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306 lines
7.3 KiB
306 lines
7.3 KiB
/*++
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Copyright (c) 1995-1998 Microsoft Corporation
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Module Name:
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optfrag.c
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Abstract:
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Instruction Fragments which correspond to optimizations.
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Author:
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6-July-1995 Ori Gershony (t-orig)
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Revision History:
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24-Aug-1999 [askhalid] copied from 32-bit wx86 directory and make work for 64bit.
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--*/
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#include <nt.h>
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#include <ntrtl.h>
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#include <nturtl.h>
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#include <windows.h>
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#include <stdio.h>
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#include "cpuassrt.h"
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#include "fragp.h"
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#include "optfrag.h"
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ASSERTNAME;
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// This fragment corresponds to:
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// push ebx
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// push esi
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// push edi
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FRAG0(OPT_PushEbxEsiEdiFrag)
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{
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ULONG *espval;
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espval=(ULONG *)esp;
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*(espval-1) = ebx;
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*(espval-2) = esi;
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*(espval-3) = edi;
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esp=(ULONG)(LONGLONG)espval-12;
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}
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// This fragment corresponds to:
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// pop edi
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// pop esi
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// pop ebx
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FRAG0(OPT_PopEdiEsiEbxFrag)
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{
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ULONG *espval;
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espval=(ULONG *)esp;
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edi=*espval;
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esi=*(espval+1);
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ebx=*(espval+2);
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esp=(ULONG)(LONGLONG)espval+12;
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}
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// This fragment corresponds to:
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// push ebp
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// mov ebp,esp
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// sub esp, op1
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FRAG1IMM(OPT_SetupStackFrag, ULONG)
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{
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ULONG result, oldespminusfour;
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oldespminusfour = esp-4;
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result = oldespminusfour - op1;
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*(ULONG *)oldespminusfour = ebp;
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ebp = oldespminusfour;
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esp = result;
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SET_FLAGS_SUB32(result, oldespminusfour, op1, 0x80000000);
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}
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FRAG1IMM(OPT_SetupStackNoFlagsFrag, ULONG)
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{
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ULONG result, oldespminusfour;
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oldespminusfour = esp-4;
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result = oldespminusfour - op1;
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*(ULONG *)oldespminusfour = ebp;
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ebp = oldespminusfour;
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esp = result;
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}
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FRAG1(OPT_ZEROFrag32, LONG)
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{
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// implements: XOR samereg, samereg
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// SUB samereg, samereg
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// ie. XOR EAX, EAX or SUB ECX, ECX
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*pop1 = 0;
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SET_CFLAG_OFF;
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SET_OFLAG_OFF;
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SET_SFLAG_OFF;
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SET_ZFLAG(0);
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SET_PFLAG(0);
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SET_AUXFLAG(0);
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}
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FRAG1(OPT_ZERONoFlagsFrag32, LONG)
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{
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// implements: XOR samereg, samereg
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// SUB samereg, samereg
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// ie. XOR EAX, EAX or SUB ECX, ECX
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*pop1 = 0;
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}
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FRAG3(OPT_CmpSbbFrag32, ULONG, ULONG, ULONG)
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{
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ULONG result;
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ULONG cf;
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//
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// implements: CMP op2, op3
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// SBB op1, op1
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//
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result = op2-op3;
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cf = (op2 ^ op3 ^ result) ^ ((op2 ^ op3) & (op2 ^ result));
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result = (ULONG)-(LONG)(cf >> 31);
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*pop1 = result; // pop1 is a pointer to a reg, so always aligned
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SET_OFLAG_OFF;
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SET_CFLAG(result);
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SET_SFLAG(result);
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SET_ZFLAG(result);
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SET_AUXFLAG(result);
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SET_PFLAG(result);
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}
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FRAG3(OPT_CmpSbbNoFlagsFrag32, ULONG, ULONG, ULONG)
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{
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ULONG result;
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ULONG cf;
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//
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// implements: CMP op2, op3
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// SBB op1, op1
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//
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result = op2-op3;
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cf = (op2 ^ op3 ^ result) ^ ((op2 ^ op3) & (op2 ^ result));
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*pop1 = (ULONG)-(LONG)(cf >> 31);
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}
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FRAG3(OPT_CmpSbbNegFrag32, ULONG, ULONG, ULONG)
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{
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ULONG result;
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ULONG cf;
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//
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// implements: CMP op2, op3
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// SBB op1, op1
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// NEG op1
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//
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result = op2-op3;
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cf = (op2 ^ op3 ^ result) ^ ((op2 ^ op3) & (op2 ^ result));
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// pop1 is a pointer to a reg, so it is always aligned
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if (cf >= 0x80000000) {
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result = 1;
