Bochs/bochs/cpu/sse_pfp.cc

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/////////////////////////////////////////////////////////////////////////
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// $Id: sse_pfp.cc,v 1.73 2010-12-26 20:54:23 sshwarts Exp $
/////////////////////////////////////////////////////////////////////////
//
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// Copyright (c) 2003-2010 Stanislav Shwartsman
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// Written by Stanislav Shwartsman [sshwarts at sourceforge net]
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA B 02110-1301 USA
//
/////////////////////////////////////////////////////////////////////////
#define NEED_CPU_REG_SHORTCUTS 1
#include "bochs.h"
#include "cpu.h"
#define LOG_THIS BX_CPU_THIS_PTR
#if BX_CPU_LEVEL >= 6
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#include "fpu/softfloat-specialize.h"
void BX_CPU_C::check_exceptionsSSE(int exceptions_flags)
{
exceptions_flags &= MXCSR_EXCEPTIONS;
int unmasked = ~(MXCSR.get_exceptions_masks()) & exceptions_flags;
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// unmasked pre-computational exception detected (#IA, #DE or #DZ)
if (unmasked & 0x7) exceptions_flags &= 0x7;
MXCSR.set_exceptions(exceptions_flags);
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if (unmasked)
{
if(BX_CPU_THIS_PTR cr4.get_OSXMMEXCPT())
exception(BX_XM_EXCEPTION, 0);
else
exception(BX_UD_EXCEPTION, 0);
}
}
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BX_CPP_INLINE void mxcsr_to_softfloat_status_word(float_status_t &status, bx_mxcsr_t mxcsr)
{
status.float_exception_flags = 0; // clear exceptions before execution
status.float_nan_handling_mode = float_first_operand_nan;
status.float_rounding_mode = mxcsr.get_rounding_mode();
// if underflow is masked and FUZ is 1, set it to 1, else to 0
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status.flush_underflow_to_zero =
(mxcsr.get_flush_masked_underflow() && mxcsr.get_UM()) ? 1 : 0;
status.float_exception_masks = mxcsr.get_exceptions_masks();
}
/* Comparison predicate for CMPSS/CMPPS instructions */
static float32_compare_method compare32[4] = {
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float32_eq,
float32_lt,
float32_le,
float32_unordered
};
/* Comparison predicate for CMPSD/CMPPD instructions */
static float64_compare_method compare64[4] = {
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float64_eq,
float64_lt,
float64_le,
float64_unordered
};
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#endif // BX_CPU_LEVEL >= 6
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/*
* Opcode: 0F 2A
* Convert two 32bit signed integers from MMX/MEM to two single precision FP
* When a conversion is inexact, the value returned is rounded according
* to rounding control bits in MXCSR register.
* Possible floating point exceptions: #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTPI2PS_VpsQqR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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/* check floating point status word for a pending FPU exceptions */
FPU_check_pending_exceptions();
BxPackedMmxRegister op = BX_READ_MMX_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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MMXUD0(op) = int32_to_float32(MMXUD0(op), status_word);
MMXUD1(op) = int32_to_float32(MMXUD1(op), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
prepareFPU2MMX(); /* cause FPU2MMX state transition */
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BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), MMXUQ(op));
#endif
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}
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTPI2PS_VpsQqM(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
BxPackedMmxRegister op;
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// do not cause transition to MMX state if no MMX register touched
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
MMXUQ(op) = read_virtual_qword(i->seg(), eaddr);
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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MMXUD0(op) = int32_to_float32(MMXUD0(op), status_word);
MMXUD1(op) = int32_to_float32(MMXUD1(op), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), MMXUQ(op));
#endif
}
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/*
* Opcode: 66 0F 2A
* Convert two 32bit signed integers from MMX/MEM to two double precision FP
* Possible floating point exceptions: -
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTPI2PD_VpdQqR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister result;
/* check floating point status word for a pending FPU exceptions */
FPU_check_pending_exceptions();
prepareFPU2MMX(); /* cause FPU2MMX state transition */
BxPackedMmxRegister op = BX_READ_MMX_REG(i->rm());
result.xmm64u(0) = int32_to_float64(MMXUD0(op));
result.xmm64u(1) = int32_to_float64(MMXUD1(op));
BX_WRITE_XMM_REG(i->nnn(), result);
#endif
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}
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/*
* Opcode: F2 0F 2A
* Convert one 32bit signed integer to one double precision FP
* Possible floating point exceptions: -
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTSI2SD_VsdEdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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float64 result;
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#if BX_SUPPORT_X86_64
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if (i->os64L()) /* 64 bit operand size */
result = int64_to_float64(BX_READ_64BIT_REG(i->rm()), status_word);
else
#endif
result = int32_to_float64(BX_READ_32BIT_REG(i->rm()));
check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), result);
#endif
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}
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTSI2SD_VsdEdM(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
float64 result;
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bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
#if BX_SUPPORT_X86_64
if (i->os64L()) /* 64 bit operand size */
{
Bit64u op = read_virtual_qword_64(i->seg(), eaddr);
result = int64_to_float64(op, status_word);
}
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else
#endif
{
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Bit32u op = read_virtual_dword(i->seg(), eaddr);
result = int32_to_float64(op);
}
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), result);
#endif
}
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/*
* Opcode: F3 0F 2A
* Convert one 32bit signed integer to one single precision FP
* When a conversion is inexact, the value returned is rounded according
* to rounding control bits in MXCSR register.
