);
goto getfromax;
case tk_divequals:
getoperand(am32==TRUE?EAX:BX);
hnumber=0;
if(itok2.type==tp_stopper){
if(tok==tk_number){
if(itok.number==1)break;
#ifdef OPTVARCONST
if((itok.flag&f_reloc)==0){
initconst=UpdVarConst(&wtok,itok.lnumber,itok.rm,operand);
}
#endif
getinto_e_ax(sign,otok,&wtok,wbuf,&wstr,razr,TRUE);
DivMod(0,sign,razr,0);
next=0;
goto getfromax;
}
getintoreg_32(CX,razr,sign,&ofsstr);
}
else{
do_e_axmath(sign,razr,&ofsstr);
if(optimizespeed)outword(0xC88B); //mov CX,ax
else op(0x90+ECX); //xchg ax,Cx
if(addESP!=oaddESP&&am32&&ESPloc&&(wtok.type==tp_paramvar||wtok.type==tp_localvar)){
wtok.number+=addESP-oaddESP;
oaddESP=addESP;
}
}
getinto_e_ax(sign,otok,&wtok,wbuf,&wstr,razr,TRUE);
ClearDX(razr,sign);
op66(razr);
op(0xF7);
if(sign)op(0xF8+ECX); // IDIV CX
else op(0xF0+ECX); // DIV CX
next=0;
warningreg(regs[razr/2-1][ECX]);
KillVar(wtok.name);
goto getfromax;
case tk_swap:
KillVar(wtok.name);
int regdi;
regdi=TRUE;
getoperand();
rbuf=bufrm;
bufrm=NULL;
if(am32!=FALSE&&wbuf!=NULL&&wstr.bufstr!=NULL)regdi=FALSE;
switch(tok){
case tk_reg32:
if(razr==r16)swaperror();
case tk_reg:
if(tok==tk_reg&&razr==r32)swaperror();
#ifdef OPTVARCONST
initconst=SwapVarRegConst(itok.number,&wtok,razr);
#endif
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0x87);
op((unsigned int)itok.number*8+wtok.rm);
outaddress(&wtok);
ClearReg(itok.number);
break;
case tk_qwordvar:
case tk_longvar:
case tk_dwordvar:
if(razr==r16)swaperror();
case tk_intvar:
case tk_wordvar:
if((tok==tk_intvar||tok==tk_wordvar)&&razr==r32)swaperror();
#ifdef OPTVARCONST
ClearVarByNum(&itok);
#endif
if(hnumber==0)getinto_e_ax(sign,otok,&wtok,wbuf,&wstr,razr,TRUE);
else{
if(regoverstack&&(!((bufrm||strinf.bufstr)&&(wbuf||wstr.bufstr)))){
CheckAllMassiv(bufrm,razr,&strinf);
op66(razr);
outseg(&itok,2);
op(0xFF); // PUSH [dword]
op(0x30+itok.rm);
outaddress(&itok);
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0xFF); // PUSH [dword]
op(0x30+wtok.rm);
outaddress(&wtok);
CheckAllMassiv(bufrm,razr,&strinf);
op66(razr);
outseg(&itok,2);
op(0x8f);
op(itok.rm);
outaddress(&itok);
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0x8f);
op(wtok.rm);
outaddress(&wtok);
break;
}
getinto_reg(otok,&wtok,wbuf,&wstr,razr,hnumber);
}
CheckAllMassiv(rbuf,razr,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
op66(razr);
outseg(&itok,2);
op(0x87); /* XCHG AX,[wloc] */
op(itok.rm+hnumber*8);
outaddress(&itok);
goto getfromax;
case tk_seg:
if(razr==r32)swaperror();
op66(r16);
op(0x8C); /* MOV AX,seg */
op(0xC0+(unsigned int)itok.number*8);
CheckAllMassiv(wbuf,2,&wstr,&wtok);
op66(r16);
outseg(&wtok,2);
op(0x87); /* XCHG AX,[wloc] */
op(wtok.rm);
outaddress(&wtok);
op66(r16);
op(0x8E); /* MOV seg,AX */
op(0xC0+(unsigned int)itok.number*8);
break;
case tk_floatvar:
if(razr==r16)swaperror();
if(sign==1){
CheckAllMassiv(wbuf,4,&wstr,&wtok);
outseg(&wtok,2); //fild
op(0xDB);
op(wtok.rm);
outaddress(&wtok);
CheckAllMassiv(rbuf,4,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
outseg(&itok,2); //fld val
op(0xd9);
op(itok.rm);
outaddress(&itok);
}
else{
CheckInitBP();
op66(r32); //push 0L
outword(0x6a);
CheckAllMassiv(wbuf,4,&wstr,&wtok);
op66(r32); //push var
if(ESPloc&&am32&&wtok.segm==SS)wtok.number+=8;
addESP+=8;
outseg(&wtok,2);
op(0xFF);
op(wtok.rm+0x30);
outaddress(&wtok);
fildq_stack();
CheckAllMassiv(rbuf,4,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
outseg(&itok,2); //fld val
op(0xd9);
op(itok.rm);
outaddress(&itok);
RestoreBP();
if(optimizespeed||am32==0){
outword(0xC483);
op(8);
}
else{
op(0x58); // pop EAX
op(0x58); // pop EAX
}
addESP-=8;
}
outseg(&wtok,2);//fistp var
op(0xDB);
op(wtok.rm+0x18);
outaddress(&wtok);
outseg(&itok,2); //fstp val
op(0xd9);
op(itok.rm+0x18);
outaddress(&itok);
fwait3();
break;
default: swaperror(); break;
}
break;
case tk_rrequals:
vop=8;
if(sign)vop+=0x10;
case tk_llequals:
KillVar(wtok.name);
getoperand(am32==TRUE?ECX:BX);
if(itok2.type!=tp_stopper){
doalmath(0,&ofsstr); // all shifts unsigned byte
ClearReg(AX);
ClearReg(CX);
outword(0xC188); // MOV CL,AL
if(addESP!=oaddESP&&am32&&ESPloc&&(wtok.type==tp_paramvar||wtok.type==tp_localvar))wtok.number+=addESP-oaddESP;
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0xD3); op(0x20+vop+wtok.rm); // SHL [rmword],CL
outaddress(&wtok);
warningreg(begs[1]);
next=0;
}
else if(tok==tk_number){
#ifdef OPTVARCONST
if((itok.flag&f_reloc)==0){
initconst=UpdVarConst(&wtok,itok.lnumber,itok.rm,operand);
}
#endif
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
if((unsigned int)itok.number==1){
op66(razr);
outseg(&wtok,2);
op(0xD1); op(0x20+vop+wtok.rm); /* SHL [rmword],1 */
outaddress(&wtok);
}
else if((unsigned int)itok.number!=0){
if(chip<2&&razr==r16){
getintobeg(CL,&ofsstr);
op66(r16);
outseg(&wtok,2);
op(0xD3); op(0x20+vop+wtok.rm); /* SHL [rmword],CL */
outaddress(&wtok);
warningreg(begs[1]);
ClearReg(CX);
next=0;
}
else{
op66(razr);
outseg(&wtok,2);
op(0xC1); op(0x20+vop+wtok.rm); /* SHL [rmword],imm8 */
outaddress(&wtok);
if(cpu<2)cpu=2;
}
op((unsigned int)itok.number);
}
}
else{
if(tok!=tk_beg||(unsigned int)itok.number!=CL){
getintobeg(CL,&ofsstr);
warningreg(begs[1]);
ClearReg(CX);
next=0;
}
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
op66(razr);
outseg(&wtok,2);
op(0xD3); op(0x20+vop+wtok.rm); /* SHL [rmword],CL */
outaddress(&wtok);
}
break;
default: operatorexpected(); break;
}
#ifdef OPTVARCONST
if(initconst==FALSE)ClearVarByNum(&wtok);
#endif
if(next)nexttok();
if(terminater==tk_semicolon)seminext();
if(razr==r32&&cpu<3)cpu=3;
return retrez;
}
int dobytevar(int sign,int terminater) // byte, char
{
unsigned char next=1,getfromAX=0;
unsigned int vop=0,otok,rettype,posiblret;
ITOK btok;
char *bbuf,*rbuf;
int retrez=0,pointr=0,hnumber=AL;
SINFO bstr;
int numpointr=0;
char *ofsstr=NULL;
#ifdef OPTVARCONST
int initconst=FALSE;
int operand;
#endif
unsigned int oaddESP=addESP;
sign==0?posiblret=rettype=tk_byte:posiblret=rettype=tk_char;
bstr=strinf;
strinf.bufstr=NULL;
btok=itok;
bbuf=bufrm;
bufrm=NULL;
otok=tok;
while(RmEqualReg(hnumber,itok.rm,itok.sib))hnumber++;
nexttok();
#ifdef OPTVARCONST
operand=tok;
#endif
switch(tok){
case tk_assign:
if(!((tok2==tk_reg||tok2==tk_reg32||tok2==tk_beg)&&ScanTok3()==terminater)){
ofsstr=GetLecsem(terminater);
}
if(ofsstr){
int retreg;
if((retreg=CheckIDZReg(ofsstr,AX,r8))!=NOINREG){
GetEndLex(terminater);
tok=tk_beg;
itok.number=retreg==SKIPREG?AX:retreg;
goto regtovar;
}
}
nexttok();
convert_type(&sign,(int *)&rettype,&pointr);
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr)unuseableinput();
if(tok2==tk_assign){
hnumber=MultiAssign(r8,USEALLREG,numpointr);
if(ofsstr){
free(ofsstr);
ofsstr=NULL;
}
next=0;
goto getfromax;
}
if(tok==tk_pointer)cpointr(am32==TRUE?EAX:BX,numpointr);
CheckMinusNum();
if(itok2.type==tp_opperand){
if(rettype!=tk_float&&tok==tk_number){ //<2F><EFBFBD><20> <20><EFBFBD><EFBFBD><E0AEA2><EFBFBD><EFBFBD> <20><>
if(OnlyNumber(sign)){
next=0;
goto numbertovar;
}
}
goto labl1;
}
else{
#ifdef OPTVARCONST
if(tok>=tk_charvar&&tok<=tk_doublevar&&itok.npointr==0){
if(CheckConstVar(&itok))tok=tk_number;
}
#endif
switch(tok){
case tk_number:
numbertovar:
#ifdef OPTVARCONST
if((initconst=Const2Var(&btok,itok.lnumber&0Xff,itok.rm))==FALSE){
waralreadinitvar(btok.name,itok.number);
initconst=TRUE;
break;
}
#endif
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(0xC6);
op(btok.rm);
outaddress(&btok);
op((unsigned int)itok.number);
break;
case tk_reg32:
case tk_reg:
if((unsigned int)itok.number>BX)goto labl1;
case tk_beg:
regtovar:
if((unsigned int)itok.number==0){
getfromAX=1;
hnumber=0;
}
else{
KillVar(btok.name);
AddRegVar(itok.number,r8,&btok);
vop++;
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(0x88);
op((unsigned int)itok.number*8+btok.rm);
outaddress(&btok);
}
break;
case tk_seg: segbyteerror(); break;
default:
labl1:
if(rettype==tk_char||rettype==tk_byte){
if(hnumber==0)retrez=doalmath(sign,&ofsstr);
else retrez=getintobeg(hnumber,&ofsstr);
}
else if(rettype==tk_int||rettype==tk_word){
if(hnumber==0)retrez=do_e_axmath(sign,r16,&ofsstr);
else retrez=getintoreg(hnumber,r16,sign,&ofsstr);
}
else if(rettype==tk_float){
doeaxfloatmath(tk_reg32);
rettype=tk_long;
hnumber=0;
}
else{
if(hnumber==0)retrez=do_e_axmath(sign,r32,&ofsstr);
else retrez=getintoreg(hnumber,r32,sign,&ofsstr);
}
getfromAX=1;
next=0;
break;
}
}
if(getfromAX){
getfromax:
#ifdef OPTVARCONST
initconst=CheckRegToConst(hnumber,&btok,r8);
#endif
if(retrez==0)retrez=tk_reg;
convert_returnvalue(posiblret,rettype);
if(addESP!=oaddESP&&am32&&ESPloc&&(btok.type==tp_paramvar||btok.type==tp_localvar))btok.number+=addESP-oaddESP;
if(bbuf==NULL&&bstr.bufstr==NULL&&hnumber==0&&((btok.rm==rm_d16&&btok.sib==CODE16)||(btok.rm==rm_d32&&(btok.sib==CODE32||btok.sib==0)))){
outseg(&btok,1);
op(0xA2); // MOV [byte],AL
if(btok.post==UNDEF_OFSET){
AddUndefOff(2,btok.name);
btok.post=0;
}
if(am32==FALSE)outword(btok.number);
else outdword(btok.number);
}
else{
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2); // MOV [rmbyte],AL
op(0x88);
op(btok.rm+hnumber*8);
outaddress(&btok);
}
if(ofsstr)IDZToReg(ofsstr,hnumber,r8);
else ClearReg(hnumber);
KillVar(btok.name);
AddRegVar(hnumber,r8,&btok);
}
else if(vop)KillVar(btok.name);
if(ofsstr)free(ofsstr);
break;
case tk_multequals:
getoperand(am32==TRUE?EAX:BX);
if(itok2.type==tp_stopper&&tok==tk_number){
if(itok.number==1)break;
if(itok.number==0){
outword(0xB0+hnumber);
goto getfromax;
}
#ifdef OPTVARCONST
if((itok.flag&f_reloc)==0){
initconst=UpdVarConst(&btok,itok.lnumber,itok.rm,tk_mult);
}
#endif
}
doalmath(sign,&ofsstr);
hnumber=0;
if(addESP!=oaddESP&&am32&&ESPloc&&(btok.type==tp_paramvar||btok.type==tp_localvar)){
btok.number+=addESP-oaddESP;
oaddESP=addESP;
}
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(0xF6);
if(sign)op(0x28+btok.rm);
else op(0x20+btok.rm);
outaddress(&btok);
next=0;
KillVar(btok.name);
goto getfromax;
case tk_divequals:
hnumber=0;
getoperand(am32==TRUE?EAX:BX);
if(itok2.type==tp_stopper){
if(tok==tk_number){
if(itok.number==1)break;
#ifdef OPTVARCONST
if((itok.flag&f_reloc)==0){
initconst=UpdVarConst(&btok,itok.lnumber,itok.rm,tk_div);
}
#endif
}
getintobeg(CL,&ofsstr);
warningreg(begs[1]);
}
else{
doalmath(sign,&ofsstr);
outword(0xC88A); //mov Cl,al
if(addESP!=oaddESP&&am32&&ESPloc&&(btok.type==tp_paramvar||btok.type==tp_localvar)){
btok.number+=addESP-oaddESP;
oaddESP=addESP;
}
}
if(sign)cbw();
else xorAHAH();
getintoal(otok,&btok,bbuf,&bstr);
warningreg(begs[3]);
op(0xF6);
if(sign)op(0xF8+CL); // IDIV CL
else op(0xF0+CL); // DIV CL
next=0;
ClearReg(CX);
KillVar(btok.name);
goto getfromax;
case tk_minusminus: vop=0x8;
case tk_plusplus:
#ifdef OPTVARCONST
initconst=UpdVarConst(&btok,1,tk_byte,tok);
#endif
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(0xFE);
op(vop+btok.rm);
outaddress(&btok);
KillVar(btok.name);
break;
case tk_xorequals: vop+=0x08;
case tk_minusequals: vop+=0x08;
case tk_andequals: vop+=0x18;
case tk_orequals: vop+=0x08;
case tk_plusequals:
KillVar(btok.name);
getoperand(am32==TRUE?EAX:BX);
if(itok2.type==tp_opperand){
if(tok==tk_number){
if(OnlyNumber(sign)){
next=0;
otok=tok;
tok=tk_number;
goto num;
}
}
doalmath(sign,&ofsstr);
if(addESP!=oaddESP&&am32&&ESPloc&&(btok.type==tp_paramvar||btok.type==tp_localvar))btok.number+=addESP-oaddESP;
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(vop); op(btok.rm); // ADD [anybyte],AL
outaddress(&btok);
next=0;
retrez=tk_reg;
}
else{
switch(tok){
case tk_number:
num:
#ifdef OPTVARCONST
if((itok.flag&f_reloc)==0){
initconst=UpdVarConst(&btok,itok.lnumber,itok.rm,operand);
}
#endif
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
if(itok.number==1&&(vop==0||vop==0x28)){
if(vop)vop=8;
op(0xFE);
op(vop+btok.rm);
outaddress(&btok);
}
else{
op(0x80);
op(vop+btok.rm);
outaddress(&btok);
op((unsigned int)itok.number);
}
if(next==0)tok=otok;
break;
case tk_beg:
#ifdef OPTVARCONST
initconst=CheckUpdRegToConst(itok.number,&btok,operand,r8);
#endif
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(vop);
op((unsigned int)itok.number*8+btok.rm);
outaddress(&btok);
break;
case tk_seg: segbyteerror(); break;
default:
retrez=tk_reg;
doalmath(sign,&ofsstr);
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(vop); op(btok.rm); /* ADD [anybyte],AL */
outaddress(&btok);
next=0;
break;
}
}
break;
case tk_swap:
KillVar(btok.name);
getoperand();
rbuf=bufrm;
bufrm=NULL;
switch(tok){
case tk_beg:
#ifdef OPTVARCONST
initconst=SwapVarRegConst(itok.number,&btok,r8);
#endif
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(0x86); /* XCHG beg,[anybloc] */
op((unsigned int)itok.number*8+btok.rm);
outaddress(&btok);
ClearReg(itok.number>3?itok.number-4:itok.number);
break;
case tk_bytevar:
case tk_charvar:
#ifdef OPTVARCONST
initconst=SwapVarConst(&itok,&btok);
#endif
if(hnumber==0)getintoal(otok,&btok,bbuf,&bstr);
else getinto_reg(otok,&btok,bbuf,&bstr,r8,hnumber);
CheckAllMassiv(rbuf,1,&strinf,&itok,(am32!=FALSE&&bbuf!=NULL&&bstr.bufstr!=NULL)?BX:DI,DX);
outseg(&itok,2);
op(0x86); /* XCHG AL,[bloc] */
op(itok.rm+hnumber*8);
outaddress(&itok);
KillVar(itok.name);
goto getfromax;
default: swaperror(); break;
}
break;
case tk_rrequals:
vop=8;
if(sign)vop+=0x10;
case tk_llequals:
KillVar(btok.name);
getoperand(am32==TRUE?ECX:BX);
if(itok2.type!=tp_stopper){
doalmath(0,&ofsstr); // all shifts unsigned byte
outword(0xC188); // MOV CL,AL
if(addESP!=oaddESP&&am32&&ESPloc&&(btok.type==tp_paramvar||btok.type==tp_localvar))btok.number+=addESP-oaddESP;
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(0xD2); op(0x20+vop+btok.rm); /* SHL [byte],CL */
outaddress(&btok);
warningreg(begs[1]);
ClearReg(CX);
ClearReg(AX);
next=0;
}
else if(tok==tk_number){
#ifdef OPTVARCONST
if((itok.flag&f_reloc)==0){
initconst=UpdVarConst(&btok,itok.lnumber,itok.rm,operand);
}
#endif
if((unsigned int)itok.number==1){
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(0xD0); op(0x20+vop+btok.rm); /* SHL [byte],1 */
outaddress(&btok);
}
else if((unsigned int)itok.number!=0){
CheckAllMassiv(bbuf,1,&bstr,&btok);
if(chip<2){
getintobeg(CL,&ofsstr);
outseg(&btok,2);
op(0xD2); op(0x20+vop+btok.rm); /* SHL [byte],CL */
outaddress(&btok);
warningreg(begs[1]);
ClearReg(CX);
next=0;
}
else{
outseg(&btok,2);
op(0xC0); op(0x20+vop+btok.rm); /* SHL [byte],imm8 */
outaddress(&btok);
if(cpu<2)cpu=2;
}
op((unsigned int)itok.number);
}
}
else{
if(tok!=tk_beg||(unsigned int)itok.number!=CL){
getintobeg(CL,&ofsstr);
warningreg(begs[1]);
ClearReg(CX);
next=0;
}
CheckAllMassiv(bbuf,1,&bstr,&btok);
outseg(&btok,2);
op(0xD2); op(0x20+vop+btok.rm); /* SHL [byte],CL */
outaddress(&btok);
}
break;
default: operatorexpected(); break;
}
#ifdef OPTVARCONST
if(initconst==FALSE)ClearVarByNum(&btok);
#endif
if(next)nexttok();
if(terminater==tk_semicolon)seminext();
return retrez;
}
void getinto_reg(int gtok,ITOK *gstok,char *&gbuf,SINFO *gstr,int razr,int reg)
{
unsigned int i=0;
int vop=0;
int reg1=SI,reg2=DI;
switch(gtok){
case tk_dwordvar:
case tk_longvar:
i+=4;
longvar:
CheckAllMassiv(gbuf,i,gstr,gstok,reg1,reg2);
op66(razr);
outseg(gstok,2);
op(0x8B);
op(gstok->rm+reg*8);
outaddress(gstok);
ClearReg(reg);
break;
case tk_intvar:
vop=8;
case tk_wordvar:
i=2;
goto longvar;
case tk_bytevar:
case tk_charvar:
CheckAllMassiv(gbuf,i,gstr,gstok,reg1,reg2);
outseg(gstok,2);
op(0x8A);
op(gstok->rm+reg*8);
outaddress(gstok);
ClearReg(reg);
break;
}
}
void getinto_e_ax(int sign,int gtok,ITOK *gstok,char *&gbuf,SINFO *gstr,int razr,int useAX)
{
unsigned int i=0;
int vop=0;
int reg1=idxregs[0],reg2=idxregs[1];
if(am32){
reg1=useAX==FALSE?EAX:idxregs[0];
reg2=idxregs[3];
}
// printf("tok=%u %s\n",gtok,gstok->name);
switch(gtok){
case tk_bits:
vop=gstok->bit.siz+gstok->bit.ofs;
if(vop<=64)i=r64;
if(vop<=32)i=r32;
if(vop<=16)i=r16;
bits2reg(AX,((unsigned int)razr>i?razr:i));
break;
case tk_postnumber:
op66(razr);
op(0xB8); /* MOV EAX,# */
(gstok->flag&f_extern)==0?setwordpost(gstok):setwordext(&gstok->number);
razr==r16?outword(gstok->number):outdword(gstok->number);
ClearReg(AX);
break;
case tk_rmnumber:
CheckAllMassiv(gbuf,gstok->size,gstr,gstok,reg1,reg2);
if(gstok->rm||am32==0){
op66(razr);
op67(gstok->sib==CODE16?r16:r32);
if(gstok->post==0)outseg(gstok,2);
op(0x8D); op(gstok->rm);
if(gstok->post!=0&&gstok->post!=UNDEF_OFSET){
if((gstok->flag&f_extern)==0){
i=outptr;
if(am32&&gstok->rm==rm_sib)outptr++;
setwordpost(gstok);
outptr=i;
}
else setwordext(&gstok->number);
}
outaddress(gstok); /* LEA AX,[rm] */
ClearReg(AX);
}
else nexttok();
break;
case tk_doublevar:
vop=4;
case tk_floatvar:
CheckInitBP();
if(cpu<3)cpu=3;
op66(r32);
op(0x50); //push EAX
if(ESPloc&&am32&&gstok->segm==SS)gstok->number+=4;
addESP+=4;
CheckAllMassiv(gbuf,4,gstr,gstok,reg1,reg2);
outseg(gstok,2); //fld floatvar
op(0xd9+vop);
op(gstok->rm);
outaddress(gstok);
fistp_stack();
op66(r32);
op(0x58); //pop EAX
addESP-=4;
RestoreBP();
ClearReg(AX);
break;
case tk_qwordvar:
i=4;
case tk_dwordvar:
case tk_longvar:
i+=4;
longvar:
if((gstok->rm==rm_d16&&gstok->sib==CODE16)||(gstok->rm==rm_d32&&(gstok->sib==CODE32||gstok->sib==0))){
op66(razr);
outseg(gstok,1);
op(0xA1);
if(gstok->post==UNDEF_OFSET)AddUndefOff(2,gstok->name);
if(am32==FALSE)outword((unsigned int)gstok->number);
else outdword(gstok->number);
}
else{
CheckAllMassiv(gbuf,i,gstr,gstok,reg1,reg2);
op66(razr);
outseg(gstok,2);
op(0x8B);
op(gstok->rm);
outaddress(gstok);
}
ClearReg(AX);
break;
case tk_intvar:
vop=8;
case tk_wordvar:
i=2;
if(razr==r16)goto longvar;
i=1;
if(optimizespeed&&vop==0&&chip>3&&chip<7)goto optpent;
movxx:
CheckAllMassiv(gbuf,1+i,gstr,gstok,reg1,reg2);
op66(razr);
outseg(gstok,3); /* MOVSX EAX,[charvar] */
op(0x0F); op(0xB6+vop+i); op(gstok->rm);
outaddress(gstok);
ClearReg(AX);
break;
case tk_charvar:
vop=8;
if(razr==r16){
if((gstok->rm==rm_d16&&gstok->sib==CODE16)||(gstok->rm==rm_d32&&(gstok->sib==CODE32||gstok->sib==0))){
outseg(gstok,1);
op(0xA0);
if(am32==FALSE)outword(gstok->number);
else outdword(gstok->number);
}
else{
CheckAllMassiv(gbuf,1,gstr,gstok,reg1,reg2);
outseg(gstok,2);
op(0x8A); op(gstok->rm);
outaddress(gstok);
}
cbw();
ClearReg(AX);
break;
}
goto movxx;
case tk_bytevar:
optpent:
if((gstok->rm==rm_d16&&gstok->sib==CODE16)||(gstok->rm==rm_d32&&(gstok->sib==CODE32||gstok->sib==0))){
ZeroReg(EAX,razr);
if(i)op66(r16);
outseg(gstok,1);
op(0xA0+i);
if(am32==FALSE)outword(gstok->number);
else outdword(gstok->number);
ClearReg(AX);
break;
}
if((chip>=3&&(!optimizespeed))||RmEqualReg(AX,gstok->rm,gstok->sib))goto movxx;
ZeroReg(EAX,razr);
CheckAllMassiv(gbuf,1+i,gstr,gstok,SI,reg2);
if(i)op66(r16);
outseg(gstok,2);
op(0x8A+i); op(gstok->rm);
outaddress(gstok);
break;
case tk_beg:
if(gstok->number==AL&&(!sign)&&razr==r16){
xorAHAH();
ClearReg(AX);
break;
}
if(optimizespeed&&chip>3&&chip<7){
if(sign){
if(razr==r32)goto movxxr;
if(gstok->number!=AL){
op(0x88);
op(0xC0+gstok->number*8); //mov al,beg
}
if(gstok->number!=AH)outword(0xC488); //mov ah,al
outword(0xFCC0); //sar ah,7
op(7);
}
else{
if(razr==r32&&(gstok->number==AL||gstok->number==AH)){
/*if(chip==4)*/goto movxxr;
/* op(0x88);
op(0xC1+gstok->number*8); //mov cl,beg
xorEAXEAX();
outword(0xC888); // mov al,cl
warningreg(begs[1]);
break;*/
}
if(gstok->number==AH)outdword(0xE430E088); //mov al,ah xor ah,ah
else{
ZeroReg(EAX,razr);
op(0x88);
op(0xC0+gstok->number*8); //mov al,beg
}
}
ClearReg(AX);
break;
}
movxxr:
if(chip>2||razr==r32){
op66(razr);
if(sign)outword(0xBE0F);
else outword(0xB60F);
op(0xC0+(unsigned int)gstok->number); // MOVxX AX,beg
}
else{
op(0x88);
op(0xC0+gstok->number*8);
if(sign)cbw();
else xorAHAH();
}
ClearReg(AX);
break;
case tk_reg:
if(razr==r32){
if(tok2==tk_openbracket){ //<2F><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD> <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><E0A5A3><EFBFBD><EFBFBD><EFBFBD>
reg1=gstok->number;
nexttok();
param[0]=0;
if(comfile==file_w32)swapparam();
else doparams();
op66(r16);
op(0xFF);
op(0xD0+reg1); /* CALL reg with stack params */
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
clearregstat();
break;
}
if(optimizespeed&&(!sign)&&chip>3&&chip<7){
if(gstok->number==AX){
goto movxr;
/* op66(r16);
outword(0xC189); //mov cx,AX
xorEAXEAX();
op66(r16);
outword(0xC889); //mov aX,cX
warningreg(regs[0][1]);*/
}
else{
xorEAXEAX();
op66(r16);
op(0x89);
op(0xC0+gstok->number*8); //mov ax,reg
}
}
else{
movxr:
op66(r32);
op(0x0F); /* MOVSX or MOVZX EAX,reg */
if(sign)op(0xBF);
else op(0xB7);
op(0xC0+gstok->number);
}
RegToReg(AX,gstok->number,razr);
break;
}
case tk_reg32:
if(tok2==tk_openbracket){ //<2F><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD> <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><E0A5A3><EFBFBD><EFBFBD><EFBFBD>
reg1=gstok->number;
nexttok();
param[0]=0;
if(comfile==file_w32)swapparam();
else doparams();
op66(razr);
op(0xFF);
op(0xD0+reg1); /* CALL reg with stack params */
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
break;
}
if(gstok->number!=AX){
op66(razr);
op(0x89);
op(0xC0+gstok->number*8);
RegToReg(AX,gstok->number,razr);
}
break;
case tk_seg:
if(razr==r32)op66(r32);
op(0x8C); //mov var,SS
op(0xC0+gstok->number*8);
ClearReg(AX);
break;
case tk_string:
op66(razr);
op(0xB8);
if(razr==r16){
if(am32)dwordvalexpected();
outword(addpoststring(CS,gstok->number,gstok->flag));
}
else outdword(addpoststring(CS,gstok->number,gstok->flag));
ClearReg(AX);
break;
default: valueexpected(); break;
}
if(razr==r32&&cpu<3)cpu=3;
}
int caselong(unsigned long val)
{
int vop=0;
unsigned long num;
for(;vop<NUMNUM;vop++){
num=li[vop];
if(val==num)break;
if(val<num)return NUMNUM;
}
return vop;
}
int caselonglong(unsigned long long val)
{
int vop=0;
unsigned long long num;
for(;vop<NUMNUM64;vop++){
num=li[vop];
if(val==num)break;
if(val<num)return NUMNUM64;
}
return vop;
}
int do_e_axmath(int sign,int razr,char **ofsstr)
{
int negflag=0,next=0;
int expand=FALSE,rettype;
unsigned int i=0;
unsigned long holdnumber=0;
int loop=0,otok;
rettype=(razr==r16?tk_reg:tk_reg32);
if(tok==tk_minus){
if(CheckMinusNum()==FALSE){
negflag=1;
getoperand(am32==TRUE?EAX:BX);
}
}
if(uselea){
if(razr==r32){
if(Reg32ToLea(EAX)){
goto contloop; //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E1ABAE><EFBFBD><EFBFBD><EFBFBD> 32-<2D><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E0A5A3><EFBFBD><20> LEA
}
}
else if(Reg16ToLea(AX)){
goto contloop; //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E1ABAE><EFBFBD><EFBFBD><EFBFBD> 32-<2D><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E0A5A3><EFBFBD>
}
}
loopswitch:
otok=tok;
// printf("tok=%d %s\n",tok,itok.name);
#ifdef OPTVARCONST
CheckConstVar3(&tok,&itok,razr);
if(tok==tk_number)calcnumber=TRUE;
#endif
switch(tok){
case tk_number:
holdnumber=CalcNumber(sign);
if(loop==0)i=postnumflag;
else i^=postnumflag;
