Bochs/bochs/cpu/sse_string.cc

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/////////////////////////////////////////////////////////////////////////
// $Id$
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/////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2007-2018 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
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//
/////////////////////////////////////////////////////////////////////////
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#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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// Compare all pairs of Ai, Bj according to imm8 control
static void compare_strings(Bit8u BoolRes[16][16], const BxPackedXmmRegister &op1, const BxPackedXmmRegister &op2, Bit8u imm)
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{
unsigned i, j;
unsigned aggregation_operation = (imm >> 2) & 3;
// All possible comparisons are performed, the individual boolean
// results of those comparisons are referred by
// BoolRes[op2 element index, op1 element index]
switch (imm & 3) {
case 0: /* unsigned bytes compare */
for (i=0;i<16;i++) {
for (j=0;j<16;j++) {
switch (aggregation_operation) {
case 0: /* 'equal' comparison */
case 2:
case 3:
BoolRes[j][i] = (op1.xmmubyte(i) == op2.xmmubyte(j));
break;
case 1: /* 'ranges' comparison */
if ((i % 2) == 0)
BoolRes[j][i] = (op1.xmmubyte(i) <= op2.xmmubyte(j));
else
BoolRes[j][i] = (op1.xmmubyte(i) >= op2.xmmubyte(j));
break;
}
}
}
break;
case 1: /* unsigned words compare */
for (i=0;i<8;i++) {
for (j=0;j<8;j++) {
switch (aggregation_operation) {
case 0: /* 'equal' comparison */
case 2:
case 3:
BoolRes[j][i] = (op1.xmm16u(i) == op2.xmm16u(j));
break;
case 1: /* 'ranges' comparison */
if ((i % 2) == 0)
BoolRes[j][i] = (op1.xmm16u(i) <= op2.xmm16u(j));
else
BoolRes[j][i] = (op1.xmm16u(i) >= op2.xmm16u(j));
break;
}
}
}
break;
case 2: /* signed bytes compare */
for (i=0;i<16;i++) {
for (j=0;j<16;j++) {
switch (aggregation_operation) {
case 0: /* 'equal' comparison */
case 2:
case 3:
BoolRes[j][i] = (op1.xmmsbyte(i) == op2.xmmsbyte(j));
break;
case 1: /* 'ranges' comparison */
if ((i % 2) == 0)
BoolRes[j][i] = (op1.xmmsbyte(i) <= op2.xmmsbyte(j));
else
BoolRes[j][i] = (op1.xmmsbyte(i) >= op2.xmmsbyte(j));
break;
}
}
}
break;
case 3: /* signed words compare */
for (i=0;i<8;i++) {
for (j=0;j<8;j++) {
switch (aggregation_operation) {
case 0: /* 'equal' comparison */
case 2:
case 3:
BoolRes[j][i] = (op1.xmm16s(i) == op2.xmm16s(j));
break;
case 1: /* 'ranges' comparison */
if ((i % 2) == 0)
BoolRes[j][i] = (op1.xmm16s(i) <= op2.xmm16s(j));
else
BoolRes[j][i] = (op1.xmm16s(i) >= op2.xmm16s(j));
break;
}
}
}
break;
}
}
static unsigned find_eos32(Bit32s reg32, Bit8u imm)
{
if (imm & 0x1) { // 8 elements
if (reg32 > 8 || reg32 < -8) return 8;
else return abs(reg32);
}
else { // 16 elements
if (reg32 > 16 || reg32 < -16) return 16;
else return abs(reg32);
}
}
#if BX_SUPPORT_X86_64
static unsigned find_eos64(Bit64s reg64, Bit8u imm)
{
if (imm & 0x1) { // 8 elements
if (reg64 > 8 || reg64 < -8) return 8;
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else return (unsigned) abs(reg64);
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}
else { // 16 elements
if (reg64 > 16 || reg64 < -16) return 16;
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else return (unsigned) abs(reg64);
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}
}
#endif
static unsigned find_eos(const BxPackedXmmRegister &op, Bit8u imm)
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{
unsigned i = 0;
if (imm & 0x1) { // 8 elements
for(i=0;i<8;i++)
if (op.xmm16u(i) == 0) break;
}
else { // 16 elements
for(i=0;i<16;i++)
if (op.xmmubyte(i) == 0) break;
}
return i;
}
static bx_bool override_if_data_invalid(bx_bool val, bx_bool i_valid, bx_bool j_valid, Bit8u imm)
{
unsigned aggregation_operation = (imm >> 2) & 3;
switch(aggregation_operation) {
case 0: // 'equal any'
case 1: // 'ranges'
if (! i_valid || ! j_valid) // one of the elements is invalid
return 0;
break;
case 2: // 'equal each'
if (! i_valid) {
if (! j_valid) return 1; // both elements are invalid
else return 0; // only i is invalid
}
else {
if (! j_valid) return 0; // only j is invalid
}
break;
case 3: // 'equal ordered'
if (! i_valid) { // element i is invalid
return 1;
}
else {
if (! j_valid) { // only j is invalid
return 0;
}
}
break;
}
return val;
}
static Bit16u aggregate(Bit8u BoolRes[16][16], unsigned len1, unsigned len2, Bit8u imm)
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{
unsigned aggregation_operation = (imm >> 2) & 3;
unsigned num_elements = (imm & 0x1) ? 8 : 16;
unsigned polarity = (imm >> 4) & 3;
unsigned i,j,k;
Bit16u result = 0;
switch(aggregation_operation) {
case 0: // 'equal any'
for(j=0; j<num_elements; j++) {
bx_bool res = 0;
for(i=0; i<num_elements; i++) {