* Possible floating point exceptions: #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTSI2SS_VssEdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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float32 result;
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#if BX_SUPPORT_X86_64
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if (i->os64L()) /* 64 bit operand size */
result = int64_to_float32(BX_READ_64BIT_REG(i->rm()), status_word);
else
#endif
result = int32_to_float32(BX_READ_32BIT_REG(i->rm()), status_word);
check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), result);
#endif
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}
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTSI2SS_VssEdM(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
float32 result;
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
#if BX_SUPPORT_X86_64
if (i->os64L()) /* 64 bit operand size */
{
Bit64u op = read_virtual_qword_64(i->seg(), eaddr);
result = int64_to_float32(op, status_word);
}
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else
#endif
{
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Bit32u op = read_virtual_dword(i->seg(), eaddr);
result = int32_to_float32(op, status_word);
}
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), result);
#endif
}
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/*
* Opcode: 0F 2C
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* Convert two single precision FP numbers to two signed doubleword integers
* in MMX using truncation if the conversion is inexact
* Possible floating point exceptions: #I, #P
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTTPS2PI_PqWps(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
/* check floating point status word for a pending FPU exceptions */
FPU_check_pending_exceptions();
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BxPackedMmxRegister op;
/* op is a register or memory reference */
if (i->modC0()) {
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MMXUQ(op) = BX_READ_XMM_REG_LO_QWORD(i->rm());
}
else {
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
/* pointer, segment address pair */
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MMXUQ(op) = read_virtual_qword(i->seg(), eaddr);
}
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) {
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MMXUD0(op) = float32_denormal_to_zero(MMXUD0(op));
MMXUD1(op) = float32_denormal_to_zero(MMXUD1(op));
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}
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MMXUD0(op) = float32_to_int32_round_to_zero(MMXUD0(op), status_word);
MMXUD1(op) = float32_to_int32_round_to_zero(MMXUD1(op), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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prepareFPU2MMX(); /* cause FPU2MMX state transition */
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BX_WRITE_MMX_REG(i->nnn(), op);
#endif
}
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/*
* Opcode: 66 0F 2C
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* Convert two double precision FP numbers to two signed doubleword integers
* in MMX using truncation if the conversion is inexact
* Possible floating point exceptions: #I, #P
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTTPD2PI_PqWpd(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
/* check floating point status word for a pending FPU exceptions */
FPU_check_pending_exceptions();
BxPackedXmmRegister op;
BxPackedMmxRegister result;
/* op is a register or memory reference */
if (i->modC0()) {
op = BX_READ_XMM_REG(i->rm());
}
else {
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
/* pointer, segment address pair */
readVirtualDQwordAligned(i->seg(), eaddr, (Bit8u *) &op);
}
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) {
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op.xmm64u(0) = float64_denormal_to_zero(op.xmm64u(0));
op.xmm64u(1) = float64_denormal_to_zero(op.xmm64u(1));
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}
MMXUD0(result) = float64_to_int32_round_to_zero(op.xmm64u(0), status_word);
MMXUD1(result) = float64_to_int32_round_to_zero(op.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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prepareFPU2MMX(); /* cause FPU2MMX state transition */
BX_WRITE_MMX_REG(i->nnn(), result);
#endif
}
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/*
* Opcode: F2 0F 2C
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* Convert one double precision FP number to doubleword integer using
* truncation if the conversion is inexact
* Possible floating point exceptions: #I, #P
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTTSD2SI_GdWsd(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float64 op;
/* op is a register or memory reference */
if (i->modC0()) {
op = BX_READ_XMM_REG_LO_QWORD(i->rm());
}
else {
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
/* pointer, segment address pair */
op = read_virtual_qword(i->seg(), eaddr);
}
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) op = float64_denormal_to_zero(op);
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#if BX_SUPPORT_X86_64
if (i->os64L()) /* 64 bit operand size mode */
{
Bit64u result = float64_to_int64_round_to_zero(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_64BIT_REG(i->nnn(), result);
}
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else
#endif
{
Bit32u result = float64_to_int32_round_to_zero(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_32BIT_REGZ(i->nnn(), result);
}
#endif
}
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/*
* Opcode: F3 0F 2C
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* Convert one single precision FP number to doubleword integer using
* truncation if the conversion is inexact
* Possible floating point exceptions: #I, #P
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTTSS2SI_GdWss(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float32 op;
/* op is a register or memory reference */
if (i->modC0()) {
op = BX_READ_XMM_REG_LO_DWORD(i->rm());
}
else {
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
/* pointer, segment address pair */
op = read_virtual_dword(i->seg(), eaddr);
}
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) op = float32_denormal_to_zero(op);
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#if BX_SUPPORT_X86_64
if (i->os64L()) /* 64 bit operand size mode */
{
Bit64u result = float32_to_int64_round_to_zero(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_64BIT_REG(i->nnn(), result);
}
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else
#endif
{
Bit32u result = float32_to_int32_round_to_zero(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_32BIT_REGZ(i->nnn(), result);
}
#endif
}
/*
* Opcode: 0F 2D
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* Convert two single precision FP numbers to two signed doubleword integers
* in MMX register. When a conversion is inexact, the value returned is
* rounded according to rounding control bits in MXCSR register.
* Possible floating point exceptions: #I, #P
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTPS2PI_PqWps(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
/* check floating point status word for a pending FPU exceptions */
FPU_check_pending_exceptions();
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BxPackedMmxRegister op;
/* op is a register or memory reference */
if (i->modC0()) {
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MMXUQ(op) = BX_READ_XMM_REG_LO_QWORD(i->rm());
}
else {
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
/* pointer, segment address pair */
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MMXUQ(op) = read_virtual_qword(i->seg(), eaddr);
}
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) {
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MMXUD0(op) = float32_denormal_to_zero(MMXUD0(op));
MMXUD1(op) = float32_denormal_to_zero(MMXUD1(op));
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}
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MMXUD0(op) = float32_to_int32(MMXUD0(op), status_word);
MMXUD1(op) = float32_to_int32(MMXUD1(op), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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prepareFPU2MMX(); /* cause FPU2MMX state transition */
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BX_WRITE_MMX_REG(i->nnn(), op);
#endif
}
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/*
* Opcode: 66 0F 2D
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* Convert two double precision FP numbers to two signed doubleword integers
* in MMX register. When a conversion is inexact, the value returned is
* rounded according to rounding control bits in MXCSR register.
* Possible floating point exceptions: #I, #P
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTPD2PI_PqWpd(bxInstruction_c *i)
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{
#if BX_CPU_LEVEL >= 6
/* check floating point status word for a pending FPU exceptions */
FPU_check_pending_exceptions();
BxPackedXmmRegister op;
BxPackedMmxRegister result;
/* op is a register or memory reference */
if (i->modC0()) {
op = BX_READ_XMM_REG(i->rm());
}
else {
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
/* pointer, segment address pair */
readVirtualDQwordAligned(i->seg(), eaddr, (Bit8u *) &op);
}
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) {
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op.xmm64u(0) = float64_denormal_to_zero(op.xmm64u(0));
op.xmm64u(1) = float64_denormal_to_zero(op.xmm64u(1));
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}
MMXUD0(result) = float64_to_int32(op.xmm64u(0), status_word);
MMXUD1(result) = float64_to_int32(op.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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prepareFPU2MMX(); /* cause FPU2MMX state transition */
BX_WRITE_MMX_REG(i->nnn(), result);
#endif
}
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/*
* Opcode: F2 0F 2D
* Convert one double precision FP number to doubleword integer
* When a conversion is inexact, the value returned is rounded according
* to rounding control bits in MXCSR register.