loop++;
if(tok==tk_mult&&(optimizespeed||razr==r32)&&
(!((tok2==tk_reg32||tok2==tk_reg)&&itok2.number==EAX))&&expandvar()==FALSE){
getoperand(am32==TRUE?EAX:BX);
next=1;
goto loopswitch;
}
if(tok==tk_plus&&tok2==tk_postnumber){
nexttok();
goto loopswitch;
}
MovRegNum(razr,i&f_reloc,holdnumber,EAX);
next=0;
break;
case tk_apioffset:
op66(razr);
op(0xB8); /* MOV AX,# */
AddApiToPost(itok.number);
nexttok();
break;
case tk_postnumber:
case tk_undefofs:
if(next==0){
op66(razr);
op(0xB8); /* MOV AX,# */
next=1;
}
if(tok==tk_undefofs){
AddUndefOff(2,itok.name);
// AddUndefOff(0,itok.name); //22.11.04 20:52
// itok.flag=0; //new 07.07.04 23:57
}
else (itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
tok=tk_number;
holdnumber+=doconstdwordmath();
if(otok!=tk_postnumber){
if(loop==0)i=postnumflag;
else i^=postnumflag;
loop++;
}
if(tok==tk_plus&&tok2==tk_postnumber){
nexttok();
goto loopswitch;
}
if((i&f_reloc)!=0)AddReloc();
next=0;
if(razr==r16)outword(holdnumber);
else outdword(holdnumber);
ClearReg(AX);
break;
case tk_rmnumber:
int reg1,reg2;
reg1=am32==FALSE?idxregs[0]:EAX;
reg2=am32==FALSE?idxregs[1]:ECX;
CheckAllMassiv(bufrm,itok.size,&strinf,&itok,reg1,reg2);
if(itok.rm||am32==0){
op66(razr);
op67(itok.sib==CODE16?r16:r32);
if((itok.rm&0x3F)==0&&am32&&itok.post==0&&(short_ok(itok.number,TRUE)==FALSE||((itok.rm&rm_mod11)==rm_mod10))){ //add
outseg(&itok,1);
op(5); //add
}
else{ //lea
if(itok.post==0)outseg(&itok,2);
op(0x8D); op(itok.rm);
}
// if(itok.post==0)outseg(&itok,2);
// op(0x8D); op(itok.rm);
if(itok.post!=0&&itok.post!=UNDEF_OFSET){
if((itok.flag&f_extern)==0){
i=outptr;
if(am32&&itok.rm==rm_sib)outptr++;
setwordpost(&itok);
outptr=i;
}
else setwordext(&itok.number);
}
ITOK oitok;
oitok=itok;
tok=tk_number;
itok.rm=tk_dword;
oitok.number=doconstdwordmath();
// oitok.flag|=postnumflag;
outaddress(&oitok); // LEA AX,[rm]
ClearReg(AX);
}
else nexttok();
break;
case tk_at:
getoperand(am32==TRUE?EAX:BX);
i++;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
if(itok.flag&f_retproc)rettype=(itok.flag&f_retproc)/256+tk_overflowflag-1;
if((!i)||
macros(sign!=0?(razr==r16?tk_int:tk_long):(razr==r16?tk_word:tk_dword))==0){
procdo(sign!=0?(razr==r16?tk_int:tk_long):(razr==r16?tk_word:tk_dword));
}
nexttok();
if(*ofsstr){
free(*ofsstr);
*ofsstr=NULL;
}
break;
case tk_new:
donew();
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
if(*ofsstr){
free(*ofsstr);
*ofsstr=NULL;
}
nexttok();
break;
default:
SINFO wstr=strinf;
ITOK witok=itok;
char *wbuf=bufrm;
bufrm=NULL;
strinf.bufstr=NULL;
getinto_e_ax(sign,tok,&witok,wbuf,&wstr,razr);
nexttok(); break;
}
contloop:
if(negflag){
NegReg(razr,EAX);
setzeroflag=TRUE;
}
#ifdef OPTVARCONST
calcnumber=FALSE;
#endif
if(next)RegMulNum(AX,holdnumber,razr,sign,&expand,i);
// printf("tok=%d type=%d name=%s\n",tok,itok.type,itok.name);
if(itok.type!=tp_stopper&&tok!=tk_eof&&itok.type!=tp_compare){
do_e_axmath2(sign,razr,expand);
rettype=(razr==r16?tk_reg:tk_reg32);
}
return rettype;
}
void do_e_axmath2(int sign,int razr,int expand)
{
int vop,negflag=0,next;
int optnum=FALSE;
unsigned int i;
char *ofsstr=NULL;
unsigned char oaddstack;
while(itok.type!=tp_stopper&&tok!=tk_eof&&itok.type!=tp_compare){
next=1;
vop=0;
i=0;
// !!! new
#ifdef OPTVARCONST
CheckConstVar3(&tok2,&itok2,razr);
if(tok2==tk_number)calcnumber=TRUE;
#endif
if(uselea&&razr==r32){
if(Reg32ToLea2(EAX))continue; //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E1ABAE><EFBFBD><EFBFBD><EFBFBD> 32-<2D><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E0A5A3><EFBFBD><20> LEA
if(itok.type==tp_stopper||tok==tk_eof||itok.type==tp_compare)break;
}
if(tok2==tk_number)optnum=OptimNum();
int oldtok=tok;
switch(tok){
case tk_xor: vop+=0x08;
case tk_minus: vop+=0x08;
case tk_and: vop+=0x18;
case tk_or: vop+=0x08;
case tk_plus:
if(optnum==FALSE)getoperand();
else{
tok=tk_number;
optnum=FALSE;
}
switch(tok){
case tk_number:
if((itok.flag&f_reloc)==0){
if(optnumadd(itok.number,0,razr,vop))break;
}
case tk_undefofs:
case tk_postnumber:
op66(razr);
op(0x05+vop);
if(tok==tk_postnumber)(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
else if(tok==tk_undefofs)AddUndefOff(0,itok.name);
else if((itok.flag&f_reloc)!=0)AddReloc();
razr==r16?outword((unsigned int)itok.number):outdword(itok.number);
setzeroflag=TRUE;
break;
case tk_apioffset:
op66(razr);
op(0x05+vop);
AddApiToPost(itok.number);
setzeroflag=TRUE;
break;
case tk_qwordvar:
case tk_longvar:
case tk_dwordvar:
i=2;
case tk_intvar:
case tk_wordvar:
if(razr==r32&&(tok==tk_intvar||tok==tk_wordvar))goto defxor;
i+=2;
CheckAllMassiv(bufrm,i,&strinf);
op66(razr);
outseg(&itok,2);
op(0x03+vop);
op(itok.rm);
outaddress(&itok);
setzeroflag=TRUE;
break;
case tk_doublevar:
i=4;
case tk_floatvar:
Float2reg32(EDX,i);
itok.number=EDX;
warningreg(regs[1][EDX]);
goto defreg32;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
op66(razr);
op(0x50); //push AX
addESP+=razr==r16?2:4;
oaddstack=addstack;
addstack=FALSE;
procdo(razr==r16?(sign==0?tk_word:tk_int):(sign==0?tk_dword:tk_long));
addstack=oaddstack;
addESP-=razr==r16?2:4;
op66(razr);
op(0x58+EDX);
itok.number=EDX;
warningreg(regs[razr/2-1][EDX]);
if(vop>0x20){
op66(razr);
op(0x90+EDX); //xchg ax,dx
}
goto defreg32;
case tk_bits:
int vops;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)vops=r64;
if(i<=32)vops=r32;
if(i<=16)vops=r16;
bits2reg(CX,(razr<vops?vops:razr));
itok.number=CX;
if(vops==r64)vops=r32;
warningreg(regs[vops/2-1][ECX]);
goto defreg32;
case tk_reg:
if(razr==r32)goto defxor;
case tk_reg32:
defreg32:
op66(razr);
op(0x01+vop);
op(0xC0+(unsigned int)itok.number*8);
setzeroflag=TRUE;
break;
case tk_rmnumber:
case tk_charvar:
case tk_beg:
case tk_bytevar:
defxor:
getintoreg_32(CX,razr,sign,&ofsstr,FALSE);
op66(razr);
op(0x01+vop);
op(0xC8); /* OPT AX,CX */
warningreg(regs[razr/2-1][1]);
next=0;
setzeroflag=TRUE;
break;
default: valueexpected(); break;
}
if(expand==TRUE){
op66(razr);
op(0x83);
if(oldtok==tk_plus)outword(0x00d2); //adc dx,0
else if(oldtok==tk_minus)outword(0x00da); //sbb dx,0
setzeroflag=TRUE;
}
break;
case tk_modminus: negflag=1;
case tk_mod: negflag=1-negflag; vop=1;
case tk_divminus: negflag=1-negflag;
case tk_div:
if(optnum==FALSE)getoperand();
else{
tok=tk_number;
optnum=FALSE;
}
if(tok==tk_number){
if(negflag){
itok.number=-itok.number;
negflag=0;
}
}
DivMod(vop,sign,razr,expand);
if(vop==1&&setzeroflag==0){
op66(razr);
if(optimizespeed)outword(0xC28B); //mov ax,dx
else op(0x92); //xchg ax,dx
}
next=0;
expand=FALSE;
break;
case tk_multminus: negflag=1;
case tk_mult:
expand=expandvar(); //<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><E0A5AD><><EFBFBD><EFA4AD><EFBFBD><EFBFBD>
if(optnum==FALSE)getoperand();
else{
tok=tk_number;
optnum=FALSE;
}
if(negflag&&tok==tk_number){
itok.number=-itok.number;
negflag=0;
}
switch(tok){
case tk_number:
RegMulNum(AX,itok.number,razr,sign,&expand,itok.flag);
break;
case tk_qwordvar:
case tk_longvar:
case tk_dwordvar:
i=2;
case tk_intvar:
case tk_wordvar:
if(razr==r32&&(tok==tk_intvar||tok==tk_wordvar))goto defmul;
i+=2;
CheckAllMassiv(bufrm,i,&strinf);
op66(razr);
outseg(&itok,2);
op(0xF7); //imul var
if(sign)op(0x28+itok.rm);
else op(0x20+itok.rm);
outaddress(&itok);
setzeroflag=FALSE;
break;
case tk_doublevar:
i=4;
case tk_floatvar:
Float2reg32(EDX,i);
op66(razr);
op(0xF7);
op(0xE8+EDX); // IMUL EDX
setzeroflag=FALSE;
warningreg(regs[1][EDX]);
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
op66(razr);
op(0x50); //push AX
addESP+=razr==r16?2:4;
oaddstack=addstack;
addstack=FALSE;
procdo(razr==r16?(sign==0?tk_word:tk_int):(sign==0?tk_dword:tk_long));
addstack=oaddstack;
addESP-=razr==r16?2:4;
op66(razr);
op(0x58+EDX);
itok.number=EDX;
warningreg(regs[razr/2-1][EDX]);
goto mulreg32;
case tk_bits:
int vops;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)vops=r64;
if(i<=32)vops=r32;
if(i<=16)vops=r16;
bits2reg(CX,(razr<vops?vops:razr));
itok.number=CX;
if(vops==r64)vops=r32;
warningreg(regs[vops/2-1][ECX]);
goto mulreg32;
case tk_reg:
i=itok.number;
if(razr==r32)goto mulreg;
case tk_reg32:
mulreg32:
op66(razr);
op(0xF7);
if(sign)op(0xE8+(unsigned int)itok.number);
else op(0xE0+(unsigned int)itok.number);
setzeroflag=FALSE;
break;
case tk_postnumber:
case tk_undefofs:
op66(razr);
op(0x69);
op(0xc0);
if(tok==tk_postnumber)(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
else if(tok==tk_undefofs)AddUndefOff(0,itok.name);
razr==r16?outword(itok.number):outdword(itok.number);
setzeroflag=FALSE;
break;
case tk_apioffset:
op66(razr);
op(0x69);
op(0xc0);
AddApiToPost(itok.number);
setzeroflag=FALSE;
break;
case tk_seg:
case tk_charvar:
case tk_beg:
case tk_bytevar:
case tk_rmnumber:
defmul:
i=EDX;
mulreg:
getintoreg_32(i,razr,sign,&ofsstr,FALSE);
op66(razr);
op(0xF7);
if(sign)op(0xE8+i); /* IMUL i */
else op(0xE0+i); /* MUL i */
next=0;
setzeroflag=FALSE;
warningreg(regs[razr/2-1][2]);
if(i!=EDX)warningreg(regs[razr/2-1][i]);
break;
default: valueexpected(); break;
}
break;
case tk_xorminus: vop+=0x10;
case tk_andminus: vop+=0x18;
case tk_orminus: vop+=0x08;
getoperand();
if(tok==tk_number){
itok.number=-itok.number;
op66(razr);
op(0x05+vop);
if((itok.flag&f_reloc)!=0)AddReloc();
razr==r16?outword((unsigned int)itok.number):outdword(itok.number);
}
else{
getintoreg_32(CX,razr,sign,&ofsstr,FALSE);
NegReg(razr,ECX);
op66(razr);
op(0x01+vop); /* opt AX,CX */
op(0xC8);
warningreg(regs[razr/2-1][1]);
next=0;
}
setzeroflag=TRUE;
break;
case tk_ll:
getoperand();
if(tok==tk_number){
if(expand==TRUE){
if(chip>2||razr==r32){
op66(razr);
op(0x0f);
outword(0xC2a4); //SHLD DX,AX,num
op(itok.number);
}
else{
if((unsigned int)itok.number==1)outdword(0xd213c001); //ADD AX,AX ADC DX,DX
else if((unsigned int)itok.number!=0){
getintobeg(CL,&ofsstr);
outdword(0xd213c001); //ADD AX,AX ADC DX,DX
outword(0xfae2); //LOOP -6
warningreg(begs[1]);
next=0;
}
break;
}
}
lshiftmul(itok.number,razr);
setzeroflag=TRUE;
}
else goto llminus;
break;
case tk_llminus:
tok=tk_minus; // do optimization 286+ here later
llminus:
if(!((tok==tk_beg||tok==tk_reg||tok==tk_reg32)&&itok.number==1)){
getintobeg(CL,&ofsstr);
warningreg(begs[1]);
}
else getoperand();
next=0;
if(expand==TRUE){
if(chip>2||razr==r32){
op66(razr);
op(0x0f);
outword(0xC2a5); //SHLD DX,AX,CL
}
else
outdword(0xd213c001); //ADD AX,AX ADC DX,DX
outword(0xfae2); //LOOP -6
break;
}
op66(razr);
outword(0xE0D3); /* SHL AX,CL */
setzeroflag=TRUE;
break;
case tk_rr:
if(sign)vop=0x10;
getoperand();
if(expand==TRUE){
if(tok==tk_number){
if((unsigned int)itok.number==1){
op66(razr);
outword(0xead1); //shr dx,1 ror ax,1
op66(razr);
outword(0xc8d1); //shr dx,1 ror ax,1
setzeroflag=TRUE;
}
else if((unsigned int)itok.number!=0){
if(chip>2||razr==r32){
op66(razr);
op(0x0f);
outword(0xd0ac); //shrd ax,dx,num
op(itok.number);
op66(razr);
op(0xc1); op(0xea+vop);//s?r dx,num
op(itok.number);
setzeroflag=TRUE;
}
else{
next=0;
getintobeg(CL,&ofsstr);
warningreg(begs[1]);
op(0xd1); op(0xea+vop);//s?r dx,1
outdword(0xfae2d8d1); //rcr ax,1 LOOP -6
setzeroflag=FALSE;
}
}
}
else goto rrminus;
}
else{
RshiftReg(razr,EAX,vop);
setzeroflag=TRUE;
next=0;
}
break;
case tk_rrminus:
if(sign)vop=0x10;
tok=tk_minus; // do optimization 286+ here later
rrminus:
if(!((tok==tk_beg||tok==tk_reg||tok==tk_reg32)&&itok.number==1)){
getintobeg(CL,&ofsstr);
warningreg(begs[1]);
}
else getoperand();
if(expand==TRUE){
if(chip>2||razr==r32){
op66(razr);
op(0x0f);
outword(0xd0ad); //shrd ax,dx,cl
op66(razr);
op(0xd3); op(0xea+vop);//s?r dx,num
setzeroflag=TRUE;
}
else{
op(0xd1); op(0xea+vop);//s?r dx,1
outdword(0xfae2d8d1); //rcr ax,1 //LOOP -6
setzeroflag=FALSE;
}
}
else{
op66(razr);
op(0xD3); op(0xE8+vop); /* SR AX,CL */
setzeroflag=TRUE;
}
next=0;
break;
default: operatorexpected(); break;
}
calcnumber=FALSE;
ClearReg(EAX);
if(negflag){
NegReg(razr,EAX);
setzeroflag=TRUE;
negflag=0;
}
if(next)nexttok();
}
calcnumber=FALSE;
ClearReg(EAX);
if(tok==tk_eof)unexpectedeof();
if(razr==r32&&cpu<3)cpu=3;
}
void getintoal(int gtok,ITOK *gstok,char *&gbuf,SINFO *gstr) // AH may also be changed
{
unsigned int i=0;
switch(gtok){
case tk_bits:
int razr;
i=gstok->bit.siz+gstok->bit.ofs;
if(i<=64)razr=r64;
if(i<=32)razr=r32;
if(i<=16)razr=r16;
if(i<=8)razr=r8;
bits2reg(AL,razr);
break;
case tk_number:
op(0xB0); /* MOV AL,# */
op(gstok->number);
ConstToReg(gstok->number,AL,r8);
break;
case tk_rmnumber:
CheckAllMassiv(gbuf,gstok->size,gstr,gstok);
op66(r16);
op67(gstok->sib==CODE16?r16:r32);
if(gstok->post==0)outseg(gstok,2);
op(0x8D); /* LEA AX,[rm] */
op(gstok->rm);
if(gstok->post!=0&&gstok->post!=UNDEF_OFSET){
if((gstok->flag&f_extern)==0){
i=outptr;
if(am32&&gstok->rm==rm_sib)outptr++;
setwordpost(gstok);
outptr=i;
}
else setwordext(&gstok->number);
}
outaddress(gstok);
ClearReg(AL);
break;
case tk_postnumber:
op66(r16);
op(0xB8); /* MOV AX,# */
(gstok->flag&f_extern)==0?setwordpost(gstok):setwordext(&gstok->number);
outword(gstok->number);
ClearReg(AL);
break;
case tk_floatvar:
if(cpu<3)cpu=3;
CheckInitBP();
op66(r32);
outword(0x6a); //push 0
if(ESPloc&&am32&&gstok->segm==SS)gstok->number+=4;
addESP+=4;
CheckAllMassiv(gbuf,4,gstr,gstok);
outseg(gstok,2); //fld floatvar
op(0xd9);
op(gstok->rm);
outaddress(gstok);
fistp_stack();
op66(r32);
op(0x58); //pop EAX
addESP-=4;
RestoreBP();
ClearReg(AL);
break;
case tk_qwordvar:
i=4;
case tk_longvar:
case tk_dwordvar:
i+=2;
case tk_intvar:
case tk_wordvar:
i++;
case tk_bytevar:
case tk_charvar:
i++;
if((gstok->rm==rm_d16&&gstok->sib==CODE16)||(gstok->rm==rm_d32&&(gstok->sib==CODE32||gstok->sib==0))){
outseg(gstok,1);
op(0xA0); //mov AL,
if(gstok->post==UNDEF_OFSET)AddUndefOff(2,gstok->name);
if(am32==FALSE)outword(gstok->number);
else outdword(gstok->number);
}
else{
CheckAllMassiv(gbuf,i,gstr,gstok);
outseg(gstok,2);
op(0x8A);
op(gstok->rm);
outaddress(gstok);
}
ClearReg(AL);
break;
case tk_reg32:
if(gstok->number>BX){
i=1;
if(gstok->number!=AX)op66(r32);
}
goto beg1;
case tk_reg:
if(gstok->number>BX){
i=1;
if(gstok->number!=AX)op66(r16);
}
case tk_beg:
beg1:
if(gstok->number!=AL){
op(0x88+i); //mov [],AL
op(0xC0+gstok->number*8);
}
ClearReg(AL);
break;
case tk_seg:
op66(r16);
op(0x8C); op(0xC0+gstok->number*8); break;
ClearReg(AL);
default: bytevalexpected(0); break;
}
}
int doalmath(int sign,char **ofsstr)
{
int negflag=0,i=0;
int rettype=tk_beg;
if(tok==tk_minus){
if(CheckMinusNum()==FALSE){
negflag=1;
getoperand(am32==TRUE?EAX:BX);
}
}
#ifdef OPTVARCONST
if(tok>=tk_charvar&&tok<=tk_doublevar&&itok.npointr==0){
if(CheckConstVar(&itok)){
tok=tk_number;
calcnumber=TRUE;
}
}
#endif
switch(tok){
case tk_number:
op(0xB0); //mov AL,num
i=CalcNumber(sign);
op(i);
ConstToReg(i,AL,r8);
break;
case tk_at:
getoperand(am32==TRUE?EAX:BX);
i++;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
if(itok.flag&f_retproc)rettype=(itok.flag&f_retproc)/256+tk_overflowflag-1;
if((!i)||macros(sign!=0?tk_char:tk_byte)==0)procdo(sign!=0?tk_char:tk_byte);
nexttok();
if(*ofsstr){
free(*ofsstr);
*ofsstr=NULL;
}
break;
default:
SINFO bstr=strinf;
strinf.bufstr=NULL;
ITOK btok;
char *bbuf;
btok=itok;
bbuf=bufrm;
bufrm=NULL;
getintoal(tok,&btok,bbuf,&bstr); nexttok(); break;
}
#ifdef OPTVARCONST
calcnumber=FALSE;
#endif
if(negflag){
if(optimizespeed&&(chip==5||chip==6))outdword(0xC0FEFF34); //xor AL,-1 AL++
else outword(0xD8F6);// NEG AL
setzeroflag=TRUE;
}
if(itok.type!=tp_stopper&&tok!=tk_eof&&itok.type!=tp_compare){
doalmath2(sign);
rettype=tk_beg;
}
return rettype;
}
void doalmath2(int sign)
{
int vop,i,next;
int expand=FALSE,optnum=FALSE;
int negflag=0;
char *ofsstr=NULL;
while(itok.type!=tp_stopper&&tok!=tk_eof&&itok.type!=tp_compare){
vop=0;
i=0;
next=1;
#ifdef OPTVARCONST
if(tok2>=tk_charvar&&tok2<=tk_doublevar&&itok2.npointr==0){
if(CheckConstVar(&itok2)){
tok2=tk_number;
calcnumber=TRUE;
}
}
#endif
if(tok2==tk_number)optnum=OptimNum();
int oldtok=tok;
switch(tok){
case tk_xor: vop+=0x08;
case tk_minus: vop+=0x08;
case tk_and: vop+=0x18;
case tk_or: vop+=0x08;
case tk_plus:
if(optnum==FALSE)getoperand();
else{
tok=tk_number;
optnum=FALSE;
}
switch(tok){
case tk_number:
if(itok.number==0&&oldtok!=tk_and)break;
if(itok.number==255&&oldtok==tk_and)break;
op(0x04+vop);
op((unsigned int)itok.number); /* OPT AL,num */
break;
case tk_rmnumber:
CheckAllMassiv(bufrm,itok.size,&strinf);
op66(r16);
op67(itok.sib==CODE16?r16:r32);
if(itok.post==0)outseg(&itok,2);
op(0x8D); /* LEA CX,[rm] */
op(0x8+itok.rm);
if(itok.post!=0&&itok.post!=UNDEF_OFSET){
if((itok.flag&f_extern)==0){
unsigned int ooutptr=outptr;
if(am32&&itok.rm==rm_sib)outptr++;
setwordpost(&itok);
outptr=ooutptr;
}
else setwordext(&itok.number);
}
outaddress(&itok);
op(vop); /* OPT AL,CL */
op(0xC8);
warningreg(regs[0][1]);
break;
case tk_postnumber:
op66(r16);
op(0x05+vop); /* OPT AX,# */
(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
outword((unsigned int)itok.number);
break;
case tk_qwordvar:
i=4;
case tk_longvar:
case tk_dwordvar:
i+=2;
case tk_intvar:
case tk_wordvar:
i++;
case tk_charvar:
case tk_bytevar:
i++;
CheckAllMassiv(bufrm,i,&strinf);
outseg(&itok,2);
op(0x02+vop); op(itok.rm);
outaddress(&itok);
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
op66(r16);
op(0x50); //push AX
addESP+=2;
unsigned char oaddstack;
oaddstack=addstack;
addstack=FALSE;
procdo(sign!=0?tk_char:tk_byte);
addstack=oaddstack;
addESP-=2;
op66(r16);
op(0x58+CX);
itok.number=CX;
warningreg(regs[0][CX]);
if(vop>0x20){
op66(r16);
op(0x90+CX); //xchg ax,Cx
}
goto defbeg;
case tk_bits:
int razr;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)razr=r64;
if(i<=32)razr=r32;
if(i<=16)razr=r16;
if(i<=8)razr=r8;
bits2reg(CL,razr);
itok.number=CL;
if(razr==r64)razr=r32;
warningreg(razr==r8?begs[1]:(regs[razr/2-1][1]));
goto defbeg;
case tk_doublevar:
i=4;
case tk_floatvar:
Float2reg32(EAX,i);
itok.number=0;
case tk_beg:
defbeg:
op(vop);
op(0xC0+(unsigned int)itok.number*8);
break;
case tk_reg32:
case tk_reg:
if((unsigned int)itok.number>BX){
op66(r16);
op(0x89); /* MOV CX,reg */
warningreg(regs[0][1]);
op(0xC1+(unsigned int)itok.number*8); /* MOV instr */
itok.number=CL;
}
goto defbeg;
default: valueexpected(); break;
}
setzeroflag=TRUE;
if(expand==TRUE){
if(oldtok==tk_plus){
outword(0xd480); //ADC AH,0
op(0);
}
else if(oldtok==tk_minus){
outword(0xdc80); //SBB AH,0
op(0);
}
setzeroflag=FALSE;
}
break;
case tk_modminus: negflag=1;
case tk_mod: negflag=1-negflag; vop=1;
case tk_divminus: negflag=1-negflag;
case tk_div:
if(optnum==FALSE)getoperand();
else{
tok=tk_number;
optnum=FALSE;
}
if(tok==tk_number){
if(negflag){
itok.number=-itok.number;
negflag=0;
}
itok.number&=255;
if(vop){ //%
if(itok.number==0)DevideZero();
if(caselong(itok.number)!=NUMNUM){
op(0x24); /* AND AL,number-1 */
op((unsigned int)itok.number-1);
setzeroflag=TRUE;
}
else{
if(expand==FALSE){
if(sign)cbw();
else xorAHAH();
}
op(0xB1); op((unsigned int)itok.number); /* MOV CL,# */
if(sign)outword(0xF9F6); /* IDIV CL */
else outword(0xF1F6); /* DIV CL */
outword(0xE088);// MOV AL,AH
setzeroflag=FALSE;
warningreg(begs[1]);
break;
}
}
else{
switch((unsigned int)itok.number){
case 0:
DevideZero();
break;
case 1: break;
case 2:
op(0xd0+expand);
if(sign)op(0xf8);
else op(0xE8);// SHR AL,1
setzeroflag=TRUE;
break;
default:
vop=caselong(itok.number);
if(vop!=NUMNUM){
if(chip<2){
op(0xB1); op(vop); /* MOV CL,num */
op(0xd2+expand);
if(sign)op(0xF8); // SAR AL,CL
else op(0xE8); // SHR AL,CL
warningreg(begs[1]);
}
else{
op(0xc0+expand);
if(sign)op(0xF8); /* SAR AL,num */
else op(0xE8); /* SHR AL,num */
op(vop);
if(cpu<2)cpu=2;
}
setzeroflag=TRUE;
}
else{
if(expand==FALSE){
if(optimizespeed&&(itok.flag&f_reloc)==0&&sign==0){ //for signed needed new algoritm
//<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E3ACAD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
itok.number=256/(unsigned int)itok.number+1;
if(chip>4){
xorAHAH();
op66(r16);
outword(0xC06B); //imul AX,num
op(itok.number);
warningreg(regs[0][2]);
}
else{
op(0xB2); //mov DL,num
op(itok.number);
outword(0xE2F6); //mul DL
warningreg(begs[2]);
}
outword(0xE088); //mov AL.AH
setzeroflag=FALSE;
break;
}
if(sign)cbw();
else xorAHAH();
}
op(0xB1); /* MOV CL,# */
op((unsigned int)itok.number);
if(sign)outword(0xF9F6); /* IDIV CL */
else outword(0xF1F6); /* DIV CL */
setzeroflag=FALSE;
warningreg(begs[1]);
}
}
}
}
else{
case tk_doublevar:
i=4;
if(tok==tk_floatvar){
Float2reg32(ECX,i);
itok.number=ECX;
tok=tk_beg;
sign=1;
}
if(expand==FALSE){
if(sign)cbw();
else xorAHAH();
}
switch(tok){
case tk_rmnumber:
case tk_postnumber:
getintoreg_32(CX,r16,sign,&ofsstr,FALSE);
if(sign)outword(0xF9F6); // IDIV CL
else outword(0xF1F6); // DIV CL
setzeroflag=FALSE;
warningreg(regs[0][1]);
break;
case tk_qwordvar:
i=4;
case tk_longvar:
case tk_dwordvar:
i+=2;
case tk_intvar:
case tk_wordvar:
i++;
case tk_charvar:
case tk_bytevar:
i++;
CheckAllMassiv(bufrm,i,&strinf);
outseg(&itok,2);
op(0xF6);
if(sign)op(0x38+itok.rm);
else op(0x30+itok.rm);
outaddress(&itok);
setzeroflag=FALSE;
break;
case tk_bits:
int razr;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)razr=r64;
if(i<=32)razr=r32;
if(i<=16)razr=r16;
if(i<=8)razr=r8;
bits2reg(CL,razr);
itok.number=CL;
if(razr==r64)razr=r32;
warningreg(razr==r8?begs[1]:(regs[razr/2-1][1]));
goto defdiv;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
op66(r16);
op(0x50); //push AX
addESP+=2;
unsigned char oaddstack;
oaddstack=addstack;
addstack=FALSE;
procdo(sign!=0?tk_char:tk_byte);
addstack=oaddstack;
addESP-=2;
op66(r16);
op(0x58+CX);
itok.number=CX;
warningreg(regs[0][CX]);
op66(r16);
op(0x90+CX); //xchg ax,cx
case tk_beg:
defdiv:
op(0xF6);
if(sign)op(0xF8+(unsigned int)itok.number);
else op(0xF0+(unsigned int)itok.number);
setzeroflag=FALSE;
break;
case tk_reg32:
case tk_reg:
if((unsigned int)itok.number>BX){
op66(r16);
op(0x89); /* MOV CX,reg */
warningreg(regs[0][1]);
op(0xC1+(unsigned int)itok.number*8); /* MOV instr */
itok.number=CL;
}
goto defdiv;
default: valueexpected(); break;
}
if(vop)outword(0xE088);// MOV AL,AH
}
expand=FALSE;
break;
case tk_multminus: negflag=1;
case tk_mult:
expand=expandvar();
if(optnum==FALSE)getoperand();
else{
tok=tk_number;
optnum=FALSE;
}
switch(tok){
case tk_number:
if(negflag){
itok.number=-itok.number;
negflag=0;
}
itok.number&=255;
switch((unsigned int)itok.number){
case 0: /* AL * 0 = MOV AL,0 */
outword(0x00B0);
case 1:
expand=FALSE;
setzeroflag=FALSE;
break; /* AL * 1 = AL */
case 2:
if(expand==TRUE){
if(sign)cbw();
else xorAHAH();
}
outword(0xC000+expand); // AL * 2 = ADD AL,AL
setzeroflag=TRUE;
break;
default:
vop=caselong(itok.number);
if(vop!=NUMNUM){
if(chip<1){
if(expand==TRUE){
if(optimizespeed==FALSE&&sign==FALSE)goto num_imul;
if(sign)cbw();
else xorAHAH();
}
op(0xB1); op(vop); /* MOV CL,num */
outword(0xE0D2+expand);// SHL AL,CL
warningreg(begs[1]);
}
else{
if(expand==TRUE){