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*pop1 = result; // store the result before updating flags
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SET_CFLAG_ON; // set if result != 0
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SET_AUXFLAG(0xfe); // this is (BYTE)(0xffffffff ^ 0x00000001)
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} else {
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result = 0;
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*pop1 = result; // store the result before updating flags
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SET_CFLAG_OFF; // cleared if result==0
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SET_AUXFLAG(0); // this is (BYTE)(0x0 ^ 0x0)
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SET_OFLAG_OFF; // this is (0x0 & 0x0) << 31
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}
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SET_ZFLAG(result);
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SET_PFLAG(result);
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SET_SFLAG_OFF;
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SET_OFLAG_OFF; // this is either (0xffffffff & 0x00000001) or (0 & 0)
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}
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FRAG3(OPT_CmpSbbNegNoFlagsFrag32, ULONG, ULONG, ULONG)
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{
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ULONG result;
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ULONG cf;
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//
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// implements: CMP op2, op3
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// SBB op1, op1
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// NEG op1
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//
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result = op2-op3;
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cf = (op2 ^ op3 ^ result) ^ ((op2 ^ op3) & (op2 ^ result));
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// result is 1 if high bit of cf is set, 0 if high bit is clear
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*pop1 = cf >> 31;
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}
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FRAG2IMM(OPT_Push2Frag32, ULONG, ULONG)
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{
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//
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// implements: PUSH op1
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// PUSH op2
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// Note that the analysis phase must ensure that the value of op2 does
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// not depend on the value of ESP, as op2 will be computed before the
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// first PUSH is excuted.
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//
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PUSH_LONG(op1);
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PUSH_LONG(op2);
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}
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FRAG2REF(OPT_Pop2Frag32, ULONG)
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{
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//
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// implements: POP pop1
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// POP pop2
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//
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// Note that the analysis phase must ensure that the value of pop2 does
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// not depend on the value of pop1, as pop1 will not have been popped
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// when the value of pop2 is computed.
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//
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POP_LONG(*pop1);
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POP_LONG(*pop2);
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}
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FRAG1(OPT_CwdIdivFrag16, USHORT)
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{
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short op1;
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short result;
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//
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// implements: CWD
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// IDIV EAX, *pop1
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// The CWD sign-extends EAX into EDX:EAX, which means, we can
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// avoid a 64-bit division and just divide EAX. There is no
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// possibility of overflow.
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//
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op1 = (short)GET_SHORT(pop1);
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// Must do the divide before modifying edx, in case op1==0 and we fault.
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result = (short)ax / op1;
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dx = (short)ax % op1;
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ax = result;
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}
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FRAG1(OPT_CwdIdivFrag16A, USHORT)
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{
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short op1;
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short result;
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//
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// implements: CWD
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// IDIV EAX, *pop1
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// The CWD sign-extends EAX into EDX:EAX, which means, we can
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// avoid a 64-bit division and just divide EAX. There is no
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// possibility of overflow.
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//
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op1 = (short)*pop1;
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// Must do the divide before modifying edx, in case op1==0 and we fault.
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result = (short)ax / op1;
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dx = (short)ax % op1;
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ax = result;
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}
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FRAG1(OPT_CwdIdivFrag32, ULONG)
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{
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long op1;
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long result;
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//
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// implements: CWD
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// IDIV EAX, *pop1
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// The CWD sign-extends EAX into EDX:EAX, which means, we can
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// avoid a 64-bit division and just divide EAX. There is no
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// possibility of overflow.
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//
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op1 = (long)GET_LONG(pop1);
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// Must do the divide before modifying edx, in case op1==0 and we fault.
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result = (long)eax / op1;
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edx = (long)eax % op1;
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eax = result;
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}
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FRAG1(OPT_CwdIdivFrag32A, ULONG)
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{
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long op1;
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long result;
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//
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// implements: CWD
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// IDIV EAX, *pop1
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// The CWD sign-extends EAX into EDX:EAX, which means, we can
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// avoid a 64-bit division and just divide EAX. There is no
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// possibility of overflow.
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//
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op1 = (long)*pop1;
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// Must do the divide before modifying edx, in case op1==0 and we fault.
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result = (long)eax / op1;
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edx = (long)eax % op1;
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eax = result;
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}
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// This fragment should never be called!
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FRAG0(OPT_OPTIMIZEDFrag)
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{
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CPUASSERTMSG(FALSE, "OPTIMIZED fragment should never be called!");
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}
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