* Possible floating point exceptions: #I, #P
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTSD2SI_GdWsd(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float64 op;
/* op is a register or memory reference */
if (i->modC0()) {
op = BX_READ_XMM_REG_LO_QWORD(i->rm());
}
else {
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
/* pointer, segment address pair */
op = read_virtual_qword(i->seg(), eaddr);
}
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) op = float64_denormal_to_zero(op);
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#if BX_SUPPORT_X86_64
if (i->os64L()) /* 64 bit operand size mode */
{
Bit64u result = float64_to_int64(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_64BIT_REG(i->nnn(), result);
}
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else
#endif
{
Bit32u result = float64_to_int32(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_32BIT_REGZ(i->nnn(), result);
}
#endif
}
/*
* Opcode: F3 0F 2D
* Convert one single precision FP number to doubleword integer.
* When a conversion is inexact, the value returned is rounded according
* to rounding control bits in MXCSR register.
* Possible floating point exceptions: #I, #P
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTSS2SI_GdWss(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float32 op;
/* op is a register or memory reference */
if (i->modC0()) {
op = BX_READ_XMM_REG_LO_DWORD(i->rm());
}
else {
bx_address eaddr = BX_CPU_CALL_METHODR(i->ResolveModrm, (i));
/* pointer, segment address pair */
op = read_virtual_dword(i->seg(), eaddr);
}
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) op = float32_denormal_to_zero(op);
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#if BX_SUPPORT_X86_64
if (i->os64L()) /* 64 bit operand size mode */
{
Bit64u result = float32_to_int64(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_64BIT_REG(i->nnn(), result);
}
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else
#endif
{
Bit32u result = float32_to_int32(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_32BIT_REGZ(i->nnn(), result);
}
#endif
}
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/*
* Opcode: 0F 5A
* Convert two single precision FP numbers to two double precision FP numbers
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTPS2PD_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
BxPackedXmmRegister result;
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BxPackedMmxRegister op;
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// use MMX register as 64-bit value with convinient accessors
MMXUQ(op) = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
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MMXUD0(op) = float32_denormal_to_zero(MMXUD0(op));
MMXUD1(op) = float32_denormal_to_zero(MMXUD1(op));
}
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result.xmm64u(0) = float32_to_float64(MMXUD0(op), status_word);
result.xmm64u(1) = float32_to_float64(MMXUD1(op), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), result);
#endif
}
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/*
* Opcode: 66 0F 5A
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* Convert two double precision FP numbers to two single precision FP.
* When a conversion is inexact, the value returned is rounded according
* to rounding control bits in MXCSR register.
* Possible floating point exceptions: #I, #D, #O, #I, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTPD2PS_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op.xmm64u(0) = float64_denormal_to_zero(op.xmm64u(0));
op.xmm64u(1) = float64_denormal_to_zero(op.xmm64u(1));
}
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op.xmm32u(0) = float64_to_float32(op.xmm64u(0), status_word);
op.xmm32u(1) = float64_to_float32(op.xmm64u(1), status_word);
op.xmm64u(1) = 0;
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op);
#endif
}
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/*
* Opcode: F2 0F 5A
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* Convert one double precision FP number to one single precision FP.
* When a conversion is inexact, the value returned is rounded according
* to rounding control bits in MXCSR register.
* Possible floating point exceptions: #I, #D, #O, #I, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTSD2SS_VsdWsdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float64 op = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) op = float64_denormal_to_zero(op);
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float32 result = float64_to_float32(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), result);
#endif
}
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/*
* Opcode: F3 0F 5A
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* Convert one single precision FP number to one double precision FP.
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTSS2SD_VssWssR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float32 op = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) op = float32_denormal_to_zero(op);
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float64 result = float32_to_float64(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), result);
#endif
}
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/*
* Opcode: 0F 5B
* Convert four signed integers to four single precision FP numbers.
* When a conversion is inexact, the value returned is rounded according
* to rounding control bits in MXCSR register.
* Possible floating point exceptions: #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTDQ2PS_VpsWdqR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
op.xmm32u(0) = int32_to_float32(op.xmm32u(0), status_word);
op.xmm32u(1) = int32_to_float32(op.xmm32u(1), status_word);
op.xmm32u(2) = int32_to_float32(op.xmm32u(2), status_word);
op.xmm32u(3) = int32_to_float32(op.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op);
#endif
}
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/*
* Opcode: 66 0F 5B
* Convert four single precision FP to four doubleword integers.
* When a conversion is inexact, the value returned is rounded according
* to rounding control bits in MXCSR register.
* Possible floating point exceptions: #I, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTPS2DQ_VdqWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) {
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op.xmm32u(0) = float32_denormal_to_zero(op.xmm32u(0));
op.xmm32u(1) = float32_denormal_to_zero(op.xmm32u(1));
op.xmm32u(2) = float32_denormal_to_zero(op.xmm32u(2));
op.xmm32u(3) = float32_denormal_to_zero(op.xmm32u(3));
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}
op.xmm32u(0) = float32_to_int32(op.xmm32u(0), status_word);
op.xmm32u(1) = float32_to_int32(op.xmm32u(1), status_word);
op.xmm32u(2) = float32_to_int32(op.xmm32u(2), status_word);
op.xmm32u(3) = float32_to_int32(op.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op);
#endif
}
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/*
* Opcode: F3 0F 5B
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* Convert four single precision FP to four doubleword integers using
* truncation if the conversion is inexact.
* Possible floating point exceptions: #I, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTTPS2DQ_VdqWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) {
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op.xmm32u(0) = float32_denormal_to_zero(op.xmm32u(0));
op.xmm32u(1) = float32_denormal_to_zero(op.xmm32u(1));
op.xmm32u(2) = float32_denormal_to_zero(op.xmm32u(2));
op.xmm32u(3) = float32_denormal_to_zero(op.xmm32u(3));
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}
op.xmm32u(0) = float32_to_int32_round_to_zero(op.xmm32u(0), status_word);
op.xmm32u(1) = float32_to_int32_round_to_zero(op.xmm32u(1), status_word);
op.xmm32u(2) = float32_to_int32_round_to_zero(op.xmm32u(2), status_word);
op.xmm32u(3) = float32_to_int32_round_to_zero(op.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op);
#endif
}
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/*
* Opcode: 66 0F E6
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* Convert two double precision FP to two signed doubleword integers using
* truncation if the conversion is inexact.