if(optimizespeed==FALSE&&sign==FALSE)goto num_imul;
if(sign)cbw();
else xorAHAH();
op66(r16);
}
outword(0xe0c0+expand); //SHL AX/L,num
op(vop);
if(cpu<1)cpu=1;
}
setzeroflag=TRUE;
}
else if(expand==FALSE&&optimizespeed!=FALSE&&
speedmul(itok.number,r8)!=FALSE);
else{
num_imul:
op(0xB1); /* MOV CL,# */
op((unsigned int)itok.number);
if(sign)outword(0xE9F6);// IMUL CL
else outword(0xE1F6); // MUL CL
setzeroflag=FALSE;
warningreg(begs[1]);
}
}
break;
case tk_rmnumber:
case tk_postnumber:
getintoreg_32(CX,r16,sign,&ofsstr,FALSE);
if(sign)outword(0xE9F6); // IMUL CL
else outword(0xE1F6); // MUL CL
setzeroflag=FALSE;
warningreg(regs[0][1]);
break;
case tk_doublevar:
i=4;
case tk_floatvar:
Float2reg32(ECX,i);
itok.number=ECX;
outword(0xE9F6); // IMUL CL
setzeroflag=FALSE;
warningreg(begs[1]);
break;
case tk_qwordvar:
i=4;
case tk_longvar:
case tk_dwordvar:
i+=2;
case tk_intvar:
case tk_wordvar:
i++;
case tk_charvar:
case tk_bytevar:
i++;
CheckAllMassiv(bufrm,i,&strinf);
outseg(&itok,2);
op(0xF6);
if(sign)op(0x28+itok.rm);
else op(0x20+itok.rm);
outaddress(&itok);
setzeroflag=FALSE;
break;
case tk_bits:
int razr;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)razr=r64;
if(i<=32)razr=r32;
if(i<=16)razr=r16;
if(i<=8)razr=r8;
bits2reg(CL,razr);
itok.number=CL;
if(razr==r64)razr=r32;
warningreg(razr==r8?begs[1]:(regs[razr/2-1][1]));
goto defmul;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
op66(r16);
op(0x50); //push AX
addESP+=2;
unsigned char oaddstack;
oaddstack=addstack;
addstack=FALSE;
procdo(sign!=0?tk_char:tk_byte);
addstack=oaddstack;
addESP-=2;
op66(r16);
op(0x58+DX);
itok.number=DX;
warningreg(regs[0][DX]);
case tk_beg:
defmul:
op(0xF6);
if(sign)op(0xE8+(unsigned int)itok.number);
else op(0xE0+(unsigned int)itok.number);
setzeroflag=FALSE;
break;
case tk_reg32:
case tk_reg:
if((unsigned int)itok.number>BX){
op66(r16);
op(0x89); /* MOV CX,reg */
warningreg(regs[0][1]);
op(0xC1+(unsigned int)itok.number*8); /* MOV instr */
itok.number=CL;
}
goto defmul;
default: valueexpected(); break;
}
break;
case tk_xorminus: vop+=0x10;
case tk_andminus: vop+=0x18;
case tk_orminus: vop+=0x08;
getoperand();
if(tok==tk_number){
itok.number=-itok.number;
op(0x04+vop);
op((unsigned int)itok.number);
}
else{
getintobeg(CL,&ofsstr);
if(optimizespeed&&(chip==5||chip==6)){
op(0x80);
outdword(0xC1FEFFE1); //and CL,-1 inc CL
}
else outword(0xD9F6); // NEG CL
op(0x00+vop);
op(0xC8); /* opt AL,CL */
warningreg(begs[1]);
next=0;
}
setzeroflag=TRUE;
break;
case tk_rr:
vop=8;
if(sign)vop+=0x10;
case tk_ll:
getoperand();
if(tok==tk_number){
if((unsigned int)itok.number==1){
if(expand==TRUE)op66(r16);
op(0xD0+expand); op(0xE0+vop); /* SR AL,1 */
}
else if((unsigned int)itok.number!=0){
if(chip<2) goto llminus;
else{
if(expand==TRUE)op66(r16);
op(0xC0+expand); op(0xE0+vop); /* SR AL,imm8 */
op((unsigned int)itok.number);
if(cpu<2)cpu=2;
}
}
setzeroflag=TRUE;
}
else goto llminus;
break;
case tk_rrminus:
vop=8;
if(sign)vop+=0x10;
case tk_llminus:
tok=tk_minus; // need 286+ opt some time
llminus:
if(!((tok==tk_beg||tok==tk_reg||tok==tk_reg32)&&itok.number==1)){
getintobeg(CL,&ofsstr);
warningreg(begs[1]);
}
else getoperand();
if(expand==TRUE)op66(r16);
op(0xD2+expand); op(0xE0+vop);
setzeroflag=TRUE;
next=0;
break;
default: operatorexpected(); break;
}
if(negflag){
if(optimizespeed&&(chip==5||chip==6))outdword(0xC0FEFF34); //xor AL,-1 AL++
else outword(0xD8F6);// NEG AL
negflag=0;
setzeroflag=TRUE;
}
if(next)nexttok();
ClearReg(AX);
}
#ifdef OPTVARCONST
calcnumber=FALSE;
#endif
if(tok==tk_eof)unexpectedeof();
}
/* =============== doreg_32(), dobeg(), doseg() ===============*/
int doreg_32(int reg,int razr,int terminater)
{
unsigned char next=1;
int vop=0,sign=0;
int i;
int reg1=idxregs[0],reg2=idxregs[1];
unsigned long ii;
int rettype=tk_reg;
int rrettype,pointr=0;
int numpointr=0;
char *ofsstr=NULL;
if(reg==reg1){
reg1=idxregs[1];
reg2=idxregs[2];
}
if(reg==reg2)reg2=idxregs[2];
if(reg==ESP)RestoreStack();
rrettype=razr==r16?tk_word:tk_dword;
nexttok();
switch(tok){
case tk_assign://=
if(am32)idxregs[4]=reg;
if(!((tok2==tk_reg||tok2==tk_reg32||tok2==tk_beg)&&ScanTok3()==terminater)){
ofsstr=GetLecsem(terminater);
}
else{
nexttok();
switch(tok){
case tk_beg:
i=r8;
break;
case tk_reg:
i=r16;
break;
case tk_reg32:
i=r32;
break;
}
if(i!=razr||RegToReg(reg,itok.number,i)==NOINREG)goto nn1;
waralreadinitreg(regs[razr/4][itok.number],regs[razr/4][reg]);
if(am32)idxregs[4]=255;
break;
}
if(ofsstr){
int retreg;
if((retreg=CheckIDZReg(ofsstr,reg,razr))!=NOINREG){
GetEndLex(terminater);
if(razr==r16)tok=tk_reg;
else tok=tk_reg32;
itok.number=retreg==SKIPREG?reg:retreg;
goto nn1;
}
}
nexttok();
convert_type(&sign,&rrettype,&pointr,am32==TRUE?reg:BX);
if(rrettype==tk_float||rrettype==tk_double){
if(am32)idxregs[4]=255;
doeaxfloatmath(tk_reg32,reg,rrettype==tk_float?0:4);
next=0;
if(ofsstr){
IDZToReg(ofsstr,reg,razr);
free(ofsstr);
}
break;
}
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr)unuseableinput();
if(tok2==tk_assign){
int hnumber=MultiAssign(razr,USEALLREG,numpointr);
// puts("end MultAssign");
if(ofsstr){
free(ofsstr);
ofsstr=NULL;
}
if(reg!=hnumber){
op66(razr);
op(0x89);
op(0xC0+reg+hnumber*8); //mov reg,AX
}
next=0;
/* if(ofsstr){
IDZToReg(ofsstr,reg,razr);
free(ofsstr);
}*/
if(am32)idxregs[4]=255;
break;
}
// printf("tok=%d %s\n",tok,itok.name);
if(tok==tk_pointer)cpointr(am32==TRUE?reg:BX,numpointr);
if(tok==tk_new||tok==tk_delete){
if(tok==tk_new)donew();
else{
dodelete();
terminater=next=0;
}
if(am32)idxregs[4]=255;
if(reg!=AX){
GenRegToReg(reg,AX,(am32+1)*2);
}
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
if(ofsstr){
free(ofsstr);
ofsstr=NULL;
}
break;
}
nn1:
if(am32)idxregs[4]=255;
if(reg==AX){
if(rrettype==tk_char||rrettype==tk_byte)rettype=doalmath(sign,&ofsstr);
else if(rrettype==tk_int||rrettype==tk_word)rettype=do_e_axmath(sign,r16,&ofsstr);
else rettype=do_e_axmath(sign,r32,&ofsstr);
convert_returnvalue(razr==r16?tk_word:tk_dword,rrettype);
}
else{
if(rrettype==tk_char||rrettype==tk_byte&&reg<=BX){
rettype=getintobeg(reg,&ofsstr);
if(itok.type!=tp_stopper&&tok!=tk_eof){
dobegmath(reg);
rettype=tk_beg;
}
op66(razr);
op(0x0F);
if(!sign)op(0xB6);
else op(0xBE);
op(0xC0+reg*9);
}
else{
if(rrettype==tk_int||rrettype==tk_word)next=r16;
else next=r32;
rettype=getintoreg(reg,next,sign,&ofsstr);
if(next==r16&&razr==r32){
op66(r32);
op(0x0F);
if(!sign)op(0xB7);
else op(0xBF);
op(0xC0+reg*9);
}
}
}
next=0;
if(ofsstr){
IDZToReg(ofsstr,reg,razr);
free(ofsstr);
}
break;
case tk_plusplus: op66(razr); op(0x40+reg);
ClearReg(reg);
break;
case tk_minusminus: op66(razr); op(0x48+reg);
ClearReg(reg);
break;
case tk_cdecl:
case tk_pascal:
case tk_fastcall:
case tk_stdcall:
vop=tok;
nexttok();
if(tok!=tk_openbracket){
expected('(');
FindStopTok();
}
case tk_openbracket: //<2F><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD> <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><E0A5A3><EFBFBD><EFBFBD><EFBFBD>
param[0]=0;
i=0;
switch ( vop ) {
case tk_cdecl:
case tk_stdcall:
i=swapparam();
break;
case tk_pascal:
doparams();
break;
case tk_fastcall:
doregparams();
break;
default:
if(comfile==file_w32)swapparam();
else doparams();
}
if(vop!=tk_cdecl)i=0;
op66(razr);
op(0xFF);
op(0xD0+reg); /* CALL reg with stack params */
if(i)CorrectStack(i);
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
break;
case tk_swap:
getoperand(reg==BX?SI:BX);
switch(tok){
case tk_qwordvar:
case tk_longvar:
case tk_dwordvar:
if(razr==r16)swaperror();
i=4;
goto swapint;
case tk_intvar:
case tk_wordvar:
i=2;
if(razr==r32)swaperror();
swapint:
ClearReg(reg);
CheckAllMassiv(bufrm,i,&strinf,&itok,reg1,reg2);
op66(razr);
outseg(&itok,2);
op(0x87);
op(reg*8+itok.rm);
outaddress(&itok);
break;
case tk_reg32:
if(razr==r16)swaperror();
goto swapreg;
case tk_reg:
if(razr==r32)swaperror();
swapreg:
if(reg!=(int)itok.number){
if(RegSwapReg(reg,itok.number,razr)==NOINREG){;
op66(razr);
if(reg==AX)op(0x90+(unsigned int)itok.number);
else if((unsigned int)itok.number==AX)op(0x90+reg);
else{
op(0x87);
op(0xC0+(unsigned int)itok.number+reg*8);
}
}
else waralreadinitreg(regs[razr/4][reg],regs[razr/4][itok.number]);
}
break;
default: swaperror(); break;
}
break;
case tk_xorequals: vop+=0x08;
case tk_minusequals: vop+=0x08;
case tk_andequals: vop+=0x18;
case tk_orequals: vop+=0x08;
case tk_plusequals:
ClearReg(reg);
if(am32&&uselea&&tok==tk_plusequals){
if(RegEqualToLea(reg)){
next=0;
break;
}
}
if(CheckAddOnly()){
inptr2--;
cha2=' ';
if(tok==tk_plusequals)tok=tk_plus;
else tok=tk_minus;
if(reg==EAX)do_e_axmath2(0,razr,0);
else doregmath_32(reg,razr,0,&ofsstr);
next=0;
break;
}
getoperand(reg==BX?SI:BX);
if(itok2.type==tp_opperand&&tok!=tk_number&&tok!=tk_undefofs&&tok!=tk_postnumber)goto defadd;
CheckMinusNum();
idrec *rrec;
int opost;
i=tok;
switch(tok){
case tk_postnumber:
case tk_undefofs:
ii=itok.number;
rrec=itok.rec;
opost=itok.post;
char uname[IDLENGTH];
strcpy(uname,itok.name);
if(itok.flag&f_extern)goto addnum;
tok=tk_number;
case tk_number:
ii=doconstdwordmath();
next=0;
if(itok.type==tp_opperand){
if(reg==EAX){
sign=ECX;
if((tok2==tk_reg||tok2==tk_reg32)&&itok2.number==ECX)sign=EDX;
warningreg(regs[razr/2-1][sign]);
}
if(i==tk_postnumber||i==tk_undefofs){
op66(razr);
op(0xB8+reg); // MOV reg,#
if(i==tk_postnumber)(postnumflag&f_extern)==0?setwordpost(&itok):setwordext((long *)&ii);
else{
if((postnumflag&f_reloc)!=0)AddReloc();
if(i==tk_undefofs)AddUndefOff(2,uname);
}
razr==r16?outword(ii):outdword(ii);
}
else MovRegNum(razr,postnumflag&f_reloc,ii,sign);
if(sign==EAX)do_e_axmath2(0,razr,0);
else doregmath_32(sign,razr,0,&ofsstr);
itok.number=sign;
goto addreg;
}
if((postnumflag&f_reloc)==0&&i!=tk_undefofs&&i!=tk_postnumber&&optnumadd(ii,reg,razr,vop))break;
addnum:
op66(razr);
if(reg==AX)op(0x05+vop);
else{
op(0x81);
op(0xC0+vop+reg);
}
itok.rec=rrec;
itok.post=opost;
if(i==tk_postnumber)(postnumflag&f_extern)==0?setwordpost(&itok):setwordext((long *)&ii);
else{
if((postnumflag&f_reloc)!=0)AddReloc();
if(i==tk_undefofs)AddUndefOff(2,uname);
}
razr==r16?outword(ii):outdword(ii);
break;
case tk_qwordvar:
case tk_longvar:
case tk_dwordvar:
i=4;
goto wordadd;
case tk_intvar:
case tk_wordvar:
i=2;
if(razr==r32)valueexpected();
wordadd:
CheckAllMassiv(bufrm,i,&strinf,&itok,reg1,reg2);
op66(razr);
outseg(&itok,2);
op(0x03+vop);
op(reg*8+itok.rm);
outaddress(&itok);
break;
case tk_reg:
if(razr==r32)valueexpected();
case tk_reg32:
addreg:
op66(razr);
op(0x01+vop);
op(0xC0+reg+(unsigned int)itok.number*8);
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
unsigned char oaddstack;
if(reg==EAX){
op66(razr);
op(0x50); //push AX
addESP+=razr==r16?2:4;
warningreg(regs[razr/2-1][EDX]);
oaddstack=addstack;
addstack=FALSE;
}
procdo(razr==r16?tk_word:tk_dword);
if(itok2.type==tp_opperand){
nexttok();
do_e_axmath2(0,razr,0);
next=0;
}
if(reg==EAX){
addstack=oaddstack;
addESP-=razr==r16?2:4;
op66(razr);
op(0x58+EDX); //pop dx
if(vop>0x20){
op66(razr);
op(0x90+EDX); //xchg ax,dx
}
op66(razr);
op(0x01+vop);
op(0xc0+EDX*8); //add ax,dx
}
else{
op66(razr);
op(0x01+vop);
op(0xc0+reg); //add reg,ax
}
break;
case tk_seg:
if(razr==r32)valueexpected();
case tk_bytevar:
case tk_charvar:
case tk_beg:
defadd:
if(reg==AX){
getintoreg_32(ECX,razr,sign,&ofsstr);
doregmath_32(ECX,razr,sign,&ofsstr);
sign=CX; //sign <20><><EFBFBD> <20><><EFBFBD> <20>஬ ॣ<><E0A5A3><EFBFBD><EFBFBD>
}
else{
do_e_axmath(0,razr,&ofsstr);
sign=EAX;
}
warningreg(regs[razr/2-1][sign]);
op66(razr);// OPT reg32,ECX
op(0x01+vop);
op(0xC0+reg+sign*8);
next=0;
break;
default: valueexpected(); break;
}
break;
case tk_rrequals: vop+=0x08;
case tk_llequals:
ClearReg(reg);
getoperand(am32==TRUE?ECX:reg==BX?SI:BX);
CheckMinusNum();
if(tok==tk_number){
ii=doconstlongmath();
next=0;
if(itok.type==tp_opperand){
if(reg==ECX)regshifterror();
op(0xB0+CL); op(ii); //mov CL,num
dobegmath(CL);
warningreg(begs[1]);
ConstToReg(ii,CL,r8);
goto shiftcl;
}
if(ii==1){
op66(razr);
op(0xD1); op(0xE0+reg+vop);
} /* SHL reg,1 */
else if(ii!=0){
if(chip<2&&razr==r16){
op(0xB0+CL); op(ii); //mov CL,num
warningreg(begs[1]);
ConstToReg(ii,CL,r8);
goto shiftcl;
}
else{
op66(razr);
op(0xC1); op(0xE0+reg+vop); /* SHL reg,imm8 */
op(ii);
if(cpu<2)cpu=2;
}
}
}
else if(reg!=CX){
if(!(itok2.type==tp_stopper&&(tok==tk_beg||tok==reg||tok==tk_reg32)&&itok.number==CL)){
getintobeg(CL,&ofsstr);
dobegmath(CL);
warningreg(begs[1]);
ClearReg(CL);
next=0;
}
shiftcl:
op66(razr);
op(0xD3); op(0xE0+vop+reg); /* SHL AX,CL */
}
else regshifterror();
break;
case tk_multequals:
ClearReg(reg);
getoperand(reg==BX?SI:BX);
CheckMinusNum();
if(tok==tk_number){
ii=doconstlongmath();
next=0;
if(itok.type==tp_opperand){
if(reg==EAX)sign=ECX;
MovRegNum(razr,postnumflag&f_reloc,ii,sign);
if(sign==EAX)do_e_axmath2(0,razr,0);
else doregmath_32(ECX,razr,0,&ofsstr);
ConstToReg(ii,sign,razr);
goto mulreg;
}
i=0;
RegMulNum(reg,ii,razr,0,&i,itok.flag);
}
else{
if(itok2.type==tp_stopper)next=(unsigned char)MulReg(reg,razr);
else{
if(reg==AX){
getintoreg_32(ECX,razr,sign,&ofsstr);
doregmath_32(ECX,razr,sign,&ofsstr);
sign=CX; //sign <20><><EFBFBD> <20><><EFBFBD> <20>஬ ॣ<><E0A5A3><EFBFBD><EFBFBD>
}
else{
do_e_axmath(0,razr,&ofsstr);
sign=EAX;
}
mulreg:
warningreg(regs[razr/2-1][sign]);
ClearReg(sign);
op66(razr);
outword(0xAF0F);
op(0xC0+reg*8+sign);
next=0;
}
}
break;
case tk_divequals:
getoperand(reg==BX?SI:BX);
ClearReg(reg);
CheckMinusNum();
if(tok==tk_number){
ii=doconstlongmath();
next=0;
if(itok.type==tp_opperand){
op66(razr);
op(0x50+reg); //push reg
addESP+=razr==r16?2:4;
MovRegNum(razr,postnumflag&f_reloc,ii,EAX);
do_e_axmath2(0,razr,0);
ClearReg(AX);
goto divreg;
}
if((vop=caselong(ii))!=NUMNUM&&(!(reg==ECX&&chip<2))){
if(vop!=0){
if(chip<2&&razr==r16){
op(0xB1); op(vop); /* MOV CL,num */
op(0xD3);
op(0xE8+reg); // SHR reg,CL
warningreg(begs[1]);
ClearReg(CX);
}
else{
op66(razr);
op(0xC1);
op(0xE8+reg); // SHR reg,num
op(vop);
}
}
}
else{
if(reg!=EAX){
op66(razr);
op(0x90+reg); //xchg reg,AX
}
DivNum(ii,razr,0);
if(reg!=EAX){
op66(razr);
op(0x90+reg); //xchg reg,AX
warningreg(regs[razr/2-1][EAX]);
ClearReg(AX);
}
}
}
else if(itok2.type==tp_stopper){
if(reg!=EAX){
op66(razr);
op(0x90+reg); //xchg reg,AX
}
DivMod(0,0,razr,0);
next=0;
if(reg!=EAX){
op66(razr);
op(0x90+reg); //xchg reg,AX
warningreg(regs[razr/2-1][EAX]);
ClearReg(AX);
}
}
else{
op66(razr);
op(0x50+reg); //push reg
addESP+=razr==r16?2:4;
do_e_axmath(0,razr,&ofsstr);
divreg:
op66(razr);
sign=reg;
if(reg==EAX){
sign=ECX;
warningreg(regs[razr/2-1][ECX]);
ClearReg(CX);
}
addESP-=razr==r16?2:4;
op(0x58+sign); //pop sign
op66(razr);
op(0x90+sign); //xchg AX,sign
op66(razr);
op(0xF7);
op(0xF0+sign); // DIV reg
op66(razr);
if(reg!=EAX){
if(optimizespeed){
op(0x89);
op(0xC0+reg); //mov reg,AX
}
else op(0x90+reg); //xchg AX,sign
}
warningreg(regs[razr/2-1][EAX]);
ClearReg(AX);
next=0;
}
break;
default: operatorexpected(); break;
}
if(next)nexttok();
if(terminater==tk_semicolon)seminext();
if(razr==r32&&cpu<3)cpu=3;
// puts("return doreg_32");
return rettype;
}
int optnumadd(unsigned long num,int reg,int razr,int vop)
{
int nrazr=0;
if(num==0){
if(vop==0x20){ //&=
ZeroReg(reg,razr);
setzeroflag=TRUE;
}
return TRUE; //+= -= |= ^=
}
if(vop==8){ //|=
if(num<65536&&razr==r32)nrazr=razr=r16;
if((unsigned short)num<256&&razr==r16&&reg<4){
if(reg==AX)op(0x0C);
else{
op(0x80);
op(0xc8+reg);
}
op(num);
return TRUE;
}
if(nrazr==r16){
op66(r16);
if(reg==AX)op(0x0D);
else{
op(0x81);
op(0xc8+reg);
}
outword(num);
return TRUE;
}
}
if(num==1){
if(vop==0x28){ //-=
op66(razr);
op(0x48+reg);
setzeroflag=TRUE;
return TRUE;
}
if(vop==0){ //+=
op66(razr);
op(0x40+reg);
setzeroflag=TRUE;
return TRUE;
}
}
if(!optimizespeed&&num==2&&((razr==r16&&am32==FALSE)||(razr==r32&&am32))){
if(vop==0x28){ //-=
op(0x48+reg);
op(0x48+reg);
setzeroflag=TRUE;
return TRUE;
}
if(vop==0){ //+=
op66(razr);
op(0x40+reg);
op66(razr);
op(0x40+reg);
setzeroflag=TRUE;
return TRUE;
}
}
if((razr==r16&&(unsigned short)num==0xffff)||
(razr==r32&&num==0xffffffff)){
if(vop==0x28){ //-=
op66(razr);
op(0x40+reg);
setzeroflag=TRUE;
return TRUE;
}
if(vop==0){ //+=
op66(razr);
op(0x48+reg);
setzeroflag=TRUE;
return TRUE;
}
if(vop==0x20)return TRUE; //&=
if(vop==0x30){ //^=
if(optimizespeed&&(chip==5||chip==6))return FALSE;
op66(razr);
op(0xF7);
op(0xD0+reg); //Not reg
setzeroflag=FALSE;
return TRUE;
}
}
if(vop==0x20){ //&=
if(num>=0xFFFF0000&&razr==r32)nrazr=razr=r16;
if(razr==r16&&(unsigned short)num>=0xFF00&&reg<4){
if(reg==AL)op(0x24);
else{
op(128);
op(0xE0+reg);
}
op(num);
return TRUE;
}
if(nrazr==r16){
op66(r16);
if(reg==AX)op(0x25);
else{
op(129);
op(0xE0+reg);
}
outword(num);
return TRUE;
}
}
if(!optimizespeed&&(razr==r16&&(unsigned short)num==0xfffe&&am32==FALSE)||
(razr==r32&&num==0xfffffffe&&am32)){
if(vop==0x28){ //-=
op(0x40+reg);
op(0x40+reg);
setzeroflag=TRUE;
return TRUE;
}
if(vop==0){ //+=
op(0x48+reg);
op(0x48+reg);
setzeroflag=TRUE;
return TRUE;
}
}
if(short_ok(num,razr/2-1)){
op66(razr);
op(0x83);
op(0xC0+vop+reg);
op(num);
setzeroflag=TRUE;
return TRUE;
}
return FALSE;
}
int dobeg(int beg,int terminater)
{
unsigned char next=1;
int vop=0,i=0,sign=0;
int rettype=tk_beg,pointr=0;;
int rrettype=tk_byte;
int numpointr=0;
char *ofsstr=NULL;
nexttok();
switch(tok){
case tk_assign:
if(!((tok2==tk_reg||tok2==tk_reg32||tok2==tk_beg)&&ScanTok3()==terminater)){
ofsstr=GetLecsem(terminater);
}
else{
nexttok();
if(RegToReg(beg,itok.number,r8)==NOINREG)goto nn1;
waralreadinitreg(begs[itok.number],begs[beg]);
break;
}
if(ofsstr){
int retreg;
if((retreg=CheckIDZReg(ofsstr,beg,r8))!=NOINREG){
GetEndLex(terminater);
tok=tk_beg;
itok.number=retreg==SKIPREG?beg:retreg;
goto nn1;
}
}
nexttok();
convert_type(&sign,&rrettype,&pointr,am32==TRUE?(beg>3?beg-4:beg):BX);
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr)unuseableinput();
if(tok2==tk_assign){
int hnumber=MultiAssign(r8,(beg>3?beg-4:beg),numpointr);
if(ofsstr){
free(ofsstr);
ofsstr=NULL;
}
if(beg!=hnumber){
op(0x88);
op(0xC0+beg+hnumber*8); //mov beg,AL
}
next=0;
if(ofsstr){
IDZToReg(ofsstr,beg,r8);
free(ofsstr);
}
break;
}
if(tok==tk_pointer)cpointr(am32==TRUE?(beg>3?beg-4:beg):BX,numpointr);
nn1:
if(beg==AL){
if(rrettype==tk_char||rrettype==tk_byte)rettype=doalmath(sign,&ofsstr);
else if(rrettype==tk_int||rrettype==tk_word)rettype=do_e_axmath(sign,r16,&ofsstr);
else rettype=do_e_axmath(sign,r32,&ofsstr);
next=0;
}
else{
if(rrettype==tk_char||rrettype==tk_byte||beg>BL){
rettype=getintobeg(beg,&ofsstr);
if(itok.type!=tp_stopper&&tok!=tk_eof){
dobegmath(beg);
rettype=tk_beg;
}
}
else{
if(rrettype==tk_int||rrettype==tk_word)next=r16;
else next=r32;
rettype=getintoreg(beg,next,sign,&ofsstr);
}
next=0;
}
if(ofsstr){
IDZToReg(ofsstr,beg,r8);
free(ofsstr);
}
break;
case tk_plusplus: op(0xFE); op(0xC0+beg);
ClearReg(beg>3?beg%4:beg);
break;
case tk_minusminus: op(0xFE); op(0xC8+beg);
ClearReg(beg>3?beg%4:beg);
break;
case tk_swap:
getoperand(beg==BL||beg==BH?SI:BX);
switch(tok){
case tk_charvar:
case tk_bytevar:
CheckAllMassiv(bufrm,1,&strinf);
outseg(&itok,2);
op(0x86);
op(beg*8+itok.rm);
outaddress(&itok);
KillVar(itok.name);
ClearReg(beg>3?beg-4:beg);
break;
case tk_beg:
if(beg!=(int)itok.number){
if(RegSwapReg(beg,itok.number,r8)==NOINREG){
op(0x86);
op(0xC0+(unsigned int)itok.number+beg*8);
}
else waralreadinitreg(begs[beg],begs[itok.number]);
}
break;
default: swaperror(); break;
}
break;
case tk_xorequals: vop+=0x08;
case tk_minusequals: vop+=0x08;
case tk_andequals: vop+=0x18;
case tk_orequals: vop+=0x08;
case tk_plusequals:
ClearReg(beg>3?beg%4:beg);
if(CheckAddOnly()){
inptr2--;
cha2=' ';
if(tok==tk_plusequals)tok=tk_plus;
else tok=tk_minus;
if(beg==AL)doalmath2(0);
else dobegmath(beg);
next=0;
break;
}
getoperand(beg==BL||beg==BH?SI:BX);
if(itok2.type==tp_opperand&&tok!=tk_number){
if(beg==AL){
getintobeg(CL,&ofsstr);
dobegmath(CL);
sign=CL; //sign <20><><EFBFBD> <20><><EFBFBD> <20>஬ ॣ<><E0A5A3><EFBFBD><EFBFBD>
}
else{
doalmath(0,&ofsstr);
sign=EAX;
}
warningreg(begs[sign]);
op(0x00+vop);
op(0xC0+beg+sign*8);
next=0;
break;
}
switch(tok){
case tk_number:
i=doconstlongmath();
next=0;
if(i==0&&(vop==0||vop==0x28||vop==8))break;
if(i==255&&vop==0x20)break;
if(beg==AL)op(0x04+vop);
else{
op(0x80);
op(0xC0+vop+beg);
}
op(i);
break;
case tk_qwordvar:
i+=4;
case tk_longvar:
case tk_dwordvar:
i+=2;
case tk_wordvar:
case tk_intvar:
i++;
case tk_charvar:
case tk_bytevar:
i++;
CheckAllMassiv(bufrm,i,&strinf);
outseg(&itok,2);
op(0x02+vop);
op(beg*8+itok.rm);
outaddress(&itok);
break;
case tk_beg:
op(0x00+vop);
op(0xC0+beg+(unsigned int)itok.number*8);
break;
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
case tk_ID:
case tk_id:
op66(r16);
i=beg<4?beg:beg-4;
op(0x50+i);
addESP+=2;
warningreg(regs[0][i]);
procdo(tk_byte);
if(itok2.type==tp_opperand){
nexttok();
doalmath2(0);
next=0;
}
addESP-=2;
op66(r16);
op(0x58+(i!=AX?i:CX));
if(i!=AX){
op(0x00+vop);
op(0xc0+beg);
}
else{
if(vop>0x20){
op(0x86);
op(0xC0+CL+beg); //xchg al,cl
}
op(0x00+vop);
op(0xc0+CL*8+beg);
}
break;
case tk_reg:
if((unsigned int)itok.number<BX){
op(0x00+vop);
op(0xC0+beg+(unsigned int)itok.number*8);
}
else begworderror();
break;
case tk_seg: begworderror(); break;
default: valueexpected(); break;
}
break;
case tk_rrequals: vop+=0x08;
case tk_llequals:
getoperand(am32==TRUE?ECX:BX);
ClearReg(beg>3?beg%4:beg);
if(itok2.type==tp_stopper&&tok==tk_number){
if((unsigned int)itok.number==1){
op(0xD0); op(0xE0+beg+vop);
} /* SHL beg,1 */
else if((unsigned int)itok.number!=0){
if(chip<2)goto shiftbeg;
else{
op(0xc0);
op(0xe0+beg+vop);
op((unsigned int)itok.number);
}
}
}
else{
shiftbeg:
if(beg!=CL){
if(itok2.type==tp_stopper&&tok==tk_beg&&itok.number==CL){
op(0xD2); op(0xE0+vop+beg); /* SHL beg,CL */
}
else{
ClearReg(CL);
getintobeg(CL,&ofsstr);
dobegmath(CL);
next=0;
warningreg(begs[1]);
op(0xD2); op(0xE0+vop+beg); /* SHL beg,CL */
}
}
else regshifterror();
}
break;
default: operatorexpected(); break;
}
if(next)nexttok();
if(terminater==tk_semicolon)seminext();
return rettype;
}
void doseg(int seg)
{
unsigned char next=1;
int numpointr=0;
char *ofsstr=NULL;
if(seg==CS)preerror("CS not used for destention");
if(seg==FS||seg==GS)if(cpu<3)cpu=3;
if(seg==SS)RestoreStack();
nexttok();
KillVar(segs[seg]);
if(tok==tk_assign){
nexttok();
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr)unuseableinput();
if(tok2==tk_assign){
itok.number=MultiAssign(r16,USEALLREG,numpointr);
if(ofsstr){
free(ofsstr);
ofsstr=NULL;
}
goto getfromreg;
}
if(tok==tk_pointer)cpointr(am32==TRUE?EAX:BX,numpointr);
if(itok2.type!=tp_opperand){
switch(tok){
case tk_reg:
getfromreg:
op(0x8E);
op(0xC0+seg*8+(unsigned int)itok.number); /* MOV seg,reg */
break;
case tk_intvar:
case tk_wordvar:
case tk_longvar:
case tk_dwordvar:
case tk_qwordvar:
CheckAllMassiv(bufrm,2,&strinf);
op66(r16);
outseg(&itok,2);
op(0x8E);