* Possible floating point exceptions: #I, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTTPD2DQ_VqWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) {
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op.xmm64u(0) = float64_denormal_to_zero(op.xmm64u(0));
op.xmm64u(1) = float64_denormal_to_zero(op.xmm64u(1));
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}
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op.xmm32u(0) = float64_to_int32_round_to_zero(op.xmm64u(0), status_word);
op.xmm32u(1) = float64_to_int32_round_to_zero(op.xmm64u(1), status_word);
op.xmm64u(1) = 0;
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op);
#endif
}
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/*
* Opcode: F2 0F E6
* Convert two double precision FP to two signed doubleword integers.
* When a conversion is inexact, the value returned is rounded according
* to rounding control bits in MXCSR register.
* Possible floating point exceptions: #I, #P
*/
2010-12-26 23:41:47 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTPD2DQ_VqWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) {
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op.xmm64u(0) = float64_denormal_to_zero(op.xmm64u(0));
op.xmm64u(1) = float64_denormal_to_zero(op.xmm64u(1));
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}
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op.xmm32u(0) = float64_to_int32(op.xmm64u(0), status_word);
op.xmm32u(1) = float64_to_int32(op.xmm64u(1), status_word);
op.xmm64u(1) = 0;
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op);
#endif
}
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/*
* Opcode: F3 0F E6
* Convert two 32bit signed integers from XMM/MEM to two double precision FP
* Possible floating point exceptions: -
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CVTDQ2PD_VpdWqR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
BxPackedXmmRegister result;
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BxPackedMmxRegister op;
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// use MMX register as 64-bit value with convinient accessors
MMXUQ(op) = BX_READ_XMM_REG_LO_QWORD(i->rm());
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result.xmm64u(0) = int32_to_float64(MMXUD0(op));
result.xmm64u(1) = int32_to_float64(MMXUD1(op));
BX_WRITE_XMM_REG(i->nnn(), result);
#endif
}
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/*
* Opcode: 0F 2E
* Compare two single precision FP numbers and set EFLAGS accordintly.
* Possible floating point exceptions: #I, #D
*/
2010-12-26 23:41:47 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::UCOMISS_VssWssR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-26 23:41:47 +03:00
float32 op1 = BX_READ_XMM_REG_LO_DWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float32_denormal_to_zero(op1);
op2 = float32_denormal_to_zero(op2);
}
int rc = float32_compare_quiet(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_CPU_THIS_PTR write_eflags_fpu_compare(rc);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: 66 0F 2E
* Compare two double precision FP numbers and set EFLAGS accordintly.
* Possible floating point exceptions: #I, #D
*/
2010-12-26 23:41:47 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::UCOMISD_VsdWsdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float64 op1 = BX_READ_XMM_REG_LO_QWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float64_denormal_to_zero(op1);
op2 = float64_denormal_to_zero(op2);
}
int rc = float64_compare_quiet(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_CPU_THIS_PTR write_eflags_fpu_compare(rc);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: 0F 2F
* Compare two single precision FP numbers and set EFLAGS accordintly.
* Possible floating point exceptions: #I, #D
*/
2010-12-26 23:41:47 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::COMISS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-26 23:41:47 +03:00
float32 op1 = BX_READ_XMM_REG_LO_DWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float32_denormal_to_zero(op1);
op2 = float32_denormal_to_zero(op2);
}
int rc = float32_compare(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_CPU_THIS_PTR write_eflags_fpu_compare(rc);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: 66 0F 2F
* Compare two double precision FP numbers and set EFLAGS accordintly.
* Possible floating point exceptions: #I, #D
*/
2010-12-26 23:41:47 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::COMISD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-26 23:41:47 +03:00
float64 op1 = BX_READ_XMM_REG_LO_QWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float64_denormal_to_zero(op1);
op2 = float64_denormal_to_zero(op2);
}
int rc = float64_compare(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_CPU_THIS_PTR write_eflags_fpu_compare(rc);
#endif
}
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/*
* Opcode: 0F 51
* Square Root packed single precision.
* Possible floating point exceptions: #I, #D, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::SQRTPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op.xmm32u(0) = float32_denormal_to_zero(op.xmm32u(0));
op.xmm32u(1) = float32_denormal_to_zero(op.xmm32u(1));
op.xmm32u(2) = float32_denormal_to_zero(op.xmm32u(2));
op.xmm32u(3) = float32_denormal_to_zero(op.xmm32u(3));
}
2007-04-19 23:09:52 +04:00
op.xmm32u(0) = float32_sqrt(op.xmm32u(0), status_word);
op.xmm32u(1) = float32_sqrt(op.xmm32u(1), status_word);
op.xmm32u(2) = float32_sqrt(op.xmm32u(2), status_word);
op.xmm32u(3) = float32_sqrt(op.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op);
#endif
}
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/*
* Opcode: 66 0F 51
* Square Root packed double precision.
* Possible floating point exceptions: #I, #D, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::SQRTPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op.xmm64u(0) = float64_denormal_to_zero(op.xmm64u(0));
op.xmm64u(1) = float64_denormal_to_zero(op.xmm64u(1));
}
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op.xmm64u(0) = float64_sqrt(op.xmm64u(0), status_word);
op.xmm64u(1) = float64_sqrt(op.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: F2 0F 51
* Square Root scalar double precision.
* Possible floating point exceptions: #I, #D, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::SQRTSD_VsdWsdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float64 op = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) op = float64_denormal_to_zero(op);
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op = float64_sqrt(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), op);
#endif
}
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/*
* Opcode: F3 0F 51
* Square Root scalar single precision.
* Possible floating point exceptions: #I, #D, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::SQRTSS_VssWssR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float32 op = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ()) op = float32_denormal_to_zero(op);
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op = float32_sqrt(op, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), op);
#endif
}
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/*
* Opcode: 0F 58
* Add packed single precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::ADDPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
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op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
op1.xmm32u(0) = float32_add(op1.xmm32u(0), op2.xmm32u(0), status_word);
op1.xmm32u(1) = float32_add(op1.xmm32u(1), op2.xmm32u(1), status_word);
op1.xmm32u(2) = float32_add(op1.xmm32u(2), op2.xmm32u(2), status_word);
op1.xmm32u(3) = float32_add(op1.xmm32u(3), op2.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: 66 0F 58
* Add packed double precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::ADDPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
op1.xmm64u(0) = float64_add(op1.xmm64u(0), op2.xmm64u(0), status_word);
op1.xmm64u(1) = float64_add(op1.xmm64u(1), op2.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: F2 0F 58
* Add the lower double precision FP number from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::ADDSD_VsdWsdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float64 op1 = BX_READ_XMM_REG_LO_QWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float64_denormal_to_zero(op1);
op2 = float64_denormal_to_zero(op2);
}
op1 = float64_add(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), op1);
#endif
}
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/*
* Opcode: F3 0F 58
* Add the lower single precision FP number from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::ADDSS_VssWssR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float32 op1 = BX_READ_XMM_REG_LO_DWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float32_denormal_to_zero(op1);
op2 = float32_denormal_to_zero(op2);
}
op1 = float32_add(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), op1);
#endif
}
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/*
* Opcode: 0F 59
* Multiply packed single precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::MULPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
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op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
op1.xmm32u(0) = float32_mul(op1.xmm32u(0), op2.xmm32u(0), status_word);
op1.xmm32u(1) = float32_mul(op1.xmm32u(1), op2.xmm32u(1), status_word);
op1.xmm32u(2) = float32_mul(op1.xmm32u(2), op2.xmm32u(2), status_word);
op1.xmm32u(3) = float32_mul(op1.xmm32u(3), op2.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: 66 0F 59
* Multiply packed double precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::MULPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
op1.xmm64u(0) = float64_mul(op1.xmm64u(0), op2.xmm64u(0), status_word);
op1.xmm64u(1) = float64_mul(op1.xmm64u(1), op2.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: F2 0F 59
* Multiply the lower double precision FP number from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::MULSD_VsdWsdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float64 op1 = BX_READ_XMM_REG_LO_QWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float64_denormal_to_zero(op1);
op2 = float64_denormal_to_zero(op2);
}
op1 = float64_mul(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), op1);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: F3 0F 59
* Multiply the lower single precision FP number from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::MULSS_VssWssR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
float32 op1 = BX_READ_XMM_REG_LO_DWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float32_denormal_to_zero(op1);
op2 = float32_denormal_to_zero(op2);
}
op1 = float32_mul(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), op1);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: 0F 5C
* Subtract packed single precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::SUBPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
2008-04-05 00:03:27 +04:00
op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
op1.xmm32u(0) = float32_sub(op1.xmm32u(0), op2.xmm32u(0), status_word);
op1.xmm32u(1) = float32_sub(op1.xmm32u(1), op2.xmm32u(1), status_word);
op1.xmm32u(2) = float32_sub(op1.xmm32u(2), op2.xmm32u(2), status_word);
op1.xmm32u(3) = float32_sub(op1.xmm32u(3), op2.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: 66 0F 5C
* Subtract packed double precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::SUBPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
op1.xmm64u(0) = float64_sub(op1.xmm64u(0), op2.xmm64u(0), status_word);
op1.xmm64u(1) = float64_sub(op1.xmm64u(1), op2.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: F2 0F 5C
* Subtract the lower double precision FP number from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::SUBSD_VsdWsdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
float64 op1 = BX_READ_XMM_REG_LO_QWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float64_denormal_to_zero(op1);
op2 = float64_denormal_to_zero(op2);
}
op1 = float64_sub(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), op1);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: F3 0F 5C
* Subtract the lower single precision FP number from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::SUBSS_VssWssR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
float32 op1 = BX_READ_XMM_REG_LO_DWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float32_denormal_to_zero(op1);
op2 = float32_denormal_to_zero(op2);
}
op1 = float32_sub(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), op1);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: 0F 5D
* Calculate the minimum single precision FP between XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::MINPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
int rc;
if (MXCSR.get_DAZ()) {
2008-04-05 00:03:27 +04:00
op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
2008-04-05 00:03:27 +04:00
op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
rc = float32_compare(op1.xmm32u(0), op2.xmm32u(0), status_word);
op1.xmm32u(0) = (rc == float_relation_less) ? op1.xmm32u(0) : op2.xmm32u(0);
rc = float32_compare(op1.xmm32u(1), op2.xmm32u(1), status_word);
op1.xmm32u(1) = (rc == float_relation_less) ? op1.xmm32u(1) : op2.xmm32u(1);
rc = float32_compare(op1.xmm32u(2), op2.xmm32u(2), status_word);
op1.xmm32u(2) = (rc == float_relation_less) ? op1.xmm32u(2) : op2.xmm32u(2);
rc = float32_compare(op1.xmm32u(3), op2.xmm32u(3), status_word);
op1.xmm32u(3) = (rc == float_relation_less) ? op1.xmm32u(3) : op2.xmm32u(3);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: 66 0F 5D
* Calculate the minimum double precision FP between XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::MINPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
int rc;
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
rc = float64_compare(op1.xmm64u(0), op2.xmm64u(0), status_word);
op1.xmm64u(0) = (rc == float_relation_less) ? op1.xmm64u(0) : op2.xmm64u(0);
rc = float64_compare(op1.xmm64u(1), op2.xmm64u(1), status_word);
op1.xmm64u(1) = (rc == float_relation_less) ? op1.xmm64u(1) : op2.xmm64u(1);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: F2 0F 5D
* Calculate the minimum scalar double precision FP between XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::MINSD_VsdWsdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float64 op1 = BX_READ_XMM_REG_LO_QWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float64_denormal_to_zero(op1);
op2 = float64_denormal_to_zero(op2);
}
int rc = float64_compare(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG_LO_QWORD(i->nnn(),
(rc == float_relation_less) ? op1 : op2);
#endif
}
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/*
* Opcode: F3 0F 5D
* Calculate the minimum scalar single precision FP between XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::MINSS_VssWssR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float32 op1 = BX_READ_XMM_REG_LO_DWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float32_denormal_to_zero(op1);
op2 = float32_denormal_to_zero(op2);
}
int rc = float32_compare(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG_LO_DWORD(i->nnn(),
(rc == float_relation_less) ? op1 : op2);
#endif
}
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/*
* Opcode: 0F 5E
* Divide packed single precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #Z, #O, #U, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::DIVPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