op(seg*8+itok.rm);
outaddress(&itok); /* MOV seg,[wordvar] */
break;
case tk_seg:
if(optimizespeed==FALSE||(regoverstack&&chip>2)){
PushSeg((unsigned int)itok.number);
PopSeg(seg);
break;
}
goto segax;
case tk_number:
if(regoverstack&&chip>1){
// op66(r16);
if(short_ok(itok.number)&&(itok.flag&f_reloc)==0){
op(0x6A);
op(itok.number);
}
else{
op(0x68);
if((itok.flag&f_reloc)!=0)AddReloc();
if(am32)outdword(itok.number);
else outword(itok.number);
}
PopSeg(seg);
if(cpu<2)cpu=2;
break;
}
goto segax;
default: goto segax;
}
}
else{
segax:
do_e_axmath(0,r16,&ofsstr);
op(0x8E); /* MOV SEG,AX */
op(0xC0+seg*8);
next=0;
}
}
else if(tok==tk_swap){
getoperand();
switch(tok){
case tk_intvar:
case tk_wordvar:
KillVar(itok.name);
op66(r16);
op(0x8C);
op(0xC0+seg*8); /* MOV AX,SEG */
CheckAllMassiv(bufrm,2,&strinf);
op66(r16);
outseg(&itok,2);
op(0x87);
op(itok.rm);
outaddress(&itok); /* XCHG AX,[word] */
op66(r16);
op(0x8E);
op(0xC0+seg*8); /* MOV seg,AX */
break;
case tk_seg:
KillVar(segs[itok.number]);
PushSeg(seg);
PushSeg(itok.number);
PopSeg(seg);
PopSeg(itok.number);
break;
default: preerror("Only int, word variables valid for segment register ><");
break;
}
}
else segoperror();
if(next)nextseminext();
else seminext();
}
void PushSeg(int seg)
{
switch(seg){
case DS: op(0x1E); break;
case CS: op(0x0E); break;
case SS: op(0x16); break;
case ES: op(0x06); break;
case FS: outword(0xA00F); if(cpu<3)cpu=3; break;
case GS: outword(0xA80F); if(cpu<3)cpu=3; break;
}
}
void PopSeg(int seg)
{
switch(seg){
case DS: op(0x1F); break;
case SS: op(0x17); break;
case ES: op(0x07); break;
case FS: outword(0xA10F); if(cpu<3)cpu=3; break;
case GS: outword(0xA90F); if(cpu<3)cpu=3; break;
}
}
// =============== doregmath_32(), dobegmath() ===============
void doregmath_32(int reg,int razr,int sign,char **ofsstr,int fdiv) // math done is on all regs except AX
// all other registers preserved
{
int vop,i,optnum,negflag=FALSE;
while(itok.type!=tp_stopper&&tok!=tk_eof){
if(negflag){
NegReg(razr,reg);
negflag=FALSE;
}
i=vop=0;
optnum=FALSE;
#ifdef OPTVARCONST
CheckConstVar3(&tok2,&itok2,razr);
if(tok2==tk_number)calcnumber=TRUE;
#endif
if(uselea){
if(razr==r32){
if(Reg32ToLea2(reg))continue; //<2F><><EFBFBD><E2A8AC><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E1ABAE><EFBFBD><EFBFBD><EFBFBD> 32-<2D><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><><E0A5A3><EFBFBD><20> LEA
}
else if(Reg16ToLea2(reg))continue;
if(itok.type==tp_stopper||tok==tk_eof)break;
}
if(tok2==tk_number)optnum=OptimNum();
switch(tok){
case tk_xor: vop+=0x08;
case tk_minus: vop+=0x08;
case tk_and: vop+=0x18;
case tk_or: vop+=0x08;
case tk_plus:
if(optnum==FALSE)getoperand(reg==BX?SI:BX);
else tok=tk_number;
switch(tok){
case tk_number:
if((itok.flag&f_reloc)==0&&optnumadd(itok.number,reg,razr,vop))break;
case tk_postnumber:
case tk_undefofs:
op66(razr);
op(0x81);
op(0xC0+vop+reg);
if(tok==tk_postnumber)(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
else if(tok==tk_undefofs)AddUndefOff(0,itok.name);
else if((itok.flag&f_reloc)!=0)AddReloc();
razr==r16?outword((unsigned int)itok.number):outdword(itok.number);
break;
case tk_apioffset:
op66(razr);
op(0x81);
op(0xC0+vop+reg);
AddApiToPost(itok.number);
break;
case tk_doublevar:
i=4;
case tk_floatvar:
Float2reg32(EAX,i);
itok.number=EAX;
warningreg(regs[1][EAX]);
goto defreg32;
case tk_bits:
int vops,reg2s;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)vops=r64;
if(i<=32)vops=r32;
if(i<=16)vops=r16;
if(vops<razr)vops=razr;
reg2s=CX;
if(reg==CX)reg2s=DI;
bits2reg(reg2s,vops);
if(vops==r64)vops=r32;
warningreg(regs[vops/2-1][reg2s]);
itok.number=reg2s;
goto defreg32;
case tk_reg:
if(razr==r32){
op66(razr);
outword(0xB70F);
if(itok.number==reg){
op(0xC0+reg);
itok.number=EAX;
}
else op(0xC0+itok.number*9);
warningreg(regs[razr/2-1][itok.number]);
}
case tk_reg32:
defreg32:
op66(razr);
op(0x01+vop);
op(0xC0+reg+(unsigned int)itok.number*8);
break;
case tk_qwordvar:
case tk_longvar:
case tk_dwordvar:
i=4;
goto wordvar;
case tk_intvar:
case tk_wordvar:
if(razr==r32)goto addchar;
i=2;
wordvar:
CheckAllMassiv(bufrm,i,&strinf);
op66(razr);
outseg(&itok,2);
op(0x03+vop);
op(reg*8+itok.rm);
outaddress(&itok);
break;
case tk_charvar:
case tk_beg:
case tk_bytevar:
case tk_seg:
case tk_rmnumber:
addchar:
SINFO wstr;
ITOK wtok;
char *wbuf;
wstr=strinf;
strinf.bufstr=NULL;
wbuf=bufrm;
bufrm=NULL;
wtok=itok;
getinto_e_ax(sign,tok,&wtok,wbuf,&wstr,razr);
goto addax;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
unsigned char oaddstack;
if(!(comfile==file_w32&&(reg==EBX||reg==EDI||reg==ESI))){
op66(razr);
op(0x50+reg); //push AX
}
addESP+=razr==r16?2:4;
oaddstack=addstack;
addstack=FALSE;
procdo(razr==r16?(sign==0?tk_word:tk_int):(sign==0?tk_dword:tk_long));
addstack=oaddstack;
addESP-=razr==r16?2:4;
if(!(comfile==file_w32&&(reg==EBX||reg==EDI||reg==ESI))){
op66(razr);
op(0x58+reg);
}
addax:
op66(razr);
op(0x01+vop);
op(0xc0+reg);
warningreg(regs[razr/2-1][0]);
break;
default: valueexpected(); break;
}
break;
case tk_xorminus: vop+=0x10;
case tk_andminus: vop+=0x18;
case tk_orminus: vop+=0x08;
getoperand(reg==BX?SI:BX);
switch(tok){
case tk_number:
itok.number=-itok.number;
op66(razr);
op(0x81);
op(0xC0+vop+reg);
if((itok.flag&f_reloc)!=0)AddReloc();
razr==r16?outword((unsigned int)itok.number):outdword(itok.number);
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
procdo(razr==r16?tk_word:tk_dword);
i=EAX;
if(*ofsstr!=NULL){
free(*ofsstr);
*ofsstr=NULL;
}
goto defxormin;
default:
if(reg==ECX){
i=EAX;
SINFO wstr;
wstr=strinf;
strinf.bufstr=NULL;
ITOK wtok;
char *wbuf;
wbuf=bufrm;
bufrm=NULL;
wtok=itok;
getinto_e_ax(sign,tok,&wtok,wbuf,&wstr,razr);
}
else{
i=ECX;
getintoreg_32(CX,razr,sign,ofsstr,FALSE);
}
defxormin:
NegReg(razr,i);
op66(razr);
op(vop+1); /* opt AX,CX */
op(0xC0+i*8+reg);
warningreg(regs[razr/2-1][i]);
if(i==ECX)continue;
break;
}
break;
case tk_rrminus:
if(reg==ECX){
regmathoperror();
break;
}
tok=tk_minus;
getintobeg(CL,ofsstr);
op66(razr);
op(0xD3);
op(0xE8+reg); // SHL xXX,CL
warningreg(begs[1]);
continue;
case tk_rr:
getoperand(am32==TRUE?ECX:(reg==BX?SI:BX));
if(RshiftReg(razr,reg,sign)==FALSE)regmathoperror();
else continue;
break;
case tk_llminus:
if(reg==ECX){
regmathoperror();
break;
}
tok=tk_minus;
goto llshift;
case tk_ll:
getoperand(am32==TRUE?ECX:(reg==BX?SI:BX));
if(tok==tk_number){
if(chip<2&&reg==CX){
regmathoperror();
break;
}
lshiftmul(itok.number,razr,reg);
}
else if(reg!=ECX&&(tok==tk_beg||tok==tk_reg||tok==tk_reg32)&&itok.number==CL){
op66(razr);
op(0xD3);
op(0xE0+reg); // SHL xXX,CL
}
else if(reg!=ECX){
llshift:
getintobeg(CL,ofsstr);
op66(razr);
op(0xD3);
op(0xE0+reg); // SHL xXX,CL
warningreg(begs[1]);
continue;
}
else regmathoperror();
break;
case tk_multminus: negflag=TRUE;
case tk_mult:
if(optnum==FALSE)getoperand(reg==BX?SI:BX);
else tok=tk_number;
if(negflag&&tok==tk_number){
itok.number=-itok.number;
negflag=FALSE;
}
if(MulReg(reg,razr)==0)continue;
break;
case tk_modminus: negflag=1;
case tk_mod:
vop=1;
goto divcalc;
case tk_divminus: negflag=1;
case tk_div:
divcalc:
if(optnum==FALSE)getoperand(reg==BX?SI:BX);
else tok=tk_number;
if(negflag&&tok==tk_number){
itok.number=-itok.number;
negflag=FALSE;
}
if(tok==tk_number&&(i=caselong(itok.number))!=NUMNUM){
if(vop){ //mod
itok.number--;
if(itok.number==0){
ZeroReg(reg,razr);
}
else if(short_ok(itok.number,razr/2-1)){
op66(razr);
op(0x83);
op(0xE0+reg); //and reg,num-1
op(itok.number);
}
else{
op66(razr);
op(0x81);
op(0xE0+reg); //and reg,num-1
razr==r16?outword((unsigned int)itok.number):outdword(itok.number);
}
}
else{
if(i!=0){
if(chip<2&&razr==r16){
if(reg==CX)regmathoperror();
op(0xB1); op(i); /* MOV CL,num */
op(0xD3);
op(0xE8+reg); // SHR reg,CL
warningreg(begs[1]);
}
else{
op66(razr);
op(0xC1);
op(0xE8+reg); // SHR reg,num
op(i);
}
}
}
break;
}
if(fdiv!=1){
op66(razr);
op(0x90+reg); //xchg AX,reg
}
DivMod(vop,sign,razr,0);
if(itok.type!=tp_stopper){
if(vop==1){
op66(razr);
if(optimizespeed)outword(0xC28B); //mov ax,dx
else op(0x92); //xchg ax,dx
}
do_e_axmath2(0,razr,0);
}
else if(vop==1){
if(reg!=EDX){
op66(razr);
op(0x89);
op(128+64+EDX*8+reg);
}
warningreg(regs[razr/2-1][EAX]);
continue;
}
op66(razr);
if(optimizespeed){
op(0x89);
op(128+64+EAX*8+reg);
}
else op(0x90+reg); //xchg AX,reg
warningreg(regs[razr/2-1][EAX]);
continue;
default: operatorexpected(); break;
}
calcnumber=FALSE;
ClearReg(reg);
nexttok();
}
calcnumber=FALSE;
ClearReg(reg);
if(razr==r32&&cpu<3)cpu=3;
}
void dobegmath(int beg) // math done is on all begs except AL
// all other registers preserved
{
int vop,i,optnum=FALSE,negflag=FALSE;
while(itok.type!=tp_stopper&&tok!=tk_eof){
vop=0;
i=0;
#ifdef OPTVARCONST
if(tok2>=tk_charvar&&tok2<=tk_doublevar&&itok2.npointr==0){
if(CheckConstVar(&itok2)){
tok2=tk_number;
calcnumber=TRUE;
}
}
#endif
if(tok2==tk_number)optnum=OptimNum();
int oldtok=tok;
switch(tok){
case tk_xor: vop+=0x08;
case tk_minus: vop+=0x08;
case tk_and: vop+=0x18;
case tk_or: vop+=0x08;
case tk_plus:
if(optnum==FALSE)getoperand(beg==BL||beg==BH?SI:BX);
else{
tok=tk_number;
optnum=FALSE;
}
switch(tok){
case tk_number:
if(itok.number==0&&oldtok!=tk_and)break;
else if(itok.number==1){
if(oldtok==tk_plus){
op(0xFE);
op(0xC0+beg);
break;
}
if(oldtok==tk_minus){
op(0xFE);
op(0xC8+beg);
break;
}
}
else if((unsigned char)itok.number==0xff){
if(oldtok==tk_minus){
op(0xFE);
op(0xC0+beg);
break;
}
if(oldtok==tk_plus){
op(0xFE);
op(0xC8+beg);
break;
}
}
op(0x80);
op(0xC0+vop+beg);
op((unsigned int)itok.number);
break;
case tk_bits:
int vops,reg2s;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)vops=r64;
if(i<=32)vops=r32;
if(i<=16)vops=r16;
if(i<=8)vops=r8;
reg2s=CL;
if(beg==CL)reg2s=BL;
bits2reg(reg2s,vops);
if(vops==r64)vops=r32;
warningreg(vops==r8?begs[reg2s]:regs[vops/2-1][reg2s]);
itok.number=reg2s;
case tk_beg:
op(0x00+vop);
op(0xC0+beg+(unsigned int)itok.number*8);
break;
case tk_qwordvar:
i=4;
case tk_longvar:
case tk_dwordvar:
i+=2;
case tk_intvar:
case tk_wordvar:
i++;
case tk_bytevar:
case tk_charvar:
i++;
CheckAllMassiv(bufrm,i,&strinf);
outseg(&itok,2);
op(0x02+vop);
op(beg*8+itok.rm);
outaddress(&itok);
break;
case tk_postnumber:
case tk_reg:
case tk_rmnumber: begworderror(); break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:// begcallerror(); break;
case tk_declare:
procdo(tk_byte);
if(beg!=AL){
op(0x00+vop);
op(0xc0+beg);
}
break;
default: valueexpected(); break;
}
break;
case tk_xorminus: vop+=0x10;
case tk_andminus: vop+=0x18;
case tk_orminus: vop+=0x08;
getoperand(beg==BL||beg==BH?SI:BX);
if(tok==tk_number){
itok.number=-itok.number;
op(0x80);
op(0xC0+vop +beg);
op((unsigned int)itok.number);
}
else negregerror();
break;
case tk_rr:
vop=8;
case tk_ll:
nexttok();
if(tok==tk_number){
if((unsigned int)itok.number==1){
if(vop==0){
op(2);
op(0xC0+9*beg); // ADD reg,reg
}
else{
op(0xD0); op(0xE8+beg); /* SHR reg,1 */
}
}
else if((unsigned int)itok.number!=0){
if(chip<2)begmathoperror();
else{
op(0xc0);
op(0xe0+beg+vop); // SHL reg,imm8
op((unsigned int)itok.number);
if(cpu<2)cpu=2;
}
}
}
else if(tok==tk_beg&&itok.number==CL&&beg!=CL){
op(0xD2);
op(0xE0+beg+vop); // SHL xXX,CL
}
else begmathoperror();
break;
case tk_multminus: negflag=TRUE;
case tk_mult:
if(optnum==FALSE)getoperand(beg==BL||beg==BH?SI:BX);
else{
tok=tk_number;
optnum=FALSE;
}
if(negflag&&tok==tk_number){
itok.number=-itok.number;
negflag=FALSE;
}
switch(tok){
case tk_number:
itok.number&=255;
switch((unsigned int)itok.number){
case 0: // beg * 0 = MOV beg,0
outword(0x00B0+beg);
case 1: break; //beg*1=beg
case 2:
op(0);
op(0xC0+9*beg); // beg * 2 = ADD beg,beg
break;
default:
vop=caselong(itok.number);
if(vop!=NUMNUM){
if(chip<1)begmathoperror();
else{
op(0xc0);
op(0xe0+beg); //SHL beg,num
op(vop);
if(cpu<1)cpu=1;
}
}
else begmathoperror();
}
break;
default: begmathoperror(); break;
}
break;
case tk_divminus:
case tk_modminus:
case tk_div:
case tk_mod:
case tk_rrminus:
case tk_llminus:
begmathoperror(); break;
default: operatorexpected(); break;
}
#ifdef OPTVARCONST
calcnumber=FALSE;
#endif
nexttok();
ClearReg(beg%4);
}
}
// ============= getintoreg_32(), getintobeg() ============
int getintoreg_32(int reg,int razr,int sign,char **ofsstr,int useloop) // get into word reg (except AX) with enum
{
int negflag=0,next=1,i=0;
int swap=0,oflag=0;
unsigned long holdnumber=0;
int reg1=idxregs[0],reg2=idxregs[1];
int rettype=tk_reg;
int loop=0,otok;
// printf("line %d tok=%d %s\n",linenumber,tok,itok.name);
if(!am32){
if(reg==idxregs[1]||reg==idxregs[2]){
reg1=reg;
if(reg==idxregs[1])reg2=idxregs[0];
}
}
else{
reg1=reg;
if(reg==idxregs[1])reg2=idxregs[0];
}
if(tok==tk_minus){
if(CheckMinusNum()==FALSE){
negflag=1;
getoperand(am32==FALSE?BX:reg);
}
}
loopswitch:
if(uselea){
if(razr==r32){
if(cpu<3)cpu=3;
if(Reg32ToLea(reg)){
return tk_reg;
}
}
else
if(Reg16ToLea(reg)){
return tk_reg;
}
}
loopswitch1:
#ifdef OPTVARCONST
CheckConstVar3(&tok,&itok,razr);
if(tok==tk_number)calcnumber=TRUE;
#endif
otok=tok;
// printf("reg=%d tok=%d\n",reg,tok);
switch(tok){
case tk_number:
if(useloop==FALSE)MovRegNum(razr,itok.flag&f_reloc,itok.number,reg);
else{
holdnumber=CalcNumber(sign);
if(loop==0)oflag=postnumflag;
else oflag^=postnumflag;
loop++;
if(tok==tk_mult){
nexttok();
swap=1;
goto loopswitch1;
}
if(tok==tk_plus&&tok2==tk_postnumber){
nexttok();
// getoperand(am32==TRUE?EAX:BX);
goto loopswitch1;
}
MovRegNum(razr,oflag&f_reloc,holdnumber,reg);
next=0;
}
break;
case tk_postnumber:
case tk_undefofs:
if(!swap){
op66(razr);
op(0xB8+reg); /* MOV AX,# */
swap=1;
}
if(tok==tk_undefofs){
AddUndefOff(2,itok.name);
// AddUndefOff(0,itok.name);
// itok.flag=0; //new 07.07.04 23:57
}
else (itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
if(useloop==FALSE)holdnumber=itok.number;
else{
tok=tk_number;
holdnumber+=doconstdwordmath();
if(otok!=tk_postnumber){
if(loop==0)oflag=postnumflag;
else oflag^=postnumflag;
loop++;
}
if(tok==tk_plus&&tok2==tk_postnumber){
nexttok();
goto loopswitch1;
}
swap=0;
next=0;
}
if(useloop&&(oflag&f_reloc))AddReloc();
if(razr==r16)outword(holdnumber);
else outdword(holdnumber);
ClearReg(reg);
break;
case tk_apioffset:
op66(razr);
op(0xB8+reg); /* MOV AX,# */
AddApiToPost(itok.number);
ClearReg(reg);
break;
case tk_rmnumber:
CheckAllMassiv(bufrm,itok.size,&strinf,&itok,reg1,reg2);
if((am32&&itok.rm==reg&&reg!=EBP&&reg!=ESP)||(am32==0&&reg==itok.rm&&
(reg==SI||reg==DI||reg==BX)))break;
op66(razr);
op67(itok.sib==CODE16?r16:r32);
if(itok.post==0)outseg(&itok,2);
op(0x8D); // LEA reg,[rm]
op(reg*8+itok.rm);
if(itok.post!=0&&itok.post!=UNDEF_OFSET){
if((itok.flag&f_extern)==0){
unsigned int ooutptr=outptr;
if(am32&&itok.rm==rm_sib)outptr++;
setwordpost(&itok);
outptr=ooutptr;
}
else setwordext(&itok.number);
}
if(useloop==FALSE)outaddress(&itok);
else{
ITOK oitok;
oitok=itok;
tok=tk_number;
itok.rm=tk_dword;
oitok.number=doconstdwordmath();
outaddress(&oitok);
next=0;
}
ClearReg(reg);
break;
case tk_qwordvar:
i=4;
case tk_longvar:
case tk_dwordvar:
i+=4;
dwordvar:
CheckAllMassiv(bufrm,i,&strinf,&itok,reg1,reg2);
op66(razr);
outseg(&itok,2);
op(0x8B);
op(reg*8+itok.rm);
outaddress(&itok);
ClearReg(reg);
break;
case tk_intvar:
case tk_wordvar:
i=2;
if(razr==r16)goto dwordvar;
CheckAllMassiv(bufrm,2,&strinf,&itok,reg1,reg2);
if(tok==tk_wordvar&&optimizespeed&&chip>3&&chip<7&&RmEqualReg(reg,itok.rm,itok.sib)==FALSE){
ZeroReg(reg,r32);
op66(r16);
outseg(&itok,2); //mov reg,var
op(0x8B);
}
else{
op66(r32);
outseg(&itok,3); //movxx reg,var
op(0x0F); op(tok==tk_wordvar?0xB7:0xBF);
}
op(reg*8+itok.rm);
outaddress(&itok);
ClearReg(reg);
break;
case tk_doublevar:
i=4;
case tk_floatvar:
Float2reg32(reg,i,reg1,reg2);
ClearReg(reg);
break;
case tk_bytevar:
case tk_charvar:
if(chip>2||razr==r32){
CheckAllMassiv(bufrm,1,&strinf,&itok,reg1,reg2);
if(reg<=EBX&&tok==tk_bytevar&&optimizespeed&&chip>3&&chip<7&&RmEqualReg(reg,itok.rm,itok.sib)==FALSE){
ZeroReg(reg,razr);
outseg(&itok,2);
op(0x8A);
}
else{
op66(razr);
outseg(&itok,3);
op(0xf);
if(tok==tk_bytevar)op(0xb6);
else op(0xbe);
}
op(reg*8+itok.rm); // MOVZX regL,[byte]
outaddress(&itok);
ClearReg(reg);
break;
}
if(reg<=BX){
if(reg==AX&&itok.rm==rm_d16&&itok.sib==CODE16){
outseg(&itok,1);
op(0xA0); // MOV AL,[byte]
outword((unsigned int)itok.number);
}
else{
CheckAllMassiv(bufrm,1,&strinf,&itok,reg1,reg2);
outseg(&itok,2);
op(0x8A);
op(reg*8+itok.rm); // MOV regL,[byte]
outaddress(&itok);
}
ClearReg(reg);
op(0x30); op(0xC0+(reg+4)*9); // XOR regH,regH
}
else regbyteerror();
break;
case tk_reg:
if(razr==r32){
if(tok2==tk_openbracket){ //<2F><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD> <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><E0A5A3><EFBFBD><EFBFBD><EFBFBD>
reg1=itok.number;
nexttok();
param[0]=0;
if(comfile==file_w32)swapparam();
else doparams();
op66(r16);
op(0xFF);
op(0xD0+reg1); /* CALL reg with stack params */
itok.number=0;
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
}
if(optimizespeed&&chip>3&&chip<7&&reg!=(int)itok.number){
ZeroReg(reg,r32);
op(0x89);
op(0xC0+reg+(unsigned int)itok.number*8);
}
else{
op66(r32);
outword(0xB70F);
op(0xC0+reg*8+(unsigned int)itok.number);
}
RegToReg(reg,itok.number,r32);
break;
}
case tk_reg32:
if(tok2==tk_openbracket){ //<2F><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD> <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><E0A5A3><EFBFBD><EFBFBD><EFBFBD>
reg1=itok.number;
reg2=tok==tk_reg32?r32:r16;
nexttok();
param[0]=0;
if(comfile==file_w32)swapparam();
else doparams();
op66(reg2);
op(0xFF);
op(0xD0+reg1); /* CALL reg with stack params */
itok.number=0;
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
}
if(reg!=(int)itok.number){
op66(razr);
op(0x89);
op(0xC0+reg+(unsigned int)itok.number*8);
RegToReg(reg,itok.number,r32);
}
break;
case tk_bits:
int vops;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)vops=r64;
if(i<=32)vops=r32;
if(i<=16)vops=r16;
bits2reg(reg,(razr<vops?vops:razr));
break;
case tk_seg:
op66(razr);
op(0x8C);
op(0xC0+reg+(unsigned int)itok.number*8);
ClearReg(reg);
break;
case tk_beg:
if(chip>2||razr==r32){
if(optimizespeed&&chip>3&&chip<7&&reg<4&&reg!=(int)(itok.number%4)){
ZeroReg(reg,razr);
op(0x88);
op(0xC0+reg+(unsigned int)itok.number*8); // MOV regL,beg
}
else{
op66(razr);
outword(0xb60f);
op(0xC0+reg*8+(unsigned int)itok.number); // MOVZX regL,beg
}
}
else if(reg>BX)regbyteerror();
else{
op(0x88); op(0xC0+reg+(unsigned int)itok.number*8); // MOV regL,beg
op(0x30); op(0xC0+(reg+4)*9); // XOR regH,regH
}
ClearReg(reg);
break;
case tk_at:
getoperand(am32==FALSE?BX:reg);
i++;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
if(itok.flag&f_retproc)rettype=(itok.flag&f_retproc)/256+tk_overflowflag-1;
if((!i)||macros(razr==r16?tk_word:tk_dword)==0)procdo(razr==r16?tk_word:tk_dword);
itok.number=0;
tok=(razr==r16?tk_reg:tk_reg32);
if(*ofsstr!=NULL){
free(*ofsstr);
ofsstr=NULL;
}
// printf("tok=%d num=%d tok2=%d\n",tok,itok.number,tok2);
goto loopswitch;
// break;
case tk_string:
op66(razr);
op(0xB8+reg);
if(razr==r16){
if(am32)dwordvalexpected();
outword(addpoststring());
}
else outdword(addpoststring());
ClearReg(reg);
break;
default: valueexpected(); break;
}
#ifdef OPTVARCONST
calcnumber=FALSE;
#endif
if(negflag)NegReg(razr,reg);
if(swap){
negflag=0;
RegMulNum(reg,holdnumber,razr,0,&negflag,oflag);
ClearReg(reg);
}
if(next)nexttok();
// printf("tok=%d num=%d tok2=%d\n",tok,itok.number,tok2);
return rettype;
}
int getintobeg(int beg,char **ofsstr) // get into beg (CL,DL,BL not others) with enum
{
int negflag=0,i=0;
int rettype=tk_beg;
if(tok==tk_minus){
if(CheckMinusNum()==FALSE){
negflag=1;
getoperand(am32==TRUE?(beg>3?beg-4:beg):BX);
}
}
#ifdef OPTVARCONST
if(tok>=tk_charvar&&tok<=tk_doublevar&&itok.npointr==0){
// printf("type1=%d type2=%d\n",itok.type,itok2.type);
if(CheckConstVar(&itok)){
tok=tk_number;
calcnumber=TRUE;
}
}
#endif
switch(tok){
case tk_number:
op(0xB0+beg);
i=(int)doconstlongmath();
op(i);
ConstToReg(i,beg,r8);
break;
case tk_rmnumber:
CheckAllMassiv(bufrm,itok.size,&strinf);
op66(r16);
op67(itok.sib==CODE16?r16:r32);
if(itok.post==0)outseg(&itok,2);
op(0x8D); // LEA reg,[rm]
op(beg*8+itok.rm);
if(itok.post!=0&&itok.post!=UNDEF_OFSET){
if((itok.flag&f_extern)==0){
unsigned int ooutptr=outptr;
if(am32&&itok.rm==rm_sib)outptr++;
setwordpost(&itok);
outptr=ooutptr;
}
else setwordext(&itok.number);
}
outaddress(&itok);
ClearReg(beg%4);
break;
case tk_postnumber:
op66(r16);
op(0xB8+beg);
(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
outword((unsigned int)itok.number);
nexttok();
ClearReg(beg%4);
break;
case tk_qwordvar:
i=4;
case tk_longvar:
case tk_dwordvar:
i+=2;
case tk_intvar:
case tk_wordvar:
i++;
case tk_charvar:
case tk_bytevar:
i++;
CheckAllMassiv(bufrm,i,&strinf);
outseg(&itok,2);
op(0x8A);
op(beg*8+itok.rm);
outaddress(&itok);
nexttok();
ClearReg(beg%4);
break;
case tk_doublevar:
i=4;
case tk_floatvar:
Float2reg32((beg<4?beg:beg-4),i);
if(beg>3){
op(0x88);
op(0xC0+beg+8*(beg-4));
}
nexttok();
ClearReg(beg%4);
break;
case tk_bits:
int vops;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)vops=r64;
if(i<=32)vops=r32;
if(i<=16)vops=r16;
if(i<=8)vops=r8;
if(beg>BX&&vops!=r8){
op66(vops==r64?r32:vops);
op(0x50);
if(ESPloc&&am32&&itok.segm==SS)itok.number+=4;
addESP+=vops==r16?2:4;
bits2reg(AX,vops);
op(0x88);
op(0xC0+beg);
op66(vops==r64?r32:vops);
addESP-=vops==r16?2:4;
op(0x58);
}
else bits2reg(beg,vops);
nexttok();
break;
case tk_beg:
if(beg!=(int)itok.number){
op(0x88);
op(0xC0+beg+(unsigned int)itok.number*8);
RegToReg(beg,itok.number,r8);
}
nexttok();
break;
case tk_reg32:
case tk_reg:
if(beg<BX){
if(beg!=(int)itok.number){
op66(r16);
op(0x89);
op(0xC0+beg+(unsigned int)itok.number*8);
RegToReg(beg,itok.number,r8);
}
}
else begworderror();
nexttok();
break;
case tk_seg:
op66(r16);
op(0x8C);
op(0xC0+beg+(unsigned int)itok.number*8);
nexttok();
ClearReg(beg%4);
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
if(itok.flag&f_retproc)rettype=(itok.flag&f_retproc)/256+tk_overflowflag-1;
procdo(tk_byte);
op(0x88);
op(0xc0+beg);
nexttok();
RegToReg(beg,AL,r8);
if(*ofsstr){
free(*ofsstr);
*ofsstr=NULL;
}
break;
default: valueexpected(); nexttok(); return 0;
}
#ifdef OPTVARCONST
calcnumber=FALSE;
#endif
if(negflag){
if(optimizespeed&&(chip==5||chip==6)){
op(0x80);
op(0xF0+beg);
op(0xff);
op(0xFE);
op(0xC0+beg);
}
else{
op(0xF6);
op(0xD8+beg); // NEG beg
}
ClearReg(beg%4);
}
return rettype;
}
void outaddress(ITOK *outtok)
{
int rm=outtok->rm;
if(outtok->sib==CODE16){
if(rm==rm_d16){
if(outtok->post==UNDEF_OFSET){
AddUndefOff(2,outtok->name);
outtok->post=0;
}
outword(outtok->number);
}
else{
rm&=rm_mod11;
if(rm==rm_mod11)internalerror(badadr);
else if(rm==rm_mod10){
if(outtok->post==UNDEF_OFSET){
AddUndefOff(2,outtok->name);
outtok->post=0;
}
outword(outtok->number);
}
else if(rm!=rm_mod00)op(outtok->number);
}
}
else{
if(rm==rm_d32){
if(outtok->post==UNDEF_OFSET){
AddUndefOff(2,outtok->name);
outtok->post=0;
}
outdword(outtok->number);
}
else{
if((rm&7)==rm_sib){
op(outtok->sib);
if(rm==4&&(outtok->sib&7)==5){
if(outtok->post==UNDEF_OFSET){
AddUndefOff(2,outtok->name);
outtok->post=0;
}
outdword(outtok->number);
}
}
rm&=rm_mod11;
if(rm==rm_mod11)internalerror(badadr);
else if(rm==rm_mod10){
if(outtok->post==UNDEF_OFSET){
AddUndefOff(2,outtok->name);
outtok->post=0;
}
outdword(outtok->number);
}
else if(rm==rm_mod01)op(outtok->number);
}
}
}
/*-----------------05.01.00 23:37-------------------
<EFBFBD><EFBFBD><EFBFBD> float
<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD> <EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <EFBFBD> float
--------------------------------------------------*/
int dofloatvar(int addop,int retrez,int terminater)
{
unsigned char next=1, getfromEAX=0;
unsigned int vop=0,rettype=tk_float,posiblret=tk_float,sign=0;
char *wbuf,*rbuf;
ITOK wtok;
SINFO wstr;
int pointr=0;
int razr,i=0;
int type=tk_floatvar;
if(addop){
rettype=posiblret=tk_double;
razr=8;
type=tk_doublevar;
}
wstr=strinf;
strinf.bufstr=NULL;
wtok=itok;
wbuf=bufrm;
bufrm=NULL;
KillVar(itok.name);
char *ofsstr=NULL;
nexttok();
switch(tok){
case tk_assign: //=
getoperand(am32==TRUE?EAX:BX);
convert_type((int *)&sign,(int *)&rettype,&pointr);
if(tok2==tk_assign){
MultiAssignFloat(type);
next=0;
goto getfromeax;
}
CheckMinusNum();
if(itok2.type==tp_opperand){ //<2F><><EFBFBD><EFBFBD><E2A0A2><EFBFBD>
if(tok==tk_number){ //<2F><EFBFBD><20> <20><EFBFBD><EFBFBD><E0AEA2><EFBFBD><EFBFBD> <20><>
if(OnlyNumber(rettype==tk_float?2:3)){
next=0;
itok.flag=(unsigned char)postnumflag;
itok.rm=rettype;
goto numbertovar;
}
}
getfromEAX=1;
if(rettype==tk_char||rettype==tk_byte)doalmath(sign,&ofsstr);
else if(rettype==tk_int||rettype==tk_word)do_e_axmath(sign,r16,&ofsstr);
else if(rettype==tk_long||rettype==tk_dword)do_e_axmath(sign,r32,&ofsstr);
else goto labl1;
}
else{
switch(tok){
case tk_number:
numbertovar:
if(rettype==tk_float){
if(itok.rm==tk_double)itok.fnumber=itok.dnumber;
else if(itok.rm!=tk_float){
float temp=itok.number;
*(float *)&itok.number=temp;
}
}
else{
if(itok.rm==tk_float)itok.dnumber=itok.fnumber;
else if(itok.rm!=tk_double)itok.dnumber=itok.lnumber;
}
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
for(i=0;i<2;i++){
op66(r32);
if((itok.flag&f_reloc)==0&&itok.number==0){
outseg(&wtok,2);
op(0x83);
op(wtok.rm+0x20);
outaddress(&wtok);
op(0);
}
else if(regoverstack&&short_ok(itok.number,TRUE)&&(itok.flag&f_reloc)==0){
op(0x6A);
op(itok.number); //push short number
op66(r32);
outseg(&wtok,2);
op(0x8f);
op(wtok.rm);
outaddress(&wtok);
}
else{
outseg(&wtok,2);
op(0xC7); //mov word[],number
op(wtok.rm);
outaddress(&wtok);
if((itok.flag&f_reloc)!=0)AddReloc();
outdword(itok.number);
}
if(i==1||rettype==tk_float)break;
itok.lnumber>>=32;
wtok.number+=4;
compressoffset(&wtok);
}
break;
case tk_doublevar:
case tk_floatvar:
if(tok!=type)goto labl1;
ITOK w1tok;
char *w1buf;
w1buf=bufrm;
bufrm=NULL;
w1tok=itok;
SINFO w1str;
w1str=strinf;
strinf.bufstr=NULL;
getinto_e_ax(0,tok==tk_floatvar?tk_dwordvar:tk_qwordvar,&w1tok,w1buf,&w1str,r32);
if(tok==tk_doublevar){
if((wtok.rm==rm_d16&&wtok.sib==CODE16)||(wtok.rm==rm_d32&&wtok.sib==CODE32)){
op66(r32);
outseg(&wtok,1);
op(0xA3); // MOV [dword],EAX
if(am32)outdword(wtok.number);
else outword(wtok.number);
}
else{
CheckAllMassiv(wbuf,4,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(0x89); op(wtok.rm); // MOV [rmdword],EAX
outaddress(&wtok);
}
itok.number+=4;
compressoffset(&itok);
wtok.number+=4;
compressoffset(&wtok);
ITOK w1tok;
char *w1buf;
w1buf=bufrm;
bufrm=NULL;
w1tok=itok;
SINFO w1str;
w1str=strinf;
strinf.bufstr=NULL;
getinto_e_ax(0,tk_qwordvar,&w1tok,w1buf,&w1str,r32);
}
getfromEAX=1;
break;
default:
labl1:
if((i=doeaxfloatmath(tk_fpust))==tk_fpust||i==tk_double){
getfromEAX=0;
if(retrez==tk_floatvar||retrez==tk_doublevar){
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2);
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
}
else retrez=tk_fpust;
}
else getfromEAX=1;
next=0;
}
}
if(getfromEAX){
getfromeax:
retrez=tk_reg32;
convert_returnvalue(posiblret,rettype);
if((wtok.rm==rm_d16&&wtok.sib==CODE16)||(wtok.rm==rm_d32&&wtok.sib==CODE32)){
op66(r32);
outseg(&wtok,1);
op(0xA3); // MOV [dword],EAX
if(am32)outdword(wtok.number);
else outword(wtok.number);
}
else{
CheckAllMassiv(wbuf,4,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(0x89); op(wtok.rm); // MOV [rmdword],EAX
outaddress(&wtok);
}
}
break;
case tk_minusminus:
vop=0x28;
case tk_plusplus:
incvar:
outword(0xe8d9); //fld1
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fadd var
op(0xd8+addop);
op(wtok.rm+vop);
outaddress(&wtok);
if(retrez==tk_floatvar||retrez==tk_doublevar){
outseg(&wtok,2); //fstp var
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
}
break;
case tk_divequals: vop+=0x10;
case tk_minusequals: vop+=0x20;
case tk_multequals: vop+=8;
case tk_plusequals:
getoperand(am32==TRUE?EAX:BX);
if(itok2.type==tp_stopper){
if(tok==tk_number){
if((itok.rm==tk_float&&itok.fnumber==1.0)||
(itok.rm==tk_double&&itok.dnumber==1.0)||
(itok.rm!=tk_float&&itok.rm!=tk_double&&itok.lnumber==1)){
if(vop==0||vop==0x28)goto incvar;
break;
}
if((itok.rm==tk_float&&itok.fnumber==0.0)||
(itok.rm==tk_double&&itok.dnumber==0.0)||itok.lnumber==0){
switch(vop){
case 0x38:
DevideZero();
break;
case 8:
outword(0xEED9); //FLDZ
if(retrez==tk_floatvar||retrez==tk_doublevar){
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fstp var
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
}
break;
}
break;
}
}
}
if(itok2.type==tp_opperand){
doeaxfloatmath(tk_fpust);
endequals:
next=0;
endequals1:
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fsubr var
op(0xd8+addop);
op(wtok.rm+vop);
outaddress(&wtok);
if(retrez==tk_floatvar||retrez==tk_doublevar){
outseg(&wtok,2); //fstp var
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
}
}
else{
switch(tok){
case tk_number:
if(rettype==tk_float){
if(itok.rm==tk_double)itok.fnumber=itok.dnumber;
else if(itok.rm!=tk_float){
float temp=itok.number;
*(float *)&itok.number=temp;
}
}
else{
if(itok.rm==tk_float)itok.dnumber=itok.fnumber;
else if(itok.rm!=tk_double)itok.dnumber=itok.lnumber;
}
if(vop==0x38){ // div 22.12.05 22:10
vop=8; //mult
if(itok.rm==tk_float)itok.fnumber=1/itok.fnumber;
else itok.dnumber=1/itok.dnumber;
}
op66(r32);
op(0xD9+addop);
op((am32==FALSE?0x06:0x05)); //fld
AddFloatConst(itok.lnumber,rettype);
outword(0);
if(am32)outword(0);
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fsubr var
op(0xd8+addop);
op(wtok.rm+vop);
outaddress(&wtok);
if(retrez==tk_floatvar||retrez==tk_doublevar){
outseg(&wtok,2); //fstp var
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
}
break;
case tk_longvar:
sign=2;
case tk_floatvar:
CheckAllMassiv(bufrm,4,&strinf);
outseg(&itok,2); //fld val or fild val
op(0xd9+sign);
op(itok.rm);
outaddress(&itok);
goto endequals1;
case tk_qwordvar:
sign=2;
i=0x28;
case tk_doublevar:
CheckAllMassiv(bufrm,8,&strinf);
outseg(&itok,2); //fldq val or fild val
op(0xdd+sign);
op(itok.rm+i);
outaddress(&itok);
goto endequals1;
case tk_dwordvar:
CheckInitBP();
op66(r32); //push 0L
outword(0x6a);
if(ESPloc&&am32&&itok.segm==SS)itok.number+=4;
addESP+=4;
CheckAllMassiv(bufrm,4,&strinf);
op66(r32); //push var
outseg(&itok,2);
op(0xFF);
op(itok.rm+0x30);
outaddress(&itok);
if(ESPloc&&am32&&wtok.segm==SS)wtok.number+=4;
addESP+=4;
fildq_stack();
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fsubr var
op(0xd8+addop);
op(wtok.rm+vop);
outaddress(&wtok);
if(optimizespeed||am32==0){
outword(0xC483);
op(8);
}
else{
op(0x58); // pop EAX
op(0x58); // pop EAX
}
addESP-=8;
if(retrez==tk_floatvar||retrez==tk_doublevar){
outseg(&wtok,2); //fstp var
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
}
RestoreBP();
break;
case tk_reg32: //<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><E0A0A1><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>樨 float, long
CheckInitBP();
op66(r32); //push 0L
outword(0x6a);
op66(r32); //push reg32
op(0x50+(unsigned int)itok.number);
if(ESPloc&&am32&&wtok.segm==SS)wtok.number+=8;
addESP+=8;
fildq_stack();
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fsubr var
op(0xd8+addop);
op(wtok.rm+vop);
outaddress(&wtok);
if(optimizespeed||am32==0){
outword(0xC483);
op(8);
}
else{
op(0x58); // pop EAX
op(0x58); // pop EAX
}
addESP-=8;
if(retrez==tk_floatvar||retrez==tk_doublevar){
outseg(&wtok,2); //fstp var
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
}
RestoreBP();
break;
default:
if(doeaxfloatmath(tk_fpust)==tk_assign){
CheckInitBP();
op66(r32); //push EAX
op(0x50);
op(0xD9+addop);
fld_stack(4+localsize);
fwait3();
RestoreBP();
op66(r32);
op(0x58);
}
goto endequals;
}
}
break;
case tk_swap:
int regdi;
regdi=TRUE;
getoperand();
rbuf=bufrm;
bufrm=NULL;
if(am32!=FALSE&&wbuf!=NULL&&wstr.bufstr!=NULL)regdi=FALSE;
switch(tok){
case tk_reg32: //<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><E0A0A1><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>樨 float, long
CheckInitBP();
op66(r32); //push 0L
outword(0x6a);
op66(r32); //push reg32
op(0x50+(unsigned int)itok.number);
if(ESPloc&&am32&&wtok.segm==SS)wtok.number+=8;
addESP+=8;
fildq_stack();
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fld val
op(0xd9+addop);
op(wtok.rm);
outaddress(&wtok);
op(0xdb);
if(am32){
if(optimizespeed)outword(0x241c); //fistp ssdword[bp-8]/ssdword[esp]
else{
outword(0x245C);
op(4);
}
}
else{
int dob;
dob=8;
if(!optimizespeed)dob=4;
if(short_ok(localsize+dob,FALSE)==0){
op(0x9E);
outword(-dob-localsize);
}
else{
op(0x5E);
op(-dob-localsize);
}
}
outseg(&wtok,2);//fstp val
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
op66(r32); // pop reg32
op(0x58+(unsigned int)itok.number);
if(!optimizespeed){
op66(r32); // pop reg32
op(0x58+(unsigned int)itok.number);
}
else{
outword(0xC483);
op(4);
}
addESP-=8;
RestoreBP();
break;
case tk_longvar:
CheckAllMassiv(rbuf,4,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
outseg(&itok,2); //fild
op(0xDB);
op(itok.rm);
outaddress(&itok);
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fld val
op(0xd9+addop);
op(wtok.rm);
outaddress(&wtok);
outseg(&itok,2);//fistp var
op(0xDB);
op(itok.rm+0x18);
outaddress(&itok);
outseg(&wtok,2); //fstp val
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
break;
case tk_qwordvar:
CheckAllMassiv(rbuf,8,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
outseg(&itok,2); //fildq val
op(0xdd);
op(itok.rm+0x28);
outaddress(&itok);
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fld val
op(0xd9+addop);
op(wtok.rm);
outaddress(&wtok);
outseg(&itok,2); //fistp val
op(0xdf);
op(itok.rm+0x38);
outaddress(&itok);
outseg(&wtok,2); //fstp val
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
break;
case tk_dwordvar:
CheckInitBP();
op66(r32); //push 0L
outword(0x6a);
if(ESPloc&&am32&&itok.segm==SS)itok.number+=4;
addESP+=4;
CheckAllMassiv(rbuf,4,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
op66(r32); //push var
outseg(&itok,2);
op(0xFF);
op(itok.rm+0x30);
outaddress(&itok);
if(ESPloc&&am32&&wtok.segm==SS)wtok.number+=4;
addESP+=4;
fildq_stack();
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fld val
op(0xd9+addop);
op(wtok.rm);
outaddress(&wtok);
if(optimizespeed||am32==FALSE){
outword(0xC483);
op(8);
}
else{
op(0x58); // pop EAX
op(0x58); // pop EAX
}
addESP-=8;
outseg(&itok,2);//fistp var
op(0xDB);
op(itok.rm+0x18);
outaddress(&itok);
outseg(&wtok,2); //fstp val
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
RestoreBP();
break;
case tk_floatvar:
if(rettype==tk_double){
CheckAllMassiv(rbuf,4,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
outseg(&itok,2); //fld val
op(0xd9);
op(itok.rm);
outaddress(&itok);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
outseg(&wtok,2); //fstp val
op(0xdd);
op(wtok.rm);
outaddress(&wtok);
outseg(&itok,2); //fstp val
op(0xd9);
op(itok.rm+0x18);
outaddress(&itok);
outseg(&wtok,2); //fstp val
op(0xdd);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
}
else{
getinto_e_ax(0,tk_dwordvar,&wtok,wbuf,&wstr,r32);
CheckAllMassiv(rbuf,4,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
op66(r32);
outseg(&itok,2);// XCHG EAX,[dword]
op(0x87); op(itok.rm);
outaddress(&itok);
goto getfromeax;
}
break;
case tk_doublevar:
if(rettype==tk_float){
CheckAllMassiv(rbuf,4,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
outseg(&itok,2); //fldq val
op(0xdd);
op(itok.rm);
outaddress(&itok);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
outseg(&wtok,2); //fld val
op(0xd9);
op(wtok.rm);
outaddress(&wtok);
outseg(&itok,2); //fstp val
op(0xdd);
op(itok.rm+0x18);
outaddress(&itok);
outseg(&wtok,2); //fstp val
op(0xd9);
op(wtok.rm+0x18);
outaddress(&wtok);
fwait3();
}
else{
getinto_e_ax(0,tk_dwordvar,&wtok,wbuf,&wstr,r32);
CheckAllMassiv(rbuf,4,&strinf,&itok,regdi==FALSE?idxregs[2]:idxregs[1],idxregs[3]);
op66(r32);
outseg(&itok,2);// XCHG EAX,[dword]
op(0x87); op(itok.rm);
outaddress(&itok);
goto getfromeax;
}
break;
case tk_fpust:
if(itok.number>6)fpustdestroed();
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
outseg(&wtok,2); //fld val
op(0xd9+addop);
op(wtok.rm);
outaddress(&wtok);
op(0xD9);
op(0xC8+itok.number+1);
outseg(&wtok,2); //fstp val
op(0xd9+addop);
op(wtok.rm+0x18);
outaddress(&wtok);
break;
default: swaperror(); break;
}
break;
default: operatorexpected(); break;
}
if(next)nexttok();
if(terminater==tk_semicolon)seminext();
if(cpu<3)cpu=3;
return retrez;
}
void fildq2_stack(int size)
{
op(0xdf);
if(am32)outword(0x242c); //fildq ssdword[bp-8]/ssdword[esp]
else{
if(short_ok(size,FALSE)==0){
op(0xAE);
outword(-size);
}
else{
op(0x6E);
op(-size);
}
}
}
void fildq_stack()
{
fildq2_stack(localsize+8);
}
void fistp2_stack(int size)
{
if(am32)outword(0x241c); //fistp ssdword[ebp+2]/ssdword[esp]
else{
if(short_ok(size,FALSE)==0){
op(0x9E);
outword(-size);
}
else{
op(0x5E);
op(-size);
}
}
}
void fistp_stack(int addop)
{
op(0xDB+addop);
fistp2_stack(localsize+4+addop);
}
void fld_stack(int size)
{
if(am32)outword(0x2404); //fld ssdword[ebp+2]/ssdword[esp]
else{
if(short_ok(size,FALSE)==0){
op(0x86);
outword(-size);
}
else{
op(0x46);
op(-size);
}
}
}
void FloatToNumer(int addop)
//<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> float <20> <20><>
{
CheckInitBP();
op(0xD9+addop);
fld_stack(4+localsize+addop);
fistp_stack();
RestoreBP();
fwait3();
op66(r32);
op(0x58); //pop reg
if(cpu<3)cpu=3;
}
void Float2reg32(int reg,int addop,int reg1,int reg2)
{
CheckInitBP();
op66(r32);
op(0x50); //push AX
if(ESPloc&&am32&&itok.segm==SS)itok.number+=4;
addESP+=4;
CheckAllMassiv(bufrm,4+addop,&strinf,&itok,reg1,reg2);
outseg(&itok,2); //fld floatvar
op(0xd9+addop);
op(itok.rm);
outaddress(&itok);
fistp_stack();
fwait3();
op66(r32);
op(0x58+reg); //pop reg
addESP-=4;
if(cpu<3)cpu=3;
RestoreBP();
}
void byteinstack(int *numstak,int *nums)
{
CheckInitBP();
CheckAllMassiv(bufrm,1,&strinf);
op66(r16);
if(tok==tk_bytevar&&optimizespeed&&chip>3&&chip<7){
outword(0xC031); //xor ax,ax
outseg(&itok,2);
op(0x8A);
}
else{
outseg(&itok,3);
op(0xf);
if(tok==tk_bytevar)op(0xb6);
else op(0xbe);
}
op(itok.rm);
outaddress(&itok);
op66(r16);
outword(0xDF50); //push ax
*numstak+=2;
addESP+=2;
fld_stack(*nums+*numstak);
}
void reginstack(int *numstak,int *nums)
{
CheckInitBP();
op66(tok==tk_reg32?r32:r16);
if(tok==tk_beg){
if(optimizespeed&&chip>3&&chip<7&&itok.number!=AL&&itok.number!=AH){
xorAXAX();
op(0x88);
op(0xC0+itok.number*8); //mov al,beg
}
else if(itok.number==AL)xorAHAH();
else{
outword(0xB60F); /* MOVZX AX,beg */
op(0xC0+itok.number);
}
itok.number=0;
}
else outword(0x6a); //push 0
op66(tok==tk_reg32?r32:r16);
op(0x50+itok.number); //push AX
if(tok==tk_reg){
op(0xDB);
*numstak+=4;
addESP+=4;
fld_stack(*nums+*numstak);
}
else if(tok==tk_beg){
op(0xdf);
*numstak+=2;
addESP+=2;
fld_stack(*nums+*numstak);
}
else{
*numstak+=8;
addESP+=8;
fildq2_stack(*nums+*numstak);
}
}
void wordinstack(int *numstak,int *nums)
{
CheckInitBP();
op66(tok==tk_wordvar?r16:r32);
outword(0x6a); //push 0
if(ESPloc&&am32&&itok.segm==SS)itok.number+=4;
CheckAllMassiv(bufrm,tok==tk_wordvar?2:4,&strinf);
op66(tok==tk_wordvar?r16:r32);
outseg(&itok,2); //push var
op(0xFF);
op(itok.rm+0x30);
outaddress(&itok);
if(tok==tk_wordvar){
op(0xDB);
addESP+=4;
*numstak+=4;
fld_stack(*nums+*numstak);
}
else{
addESP+=8;
*numstak+=8;
fildq2_stack(*nums+*numstak);
}
}
void intinstack(int addop)
{
CheckAllMassiv(bufrm,tok==tk_intvar?2:4+addop,&strinf);
outseg(&itok,2); //fild intvar
if(tok==tk_intvar||tok==tk_qwordvar)op(0xDF);
else if(tok==tk_floatvar||tok==tk_doublevar)op(0xd9+addop);
else op(0xDB);
op(itok.rm+(tok==tk_qwordvar?0x28:0));
outaddress(&itok);
}
int doeaxfloatmath(int itreturn,int reg,int addop)
{
int vop,negflag=0,next,numstak=0;
static int nums=0;
int i=0;
long long lnumber;
int ols;
ols=localsize;
nums+=localsize;
next=1;
if(tok==tk_minus){
if(CheckMinusNum()==FALSE){
negflag=1;
getoperand(am32==TRUE?EAX:BX);
}
}
if(tok==tk_number){
// printf("rm=%d %e %e %08X\n",itok.rm,itok.fnumber,itok.dnumber,itok.number);
if(addop==0/*itok.rm==tk_float*/){
itok.number=doconstfloatmath();
itok.rm=tk_float;
}
else{
itok.lnumber=doconstdoublemath();
itok.rm=tk_double;
}
next=0;
if(itok.type==tp_stopper){
// if(itok.rm==tk_float&&addop==4)itok.dnumber=itok.fnumber;
// if(itok.rm==tk_double&&addop==0)itok.fnumber=itok.dnumber;
if(itreturn==tk_stackstart){
if(itok.rm==tk_double){
lnumber=itok.lnumber;
itok.lnumber=lnumber>>32;
}
for(i=0;i<2;i++){
op66(r32);
if(short_ok(itok.number,TRUE)){ //PUSH number
op(0x6A);
op(itok.number);
}
else{
op(0x68);
outdword(itok.number);
}
if(itok.rm!=tk_double)break;
if(i==1)break;
itok.number=lnumber;
}
return itreturn;
}
if(itreturn==tk_reg32){
MovRegNum(r32,0,itok.number,reg);
return itreturn;
}
if(itreturn==tk_reg64){
MovRegNum(r32,0,itok.number,reg&255);
MovRegNum(r32,0,itok.lnumber>>=32,reg/256);
return itreturn;
}
}
}
if(itreturn==tk_stackstart&&(!am32)){
op66(r32);
op(0x50); //push eax
if(addop){
op66(r32);
op(0x50); //push eax
}
op(0x55); //push bp
outword(0xe589);//mov bp,sp
if(initBP>1)initBP++;
localsize=-6-addop;
}
if(next==0)goto casenumber;
switch(tok){
case tk_number:
casenumber:
// printf("rm=%d %e %e %08X\n",itok.rm,itok.fnumber,itok.dnumber,itok.number);
if((itok.rm==tk_float&&itok.fnumber==1.0)||
(itok.rm==tk_double&&itok.dnumber==1.0)||
(itok.rm!=tk_float&&itok.rm!=tk_double&&itok.lnumber==1)){
outword(0xE8D9); //FLD1
break;
}
if((itok.rm==tk_float&&itok.fnumber==0.0)||
(itok.rm==tk_double&&itok.dnumber==0.0)||itok.lnumber==0){
outword(0xEED9); //FLDZ
break;
}
op(0xD9+(itok.rm==tk_float?0:4));
op((am32==FALSE?0x06:0x05)); //fld
AddFloatConst(itok.lnumber,itok.rm);
outword(0);
if(am32)outword(0);
break;
case tk_at:
getoperand(am32==TRUE?EAX:BX);
macros(tk_fpust);
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_declare:
case tk_undefproc:
int onums;
onums=nums;
nums=-(int)localsize;
vop=procdo(tk_fpust); //<2F><><EFBFBD><EFBFBD><EFBFBD> <20><> <20><><EFBFBD><EFBFBD><E6A5A4>
nums=onums;
if(tok2==tk_semicolon&&vop!=tk_fpust&&vop!=tk_double){
nexttok();
return tk_assign;
}
break;
case tk_qwordvar:
case tk_doublevar:
i=4;
case tk_floatvar:
case tk_longvar:
case tk_intvar:
intinstack(i);
break;
case tk_dwordvar:
case tk_wordvar:
wordinstack(&numstak,&nums);
break;
case tk_charvar:
case tk_bytevar:
byteinstack(&numstak,&nums);
break;
case tk_beg:
case tk_reg32:
case tk_reg:
reginstack(&numstak,&nums);
break;
case tk_fpust:
if(itok.number){
op(0xD9);
op(0xC8+itok.number);
}
break;
default: valueexpected(); break;
}
if(negflag){
outword(0xe0d9); //fchs
negflag=0;
}
if(next==1)nexttok();
while(itok.type!=tp_stopper&&tok!=tk_eof&&itok.type!=tp_compare){
next=1;
vop=0;
i=0;
switch(tok){
case tk_multminus: negflag=1; goto mult;
case tk_divminus: negflag=1;
case tk_div: vop+=0x10;
case tk_minus: vop+=0x20;
mult:
case tk_mult: vop+=8;
case tk_plus:
getoperand();
switch(tok){
case tk_number:
if(itok.rm!=tk_float&&itok.rm!=tk_double){
itok.dnumber=itok.lnumber;
itok.rm=tk_double;
}
if((itok.rm==tk_float&&itok.fnumber==1.0)||
(itok.rm==tk_double&&itok.dnumber==1.0)){
num1:
if(vop==0||vop==0x28){ // + -
outword(0xE8D9); //FLD1
op(0xDE);
op(0xC1+vop);
}
break;
}
op(0xd8+(itok.rm==tk_float?0:4));
if(vop==0x38){ // div 22.12.05 22:10
vop=8; //mult
if(itok.rm==tk_float)itok.fnumber=1/itok.fnumber;
else itok.dnumber=1/itok.dnumber;
}
if(/*vop==0x38||*/vop==0x28)vop-=8;
op((am32==FALSE?0x06:0x05)+vop);
AddFloatConst(itok.lnumber,itok.rm);
outword(0);
if(am32)outword(0);
break;
case tk_doublevar:
i=4;
case tk_floatvar:
if(vop==0x38||vop==0x28)vop-=8;
CheckAllMassiv(bufrm,4+i,&strinf);
outseg(&itok,2); //fsubr var
op(0xd8+i);
op(itok.rm+vop);
outaddress(&itok);
break;
case tk_longvar:
case tk_intvar:
CheckAllMassiv(bufrm,4,&strinf);
outseg(&itok,2); //fsubr var
op(tok==tk_intvar?0xDE:0xDA);
if(vop==0x38||vop==0x28)vop-=8;
op(itok.rm+vop);
outaddress(&itok);
break;
case tk_qwordvar:
intinstack(4);
op(0xde);
op(0xC1+vop);//fsubpr st1
break;
case tk_dwordvar:
case tk_wordvar:
wordinstack(&numstak,&nums);
op(0xde);
op(0xC1+vop);//fsubpr st1
break;
case tk_beg:
case tk_reg32:
case tk_reg:
reginstack(&numstak,&nums);
op(0xde);
op(0xC1+vop);//fsubpr st1
break;
case tk_charvar:
case tk_bytevar:
byteinstack(&numstak,&nums);
op(0xde);
op(0xC1+vop);//fsubpr st1
break;
case tk_fpust:
if(vop==0x38||vop==0x28)vop-=8;
op(0xd8);
op(0xC0+vop+itok.number);//fsubpr st
break;
default: valueexpected(); break;
}
break;
default: illegalfloat(); break;
}
if(negflag){
outword(0xe0d9); //fchs
negflag=0;
}
if(next)nexttok();
}
if(tok==tk_eof)unexpectedeof();
if(itreturn==tk_stackstart){
if(!am32){
op(0xD9+addop);
outword(0x025e); //fstp ssdword[bp+2]
numstak-=2;
}
else{
if(numstak<4){
op66(r32);
op(0x50); //push eax
addESP+=4;
}
else numstak-=4;
if(addop){
if(numstak<4){
op66(r32);
op(0x50); //push eax
addESP+=4;
}
else numstak-=4;
}
op(0xD9+addop);
if(numstak==0)outword(0x241C); //fstp ssdword[esp]
else{
outword(0x245C); //fstp ssdword[esp+numstak]
op(numstak);
}
}
fwait3();
}
else if(itreturn==tk_reg32||itreturn==tk_reg64){
i=4;
if(itreturn==tk_reg64)i=8;
if(numstak<i){
op66(r32);
op(0x50); //push eax
if(itreturn==tk_reg64){
op66(r32);
op(0x50); //push eax
}
numstak+=i;
addESP+=i;
}
op(itreturn==tk_reg32?0xDB:0xDF);
// op(itreturn==tk_reg32?0xD9:0xDB);
fistp2_stack(localsize+numstak);
fwait3();
if(itreturn==tk_reg64){
op66(r32);
op(0x58); //pop EAX
op66(r32);
op(0x58+EDX); //pop EDX
}
else{
op66(r32);
op(0x58+reg); //pop reg
}
numstak-=i;
addESP-=i;
}
if(localsize!=(unsigned int)ols){
localsize=ols;
Leave();
initBP--;
}
else if(numstak){
if(numstak<128){