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op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
op1.xmm32u(0) = float32_div(op1.xmm32u(0), op2.xmm32u(0), status_word);
op1.xmm32u(1) = float32_div(op1.xmm32u(1), op2.xmm32u(1), status_word);
op1.xmm32u(2) = float32_div(op1.xmm32u(2), op2.xmm32u(2), status_word);
op1.xmm32u(3) = float32_div(op1.xmm32u(3), op2.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: 66 0F 5E
* Divide packed double precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #Z, #O, #U, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::DIVPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
op1.xmm64u(0) = float64_div(op1.xmm64u(0), op2.xmm64u(0), status_word);
op1.xmm64u(1) = float64_div(op1.xmm64u(1), op2.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: F2 0F 5E
* Divide the lower double precision FP number from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #Z, #O, #U, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::DIVSD_VsdWsdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float64 op1 = BX_READ_XMM_REG_LO_QWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float64_denormal_to_zero(op1);
op2 = float64_denormal_to_zero(op2);
}
op1 = float64_div(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), op1);
#endif
}
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/*
* Opcode: F3 0F 5E
* Divide the lower single precision FP number from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #Z, #O, #U, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::DIVSS_VssWssR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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float32 op1 = BX_READ_XMM_REG_LO_DWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float32_denormal_to_zero(op1);
op2 = float32_denormal_to_zero(op2);
}
op1 = float32_div(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), op1);
#endif
}
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/*
* Opcode: 0F 5F
* Calculate the maximum single precision FP between XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::MAXPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
int rc;
if (MXCSR.get_DAZ()) {
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op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
rc = float32_compare(op1.xmm32u(0), op2.xmm32u(0), status_word);
op1.xmm32u(0) = (rc == float_relation_greater) ? op1.xmm32u(0) : op2.xmm32u(0);
rc = float32_compare(op1.xmm32u(1), op2.xmm32u(1), status_word);
op1.xmm32u(1) = (rc == float_relation_greater) ? op1.xmm32u(1) : op2.xmm32u(1);
rc = float32_compare(op1.xmm32u(2), op2.xmm32u(2), status_word);
op1.xmm32u(2) = (rc == float_relation_greater) ? op1.xmm32u(2) : op2.xmm32u(2);
rc = float32_compare(op1.xmm32u(3), op2.xmm32u(3), status_word);
op1.xmm32u(3) = (rc == float_relation_greater) ? op1.xmm32u(3) : op2.xmm32u(3);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: 66 0F 5F
* Calculate the maximum double precision FP between XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::MAXPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
int rc;
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
rc = float64_compare(op1.xmm64u(0), op2.xmm64u(0), status_word);
op1.xmm64u(0) = (rc == float_relation_greater) ? op1.xmm64u(0) : op2.xmm64u(0);
rc = float64_compare(op1.xmm64u(1), op2.xmm64u(1), status_word);
op1.xmm64u(1) = (rc == float_relation_greater) ? op1.xmm64u(1) : op2.xmm64u(1);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: F2 0F 5F
* Calculate the maximum scalar double precision FP between XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::MAXSD_VsdWsdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
float64 op1 = BX_READ_XMM_REG_LO_QWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float64_denormal_to_zero(op1);
op2 = float64_denormal_to_zero(op2);
}
int rc = float64_compare(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG_LO_QWORD(i->nnn(),
(rc == float_relation_greater) ? op1 : op2);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: F3 0F 5F
* Calculate the maxumim scalar single precision FP between XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::MAXSS_VssWssR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
float32 op1 = BX_READ_XMM_REG_LO_DWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1 = float32_denormal_to_zero(op1);
op2 = float32_denormal_to_zero(op2);
}
int rc = float32_compare(op1, op2, status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG_LO_DWORD(i->nnn(),
(rc == float_relation_greater) ? op1 : op2);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: 66 0F 7C
* Add horizontally packed double precision FP in XMM2/MEM from XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::HADDPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
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op1.xmm64u(0) = float64_add(op1.xmm64u(0), op1.xmm64u(1), status_word);
op1.xmm64u(1) = float64_add(op2.xmm64u(0), op2.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: F2 0F 7C
* Add horizontally packed single precision FP in XMM2/MEM from XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::HADDPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
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op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
2008-04-20 18:10:44 +04:00
op1.xmm32u(0) = float32_add(op1.xmm32u(0), op1.xmm32u(1), status_word);
op1.xmm32u(1) = float32_add(op1.xmm32u(2), op1.xmm32u(3), status_word);
op1.xmm32u(2) = float32_add(op2.xmm32u(0), op2.xmm32u(1), status_word);
op1.xmm32u(3) = float32_add(op2.xmm32u(2), op2.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: 66 0F 7D
* Subtract horizontally packed double precision FP in XMM2/MEM from XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::HSUBPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
2008-04-20 18:10:44 +04:00
op1.xmm64u(0) = float64_sub(op1.xmm64u(0), op1.xmm64u(1), status_word);
op1.xmm64u(1) = float64_sub(op2.xmm64u(0), op2.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
2008-02-03 00:46:54 +03:00
/*
* Opcode: F2 0F 7D
* Subtract horizontally packed single precision FP in XMM2/MEM from XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
2010-12-24 11:35:00 +03:00
void BX_CPP_AttrRegparmN(1) BX_CPU_C::HSUBPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
2010-12-24 11:35:00 +03:00
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
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op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
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op1.xmm32u(0) = float32_sub(op1.xmm32u(0), op1.xmm32u(1), status_word);
op1.xmm32u(1) = float32_sub(op1.xmm32u(2), op1.xmm32u(3), status_word);
op1.xmm32u(2) = float32_sub(op2.xmm32u(0), op2.xmm32u(1), status_word);
op1.xmm32u(3) = float32_sub(op2.xmm32u(2), op2.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: 0F C2
* Compare packed single precision FP values using Ib as comparison predicate.
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CMPPS_VpsWpsIbR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status;
mxcsr_to_softfloat_status_word(status, MXCSR);
int ib = i->Ib() & 7;
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if (MXCSR.get_DAZ()) {
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op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
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if(ib < 4)
{
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op1.xmm32u(0) =
compare32[ib](op1.xmm32u(0), op2.xmm32u(0), status) ? 0xFFFFFFFF : 0;
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op1.xmm32u(1) =
compare32[ib](op1.xmm32u(1), op2.xmm32u(1), status) ? 0xFFFFFFFF : 0;
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op1.xmm32u(2) =
compare32[ib](op1.xmm32u(2), op2.xmm32u(2), status) ? 0xFFFFFFFF : 0;
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op1.xmm32u(3) =
compare32[ib](op1.xmm32u(3), op2.xmm32u(3), status) ? 0xFFFFFFFF : 0;
}
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else
{
ib -= 4;
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op1.xmm32u(0) =
compare32[ib](op1.xmm32u(0), op2.xmm32u(0), status) ? 0 : 0xFFFFFFFF;
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op1.xmm32u(1) =
compare32[ib](op1.xmm32u(1), op2.xmm32u(1), status) ? 0 : 0xFFFFFFFF;
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op1.xmm32u(2) =
compare32[ib](op1.xmm32u(2), op2.xmm32u(2), status) ? 0 : 0xFFFFFFFF;
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op1.xmm32u(3) =
compare32[ib](op1.xmm32u(3), op2.xmm32u(3), status) ? 0 : 0xFFFFFFFF;
}
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check_exceptionsSSE(status.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: 66 0F C2
* Compare packed double precision FP values using Ib as comparison predicate.