outword(0xC483);
op(numstak);
}
else{
outword(0xC481);
outword(numstak);
}
addESP-=numstak;
}
RestoreBP();
nums-=localsize;
return itreturn;
}
void float2stack(int num)
{
outword(0xC0DD);
if(tok!=tk_fpust)outword(0xf7d9); //fincstp
// if(num>6)fpustdestroed();
// outword(0xf6d9); //fdecstp
doeaxfloatmath(tk_fpust);
if(num){
op(0xD9);
op(0xC8+num);
}
}
void dofloatstack(int num)
{
int vop=0;
nexttok();
switch(tok){
case tk_assign: //=
getoperand(am32==TRUE?EAX:BX);
float2stack(num);
break;
case tk_divequals: vop+=0x10;
case tk_minusequals: vop+=0x20;
case tk_multequals: vop+=8;
case tk_plusequals:
getoperand(am32==TRUE?EAX:BX);
float2stack(0);
// doeaxfloatmath(tk_fpust);
op(0xdc);
op(0xC0+vop+num);//fsubpr st
break;
case tk_swap:
getoperand(am32==TRUE?EAX:BX);
switch(tok){
case tk_fpust:
op(0xD9);
op(0xC8+num);
op(0xD9);
op(0xC8+itok.number);
op(0xD9);
op(0xC8+num);
break;
case tk_doublevar:
vop=4;
case tk_floatvar:
CheckAllMassiv(bufrm,4,&strinf);
outseg(&itok,2); //fld val
op(0xd9+vop);
op(itok.rm);
outaddress(&itok);
op(0xD9);
op(0xC8+num+1);
outseg(&itok,2); //fstp val
op(0xd9+vop);
op(itok.rm+0x18);
outaddress(&itok);
break;
default:
swaperror();
break;
}
nexttok();
break;
default:
illegalfloat(); break;
}
}
void RestoreBP()
{
if(am32==0&&initBP==2){
Leave();
initBP=0;
}
}
void CheckInitBP()
{
if(am32==0&&initBP==0){
op(0x55); //push bp
outword(0xe589);//mov bp,sp
initBP=2;
}
}
void AddReloc(int segm)
{
if(FixUp!=FALSE){
CheckPosts();
if(segm==DS){
(postbuf+posts)->type=(unsigned short)(am32==FALSE?FIX_VAR:FIX_VAR32);
(postbuf+posts)->loc=outptrdata;
}
else{
(postbuf+posts)->type=(unsigned short)(am32==FALSE?FIX_CODE:FIX_CODE32);
(postbuf+posts)->loc=outptr;
}
posts++;
}
postnumflag&=(~f_reloc);
}
void fwait3()
{
if(chip<4&&tok2!=tk_floatvar&&tok2!=tk_doublevar&&tok2!=tk_float&&tok2!=tk_double)op(0x9B);
}
void AddFloatConst(long long fnumber,int type)
{
unsigned int i;
unsigned int ofs;
for(i=0;i<numfloatconst;i++){
if(type==(floatnum+i)->type){
ofs=(floatnum+i)->ofs;
if(type==tk_float){
if(*(long *)&fnumber==(floatnum+i)->num[0])goto endp;
}
else if(*(double *)&fnumber==(floatnum+i)->dnum)goto endp;
}
}
if(numfloatconst==0){
floatnum=(LISTFLOAT *)MALLOC(sizeof(LISTFLOAT)*STEPFLOATCONST);
maxnumfloatconst=STEPFLOATCONST;
// memset(floatnum,0,sizeof(LISTFLOAT)*STEPFLOATCONST);
}
else if((numfloatconst+1)==maxnumfloatconst){
floatnum=(LISTFLOAT *)REALLOC(floatnum,(maxnumfloatconst+STEPFLOATCONST)*sizeof(LISTFLOAT));
maxnumfloatconst+=STEPFLOATCONST;
}
numfloatconst++;
(floatnum+i)->type=type;
ofs=(floatnum+i)->ofs=ofsfloatlist;
if(type==tk_float)(floatnum+i)->num[0]=*(unsigned long *)&fnumber;
else (floatnum+i)->dnum=*(double *)&fnumber;
ofsfloatlist+=(type==tk_float?4:8);
endp:
CheckPosts();
(postbuf+posts)->type=POST_FLOATNUM;
(postbuf+posts)->loc=outptrdata;
(postbuf+posts)->num=ofs;
posts++;
}
void setwordext(long *id)
{
CheckPosts();
(postbuf+posts)->type=EXT_VAR;
(postbuf+posts)->loc=outptr;
(postbuf+posts)->num=*id&0xFFFF; //id <20><><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD> <20><><EFBFBD><E0A5AC><EFBFBD><EFBFBD><EFBFBD>
*id>>=16; //<2F><> <20><><EFBFBD><EFBFBD><E7A5AD>
posts++;
}
void setwordpost(ITOK *stok) /* for post word num setting */
{
CheckPosts();
if(stok->post==USED_DIN_VAR){
(postbuf+posts)->type=(unsigned short)(am32==0?DIN_VAR:DIN_VAR32);
// printf("Add tok=%d %s\n",stok->rec->rectok,stok->rec->recid);
// printf("rec=%08X\n",stok->rec);
if(stok->rec->rectok==tk_structvar&&stok->rec->recsib==tp_gvar){
(postbuf+posts)->num=(int)stok->rec;//02.09.05 17:11 ->right;
}
else (postbuf+posts)->num=(int)stok->rec;
}
else if(stok->post>=CODE_SIZE&&stok->post<=STACK_SIZE32)(postbuf+posts)->type=stok->post;
else (postbuf+posts)->type=(unsigned short)(am32==FALSE?POST_VAR:POST_VAR32);
(postbuf+posts)->loc=outptr;
posts++;
}
void MovRegNum(int razr,int relocf,unsigned long number,int reg)
{
unsigned long num;
int nreg;
op66(razr);
if(relocf==0){
if(number!=0&&GetRegNumber(reg,&num,razr)==reg){
ConstToReg(number,reg,razr);
if(num==number)return;
else if(num<number){
num=number-num;
if(num==1){
op(0x40+reg); //inc reg
return;
}
if(num==2){
op(0x40+reg); //inc reg
op66(razr);
op(0x40+reg); //inc reg
return;
}
if(razr==r32&&short_ok(num,TRUE)){
op(0x83);
op(0xC0+reg);
op(num);
return;
}
}
else{
num=num-number;
if(num==1){
op(0x48+reg); //dec reg
return;
}
if(num==2){
op(0x48+reg); //dec reg
op66(razr);
op(0x48+reg); //dec reg
return;
}
if(razr==r32&&short_ok(num,TRUE)){
op(0x83);
op(0xE8+reg);
op(num);
return;
}
}
}
if((nreg=GetNumberR(reg,&num,razr,number))!=NOINREG){
ConstToReg(number,reg,razr);
if(num==number){
op(0x89);
op(128+64+nreg*8+reg);
return;
}
else if((number-num)==1){
op(0x89);
op(128+64+nreg*8+reg);
op66(razr);
op(0x40+reg); //inc reg
return;
}
else{
if((num-number)==1){
op(0x89);
op(128+64+nreg*8+reg);
op66(razr);
op(0x48+reg); //dec reg
return;
}
}
}
ConstToReg(number,reg,razr);
if(number==0){
op(0x31); op(0xC0+reg*9);
} // XOR reg,reg
else if((long)number==-1&&razr==r32){
op(0x83); //or reg,-1
op(0xC8+reg);
op(0xFF);
}
else if(number==1&&razr==r32){
op(0x31); op(0xC0+reg*9); //xor reg,reg
op66(razr);
op(0x40+reg); //inc reg
}
else if(regoverstack&&razr==r32&&short_ok(number,TRUE)){
op(0x6A);
op(number); //push short number
op66(razr);
op(0x58+reg);
}
else goto stdmov;
}
else{
stdmov:
op(0xB8+reg); // MOV reg,#
if(relocf)AddReloc();
razr==r16?outword(number):outdword(number);
ClearReg(reg);
}
}
void NegReg(int razr,int reg)
{
op66(razr);
if(optimizespeed&&(chip==5||chip==6)){
op(0x83); //and reg,-1
op(0xF0+reg);
op(0xFF);
op66(razr);
op(0x40+reg); //inc reg
}
else{
op(0xF7);
op(0xD8+reg); // NEG reg
}
ClearReg(reg);
}
int RshiftReg(int razr,int reg,int sign)
{
char *ofsstr=NULL;
if(tok==tk_number){
if((unsigned int)itok.number==1){
op66(razr);
op(0xD1); op(0xE8+reg+sign); // SHR reg,1
}
else if((unsigned int)itok.number!=0){
if(chip<2&&razr==r16){
if(reg==ECX)return FALSE;
goto rrshift;
}
else{
op66(razr);
op(0xc1);
op(0xe8+reg+sign); // SHR reg,imm8
op((unsigned int)itok.number);
if(cpu<2)cpu=2;
}
}
nexttok();
}
else if(reg==ECX)return FALSE;
else if((tok==tk_beg||tok==tk_reg||tok==tk_reg32)&&itok.number==CL){
nexttok();
goto rshift;
}
else{
rrshift:
getintobeg(CL,&ofsstr);
warningreg(begs[1]);
rshift:
op66(razr);
op(0xD3);
op(0xE8+reg+sign); // SHL xXX,CL
}
return TRUE;
}
int CheckMinusNum()
{
if(tok==tk_minus&&tok2==tk_number){
nexttok();
if(itok.rm==tk_float)itok.number|=0x80000000;
else if(itok.rm==tk_double)itok.lnumber|=0x8000000000000000LL;
else itok.lnumber=-itok.lnumber;
return TRUE;
}
return FALSE;
}
int MulReg(int reg,int razr)
{
int next=1,i=0;
int ii=0;
char *ofsstr=NULL;
switch(tok){
case tk_number:
RegMulNum(reg,itok.number,razr,0,&i,itok.flag);
break;
case tk_postnumber:
case tk_undefofs:
if(chip<2&&razr==r16)regmathoperror();
op66(razr);
op(0x69);
op(0xc0+reg*9);
if(tok==tk_postnumber)(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
else AddUndefOff(0,itok.name);
razr==r16?outword(itok.number):outdword(itok.number);
break;
case tk_apioffset:
if(chip<2&&razr==r16)regmathoperror();
op66(razr);
op(0x69);
op(0xc0+reg*9);
AddApiToPost(itok.number);
break;
case tk_doublevar:
ii=4;
case tk_floatvar:
if(reg!=EDX)i=EDX;
Float2reg32(i,ii);
op66(razr);
outword(0xAF0F);
op(0xC0+reg*8+i); // IMUL reg,EDX/EAX
warningreg(regs[1][i]);
break;
case tk_qwordvar:
i=4;
case tk_longvar:
case tk_dwordvar:
i+=4;
goto mulword;
case tk_intvar:
case tk_wordvar:
if(chip<2)regmathoperror();
if(razr==r32)goto defmul1;
i=2;
mulword:
CheckAllMassiv(bufrm,i,&strinf);
op66(razr);
outseg(&itok,3);
outword(0xAF0F);
op(reg*8+itok.rm);
outaddress(&itok);
break;
case tk_bits:
int vops,reg2s;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)vops=r64;
if(i<=32)vops=r32;
if(i<=16)vops=r16;
if(vops<razr)vops=razr;
reg2s=CX;
if(reg==CX)reg2s=DI;
bits2reg(reg2s,vops);
if(vops==r64)vops=r32;
warningreg(regs[vops/2-1][reg2s]);
itok.number=reg2s;
goto defreg32;
case tk_reg:
if(chip<2)regmathoperror();
if(razr==r32){
op66(r32);
outword(0xB70F);
if(itok.number==reg){
op(0xC0+reg);
itok.number=EAX;
}
else op(0xC0+itok.number*9);
warningreg(regs[razr/2-1][itok.number]);
}
case tk_reg32:
defreg32:
op66(razr);
outword(0xAF0F);
op(0xC0+reg*8+(unsigned int)itok.number);
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
procdo(razr==r16?tk_word:tk_dword);
i=EAX;
goto defmul;
case tk_seg:
case tk_charvar:
case tk_beg:
case tk_bytevar:
case tk_rmnumber:
defmul1:
i=EDX;
if(reg==EDX)i=ECX;
getintoreg_32(i,razr,0,&ofsstr,FALSE);
defmul:
op66(razr);
outword(0xAF0F);
op(0xC0+reg*8+i);
warningreg(regs[razr/2-1][2]);
if(i!=EDX)warningreg(regs[razr/2-1][i]);
if(i!=EAX)next=0;
break;
default: regmathoperror(); break;
}
return next;
}
void DivMod(int vop,int sign,int razr,int expand)
{
int i,next;
char *ofsstr=NULL;
if(tok==tk_bits){
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)next=r64;
if(i<=32)next=r32;
if(i<=16)next=r16;
bits2reg(CX,(razr<next?next:razr));
itok.number=CX;
if(next==r64)next=r32;
ClearReg(CX);
warningreg(regs[next/2-1][ECX]);
tok=(razr==r16?tk_reg:tk_reg32);
}
i=0;
next=1;
if(tok==tk_number){
if(razr==r16)itok.number&=0xffff;
if(vop){ //%
if((itok.flag&f_reloc)!=0)goto defal;
if(itok.number==0)DevideZero();
if(caselong(itok.number)!=NUMNUM){
itok.number--;
if(itok.number==0)ZeroReg(EAX,razr);
else if(short_ok(itok.number,razr/2-1)){
op66(razr);
outword(0xE083);
op(itok.number);
}
else{
op66(razr);
op(0x25); // AND EAX,number-1
razr==r16?outword((unsigned int)itok.number):outdword(itok.number);
}
setzeroflag=TRUE;
}
else{
defal:
if(!expand)ClearDX(razr,sign);
DivNum2(itok.number,razr,sign);
setzeroflag=FALSE;
}
}
else{ //<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
if((itok.flag&f_reloc)!=0)goto divin;
switch(itok.number){
case 0:
DevideZero();
break;
case 1: break;
case 2:
if(expand==TRUE){
op66(razr);
if((chip>2||razr==r32)&&chip!=5&&chip!=6){
outdword(0x01d0ac0f); //shrd ax,dx,1
setzeroflag=TRUE;
}
else{
outword(0xead1); //shr dx,1 rcr ax,1
op66(razr);
outword(0xd8d1);
setzeroflag=FALSE;
}
ClearReg(AX);
ClearReg(DX);
break;
}
op66(razr);
if(sign)outword(0xF8D1);// SAR AX,1
else outword(0xE8D1); // SHR AX,1
setzeroflag=TRUE;
ClearReg(AX);
break;
default:
vop=caselong(itok.number);
if(vop!=NUMNUM){
if(expand==TRUE){
if(chip>2||razr==r32){
op66(razr);
op(0x0f);
outword(0xd0ac); //shrd ax,dx,vop
op(vop);
setzeroflag=TRUE;
ClearReg(AX);
ClearReg(DX);
}
else{
if(optimizespeed==FALSE)goto divin;
op(0xB1); op(vop); /* MOV CL,num */
if(sign)outword(0xFad1); // SAR AX,1
else outword(0xEad1); // SHR AX,1
outdword(0xfae2d8d1); //rcr ax,1 LOOP -6
warningreg(begs[1]);
setzeroflag=FALSE;
ClearReg(AX);
ConstToReg(vop,CL,r8);
}
}
else{
if(chip<2&&razr==r16){
op(0xB1); op(vop); /* MOV CL,num */
if(sign)outword(0xF8D3); // SAR AX,CL
else outword(0xE8D3); // SHR AX,CL
warningreg(begs[1]);
ClearReg(AX);
ConstToReg(vop,CL,r8);
}
else{
op66(razr);
if(sign)outword(0xF8C1); // SAR AX,num
else outword(0xE8C1); // SHR AX,num
op(vop);
ClearReg(AX);
}
setzeroflag=TRUE;
}
}
else{
if(expand==FALSE)DivNum(itok.number,razr,sign);
else{
divin:
if(!expand)ClearDX(razr,sign);
DivNum2(itok.number,razr,sign);
}
}
}
}
}
else{
if(tok==tk_doublevar){
i=4;
tok=tk_floatvar;
}
if(tok==tk_floatvar){
Float2reg32(ECX,i);
warningreg(regs[razr/2-1][1]);
itok.number=ECX;
tok=(razr==r16?tk_reg:tk_reg32);
sign=1;
}
switch(tok){
case tk_qwordvar:
i=4;
case tk_longvar:
case tk_dwordvar:
i+=2;
case tk_intvar:
case tk_wordvar:
if(razr==r32&&(tok==tk_intvar||tok==tk_wordvar))goto defdiv;
i+=2;
CheckAllMassiv(bufrm,i,&strinf);
if(expand==FALSE)ClearDX(razr,sign);
op66(razr);
outseg(&itok,2);
op(0xF7);
if(sign)op(0x38+itok.rm); /* IDIV word ptr [#] */
else op(0x30+itok.rm); /* DIV word ptr [#] */
outaddress(&itok);
ClearReg(AX);
break;
case tk_reg:
if(razr==r32){
i=itok.number;
getintoreg_32(i,r32,0,&ofsstr,FALSE);
if(expand==FALSE)ClearDX(razr,sign);
op66(r32);
op(0xF7);
if(sign)op(0xF8+i); /* IDIV ECX */
else op(0xF0+i); /* DIV ECX */
next=0;
warningreg(regs[1][2]);
ClearReg(AX);
ClearReg(CX);
break;
}
case tk_reg32:
if(expand==FALSE)ClearDX(razr,sign);
op66(razr);
op(0xF7);
if(sign)op(0xF8+(unsigned int)itok.number);
else op(0xF0+(unsigned int)itok.number);
ClearReg(AX);
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
op66(razr);
op(0x50); //push AX
addESP+=razr==r16?2:4;
unsigned char oaddstack;
oaddstack=addstack;
addstack=FALSE;
procdo(razr==r16?(sign==0?tk_word:tk_int):(sign==0?tk_dword:tk_long));
addstack=oaddstack;
addESP-=razr==r16?2:4;
op66(razr);
op(0x90+ECX); //xchg AX,CX
op66(razr);
op(0x58); //pop AX
if(expand==FALSE)ClearDX(razr,sign);
op66(razr);
op(0xF7);
if(sign)op(0xF8+ECX); /* IDIV ECX */
else op(0xF0+ECX); /* DIV ECX */
warningreg(regs[razr/2-1][ECX]);
break;
case tk_undefofs:
case tk_seg:
case tk_charvar:
case tk_beg:
case tk_bytevar:
case tk_rmnumber:
case tk_postnumber:
case tk_apioffset:
defdiv:
getintoreg_32(CX,razr,0,&ofsstr,FALSE);
if(expand==FALSE)ClearDX(razr,sign);
op66(razr);
if(sign)outword(0xF9F7); /* IDIV CX */
else outword(0xF1F7); /* DIV CX */
next=0;
warningreg(regs[razr/2-1][ECX]);
ClearReg(CX);
ClearReg(AX);
break;
default: valueexpected(); break;
}
setzeroflag=FALSE;
/* if(vop){
op66(razr);
if(optimizespeed)outword(0xC28B); //mov ax,dx
else op(0x92); //xchg ax,dx
}*/
}
if(next)nexttok();
}
void DivNum(unsigned long num,int razr,int sign)
{
/*int i;
unsigned long num2;
if(num<65536&&optimizespeed&&(itok.flag&f_reloc)==0&&sign==0){ //for signed needed new algoritm
if(razr==r16&&chip>2){
num2=65536/(unsigned int)num+1;
if((65535/num2)!=num)goto stddiv;
op66(r32);
op(0x25);
outdword(0xffff); //and EAX,ffff
if(short_ok(num2,FALSE))i=2; //<2F><><EFBFBD><EFBFBD><EFBFBD> <20><>
op66(r32);
op(0x69+i); //imul EAX,num
op(0xc0);
if(i==2)op(num2);
else outdword(num2);
op66(r32);
outword(0xE8C1);
op(0x10); //shr EAX,16
setzeroflag=TRUE;
}
else{
if(razr==r32)num=(unsigned long)0xFFFFFFFFL/num+1;
else num=65536/(unsigned int)num+1;
op66(razr);
op(0xBA); //mov DX,num
if(razr==r16)outword(num);
else outdword(num);
op66(razr);
outword(0xE2F7); //mul DX
op66(razr);
outword(0xD089); //mov AX,DX
setzeroflag=FALSE;
warningreg(regs[razr/2-1][2]);
}
return;
}
stddiv:*/
ClearDX(razr,sign);
DivNum2(num,razr,sign);
}
void ClearDX(int razr,int sign)
{
if(sign)cwdq(razr);
else{
op66(razr);
outword(0xD231);
}
warningreg(regs[razr/2-1][EDX]);
ClearReg(DX);
}
void DivNum2(unsigned long num,int razr,int sign)
{
MovRegNum(razr,itok.flag&f_reloc,num,ECX);
op66(razr);
if(sign)outword(0xF9F7); /* IDIV CX */
else outword(0xF1F7); /* DIV CX */
warningreg(regs[razr/2-1][ECX]);
ClearReg(CX);
ClearReg(AX);
}
int getintoreg(int reg,int razr,int sign,char **ofsstr)
{
ITOK oitok,oitok2;
int oline,oendinptr;
int oinptr,otok,otok2;
unsigned char *oinput;
unsigned char ocha;
int useeax=FALSE;
int operand=tk_plus;
int rettype=tk_reg;
char *obuf;
SINFO ostr;
int i=0;
int j=0;
int onlynum=FALSE;
COM_MOD *bmod;
switch(tok){
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
break;
default:
// if(cur_mod)break; //10.08.04 22:50 <20><>-<2D><> define <20><EFBFBD><E0A5AA><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
obuf=bufrm;
bufrm=NULL;
ostr=strinf;
strinf.bufstr=NULL;
oitok=itok;
oitok2=itok2;
otok=tok;
otok2=tok2;
oline=linenum2;
oinptr=inptr2;
oinput=input;
oendinptr=endinptr;
bmod=cur_mod;
while(bmod){
bmod->freze=TRUE;
bmod=bmod->next;
}
bmod=cur_mod;
ocha=cha2;
// printf("input=%08X inptr=%08X %s\n",input,inptr2,input+inptr2);
if(tok==tk_number)onlynum=TRUE;
while((!useeax)&&itok.type!=tp_stopper&&tok!=tk_eof){
nexttok();
if(itok.type==tp_stopper)break;
if(itok.type==tp_opperand)operand=tok;
else{
i++;
if(bufrm)free(bufrm);
if(strinf.bufstr)free(strinf.bufstr);
switch(operand){
case tk_div:
case tk_mod:
case tk_divminus:
case tk_modminus:
if(j==0)j=1;
if((tok==tk_reg||tok==tk_reg32)&&itok.number==reg)useeax=TRUE;
if(j==1){
if(tok==tk_number){
if(onlynum==FALSE&&caselong(itok.number)==NUMNUM)j++;
}
else{
j++;
onlynum=FALSE;
}
}
break;
}
}
}
if(bmod!=cur_mod){
if(bmod&&bmod->freze){
cur_mod=bmod;
while(bmod){
bmod->freze=FALSE;
bmod=bmod->next;
}
}
else{
do{
COM_MOD *temp=cur_mod;
cur_mod=cur_mod->next;
// printf("bmod=%08X cur_mod=%08X\n",bmod,cur_mod);
if(temp->paramdef)free(temp->paramdef);
free(temp);
}while(bmod!=cur_mod);
while(bmod){
bmod->freze=FALSE;
bmod=bmod->next;
}
}
input=oinput;
}
endinptr=oendinptr;
itok=oitok;
itok2=oitok2;
tok=otok;
tok2=otok2;
linenum2=oline;
inptr2=oinptr;
cha2=ocha;
endoffile=0;
// printf("input=%08X inptr=%08X %s\n",input,inptr2,input+inptr2);
// if(bufrm)free(bufrm);
// if(strinf.bufstr)free(strinf.bufstr);
bufrm=obuf;
strinf=ostr;
break;
}
if(useeax){
op66(razr);
op(0x50);
addESP+=razr==r16?2:4;
do_e_axmath(0,razr,ofsstr);
op66(razr);
if(optimizespeed){
op(0x89);
op(0xC0+reg);
}
else op(0x90+reg);
op66(razr);
addESP-=razr==r16?2:4;
op(0x58);
}
else{
if(i==1&&j>=2){
i=EAX;
j=1;
}
else i=reg;
rettype=getintoreg_32(i,razr,sign,ofsstr);
if(itok.type!=tp_stopper&&itok.type!=tp_compare&&tok!=tk_eof){
doregmath_32(reg,razr,sign,ofsstr,j);
rettype=tk_reg;
}
}
return rettype;
}
void dobits()
{
ITOK wtok;
char *wbuf;
SINFO wstr;
int razr,i,sign=0,posiblret,pointr=0;
unsigned int rettype;
int numpointr=0;
char *ofsstr=NULL;
posiblret=rettype=tk_dword;
razr=r32;
i=itok.bit.siz+itok.bit.ofs;
if(i<9){
razr=r8;
posiblret=rettype=tk_byte;
}
else if(i<17){
posiblret=rettype=tk_word;
razr=r16;
}
else if(i>32)razr=r64;
if(tok2==tk_assign){
wstr=strinf;
strinf.bufstr=NULL;
wtok=itok;
wbuf=bufrm;
bufrm=NULL;
nexttok();
nexttok();
convert_type(&sign,(int *)&rettype,&pointr);
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr)unuseableinput();
if(tok2==tk_assign){
MultiAssign(razr,EAX,numpointr);
goto axtobit;
}
if(tok==tk_pointer)cpointr(am32==TRUE?EAX:BX,numpointr);
CheckMinusNum();
if(tok==tk_number){
if(itok2.type==tp_opperand){ //᫮<><E1ABAE><EFBFBD><EFBFBD> <20><><EFBFBD><E0A0A6><EFBFBD><EFBFBD>
if(!OnlyNumber(0))goto labl1;
itok.flag=(unsigned char)postnumflag;
}
else{
unsigned long num=itok.number;
nexttok();
itok.number=num;
}
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
if(razr!=r64)num2bits(&wtok,itok.number,razr);
else{
int siz=wtok.bit.siz;
wtok.bit.siz=32-wtok.bit.ofs;
num2bits(&wtok,itok.number,r32);
wtok.bit.siz=siz+wtok.bit.ofs-32;
wtok.bit.ofs=0;
itok.number=itok.number>>(32-wtok.bit.siz);
wtok.number+=4;
num2bits(&wtok,itok.number,r8);
}
}
else{
labl1:
if(rettype==tk_char||rettype==tk_byte)doalmath(sign,&ofsstr);
else if(rettype==tk_int||rettype==tk_word)do_e_axmath(sign,r16,&ofsstr);
else if(rettype==tk_float)doeaxfloatmath(tk_reg32,AX);
else do_e_axmath(sign,r32,&ofsstr);
convert_returnvalue(posiblret,rettype);
CheckAllMassiv(wbuf,razr,&wstr,&wtok);
axtobit:
if(razr!=r64)reg2bits(&wtok,razr);
else{
int siz=wtok.bit.siz;
op66(r32);
op(0x50); //push eax
if(ESPloc&&am32&&wtok.segm==SS)wtok.number+=4;
addESP+=4;
wtok.bit.siz=32-wtok.bit.ofs;
reg2bits(&wtok,r32);
op66(r32);
op(0x58); //pop eax
addESP-=4;
op66(r32); //shr eax,size
outword(0xE8C1);
op(wtok.bit.siz);
wtok.bit.siz=siz+wtok.bit.ofs-32;
wtok.bit.ofs=0;
wtok.number+=4;
reg2bits(&wtok,r8);
}
return;
}
}
else{
bits2reg(AX,razr);
wstr=strinf;
strinf.bufstr=NULL;
wtok=itok;
wbuf=bufrm;
bufrm=NULL;
switch(razr){
case r8:
dobeg(AL);
break;
case r16:
case r32:
doreg_32(AX,razr);
break;
case r64:
doreg_32(AX,r32);
break;
}
goto axtobit;
}
seminext();
}
void bits2reg(int reg,int razr)
{
int i,j,skip66=FALSE;
i=itok.bit.siz+itok.bit.ofs;
j=~GetBitMask(itok.bit.ofs,itok.bit.siz);
ITOK wtok;
char *wbuf;
wbuf=bufrm;
bufrm=NULL;
wtok=itok;
SINFO wstr;
wstr=strinf;
strinf.bufstr=NULL;
switch(razr){
case r8:
if(reg==AL){
getintoal(tk_bytevar,&wtok,wbuf,&wstr);
if(i!=8){
op(4+0x20); //and al,j
op(j);
}
}
else{
CheckAllMassiv(bufrm,1,&strinf);
outseg(&itok,2);
op(0x8A);
op(reg*8+itok.rm);
outaddress(&itok);
if(i!=8){
op(128);
op(128+64+reg+0x20);
op(j);
}
}
if(itok.bit.ofs){ //shr al,ofs
if(itok.bit.ofs==1){
op(0xD0);
op(0xE8+reg);
}
else{
op(0xC0);
op(0xE8+reg);
op(itok.bit.ofs);
}
}
break;
case r16:
case r32:
if(reg==AX){
getinto_e_ax(0,(razr==r16?tk_wordvar:tk_dwordvar),&wtok,wbuf,&wstr,razr);
if(razr==r16&&i!=16){
op66(razr); //and (e)ax,j
op(4+1+0x20);
outword(j);
}
else if(razr==r32&&i!=32){
op66(razr); //and (e)ax,j
if(short_ok(j,TRUE)){
op(128+2+1);
op(128+64+0x20);
op((int)j);
}
else{
op(4+1+0x20);
outdword(j);
}
}
if(j<65536&&razr==r32)skip66=TRUE;
if(itok.bit.ofs){ //shr (e)ax,ofs
if(!skip66)op66(razr);
if(itok.bit.ofs==1)outword(0xE8D1);
else{
outword(0xE8C1);
op(itok.bit.ofs);
}
}
}
else{
int reg1=idxregs[0],reg2=idxregs[1];
if(!am32){
if(reg==idxregs[2]||reg==idxregs[1]){
reg1=reg;
if(reg==idxregs[1])reg2=idxregs[0];
}
}
else{
reg1=reg;
if(reg==idxregs[1])reg2=idxregs[0];
}
CheckAllMassiv(bufrm,razr==r32?4:2,&strinf,&itok,reg1,reg2);
op66(razr);
outseg(&itok,2);
op(0x8B);
op(reg*8+itok.rm);
outaddress(&itok);
if((razr==r16&&i!=16)||(razr==r32&&i!=32)){
op66(razr); //and reg,j
if(short_ok(j,razr==r16?FALSE:TRUE)){
op(128+2+1);
op(128+64+reg+0x20);
op(j);
}
else{
op(128+1);
op(128+64+reg+0x20);
if(razr==r16)outword(j);
else outdword(j);
}
}
if(itok.bit.ofs){ //shr reg,ofs
op66(razr);
if(itok.bit.ofs==1){
op(0xD1);
op(0xE8+reg);
}
else{
op(0xC1);
op(0xE8+reg);
op(itok.bit.ofs);
}
}
}
break;
case r64:
if(reg==AX){
getinto_e_ax(0,tk_dwordvar,&wtok,wbuf,&wstr,r32);
itok.number+=4;
outseg(&itok,2);
op(0x8B);
op(DX*8+itok.rm);
outaddress(&itok);
if(itok.bit.siz!=32){
op(128);
op(128+64+DL+0x20);
op(li[itok.bit.siz+itok.bit.ofs-32]-1);
}
op66(r32);
outword(0xAC0F); //shrd edx,eax,ofs
op(0xC2);
op(itok.bit.ofs);
itok.number-=4;
warningreg(regs[1][EDX]);
}
else{
int reg1=DX;
if(reg==DX)reg1=CX;
CheckAllMassiv(bufrm,4,&strinf,&itok);
op66(r32);
outseg(&itok,2);
op(0x8B);
op(reg*8+itok.rm);
outaddress(&itok);
itok.number+=4;
outseg(&itok,2);
op(0x8B);
op(reg1*8+itok.rm);
outaddress(&itok);
if(itok.bit.siz!=32){
op(128+(reg1<4?0:3));
op(128+64+reg1+0x20);
op(li[itok.bit.siz+itok.bit.ofs-32]-1);
}
itok.number-=4;
op66(r32);
outword(0xAC0F); //shrd edx,eax,ofs
op(0xc0+reg1+reg*8);
op(itok.bit.ofs);
warningreg(regs[1][reg1]);
}
ClearReg(DX);
break;
}
ClearReg(AX);
ClearReg(reg);
}
void num2bits(ITOK *gtok,unsigned long num,int razr)
{
unsigned int j,mask;
mask=GetBitMask(gtok->bit.ofs,gtok->bit.siz);
j=li[gtok->bit.siz]-1;
if((num&j)!=j){
if(razr!=r8){
op66(razr); //and bits,mask
outseg(gtok,2);
if((postnumflag&f_reloc)==0&&short_ok(mask,razr/2-1)){
op(128+2+1);
op(gtok->rm+0x20);
outaddress(gtok);
op(mask);
}
else{
op(128+1);
op(gtok->rm+0x20);
outaddress(gtok);
if((postnumflag&f_reloc)!=0)AddReloc();
if(razr==r16)outword(mask);
else outdword(mask);
}
}
else{
outseg(gtok,2); //and bits,mask
op(128);
op(gtok->rm+0x20);
outaddress(gtok);