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CMPPD_VpdWpdIbR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status;
mxcsr_to_softfloat_status_word(status, MXCSR);
int ib = i->Ib() & 7;
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
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if(ib < 4)
{
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op1.xmm64u(0) = compare64[ib](op1.xmm64u(0), op2.xmm64u(0), status) ?
BX_CONST64(0xFFFFFFFFFFFFFFFF) : 0;
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op1.xmm64u(1) = compare64[ib](op1.xmm64u(1), op2.xmm64u(1), status) ?
BX_CONST64(0xFFFFFFFFFFFFFFFF) : 0;
}
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else
{
ib -= 4;
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op1.xmm64u(0) = compare64[ib](op1.xmm64u(0), op2.xmm64u(0), status) ?
0 : BX_CONST64(0xFFFFFFFFFFFFFFFF);
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op1.xmm64u(1) = compare64[ib](op1.xmm64u(1), op2.xmm64u(1), status) ?
0 : BX_CONST64(0xFFFFFFFFFFFFFFFF);
}
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check_exceptionsSSE(status.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: F2 0F C2
* Compare double precision FP values using Ib as comparison predicate.
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CMPSD_VsdWsdIbR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
float64 op1 = BX_READ_XMM_REG_LO_QWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_QWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
int ib = i->Ib() & 7;
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if (MXCSR.get_DAZ())
{
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op1 = float64_denormal_to_zero(op1);
op2 = float64_denormal_to_zero(op2);
}
if(ib < 4) {
if(compare64[ib](op1, op2, status_word)) {
op1 = BX_CONST64(0xFFFFFFFFFFFFFFFF);
} else {
op1 = 0;
}
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} else {
if(compare64[ib-4](op1, op2, status_word)) {
op1 = 0;
} else {
op1 = BX_CONST64(0xFFFFFFFFFFFFFFFF);
}
}
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), op1);
#endif
}
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/*
* Opcode: F3 0F C2
* Compare single precision FP values using Ib as comparison predicate.
* Possible floating point exceptions: #I, #D
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::CMPSS_VssWssIbR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
float32 op1 = BX_READ_XMM_REG_LO_DWORD(i->nnn()), op2 = BX_READ_XMM_REG_LO_DWORD(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
int ib = i->Ib() & 7;
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if (MXCSR.get_DAZ())
{
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op1 = float32_denormal_to_zero(op1);
op2 = float32_denormal_to_zero(op2);
}
if(ib < 4) {
if(compare32[ib](op1, op2, status_word)) {
op1 = 0xFFFFFFFF;
} else {
op1 = 0;
}
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} else {
if(compare32[ib-4](op1, op2, status_word)) {
op1 = 0;
} else {
op1 = 0xFFFFFFFF;
}
}
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), op1);
#endif
}
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/*
* Opcode: 66 0F D0
* Add/Subtract packed double precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::ADDSUBPD_VpdWpdR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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if (MXCSR.get_DAZ())
{
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
}
op1.xmm64u(0) = float64_sub(op1.xmm64u(0), op2.xmm64u(0), status_word);
op1.xmm64u(1) = float64_add(op1.xmm64u(1), op2.xmm64u(1), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/*
* Opcode: F2 0F D0
* Add/Substract packed single precision FP numbers from XMM2/MEM to XMM1.
* Possible floating point exceptions: #I, #D, #O, #U, #P
*/
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::ADDSUBPS_VpsWpsR(bxInstruction_c *i)
{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn()), op2 = BX_READ_XMM_REG(i->rm());
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
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op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
}
op1.xmm32u(0) = float32_sub(op1.xmm32u(0), op2.xmm32u(0), status_word);
op1.xmm32u(1) = float32_add(op1.xmm32u(1), op2.xmm32u(1), status_word);
op1.xmm32u(2) = float32_sub(op1.xmm32u(2), op2.xmm32u(2), status_word);
op1.xmm32u(3) = float32_add(op1.xmm32u(3), op2.xmm32u(3), status_word);
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check_exceptionsSSE(status_word.float_exception_flags);
BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
}
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/* 66 0F 3A 08 */
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::ROUNDPS_VpsWpsIbR(bxInstruction_c *i)
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{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
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float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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Bit8u control = i->Ib();
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// override MXCSR rounding mode with control coming from imm8
if ((control & 0x4) == 0)
status_word.float_rounding_mode = control & 0x3;
if (MXCSR.get_DAZ()) {
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op.xmm32u(0) = float32_denormal_to_zero(op.xmm32u(0));
op.xmm32u(1) = float32_denormal_to_zero(op.xmm32u(1));
op.xmm32u(2) = float32_denormal_to_zero(op.xmm32u(2));
op.xmm32u(3) = float32_denormal_to_zero(op.xmm32u(3));
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}
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op.xmm32u(0) = float32_round_to_int(op.xmm32u(0), status_word);
op.xmm32u(1) = float32_round_to_int(op.xmm32u(1), status_word);
op.xmm32u(2) = float32_round_to_int(op.xmm32u(2), status_word);
op.xmm32u(3) = float32_round_to_int(op.xmm32u(3), status_word);
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// ignore precision exception result
if (control & 0x8)
status_word.float_exception_flags &= ~float_flag_inexact;
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op);
#endif
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}
/* 66 0F 3A 09 */
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::ROUNDPD_VpdWpdIbR(bxInstruction_c *i)
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{
#if BX_CPU_LEVEL >= 6
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BxPackedXmmRegister op = BX_READ_XMM_REG(i->rm());
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float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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Bit8u control = i->Ib();
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// override MXCSR rounding mode with control coming from imm8
if ((control & 0x4) == 0)
status_word.float_rounding_mode = control & 0x3;
if (MXCSR.get_DAZ()) {
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op.xmm64u(0) = float64_denormal_to_zero(op.xmm64u(0));
op.xmm64u(1) = float64_denormal_to_zero(op.xmm64u(1));