op(mask);
}
}
num=(num&j)<<gtok->bit.ofs; //or bits,mask
if(num<65536&&razr==r32)razr=r16;
if(num<256&&razr==r16)razr=r8;
if(razr!=r8){
op66(razr);
outseg(gtok,2);
if((postnumflag&f_reloc)==0&&short_ok(num,razr/2-1)){
op(128+2+1);
op(gtok->rm+8);
outaddress(gtok);
op(num);
}
else{
op(128+1);
op(gtok->rm+8);
outaddress(gtok);
if((postnumflag&f_reloc)!=0)AddReloc();
if(razr==r16)outword(num);
else outdword(num);
}
}
else{
if((unsigned char)num!=0){
outseg(gtok,2);
op(128);
op(gtok->rm+8);
outaddress(gtok);
op(num);
}
}
}
void reg2bits(ITOK *gtok,int razr)
{
int i,j,mask;
j=li[gtok->bit.siz]-1;
mask=GetBitMask(gtok->bit.ofs,gtok->bit.siz);
i=gtok->bit.ofs+gtok->bit.siz;
switch(razr){
case r8:
if(i!=8){
op(4+0x20); //and al,size
op(j);
}
outseg(gtok,2); //and bits,mask
op(128);
op(gtok->rm+0x20);
outaddress(gtok);
op(mask);
if(gtok->bit.ofs)lshiftmul(gtok->bit.ofs,razr);
outseg(gtok,2);
op(8);
op(gtok->rm);
outaddress(gtok);
break;
case r16:
case r32:
if(razr==r16&&i!=16){
op66(razr); //and (e)ax,size
op(4+1+0x20);
outword(j);
}
else if(razr==r32&&i!=32){
op66(razr); //and (e)ax,size
if(short_ok(j,TRUE)){
op(128+2+1);
op(128+64+0x20);
op((int)j);
}
else{
op(4+1+0x20);
outdword(j);
}
}
op66(razr); //and bits,mask
outseg(gtok,2);
if(short_ok(mask,razr/2-1)){
op(128+2+1);
op(gtok->rm+0x20);
outaddress(gtok);
op(mask);
}
else{
op(128+1);
op(gtok->rm+0x20);
outaddress(gtok);
if(razr==r16)outword(mask);
else outdword(mask);
}
if(gtok->bit.ofs)lshiftmul(gtok->bit.ofs,razr);
op66(razr);
outseg(gtok,2);
op(1+8);
op(gtok->rm);
outaddress(gtok);
break;
}
}
void getoperand(int reg)
{
unsigned int numpointr=0;
nexttok();
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr){
unuseableinput();
}
if(tok==tk_pointer){
cpointr(reg,numpointr);
}
CheckMinusNum();
}
void cpointr(int reg,int numpointr)
{
if(itok.type==tk_proc){
if(tok2==tk_openbracket){
tok=tk_proc;
}
else{
itok.rm=itok.sib;
if(am32){
itok.sib=CODE32;
tok=tk_dwordvar;
}
else{
itok.sib=CODE16;
tok=tk_wordvar;
}
compressoffset(&itok);
}
return;
}
int razr=typesize(itok.type);
if(numpointr==itok.npointr){
getpointeradr(&itok,bufrm,&strinf,numpointr-1,razr,reg);
if(itok.type>=tk_char&&itok.type<=tk_float)tok=tk_charvar+itok.type-tk_char;
else tok=(am32==FALSE?tk_wordvar:tk_dwordvar);
}
else if(numpointr<itok.npointr){
if(numpointr)getpointeradr(&itok,bufrm,&strinf,numpointr-1,razr,reg);
tok=(am32==FALSE?tk_wordvar:tk_dwordvar);
}
else unuseableinput();
}
void cwpointr(ITOK *wtok,char *&wbuf,SINFO *wstr,int *otok,int npointr,int ureg)
{
if(wtok->type==tk_proc){
wtok->rm=wtok->sib;
if(am32){
wtok->sib=CODE32;
*otok=tk_dwordvar;
}
else{
wtok->sib=CODE16;
*otok=tk_wordvar;
}
compressoffset(wtok);
}
else{
int razr=typesize(wtok->type);
int reg=idxregs[2];
if(reg==ureg)reg=idxregs[1];
if(npointr==wtok->npointr){
getpointeradr(wtok,wbuf,wstr,npointr-1,razr,reg);
if(wtok->type>=tk_char&&wtok->type<=tk_float)*otok=tk_charvar+wtok->type-tk_char;
else *otok=(am32==FALSE?tk_wordvar:tk_dwordvar);
}
else if(npointr<wtok->npointr){
*otok=(am32==FALSE?tk_wordvar:tk_dwordvar);
if(npointr)getpointeradr(wtok,wbuf,wstr,npointr-1,razr,reg);
else return;
}
else unuseableinput();
memcpy(wtok,&itok,sizeof(ITOK));
}
}
int CheckAddOnly()
{
ITOK oitok,oitok2;
int oline;
int oinptr,otok,otok2;
unsigned char ocha;
char *obuf;
SINFO ostr;
int retval=TRUE;
int j=3;
int changesign=0;
if(tok==tk_minusequals)changesign++;
else if(tok!=tk_plusequals)return FALSE;
if(itok2.type==tp_stopper)return FALSE;
newloop:
obuf=bufrm;
bufrm=NULL;
ostr=strinf;
strinf.bufstr=NULL;
oitok=itok;
oitok2=itok2;
otok=tok;
otok2=tok2;
oline=linenum2;
oinptr=inptr2;
ocha=cha2;
while(tok2==tk_minus||tok2==tk_mult)nexttok();
while(itok.type!=tp_stopper&&tok!=tk_eof){
nexttok();
switch(tok){
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
retval=FALSE;
itok.type=tp_stopper;
break;
}
if(itok.type==tp_stopper)break;
if(itok.type==tp_opperand){
if(tok!=tk_plus&&tok!=tk_minus){
retval=FALSE;
break;
}
else if(changesign==2){
int i=inptr2-1;
char c;
do{
i--;
c=input[i];
i--;
}while(c!='-'&&c!='+');
i++;
if(c=='-')c='+';
else c='-';
input[i]=c;
}
while(itok2.type==tp_opperand&&tok!=tk_eof)nexttok();
}
else{
if(tok!=tk_number&&tok!=tk_postnumber&&tok!=tk_undefofs){
if(j>1)j=0;
if(bufrm)free(bufrm);
if(strinf.bufstr)free(strinf.bufstr);
}
else if(j>1)j--;
}
}
itok=oitok;
itok2=oitok2;
tok=otok;
tok2=otok2;
linenum2=oline;
inptr2=oinptr;
cha2=ocha;
endoffile=0;
bufrm=obuf;
strinf=ostr;
if(j==1)retval=FALSE;
else if(changesign==1){
changesign++;
goto newloop;
}
return retval;
}
int doqwordvar(int terminater) //64 bit memory variable
{
unsigned char next=1,getfromAX=0;
unsigned int vop=0,otok,rettype;
int sign,i;
ITOK wtok;
char *wbuf,*rbuf;
SINFO wstr;
int retrez=0,pointr=0;
int numpointr=0;
int reg;
char *ofsstr=NULL;
int reg1=idxregs[0],reg2=idxregs[1];
rettype=tk_qword;
sign=0;
wstr=strinf;
strinf.bufstr=NULL;
wtok=itok;
wbuf=bufrm;
bufrm=NULL;
otok=tok;
nexttok();
switch(tok){
case tk_assign: //=
nexttok();
convert_type(&sign,(int *)&rettype,&pointr);
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr){
unuseableinput();
}
CheckMinusNum();
if(itok2.type==tp_opperand){ //᫮<><E1ABAE><EFBFBD><EFBFBD> <20><><EFBFBD><E0A0A6><EFBFBD><EFBFBD>
if(tok==tk_number){ //<2F><EFBFBD><20> <20><EFBFBD><EFBFBD><E0AEA2><EFBFBD><EFBFBD> <20><>
switch(rettype){
case tk_float: sign=2; break;
case tk_double: sign=3; break;
case tk_qword: sign=4; break;
}
if(OnlyNumber(sign)){
next=0;
itok.flag=(unsigned char)postnumflag;
goto numbertovar;
}
}
goto labl1;
}
else{
switch(tok){
case tk_number:
if((itok.flag&f_reloc)==0){
if(itok.lnumber==0){
CheckAllMassiv(wbuf,8,&wstr,&wtok);
for(i=0;i<2;i++){
op66(r32);
outseg(&wtok,2);
op(0x83);
op(wtok.rm+0x20);
outaddress(&wtok);
op(0);
if(i==1)break;
wtok.number+=4;
compressoffset(&wtok);
}
break;
}
if(itok.lnumber==0xFFFFFFFFFFFFFFFFLL){
CheckAllMassiv(wbuf,8,&wstr,&wtok);
for(i=0;i<2;i++){
op66(r32);
outseg(&wtok,2);
op(0x83);
op(wtok.rm+0x8);
outaddress(&wtok);
op(0xFF);
if(i==1)break;
wtok.number+=4;
compressoffset(&wtok);
}
break;
}
}
numbertovar:
CheckAllMassiv(wbuf,8,&wstr,&wtok);
for(i=0;i<2;i++){
op66(r32);
if(regoverstack&&short_ok(itok.number,TRUE)&&(itok.flag&f_reloc)==0){
op(0x6A);
op(itok.number); //push short number
op66(r32);
outseg(&wtok,2);
op(0x8f);
op(wtok.rm);
outaddress(&wtok);
}
else{
outseg(&wtok,2);
op(0xC7); //mov word[],number
op(wtok.rm);
outaddress(&wtok);
if((itok.flag&f_reloc)!=0)AddReloc();
outdword(itok.number);
}
if(i==1)break;
itok.lnumber>>=32;
wtok.number+=4;
compressoffset(&wtok);
}
break;
case tk_apioffset:
case tk_postnumber:
case tk_undefofs:
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(0xC7); //mov word[],number
op(wtok.rm);
outaddress(&wtok);
if(tok==tk_apioffset)AddApiToPost(itok.number);
else{
if(tok==tk_postnumber)(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
else if(tok==tk_undefofs)AddUndefOff(0,itok.name);
// else if((itok.flag&f_reloc)!=0)AddReloc();
outdword(itok.number);
}
wtok.number+=4;
compressoffset(&wtok);
op66(r32);
outseg(&wtok,2);
op(0x83);
op(wtok.rm+0x20);
outaddress(&wtok);
op(0);
break;
case tk_reg64:
goto getfromreg;
case tk_reg32:
if(itok.number==AX&&wbuf==NULL&&wstr.bufstr==NULL&&
((wtok.rm==rm_d16&&wtok.sib==CODE16)||
(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
op66(r32);
outseg(&wtok,1);
op(0xA3); // MOV [word],AX
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number);
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,8,&wstr,&wtok,reg1,reg2);
op66(r32);
outseg(&wtok,2);
op(0x89);
op((unsigned int)itok.number*8+wtok.rm);
outaddress(&wtok);
}
wtok.number+=4;
compressoffset(&wtok);
op66(r32);
outseg(&wtok,2);
op(0x83);
op(wtok.rm+0x20);
outaddress(&wtok);
op(0);
break;
case tk_string:
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(0xC7);
op(wtok.rm);
outaddress(&wtok);
outdword(addpoststring());
wtok.number+=4;
compressoffset(&wtok);
op66(r32);
outseg(&wtok,2);
op(0x83);
op(wtok.rm+0x20);
outaddress(&wtok);
op(0);
break;
default:
labl1:
reg=EAX|(EDX*256);
getintoreg64(reg);
doregmath64(reg);
getfromAX=1;
next=0;
break;
}
}
if(getfromAX){
getfromax:
itok.number=EAX|(EDX*256);
getfromreg:
reg=itok.number&255;
for(i=0;i<2;i++){
if(reg==AX&&wbuf==NULL&&wstr.bufstr==NULL&&
((wtok.rm==rm_d16&&wtok.sib==CODE16)||
(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
op66(r32);
outseg(&wtok,1);
op(0xA3); // MOV [word],AX
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number);
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,8,&wstr,&wtok,reg1,reg2);
op66(r32);
outseg(&wtok,2);
op(0x89);
op((unsigned int)reg*8+wtok.rm);
outaddress(&wtok);
}
if(i==1)break;
wtok.number+=4;
compressoffset(&wtok);
reg=itok.number/256;
}
warningreg(regs[1][EAX]);
warningreg(regs[1][EDX]);
ClearReg(AX);
ClearReg(DX);
retrez=tk_reg64;
}
break;
case tk_minusminus: vop=0x8;
case tk_plusplus:
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
incdec:
op(0xFF); op(vop+wtok.rm);
outaddress(&wtok);
wtok.number+=4;
compressoffset(&wtok);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(0x83); op(0x10+vop+wtok.rm);
outaddress(&wtok);
op(0);
break;
case tk_xorequals: vop+=0x08;
case tk_minusequals: vop+=0x08;
case tk_andequals: vop+=0x18;
case tk_orequals: vop+=0x08;
case tk_plusequals:
getoperand(am32==TRUE?EAX:BX);
if(itok2.type==tp_opperand){
if(tok==tk_number){
if(OnlyNumber(4)){
next=0;
otok=tok;
tok=tk_number;
goto num;
}
}
goto defxor;
}
else{
switch(tok){
case tk_number:
case tk_postnumber:
case tk_undefofs:
case tk_apioffset:
num:
for(i=0;i<2;i++){
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
if(tok==tk_number&&(itok.flag&f_reloc)==0&&(vop==0||vop==0x28)){
if(i==0&&itok.lnumber==1){
if(vop)vop=8;
if(next==0)tok=otok;
goto incdec;
}
if(itok.number==1){
op(0xFF); op((vop!=0?8:0)+wtok.rm);
outaddress(&wtok);
goto conl;
}
}
if(i==1){
if(vop==0)vop+=0x10;
else if(vop==0x28)vop-=0x10;
}
if(tok!=tk_apioffset&&tok!=tk_undefofs&&tok!=tk_postnumber&&(itok.flag&f_reloc)==0&&
short_ok(itok.number,TRUE)){
op(0x83);
op(vop+wtok.rm);
outaddress(&wtok);
op((unsigned int)itok.number);
}
else{
op(0x81);
op(vop+wtok.rm);
outaddress(&wtok);
if(tok==tk_apioffset)AddApiToPost(itok.number);
else{
if(tok==tk_postnumber)(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
else if(tok==tk_undefofs)AddUndefOff(0,itok.name);
else if((itok.flag&f_reloc)!=0)AddReloc();
outdword(itok.number);
}
}
conl:
wtok.number+=4;
compressoffset(&wtok);
itok.lnumber>>=32;
}
if(next==0)tok=otok;
break;
case tk_reg64:
reg=itok.number&255;
for(i=0;i<2;i++){
if(i==1){
if(vop==0)vop+=0x10;
else if(vop==0x28)vop-=0x10;
}
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(0x01+vop); op((unsigned int)reg*8+wtok.rm);
outaddress(&wtok);
if(i==1)break;
wtok.number+=4;
compressoffset(&wtok);
reg=itok.number/256;
}
break;
default:
defxor:
reg=EAX|(EDX*256);
getintoreg64(reg);
doregmath64(reg);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
reg=EAX;
for(i=0;i<2;i++){
op66(r32);
op(0x01+vop);
op(wtok.rm+reg*8);
outaddress(&wtok);
if(i==1)break;
if(vop==0)vop=0x10;
if(vop==0x28)vop=0x18;
reg=EDX;
wtok.number+=4;
compressoffset(&wtok);
}
next=0;
retrez=tk_reg64;
warningreg(regs[1][EAX]);
warningreg(regs[1][EDX]);
break;
}
}
break;
case tk_multequals:
getoperand(am32==TRUE?EAX:BX);
if(itok2.type==tp_stopper&&tok==tk_number&&(itok.flag&f_reloc)==0){
if(itok.lnumber==1)break;
if(itok.lnumber==0){
ZeroReg(EAX,r32);
ZeroReg(EDX,r32);
goto getfromax;
}
if((i=caselong(itok.number))!=NUMNUM){
if(wbuf==NULL&&wstr.bufstr==NULL&&
((wtok.rm==rm_d16&&wtok.sib==CODE16)||
(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
op66(r32);
outseg(&wtok,1);
op(0xA1); // MOV EAX,[dword]
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number);
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,8,&wstr,&wtok,reg1,reg2);
op66(r32);
outseg(&wtok,2);
op(0x8B);
op(wtok.rm);
outaddress(&wtok);
}
wtok.number+=4;
compressoffset(&wtok);
ClearReg(AX);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,3);
op(0x0F);
op(0xA4+vop);
op(wtok.rm); // SHLD [rmword],CL
outaddress(&wtok);
op(i);
wtok.number-=4;
compressoffset(&wtok);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(0xC1);
op(0x20+wtok.rm);
outaddress(&wtok);
op(i);
break;
}
}
CheckAllMassiv(wbuf,8,&wstr,&wtok);
wtok.number+=4;
compressoffset(&wtok);
for(i=0;i<2;i++){
op66(r32);
outseg(&wtok,2);
op(0xFF); op(0x30+wtok.rm);
outaddress(&wtok);
if(i==1)break;
wtok.number-=4;
compressoffset(&wtok);
}
reg=ECX|(EAX*256);
getintoreg64(reg);
doregmath64(reg);
CallExternProc("__llmul");
next=0;
goto getfromax;
case tk_divequals:
getoperand(am32==TRUE?EAX:BX);
if(itok2.type==tp_stopper&&tok==tk_number&&(itok.flag&f_reloc)==0){
if(itok.number==0){
DevideZero();
break;
}
if(itok.number==1)break;
if((i=caselong(itok.number))!=NUMNUM){
wtok.number+=4;
compressoffset(&wtok);
if(wbuf==NULL&&wstr.bufstr==NULL&&
((wtok.rm==rm_d16&&wtok.sib==CODE16)||
(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
op66(r32);
outseg(&wtok,1);
op(0xA1); // MOV EAX,[dword]
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number);
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,8,&wstr,&wtok,reg1,reg2);
op66(r32);
outseg(&wtok,2);
op(0x8B);
op(wtok.rm);
outaddress(&wtok);
}
wtok.number-=4;
compressoffset(&wtok);
ClearReg(AX);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,3);
op(0x0F);
op(0xAC);
op(wtok.rm); // SHLD [rmword],CL
outaddress(&wtok);
op(i);
wtok.number+=4;
compressoffset(&wtok);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(0xC1);
op(0x28+wtok.rm);
outaddress(&wtok);
op(i);
break;
}
unsigned long number;
number=itok.lnumber>>32;
for(i=0;i<2;i++){
op66(r32);
if((itok.flag&f_reloc)==0&&short_ok(number,1)){
op(0x6A);
op(number);
}
else{
op(0x68);
if(i==0&&(itok.flag&f_reloc)!=0)AddReloc();
outdword(number);
}
if(i==1)break;
number=itok.number;
}
goto divcont;
}
reg=EAX|(EDX*256);
getintoreg64(reg);
doregmath64(reg);
op66(r32);
op(0x50+EDX);
op66(r32);
op(0x50+EAX);
next=0;
divcont:
addESP+=8;
if(ESPloc&&am32&&wtok.segm==SS)wtok.number+=8;
reg=EAX;
for(i=0;i<2;i++){
if(reg==AX&&wbuf==NULL&&wstr.bufstr==NULL&&
((wtok.rm==rm_d16&&wtok.sib==CODE16)||
(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
op66(r32);
outseg(&wtok,1);
op(0xA1);
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
}
if(am32==FALSE)outword(wtok.number);
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,8,&wstr,&wtok,reg1,reg2);
op66(r32);
outseg(&wtok,2);
op(0x8B);
op(reg*8+wtok.rm);
outaddress(&wtok);
}
if(i==1)break;
wtok.number+=4;
compressoffset(&wtok);
reg=EDX;
}
CallExternProc("__lludiv");
addESP-=8;
wtok.number-=4;
compressoffset(&wtok);
goto getfromax;
case tk_swap:
int regdi;
regdi=TRUE;
getoperand();
rbuf=bufrm;
bufrm=NULL;
if(am32!=FALSE&&wbuf!=NULL&&wstr.bufstr!=NULL)regdi=FALSE;
switch(tok){
case tk_reg64:
CheckAllMassiv(wbuf,8,&wstr,&wtok);
reg=itok.number&255;
for(i=0;i<2;i++){
op66(r32);
outseg(&wtok,2);
op(0x87);
op(reg*8+wtok.rm);
outaddress(&wtok);
ClearReg(reg);
if(i==1)break;
reg=itok.number/256;
wtok.number+=4;
compressoffset(&wtok);
}
break;
case tk_qwordvar:
for(i=0;i<2;i++){
getinto_e_ax(0,tk_dwordvar,&wtok,wbuf,&wstr,r32,TRUE);
CheckAllMassiv(rbuf,8,&strinf,&itok,regdi==FALSE?BX:DI,DX);
op66(r32);
outseg(&itok,2);
op(0x87); // XCHG AX,[wloc]
op(itok.rm);
outaddress(&itok);
KillVar(itok.name);
if(wbuf==NULL&&wstr.bufstr==NULL&&
((wtok.rm==rm_d16&&wtok.sib==CODE16)||
(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
op66(r32);
outseg(&wtok,1);
op(0xA3); /* MOV [word],AX */
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number); //????
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,8,&wstr,&wtok,reg1,reg2);
op66(r32);
outseg(&wtok,2);
op(0x89); op(wtok.rm); /* MOV [rmword],AX */
outaddress(&wtok);
}
if(i==1)break;
itok.number+=4;
compressoffset(&itok);
wtok.number+=4;
compressoffset(&wtok);
}
warningreg(regs[1][EAX]);
ClearReg(EAX);
break;
default: swaperror(); break;
}
break;
case tk_rrequals:
vop=8;
wtok.number+=4;
compressoffset(&wtok);
case tk_llequals:
getoperand(am32==TRUE?ECX:BX);
if(itok2.type!=tp_stopper){
getintobeg(CL,&ofsstr);
ClearReg(CX);
warningreg(begs[1]);
next=0;
i=1;
}
else if(tok==tk_number){
i=0;
}
else{
if(tok!=tk_beg||(unsigned int)itok.number!=CL){
getintobeg(CL,&ofsstr);
ClearReg(CX);
warningreg(begs[1]);
next=0;
}
i=1;
}
if(wbuf==NULL&&wstr.bufstr==NULL&&
((wtok.rm==rm_d16&&wtok.sib==CODE16)||
(wtok.rm==rm_d32&&(wtok.sib==CODE32||wtok.sib==0)))){
op66(r32);
outseg(&wtok,1);
op(0xA1); // MOV EAX,[dword]
if(wtok.post==UNDEF_OFSET){
AddUndefOff(2,wtok.name);
wtok.post=0;
}
if(am32==FALSE)outword(wtok.number);
else outdword(wtok.number);
}
else{
CheckAllMassiv(wbuf,8,&wstr,&wtok,reg1,reg2);
op66(r32);
outseg(&wtok,2);
op(0x8B);
op(wtok.rm);
outaddress(&wtok);
}
if(vop)wtok.number-=4;
else wtok.number+=4;
compressoffset(&wtok);
ClearReg(AX);
warningreg(regs[1][EAX]);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,3);
op(0x0F);
op(0xA4+vop+i);
op(wtok.rm); // SHLD [rmword],CL
outaddress(&wtok);
if(i==0)op((unsigned int)itok.number);
if(vop)wtok.number+=4;
else wtok.number-=4;
compressoffset(&wtok);
CheckAllMassiv(wbuf,8,&wstr,&wtok);
op66(r32);
outseg(&wtok,2);
op(i==0?0xC1:0xD3);
op(0x20+vop+wtok.rm);
outaddress(&wtok);
if(i==0)op(itok.number);
break;
default: operatorexpected(); break;
}
KillVar(wtok.name);
if(next)nexttok();
if(terminater==tk_semicolon)seminext();
if(cpu<3)cpu=3;
return retrez;
}
void Select2FreeReg(int r1,int r2,int *reg1,int *reg2)
{
*reg1=idxregs[0];
*reg2=idxregs[1];
if(r1==idxregs[0]){
if(r2==idxregs[1]){
*reg1=idxregs[2];
*reg2=idxregs[3];
}
else{
*reg1=idxregs[1];
if(r2==idxregs[2])*reg2=idxregs[3];
else *reg2=idxregs[2];
}
}
if(r1==idxregs[1]){
if(r2==idxregs[0]){
*reg1=idxregs[2];
*reg2=idxregs[3];
}
else{
*reg1=idxregs[0];
if(r2==idxregs[2])*reg2=idxregs[3];
else *reg2=idxregs[2];
}
}
}
void doreg64(int reg,int terminater)
{
unsigned char next=1;
int vop=0,sign=0;
int i;
int reg1,reg2;
unsigned long long ii;
int r1,r2;
char *ofsstr=NULL;
int rettype;
int pointr=0;
int numpointr=0;
rettype=tk_qword;
r1=reg&255;
r2=reg/256;
Select2FreeReg(r1,r2,&reg1,&reg2);
if(r1==ESP||r2==ESP)RestoreStack();
nexttok();
switch(tok){
case tk_assign://=
nexttok();
/*-----------------31.08.05 18:39-------------------
--------------------------------------------------*/
convert_type(&sign,(int *)&rettype,&pointr);
while(tok==tk_mult){
nexttok();
numpointr++;
}
if(numpointr>itok.npointr){
unuseableinput();
}
CheckMinusNum();
if(tok==tk_number){ //<2F><EFBFBD><20> <20><EFBFBD><EFBFBD><E0AEA2><EFBFBD><EFBFBD> <20><>
switch(rettype){
case tk_float: sign=2; break;
case tk_double: sign=3; break;
case tk_qword: sign=4; break;
}
if(OnlyNumber(sign)){
MovRegNum(r32,postnumflag&f_reloc,itok.number,r1);
MovRegNum(r32,0,itok.lnumber>>32,r2);
next=0;
break;
}
}
if(rettype==tk_float||rettype==tk_double){
doeaxfloatmath(tk_stackstart,0,rettype==tk_float?0:4);
op66(r32);
op(0x58+r1);
op66(r32);
if(rettype==tk_float){
op(0x31); op(0xC0+r2*9);
}
else op(0x58+r2);
next=0;
break;
}
/*-----------------31.08.05 18:39-------------------
--------------------------------------------------*/
getintoreg64(reg);
doregmath64(reg);
next=0;
break;
case tk_plusplus: op66(r32); op(0x40+r1);
op66(r32);
op(0x83);
op(0xD0+r2);
op(0);
break;
case tk_minusminus: op66(r32); op(0x48+r1);
op66(r32);
op(0x83);
op(0xD8+r2);
op(0);
break;
case tk_swap:
getoperand(reg1);
switch(tok){
case tk_qwordvar:
reg=r1;
for(i=0;i<2;i++){
CheckAllMassiv(bufrm,8,&strinf,&itok,reg1,reg2);
op66(r32);
outseg(&itok,2);
op(0x87);
op(reg*8+itok.rm);
outaddress(&itok);
itok.number+=4;
compressoffset(&itok);
reg=r2;
}
break;
case tk_reg64:
reg=r1;
vop=itok.number;
itok.number&=255;
for(i=0;i<2;i++){
if(reg!=(int)itok.number){
if(RegSwapReg(reg,itok.number,r32)==NOINREG){;
op66(r32);
if(reg==AX)op(0x90+(unsigned int)itok.number);
else if((unsigned int)itok.number==AX)op(0x90+reg);
else{
op(0x87);
op(0xC0+(unsigned int)itok.number+reg*8);
}
}
else waralreadinitreg(regs[1][reg],regs[1][itok.number]);
}
reg=r2;
itok.number=vop/256;
}
break;
default: swaperror(); break;
}
break;
case tk_xorequals: vop+=0x08;
case tk_minusequals: vop+=0x08;
case tk_andequals: vop+=0x18;
case tk_orequals: vop+=0x08;
case tk_plusequals:
if(CheckAddOnly()){
inptr2--;
cha2=' ';
if(tok==tk_plusequals)tok=tk_plus;
else tok=tk_minus;
doregmath64(reg);
next=0;
break;
}
getoperand(reg1);
if(itok2.type==tp_opperand&&tok!=tk_number&&tok!=tk_undefofs&&
tok!=tk_postnumber)goto defadd;
CheckMinusNum();
idrec *rrec;
int opost;
i=tok;
switch(tok){
case tk_postnumber:
case tk_undefofs:
ii=itok.number;
rrec=itok.rec;
opost=itok.post;
char uname[IDLENGTH];
strcpy(uname,itok.name);
if(itok.flag&f_extern)goto addnum;
tok=tk_number;
case tk_number:
ii=doconstqwordmath();
next=0;
if(itok.type==tp_opperand){
sign=reg1|(reg2*256);
if(i==tk_postnumber||i==tk_undefofs){
op66(r32);
op(0xB8+r1); // MOV reg,#
if(i==tk_postnumber)(postnumflag&f_extern)==0?setwordpost(&itok):setwordext((long *)&ii);
else{
if((postnumflag&f_reloc)!=0)AddReloc();
if(i==tk_undefofs)AddUndefOff(2,uname);
}
outdword(ii);
ZeroReg(r2,r32);
}
else{
MovRegNum(r32,postnumflag&f_reloc,ii,reg1);
MovRegNum(r32,postnumflag&f_reloc,ii>>=32,reg2);
}
doregmath64(sign);
itok.number=sign;
goto addreg;
}
if((postnumflag&f_reloc)==0&&i!=tk_undefofs&&i!=tk_postnumber){
optnumadd64(ii,r1,r2,vop);
break;
}
addnum:
op66(r32);
if(r1==AX)op(0x05+vop);
else{
op(0x81);
op(0xC0+vop+r1);
}
itok.rec=rrec;
itok.post=opost;
if(i==tk_postnumber)(postnumflag&f_extern)==0?setwordpost(&itok):setwordext((long *)&ii);
else{
if((postnumflag&f_reloc)!=0)AddReloc();
if(i==tk_undefofs)AddUndefOff(2,uname);
}
outdword(ii);
ii>>=32;
if(vop==0)vop=0x10;
else if(vop==0x28)vop=0x18;
op66(r32);
if(r2==AX)op(0x05+vop);
else{
op(0x81);
op(0xC0+vop+r2);
}
outdword(ii);
break;
case tk_longvar:
case tk_dwordvar:
CheckAllMassiv(bufrm,4,&strinf,&itok,reg1,reg2);
op66(r32);
outseg(&itok,2);
op(0x03+vop);
op(r1*8+itok.rm);
outaddress(&itok);
if(vop==0x20){ //&=
ZeroReg(r2,r32);
}
else{
if(vop==0||vop==0x28){
if(vop)vop=8;
op66(r32);
op(0x83);
op(0xD0+vop+r2);
op(0);
}
}
break;
case tk_qword:
CheckAllMassiv(bufrm,4,&strinf,&itok,reg1,reg2);
reg=r1;
for(i=0;i<2;i++){
op66(r32);
outseg(&itok,2);
op(0x03+vop);
op(reg*8+itok.rm);
outaddress(&itok);
if(i==1)break;
reg=r2;
itok.number+=4;
compressoffset(&itok);
}
break;
case tk_reg64:
addreg:
reg=r1;
reg2=itok.number&255;
for(i=0;i<2;i++){
op66(r32);
op(0x01+vop);
op(0xC0+reg+reg2*8);
if(i==1)break;
if(vop==0)vop=0x10;
if(vop==0x28)vop=0x18;
reg2=itok.number/256;
reg=r2;
}
break;
case tk_reg32:
op66(r32);
op(0x01+vop);
op(0xC0+reg+(unsigned int)itok.number*8);
if(vop==0x20){ //&=
ZeroReg(r2,r32);
}
else{
if(vop==0||vop==0x28){
if(vop)vop=8;
op66(r32);
op(0x83);
op(0xD0+vop+r2);
op(0);
}
}
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
unsigned char oaddstack;
oaddstack=addstack;
if(r1==EAX||r2==EAX){
op66(r32);
op(0x50); //push AX
warningreg(regs[1][EAX]);
addESP+=4;
ClearReg(EAX);
addstack=FALSE;
}
if(r1==EDX||r2==EDX){
op66(r32);
op(0x50+EDX); //push DX
addESP+=4;
warningreg(regs[1][EDX]);
ClearReg(EDX);
addstack=FALSE;
}
procdo(tk_qword);
addstack=oaddstack;
if(itok2.type==tp_opperand){
nexttok();
doregmath64(EAX|(EDX*256));
next=0;
}
if(r1==EDX||r2==EDX){
op66(r32);
op(0x89);
op(0xC0+reg2+EDX*8); //mov reg,EDX
op66(r32);
op(0x58+EDX); //pop dx
addESP-=4;
}
else reg2=EDX;
if(r1==EAX||r2==EAX){
op66(r32);
op(0x89);
op(0xC0+reg1+EAX*8); //mov reg,EAX
op66(r32);
op(0x58); //pop ax
addESP-=4;
}
else reg1=EAX;
op66(r32);
op(0x01+vop);
op(0xc0+r1+reg1*8); //add reg,ax
if(vop==0)vop=0x10;
if(vop==0x28)vop=0x18;
op66(r32);
op(0x01+vop);
op(0xc0+r2+reg2*8); //add reg,ax
break;
case tk_bytevar:
case tk_charvar:
case tk_beg:
case tk_reg:
case tk_intvar:
case tk_wordvar:
defadd:
sign=reg1|(reg2*256);
getintoreg64(sign);
doregmath64(sign);
warningreg(regs[1][reg1]);
warningreg(regs[1][reg2]);
ClearReg(reg1);
ClearReg(reg2);
op66(r32);
op(0x01+vop);
op(0xc0+r1+reg1*8); //add reg,ax
if(vop==0)vop=0x10;
if(vop==0x28)vop=0x18;
op66(r32);
op(0x01+vop);
op(0xc0+r2+reg2*8); //add reg,ax
next=0;
break;
default: valueexpected(); break;
}
break;
case tk_rrequals: vop+=0x08;
case tk_llequals:
getoperand(reg1);
CheckMinusNum();
if(tok==tk_number){
ii=doconstqwordmath();
next=0;
if(itok.type==tp_opperand){
if(r1==ECX||r2==ECX)regshifterror();
op(0xB0+CL); op(ii); //mov CL,num
ConstToReg(ii,CL,r8);
dobegmath(CL);
warningreg(begs[1]);
ClearReg(CL);
goto shiftcl;
}
if(vop){
reg=r1;
r1=r2;
r2=reg;
}
if(ii<32){
op66(r32);
op(0x0F);
op(0xA4+vop);
op(0xC0+r2+r1*8);
op(ii);
op66(r32);
if(ii==1){
op(0xD1); op(0xE0+r1+vop);
}
else{
op(0xC1);
op(0xE0+r1+vop); //shl ax,num
op(ii);
}
}
else{
op66(r32);
op(0x89);
op(0xC0+r2+r1*8);
ii-=32;
if(ii!=0){
op66(r32);
if(ii==1){
op(0xD1);
op(0xE0+vop+r1); //shr ax,1
}
else{
op(0xC1);
op(0xE0+r2+vop); //shl ax,num
op(ii);
}
}
ZeroReg(r1,r32);
}
}
else if(reg!=CX){
if(!(itok2.type==tp_stopper&&(tok==tk_beg||tok==reg||tok==tk_reg32)&&itok.number==CL)){
getintobeg(CL,&ofsstr);
dobegmath(CL);
warningreg(begs[1]);
ClearReg(CL);
next=0;
}
shiftcl:
op66(r32);
op(0x0F);
op(0xA5+vop);
if(vop){
reg=r1;
r1=r2;
r2=reg;
}
op(0xC0+r2+r1*8);
op66(r32);
op(0xD3);
op(0xE0+vop+r1); // SHL xXX,CL
}
else regshifterror();
break;
case tk_multequals:
getoperand(reg1);
CheckMinusNum();
if(tok==tk_number){
ii=doconstqwordmath();
next=0;
if(itok.type==tp_opperand){
op66(r32);
op(0x50+r2);
op66(r32);
op(0x50+r1);
addESP+=8;
MovRegNum(r32,postnumflag&f_reloc,ii,reg1);
MovRegNum(r32,0,ii>>32,reg2);
ConstToReg(ii,reg1,r32);
ConstToReg(ii>>32,reg2,r32);
doregmath64(reg1|(reg2*256));
goto mul;
}
i=0;
if((postnumflag&f_reloc)==0){
if(ii==0){
ZeroReg(r1,r32);
ZeroReg(r2,r32);
break;
}
if(ii==1)break;
if(ii==2){
op66(r32);
op(1);
op(0xC0+9*r1); // ADD r1,r1
op66(r32);
op(0x83);
op(0xC2+r2*8); //adc r2,0
op(0);
break;
}
if((i=caselonglong(ii))!=NUMNUM64){
if(i<32){
op66(r32);
outword(0xA40F);
op(0xC0+r2+r1*8);
op(i);
op66(r32);
op(0xC1);
op(0xE0+r1); //shl ax,num
op(i);
}
else{
op66(r32);
op(0x89);
op(0xC0+r2+r1*8);
i-=32;
if(i!=0){
op66(r32);
if(i==1){
op(1);
op(0xC0+r2*9); //add reg,reg
}
else{
op(0xC1);
op(0xE0+r2); //shl ax,num
op(i);
}
}
ZeroReg(r1,r32);
}
break;
}
}
op66(r32);
op(0x50+r2);
op66(r32);
op(0x50+r1);
addESP+=8;
MovRegNum(r32,postnumflag&f_reloc,ii,ECX);
MovRegNum(r32,0,ii>>32,EAX);
goto mul;
}
op66(r32);
op(0x50+r2);
op66(r32);
op(0x50+r1);
addESP+=8;
reg=ECX|(EAX*256);
warningreg(regs[1][ECX]);
getintoreg64(reg);
doregmath64(reg);
mul:
CallExternProc("__llmul");
addESP-=8;
endmul:
ClearReg(EAX);
warningreg(regs[1][EAX]);
ClearReg(EDX);
warningreg(regs[1][EDX]);
next=0;
if(r1!=EAX){
if(r1==EDX){
if(r2==EAX){
op66(r32);
op(0x90+EDX);
break;
}
op66(r32);
op(0x89);
op(0xC0+r2+EDX*8); //mov reg,EDX
op66(r32);
op(0x89);
op(0xC0+r1+EAX*8); //mov reg,EAX
break;
}
op66(r32);
op(0x89);
op(0xC0+r1+EAX*8); //mov reg,EAX
}
if(r2!=EDX){
op66(r32);
op(0x89);
op(0xC0+r2+EDX*8); //mov reg,EDX
}
break;
case tk_divequals:
getoperand(reg1);
CheckMinusNum();
if(tok==tk_number){
ii=doconstqwordmath();
next=0;
if(itok.type==tp_opperand){
MovRegNum(r32,postnumflag&f_reloc,ii,reg1);
MovRegNum(r32,0,ii>>32,reg2);
ConstToReg(ii,reg1,r32);
ConstToReg(ii>>32,reg2,r32);
doregmath64(reg1|(reg2*256));
op66(r32);
op(0x50+reg2);
op66(r32);
op(0x50+reg1);
addESP+=8;
warningreg(regs[1][reg1]);
warningreg(regs[1][reg2]);
goto divcont;
}
if((postnumflag&f_reloc)==0){
if(ii==0){
DevideZero();
break;
}
if(ii==1)break;
if((i=caselonglong(ii))!=NUMNUM64){
if(i<32){
op66(r32);
outword(0xAC0F);
op(0xC0+r1+r2*8);
op(i);
op66(r32);
op(0xc1);
op(0xe8+r2); // SHR reg,imm8
op(i);
}
else{
op66(r32);
op(0x89);
op(0xC0+r1+r2*8);
i-=32;
if(i!=0){
op66(r32);
if(i==1){
op(0xD1);
op(0xE8+r1); //shr ax,1
}
else{
op(0xC1);
op(0xE8+r1); //shr ax,num
op(i);
}
}
ZeroReg(r2,r32);
}
break;
}
}
unsigned long number;
number=ii>>32;
for(i=0;i<2;i++){
op66(r32);
if((postnumflag&f_reloc)==0&&short_ok(number,1)){
op(0x6A);
op(number);
}
else{
op(0x68);
if(i==0&&(postnumflag&f_reloc)!=0)AddReloc();
outdword(number);
}
if(i==1)break;
number=ii;
}
addESP+=8;
goto divcont;
}
reg=reg1|(reg2*256);
getintoreg64(reg);
doregmath64(reg);
op66(r32);
op(0x50+reg2);
op66(r32);
op(0x50+reg1);
addESP+=8;
warningreg(regs[1][reg1]);
warningreg(regs[1][reg2]);
next=0;
divcont:
if(r1!=EAX){
if(r2==EAX){
if(r1==EDX){
op66(r32);
op(0x90+EDX);
goto sdiv;
}
op66(r32);
op(0x89);
op(0xC0+EDX+r2*8); //mov EDX,r2
op66(r32);
op(0x89);
op(0xC0+EAX+r1*8); //mov EAX,r1
goto sdiv;
}
op66(r32);
op(0x89);
op(0xC0+EAX+r1*8); //mov EAX,r1
}
if(r2!=EDX){
op66(r32);
op(0x89);
op(0xC0+EDX+r2*8); //mov EDX,r2
}
sdiv:
CallExternProc("__lludiv");
addESP-=8;
goto endmul;
default: operatorexpected(); break;
}
ClearReg(r1);
ClearReg(r2);
if(next)nexttok();
if(terminater==tk_semicolon)seminext();
if(cpu<3)cpu=3;
}
void optnumadd64(unsigned long long num,int r1,int r2,int vop)
{
int i,reg;
if(num==0){
if(vop==0x20){ //&=
reg=r1;
for(i=0;i<2;i++){
ZeroReg(reg,r32);
reg=r2;
}
setzeroflag=TRUE;
}
return; //+= -= |= ^=
}
if(num==1){
if(vop==0x28){ //-=
op66(r32);
op(0x48+r1);
op66(r32);
op(0x83);
op(0xD8+r2);
op(0);
setzeroflag=TRUE;
return;
}
if(vop==0){ //+=
op66(r32);
op(0x40+r1);
op66(r32);
op(0x83);
op(0xD0+r2);
op(0);
setzeroflag=TRUE;
return;
}
}
if(vop==8){ //|=
if(num<65536){
if((unsigned short)num<256&&r1<4){
if(r1==AX)op(0x0C);
else{
op(0x80);
op(0xc8+r1);
}
op(num);
return;
}
op66(r16);
if(r1==AX)op(0x0D);
else{
op(0x81);
op(0xc8+r1);
}
outword(num);
return;
}
if(num<0x100000000LL){
op66(r32);
if(r1==AX)op(0x0D);
else{
op(0x81);
op(0xc8+r1);
}
outdword(num);
return;
}
}
if(vop==0x20){ //&=
if(num>=0xFFFFFFFF00000000LL){
if((unsigned long)num>=0xFFFF0000){
if((unsigned short)num>=0xFF00&&r1<4){
if(r1==AL)op(0x24);
else{
op(128);
op(0xE0+r1);
}
op(num);
return;
}
op66(r16);
if(r1==AX)op(0x25);
else{
op(129);
op(0xE0+r1);
}
outword(num);
return;
}
op66(r32);
if(r1==AX)op(0x25);
else{
op(129);
op(0xE0+r1);
}
outdword(num);
return;
}
}
reg=r1;
int j=0;
for(i=0;i<2;i++){
if((unsigned long)num==0)j++;
if(optnumadd(num,reg,r32,vop)==FALSE){
op66(r32);
if(short_ok((unsigned long)num,TRUE)){
op(0x83);
op(0xC0+vop+reg);
op(num);
}
else{
if(reg==EAX)op(5+vop);
else{
op(0x81);
op(0xC0+vop+reg);
}
outdword(num);
}
}
num>>=32;
if(j==0&&(vop==0||vop==0x28)){
if(vop)vop=8;
op66(r32);
if(short_ok((unsigned long)num,TRUE)){
op(0x83);
op(0xD0+vop+r2);
op(num);
}
else{
if(r2==EAX)op(0x15+vop);
else{
op(0x81);
op(0xD3+vop+r2);
}
outdword(num);
}
break;
}
reg=r2;
}
setzeroflag=TRUE;
}
void doregmath64(int reg)
{
int vop,i,optnum,negflag=FALSE;
int r1,r2,next=1;
int reg1,reg2;
char *ofsstr=NULL;
r1=reg&255;
r2=reg/256;
Select2FreeReg(r1,r2,&reg1,&reg2);
while(itok.type!=tp_stopper&&tok!=tk_eof){
if(negflag){
op66(r32);
op(0xF7);
op(0xD8+r2); // NEG reg
op66(r32);
op(0xF7);
op(0xD8+r1); // NEG reg
op66(r32);
op(0x83);
op(0xD8+r2);
op(0);
ClearReg(r1);
ClearReg(r2);
negflag=FALSE;
}
vop=0;
next=1;
optnum=FALSE;
if(tok2==tk_number)optnum=OptimNum();
switch(tok){
case tk_xor: vop+=0x08;
case tk_minus: vop+=0x08;
case tk_and: vop+=0x18;
case tk_or: vop+=0x08;
case tk_plus:
if(optnum==FALSE)getoperand(reg1);
else tok=tk_number;
switch(tok){
case tk_number:
if((itok.flag&f_reloc)==0){
optnumadd64(itok.lnumber,r1,r2,vop);
break;
}
case tk_postnumber:
case tk_undefofs:
case tk_apioffset:
op66(r32);
op(0x81);
op(0xC0+vop+r1);
if(tok==tk_apioffset)AddApiToPost(itok.number);
else{
if(tok==tk_postnumber)(itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
else if(tok==tk_undefofs)AddUndefOff(0,itok.name);
else if((itok.flag&f_reloc)!=0)AddReloc();
outdword(itok.number);
}
if(vop==0x20){ //&=
ZeroReg(r2,r32);
}
else{
if(vop==0||vop==0x28){
if(vop)vop=8;
op66(r32);
op(0x83);
op(0xD0+vop+r2);
op(0);
}
}
break;
case tk_rmnumber:
case tk_charvar:
case tk_beg:
case tk_bytevar:
getintoreg_32(reg2,r32,0,&ofsstr,FALSE);
op66(r32);
op(0x01+vop);
op(0xC0+r1+reg2*8); /* OPT AX,CX */
if(vop==0x20){ //&=
ZeroReg(r2,r32);
}
else{
if(vop==0||vop==0x28){
if(vop)vop=8;
op66(r32);
op(0x83);
op(0xD0+vop+r2);
op(0);
}
}
warningreg(regs[r32/2-1][reg2]);
next=0;
break;
case tk_reg:
op66(r32);
outword(0xB70F);
if(itok.number==r1||itok.number==r2)itok.number=reg1;
op(0xC0+itok.number*9);
warningreg(regs[1][itok.number]);
case tk_reg32:
defreg32:
op66(r32);
op(0x01+vop);
op(0xC0+r1+(unsigned int)itok.number*8);
if(vop==0x20){ //&=
ZeroReg(r2,r32);
}
else{
if(vop==0||vop==0x28){
if(vop)vop=8;
op66(r32);
op(0x83);
op(0xD0+vop+r2);
op(0);
}
}
break;
case tk_reg64:
int reg2;
reg=r1;
reg2=itok.number&255;
for(i=0;i<2;i++){
op66(r32);
op(0x01+vop);
op(0xC0+reg+reg2*8);
if(i==1)break;
if(vop==0)vop=0x10;
if(vop==0x28)vop=0x18;
reg2=itok.number/256;
reg=r2;
}
break;
case tk_longvar:
case tk_dwordvar:
CheckAllMassiv(bufrm,4,&strinf);
op66(r32);
outseg(&itok,2);
op(0x03+vop);
op(r1*8+itok.rm);
outaddress(&itok);
if(vop==0x20){ //&=
ZeroReg(r2,r32);
}
else{
if(vop==0||vop==0x28){
if(vop)vop=8;
op66(r32);
op(0x83);
op(0xD0+vop+r2);
op(0);
}
}
break;
case tk_qwordvar:
reg=r1;
for(i=0;i<2;i++){
CheckAllMassiv(bufrm,8,&strinf);
op66(r32);
outseg(&itok,2);
op(0x03+vop);
op(reg*8+itok.rm);
outaddress(&itok);
if(i==1)break;
if(vop==0)vop=0x10;
if(vop==0x28)vop=0x18;
itok.number+=4;
compressoffset(&itok);
reg=r2;
}
break;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
procdo(tk_qword);
op66(r32);
op(0x01+vop);
op(0xc0+r1);
warningreg(regs[1][0]);
if(vop==0)vop=0x10;
if(vop==0x28)vop=0x18;
op66(r32);
op(0x01+vop);
op(0xc0+r2+EDX*8);
warningreg(regs[1][EDX]);
break;
default: valueexpected(); break;
}
break;
case tk_rrminus:
if(r1==ECX||r2==ECX){
regshifterror();
break;
}
tok=tk_minus;
goto rshift2;
case tk_rr:
getoperand(ECX);
if(tok==tk_number){
op66(r32);
outword(0xAC0F);
op(0xC0+r1+r2*8);
op(itok.number);
op66(r32);
if((unsigned int)itok.number==1){
op(0xD1); op(0xE8+r2); // SHR reg,1
}
else if((unsigned int)itok.number!=0){
op(0xc1);
op(0xe8+r2); // SHR reg,imm8
op((unsigned int)itok.number);
}
}
else if(r1==ECX||r2==ECX)regshifterror();
else if((tok==tk_beg||tok==tk_reg||tok==tk_reg32)&&itok.number==CL)goto rshift;
else{
rshift2:
getintobeg(CL,&ofsstr);
next=0;
warningreg(begs[1]);
rshift:
op66(r32);
outword(0xAD0F);
op(0xC0+r1+r2*8);
op66(r32);
op(0xD3);
op(0xE8+r2); // SHL xXX,CL
}
break;
case tk_llminus:
if(r1==ECX||r2==ECX){
regshifterror();
break;
}
tok=tk_minus;
goto llshift;
case tk_ll:
getoperand(ECX);
if(tok==tk_number){
op66(r32);
outword(0xA40F);
op(0xC0+r2+r1*8);
op(itok.number);
op66(r32);
if((unsigned int)itok.number==1){
op(1);
op(0xC0+r1*9); //add reg,reg
}
else{
op(0xC1);
op(0xE0+r1); //shl ax,num
op(itok.number);
}
}
else if(r1==ECX||r2==ECX)regshifterror();
else if((tok==tk_beg||tok==tk_reg||tok==tk_reg32)&&itok.number==CL)goto lshift;
else{
llshift:
getintobeg(CL,&ofsstr);
next=0;
warningreg(begs[1]);
lshift:
op66(r32);
outword(0xA50F);
op(0xC0+r2+r1*8);
op66(r32);
op(0xD3);
op(0xE0+r1); // SHL xXX,CL
}
break;
case tk_multminus: negflag=TRUE;
case tk_mult:
getoperand(reg1);
if(negflag&&tok==tk_number){
itok.lnumber=-itok.lnumber;
negflag=FALSE;
}
if(tok==tk_number&&((itok.number&f_reloc)==0)){
if(itok.lnumber==0){
ZeroReg(r1,r32);
ZeroReg(r2,r32);
break;
}
if(itok.lnumber==1)break;
if(itok.lnumber==2){
op66(r32);
op(1);
op(0xC0+9*r1); // ADD r1,r1
op66(r32);
op(0x83);
op(0xC2+r2*8); //adc r2,0
op(0);
break;
}
if((i=caselonglong(itok.lnumber))!=NUMNUM64){
if(i<32){
op66(r32);
outword(0xA40F);
op(0xC0+r2+r1*8);
op(i);
op66(r32);
op(0xC1);
op(0xE0+r1); //shl ax,num
op(i);
}
else{
op66(r32);
op(0x89);
op(0xC0+r2+r1*8);
i-=32;
if(i!=0){
op66(r32);
if(i==1){
op(1);
op(0xC0+r2*9); //add reg,reg
}
else{
op(0xC1);
op(0xE0+r2); //shl ax,num
op(i);
}
}
ZeroReg(r1,r32);
}
break;
}
op66(r32);
op(0x50+r2);
op66(r32);
op(0x50+r1);
addESP+=8;
MovRegNum(r32,postnumflag&f_reloc,itok.number,ECX);
MovRegNum(r32,0,itok.lnumber>>32,EAX);
goto mul;
}
//<2F><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD> __llmul
op66(r32);
op(0x50+r2);
op66(r32);
op(0x50+r1);
addESP+=8;
reg=ECX|(EAX*256);
getintoreg64(reg);
// doregmath64(reg);
next=0;
mul:
CallExternProc("__llmul");
addESP-=8;
endmul:
if(r1!=EAX){
if(r1==EDX){
if(r2==EAX){
op66(r32);
op(0x90+EDX);
break;
}
op66(r32);
op(0x89);
op(0xC0+r2+EDX*8); //mov reg,EDX
op66(r32);
op(0x89);
op(0xC0+r1+EAX*8); //mov reg,EAX
break;
}
op66(r32);
op(0x89);
op(0xC0+r1+EAX*8); //mov reg,EAX
}
if(r2!=EDX){
op66(r32);
op(0x89);
op(0xC0+r2+EDX*8); //mov reg,EDX
}
break;
case tk_modminus: negflag=TRUE;
case tk_mod:
vop=1;
goto divcalc;;
case tk_divminus: negflag=TRUE;
case tk_div:
divcalc:
getoperand(reg1);
if(negflag&&tok==tk_number){
itok.lnumber=-itok.lnumber;
negflag=FALSE;
}
if(tok==tk_number&&((itok.flag&f_reloc)==0)){
if(itok.lnumber==0){
DevideZero();
break;
}
if(itok.lnumber==1){
if(vop){ //mod
ZeroReg(r1,r32);
ZeroReg(r2,r32);
}
break;
}
if((i=caselonglong(itok.lnumber))!=NUMNUM64){
if(vop){ //mod
optnumadd64(itok.lnumber-1,r1,r2,0x20);
}
else{
if(i<32){
op66(r32);
outword(0xAC0F);
op(0xC0+r1+r2*8);
op(i);
op66(r32);
op(0xc1);
op(0xe8+r2); // SHR reg,imm8
op(i);
}
else{
op66(r32);
op(0x89);
op(0xC0+r1+r2*8);
i-=32;
if(i!=0){
op66(r32);
if(i==1){
op(0xD1);
op(0xE8+r1); //shr ax,1
}
else{
op(0xC1);
op(0xE8+r1); //shr ax,num
op(i);
}
}
ZeroReg(r2,r32);
}
}
break;
}
unsigned long number;
number=itok.lnumber>>32;
for(i=0;i<2;i++){
op66(r32);
if((itok.flag&f_reloc)==0&&short_ok(number,1)){
op(0x6A);
op(number);
}
else{
op(0x68);
if(i==0&&(itok.flag&f_reloc)!=0)AddReloc();
outdword(number);
}
if(i==1)break;
number=itok.number;
}
addESP+=8;
goto divcont;
}
reg=reg1|(reg2*256);
getintoreg64(reg);
op66(r32);
op(0x50+reg2);
op66(r32);
op(0x50+reg1);
addESP+=8;
next=0;
divcont:
if(r1!=EAX){
if(r2==EAX){
if(r1==EDX){
op66(r32);
op(0x90+EDX);
goto sdiv;
}
op66(r32);
op(0x89);
op(0xC0+EDX+r2*8); //mov EDX,r2
op66(r32);
op(0x89);
op(0xC0+EAX+r1*8); //mov EAX,r1
goto sdiv;
}
op66(r32);
op(0x89);
op(0xC0+EAX+r1*8); //mov EAX,r1
}
if(r2!=EDX){
op66(r32);
op(0x89);
op(0xC0+EDX+r2*8); //mov EDX,r2
}
sdiv:
CallExternProc((char*)(vop==0?"__lludiv":"__llumod"));
addESP-=8;
goto endmul;
default: operatorexpected(); break;
}
if(next)nexttok();
}
ClearReg(r1);
ClearReg(r2);
if(cpu<3)cpu=3;
}
void getintoreg64(int reg)
{
int negflag=0,next=1,i=0;
unsigned long long holdnumber=0;
int r1,r2;
int reg1,reg2;
r1=reg&255;
r2=reg/256;
Select2FreeReg(r1,r2,&reg1,&reg2);
if(tok==tk_minus){
if(CheckMinusNum()==FALSE){
negflag=1;
getoperand(am32==FALSE?BX:r1);
}
}
switch(tok){
case tk_number:
holdnumber=CalcNumber(4);
MovRegNum(r32,postnumflag&f_reloc,holdnumber,r1);
MovRegNum(r32,0,holdnumber>>32,r2);
next=0;
break;
case tk_postnumber:
case tk_undefofs:
case tk_apioffset:
op66(r32);
op(0xB8+r1); /* MOV AX,# */
if(tok==tk_apioffset)AddApiToPost(itok.number);
else{
if(tok==tk_undefofs)AddUndefOff(0,itok.name);
else (itok.flag&f_extern)==0?setwordpost(&itok):setwordext(&itok.number);
tok=tk_number;
holdnumber+=doconstdwordmath();
outdword(holdnumber);
MovRegNum(r32,0,holdnumber>>32,r2);
next=0;
}
ClearReg(r1);
ClearReg(r2);
break;
case tk_rmnumber:
CheckAllMassiv(bufrm,8,&strinf,&itok,reg1,reg2);
if(!(am32&&itok.rm==r1&&r1!=EBP&&r1!=ESP)){
op66(r32);
op67(itok.sib==CODE16?r16:r32);
if(itok.post==0)outseg(&itok,2);
op(0x8D); // LEA reg,[rm]
op(r1*8+itok.rm);
if(itok.post!=0&&itok.post!=UNDEF_OFSET){
if((itok.flag&f_extern)==0){
unsigned int ooutptr=outptr;
if(am32&&itok.rm==rm_sib)outptr++;
setwordpost(&itok);
outptr=ooutptr;
}
else setwordext(&itok.number);
}
outaddress(&itok);
ClearReg(r1);
}
ZeroReg(r2,r32);
break;
case tk_qwordvar:
reg=r1;
for(i=0;i<2;i++){
if(reg==EAX&&((itok.rm==rm_d16&&itok.sib==CODE16)||(itok.rm==rm_d32&&(itok.sib==CODE32||itok.sib==0)))){
op66(r32);
outseg(&itok,1);
op(0xA1);
if(itok.post==UNDEF_OFSET)AddUndefOff(2,itok.name);
if(am32==FALSE)outword((unsigned int)itok.number);
else outdword(itok.number);
}
else{
CheckAllMassiv(bufrm,8,&strinf,&itok,reg1,reg2);
op66(r32);
outseg(&itok,2);
op(0x8B);
op(reg*8+itok.rm);
outaddress(&itok);
}
ClearReg(reg);
if(i==1)break;
itok.number+=4;
compressoffset(&itok);
reg=r2;
}
break;
case tk_longvar:
case tk_dwordvar:
if(reg==EAX&&((itok.rm==rm_d16&&itok.sib==CODE16)||(itok.rm==rm_d32&&(itok.sib==CODE32||itok.sib==0)))){
op66(r32);
outseg(&itok,1);
op(0xA1);
if(itok.post==UNDEF_OFSET)AddUndefOff(2,itok.name);
if(am32==FALSE)outword((unsigned int)itok.number);
else outdword(itok.number);
}
else{
CheckAllMassiv(bufrm,4,&strinf,&itok,reg1,reg2);
op66(r32);
outseg(&itok,2);
op(0x8B);
op(r1*8+itok.rm);
outaddress(&itok);
}
ZeroReg(r2,r32);
ClearReg(r1);
break;
case tk_intvar:
case tk_wordvar:
CheckAllMassiv(bufrm,2,&strinf,&itok,reg1,reg2);
if(tok==tk_wordvar&&optimizespeed&&chip>3&&chip<7&&RmEqualReg(reg,itok.rm,itok.sib)==FALSE){
ZeroReg(r1,r32);
op66(r16);
outseg(&itok,2); //mov reg,var
op(0x8B);
}
else{
op66(r32);
outseg(&itok,3); //movxx reg,var
op(0x0F); op(tok==tk_wordvar?0xB7:0xBF);
}
op(r1*8+itok.rm);
outaddress(&itok);
ClearReg(r1);
ZeroReg(r2,r32);
break;
case tk_bytevar:
case tk_charvar:
CheckAllMassiv(bufrm,1,&strinf,&itok,reg1,reg2);
if(reg<=EBX&&tok==tk_bytevar&&optimizespeed&&chip>3&&chip<7&&RmEqualReg(reg,itok.rm,itok.sib)==FALSE){
ZeroReg(r1,r32);
outseg(&itok,2);
op(0x8A);
}
else{
op66(r32);
outseg(&itok,3);
op(0xf);
if(tok==tk_bytevar)op(0xb6);
else op(0xbe);
}
op(r1*8+itok.rm); // MOVZX regL,[byte]
outaddress(&itok);
ClearReg(r1);
ZeroReg(r2,r32);
break;
case tk_reg:
if(tok2==tk_openbracket){ //<2F><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD> <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><E0A5A3><EFBFBD><EFBFBD><EFBFBD>
reg1=itok.number;
nexttok();
param[0]=0;
if(comfile==file_w32)swapparam();
else doparams();
op66(r16);
op(0xFF);
op(0xD0+reg1); /* CALL reg with stack params */
itok.number=0;
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
}
if(optimizespeed&&chip>3&&chip<7&&reg!=(int)itok.number){
ZeroReg(r1,r32);
op(0x89);
op(0xC0+r1+(unsigned int)itok.number*8);
}
else{
op66(r32);
outword(0xB70F);
op(0xC0+r1*8+(unsigned int)itok.number);
}
RegToReg(r1,itok.number,r32);
ZeroReg(r2,r32);
break;
case tk_reg32:
if(tok2==tk_openbracket){ //<2F><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD> <20><> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><E0A5A3><EFBFBD><EFBFBD><EFBFBD>
reg1=itok.number;
nexttok();
param[0]=0;
if(comfile==file_w32)swapparam();
else doparams();
op66(r32);
op(0xFF);
op(0xD0+reg1); /* CALL reg with stack params */
itok.number=0;
clearregstat();
#ifdef OPTVARCONST
FreeGlobalConst();
#endif
}
if(r1!=(int)itok.number){
op66(r32);
op(0x89);
op(0xC0+r1+(unsigned int)itok.number*8);
RegToReg(r1,itok.number,r32);
}
ZeroReg(r2,r32);
break;
case tk_reg64:
reg1=itok.number&255;
reg2=itok.number/256;
movreg64:
if(r1==reg2){
if(r2==reg1){
op66(r32);
if(r1==AX)op(0x90+r2);
else if(r2==AX)op(0x90+r1);
else{
op(0x87);
op(0xC0+r1+r2*8);
}
break;
}
int temp;
temp=r2;
r2=r1;
r1=temp;
temp=reg2;
reg2=reg1;
reg1=temp;
}
if(r2==reg1){
int temp;
temp=r2;
r2=r1;
r1=temp;
temp=reg2;
reg2=reg1;
reg1=temp;
}
if(r1!=reg1){
op66(r32);
op(0x89);
op(0xC0+r1+reg1*8);
RegToReg(r1,reg1,r32);
}
if(r2!=reg2){
op66(r32);
op(0x89);
op(0xC0+r2+reg2*8);
RegToReg(r2,reg2,r32);
}
break;
case tk_bits:
int vops;
i=itok.bit.siz+itok.bit.ofs;
if(i<=64)vops=r64;
if(i<=32)vops=r32;
if(i<=16)vops=r16;
bits2reg(r1,(r32<vops?vops:r32));
ZeroReg(r2,r32);
break;
case tk_seg:
op66(r32);
op(0x8C);
op(0xC0+r1+(unsigned int)itok.number*8);
ClearReg(r1);
ZeroReg(r2,r32);
break;
case tk_beg:
if(optimizespeed&&chip>3&&chip<7&&reg<4&&reg!=(int)(itok.number%4)){
ZeroReg(r1,r32);
op(0x88);
op(0xC0+r1+(unsigned int)itok.number*8); // MOV regL,beg
}
else{
op66(r32);
outword(0xb60f);
op(0xC0+r1*8+(unsigned int)itok.number); // MOVZX regL,beg
}
ClearReg(reg);
ZeroReg(r2,r32);
break;
case tk_at:
getoperand(am32==FALSE?BX:reg);
i++;
case tk_ID:
case tk_id:
case tk_proc:
case tk_apiproc:
case tk_undefproc:
case tk_declare:
if((!i)||macros(tk_qword)==0)procdo(tk_qword);
reg1=EAX; reg2=EDX;
goto movreg64;
case tk_string:
op66(r32);
op(0xB8+r1);
outdword(addpoststring());
ClearReg(r1);
ZeroReg(r2,r32);
break;
default: valueexpected(); break;
}
if(negflag){
op66(r32);
op(0xF7);
op(0xD8+r2); // NEG reg
op66(r32);
op(0xF7);
op(0xD8+r1); // NEG reg
op66(r32);
op(0x83);
op(0xD8+r2);
op(0);
ClearReg(r1);
ClearReg(r2);
}
if(next)nexttok();
}
void CallExternProc(char *name)
{
ITOK itok4;
int tok4=tk_id;
char string4[256];
struct idrec *ptrs;
memset(&itok4,0,sizeof(ITOK));
strcpy(string4,name);
searchtree(&itok4,&tok4,(unsigned char *)string4);
ptrs=itok4.rec;
switch(tok4){
case tk_id:
tok4=tok;
itok4=itok;
strcpy((char *)itok.name,string4);
string[0]=0;
itok.flag=tp_stdcall;
tok=tk_undefproc;
itok.number=secondcallnum;
itok.segm=NOT_DYNAMIC;
itok.rm=tk_qword;
itok.post=0;
addtotree(itok.name);
addacall(secondcallnum++,CALL_NEAR);
tok=tok4;
itok=itok4;
callloc0();
break;
case tk_declare:
ptrs->rectok=tk_undefproc;
case tk_undefproc:
addacall(itok4.number,(unsigned char)(am32!=FALSE?CALL_32:CALL_NEAR));
callloc0(); /* produce CALL [#] */
break;
case tk_proc:
if(itok4.segm==DYNAMIC)itok4.segm=ptrs->recsegm=DYNAMIC_USED;
if(itok4.segm<NOT_DYNAMIC){ //<2F><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><E6A5A4><EFBFBD>
addacall(itok4.number,(unsigned char)(am32!=FALSE?CALL_32:CALL_NEAR));
callloc0();
}
else{
callloc(itok4.number);
}
break;
default:
sprintf(string4,"'%s' already used",name);
preerror(string4);
break;
}
}
/* end of TOKB.C */