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}
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op.xmm64u(0) = float64_round_to_int(op.xmm64u(0), status_word);
op.xmm64u(1) = float64_round_to_int(op.xmm64u(1), status_word);
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// ignore precision exception result
if (control & 0x8)
status_word.float_exception_flags &= ~float_flag_inexact;
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op);
#endif
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}
/* 66 0F 3A 0A */
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::ROUNDSS_VssWssIbR(bxInstruction_c *i)
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{
#if BX_CPU_LEVEL >= 6
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float32 op = BX_READ_XMM_REG_LO_DWORD(i->rm());
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float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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Bit8u control = i->Ib();
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// override MXCSR rounding mode with control coming from imm8
if ((control & 0x4) == 0)
status_word.float_rounding_mode = control & 0x3;
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if (MXCSR.get_DAZ()) op = float32_denormal_to_zero(op);
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op = float32_round_to_int(op, status_word);
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// ignore precision exception result
if (control & 0x8)
status_word.float_exception_flags &= ~float_flag_inexact;
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG_LO_DWORD(i->nnn(), op);
#endif
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}
/* 66 0F 3A 0B */
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void BX_CPP_AttrRegparmN(1) BX_CPU_C::ROUNDSD_VsdWsdIbR(bxInstruction_c *i)
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{
#if BX_CPU_LEVEL >= 6
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float64 op = BX_READ_XMM_REG_LO_QWORD(i->rm());
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float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
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Bit8u control = i->Ib();
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// override MXCSR rounding mode with control coming from imm8
if ((control & 0x4) == 0)
status_word.float_rounding_mode = control & 0x3;
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if (MXCSR.get_DAZ()) op = float64_denormal_to_zero(op);
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op = float64_round_to_int(op, status_word);
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// ignore precision exception result
if (control & 0x8)
status_word.float_exception_flags &= ~float_flag_inexact;
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG_LO_QWORD(i->nnn(), op);
#endif
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}
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/* Opcode: 66 0F 3A 40
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* Selectively multiply packed SP floating-point values from xmm1 with
2008-02-03 00:46:54 +03:00
* packed SP floating-point values from xmm2, add and selectively
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* store the packed SP floating-point values or zero values to xmm1
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::DPPS_VpsWpsIbR(bxInstruction_c *i)
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{
#if BX_CPU_LEVEL >= 6
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn());
BxPackedXmmRegister op2 = BX_READ_XMM_REG(i->rm()), tmp;
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Bit8u mask = i->Ib();
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
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op1.xmm32u(0) = float32_denormal_to_zero(op1.xmm32u(0));
op1.xmm32u(1) = float32_denormal_to_zero(op1.xmm32u(1));
op1.xmm32u(2) = float32_denormal_to_zero(op1.xmm32u(2));
op1.xmm32u(3) = float32_denormal_to_zero(op1.xmm32u(3));
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op2.xmm32u(0) = float32_denormal_to_zero(op2.xmm32u(0));
op2.xmm32u(1) = float32_denormal_to_zero(op2.xmm32u(1));
op2.xmm32u(2) = float32_denormal_to_zero(op2.xmm32u(2));
op2.xmm32u(3) = float32_denormal_to_zero(op2.xmm32u(3));
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}
tmp.xmm64u(0) = tmp.xmm64u(1) = 0;
if (mask & 0x10)
tmp.xmm32u(0) = float32_mul(op1.xmm32u(0), op2.xmm32u(0), status_word);
if (mask & 0x20)
tmp.xmm32u(1) = float32_mul(op1.xmm32u(1), op2.xmm32u(1), status_word);
if (mask & 0x40)
tmp.xmm32u(2) = float32_mul(op1.xmm32u(2), op2.xmm32u(2), status_word);
if (mask & 0x80)
tmp.xmm32u(3) = float32_mul(op1.xmm32u(3), op2.xmm32u(3), status_word);
float32 r1 = float32_add(tmp.xmm32u(0), tmp.xmm32u(1), status_word);
float32 r2 = float32_add(tmp.xmm32u(2), tmp.xmm32u(3), status_word);
float32 r = float32_add(r1, r2, status_word);
op1.xmm64u(0) = op1.xmm64u(1) = 0;
if (mask & 0x01) op1.xmm32u(0) = r;
if (mask & 0x02) op1.xmm32u(1) = r;
if (mask & 0x04) op1.xmm32u(2) = r;
if (mask & 0x08) op1.xmm32u(3) = r;
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
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}
/* Opcode: 66 0F 3A 41
* Selectively multiply packed DP floating-point values from xmm1 with
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* packed DP floating-point values from xmm2, add and selectively
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* store the packed DP floating-point values or zero values to xmm1
*/
void BX_CPP_AttrRegparmN(1) BX_CPU_C::DPPD_VpdWpdIbR(bxInstruction_c *i)
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{
#if BX_CPU_LEVEL >= 6
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->nnn());
BxPackedXmmRegister op2 = BX_READ_XMM_REG(i->rm()), tmp;
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Bit8u mask = i->Ib();
float_status_t status_word;
mxcsr_to_softfloat_status_word(status_word, MXCSR);
if (MXCSR.get_DAZ()) {
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op1.xmm64u(0) = float64_denormal_to_zero(op1.xmm64u(0));
op1.xmm64u(1) = float64_denormal_to_zero(op1.xmm64u(1));
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op2.xmm64u(0) = float64_denormal_to_zero(op2.xmm64u(0));
op2.xmm64u(1) = float64_denormal_to_zero(op2.xmm64u(1));
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}
tmp.xmm64u(0) = tmp.xmm64u(1) = 0;
if (mask & 0x10)
tmp.xmm64u(0) = float64_mul(op1.xmm64u(0), op2.xmm64u(0), status_word);
if (mask & 0x20)
tmp.xmm64u(1) = float64_mul(op1.xmm64u(1), op2.xmm64u(1), status_word);
float64 result = float64_add(tmp.xmm64u(0), tmp.xmm64u(1), status_word);
op1.xmm64u(0) = op1.xmm64u(1) = 0;
if (mask & 0x01) op1.xmm64u(0) = result;
if (mask & 0x02) op1.xmm64u(1) = result;
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check_exceptionsSSE(status_word.float_exception_flags);
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BX_WRITE_XMM_REG(i->nnn(), op1);
#endif
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}