if (override_if_data_invalid(BoolRes[j][i], (i < len1), (j < len2), imm)) {
res = 1;
break;
}
}
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if (res) result |= (1<<j);
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}
break;
case 1: // 'ranges'
for(j=0; j<num_elements; j++) {
bx_bool res = 0;
for(i=0; i<num_elements; i+=2) {
if (override_if_data_invalid(BoolRes[j][i], (i < len1), (j < len2), imm) &&
override_if_data_invalid(BoolRes[j][i+1], (i+1 < len1), (j < len2), imm)) {
res = 1;
break;
}
}
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if (res) result |= (1<<j);
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}
break;
case 2: // 'equal each'
for(j=0; j<num_elements; j++) {
if (override_if_data_invalid(BoolRes[j][j], (j < len1), (j < len2), imm))
result |= (1<<j);
}
break;
case 3: // 'equal ordered'
for(j=0; j<num_elements; j++) {
bx_bool res = 1;
for (i=0, k=j; (i < num_elements-j) && (k < num_elements); i++, k++) {
if (! override_if_data_invalid(BoolRes[k][i], (i < len1), (k < len2), imm)) {
res = 0;
break;
}
}
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if (res) result |= (1<<j);
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}
break;
}
switch(polarity) {
case 0:
case 2:
break; // do nothing
case 1:
result ^= (num_elements == 8) ? 0xFF : 0xFFFF;
break;
case 3:
for (j=0;j<num_elements;j++)
if (j < len2) result ^= (1<<j); // flip the bit
break;
}
return result;
}
/* 66 0F 3A 60 */
void BX_CPP_AttrRegparmN(1) BX_CPU_C::PCMPESTRM_VdqWdqIbR(bxInstruction_c *i)
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{
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->dst());
BxPackedXmmRegister op2 = BX_READ_XMM_REG(i->src()), result;
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Bit8u imm8 = i->Ib();
// compare all pairs of Ai, Bj
Bit8u BoolRes[16][16];
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compare_strings(BoolRes, op1, op2, imm8);
unsigned len1, len2, num_elements = (imm8 & 0x1) ? 8 : 16;
#if BX_SUPPORT_X86_64
if (i->os64L()) {
len1 = find_eos64(RAX, imm8);
len2 = find_eos64(RDX, imm8);
}
else
#endif
{
len1 = find_eos32(EAX, imm8);
len2 = find_eos32(EDX, imm8);
}
Bit16u result2 = aggregate(BoolRes, len1, len2, imm8);
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// As defined by imm8[6], result2 is then either stored to the least
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// significant bits of XMM0 (zero extended to 128 bits) or expanded
// into a byte/word-mask and then stored to XMM0
if (imm8 & 0x40) {
if (num_elements == 8) {
for (int index = 0; index < 8; index++)
result.xmm16u(index) = (result2 & (1<<index)) ? 0xffff : 0;
}
else { // num_elements = 16
for (int index = 0; index < 16; index++)
result.xmmubyte(index) = (result2 & (1<<index)) ? 0xff : 0;
}
}
else {
result.xmm64u(1) = 0;
result.xmm64u(0) = (Bit64u) result2;
}
Bit32u flags = 0;
if (result2 != 0) flags |= EFlagsCFMask;
if (len1 < num_elements) flags |= EFlagsSFMask;
if (len2 < num_elements) flags |= EFlagsZFMask;
if (result2 & 0x1)
flags |= EFlagsOFMask;
setEFlagsOSZAPC(flags);
BX_WRITE_XMM_REGZ(0, result, i->getVL()); /* store result XMM0 */
BX_NEXT_INSTR(i);
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}
/* 66 0F 3A 61 */
void BX_CPP_AttrRegparmN(1) BX_CPU_C::PCMPESTRI_VdqWdqIbR(bxInstruction_c *i)
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{
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->dst()), op2 = BX_READ_XMM_REG(i->src());
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Bit8u imm8 = i->Ib();
// compare all pairs of Ai, Bj
Bit8u BoolRes[16][16];
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compare_strings(BoolRes, op1, op2, imm8);
unsigned len1, len2, num_elements = (imm8 & 0x1) ? 8 : 16;
int index;
#if BX_SUPPORT_X86_64
if (i->os64L()) {
len1 = find_eos64(RAX, imm8);
len2 = find_eos64(RDX, imm8);
}
else
#endif
{
len1 = find_eos32(EAX, imm8);
len2 = find_eos32(EDX, imm8);
}
Bit16u result2 = aggregate(BoolRes, len1, len2, imm8);
// The index of the first (or last, according to imm8[6]) set bit of result2
// is returned to ECX. If no bits are set in IntRes2, ECX is set to 16 (8)
if (imm8 & 0x40) {
// The index returned to ECX is of the MSB in result2
for (index=num_elements-1; index>=0; index--)
if (result2 & (1<<index)) break;
if (index < 0) index = num_elements;
}
else {
// The index returned to ECX is of the LSB in result2
for (index=0; index<(int)num_elements; index++)
if (result2 & (1<<index)) break;
}
RCX = index;
Bit32u flags = 0;
if (result2 != 0) flags |= EFlagsCFMask;
if (len1 < num_elements) flags |= EFlagsSFMask;
if (len2 < num_elements) flags |= EFlagsZFMask;
if (result2 & 0x1)
flags |= EFlagsOFMask;
setEFlagsOSZAPC(flags);
BX_NEXT_INSTR(i);
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}
/* 66 0F 3A 62 */
void BX_CPP_AttrRegparmN(1) BX_CPU_C::PCMPISTRM_VdqWdqIbR(bxInstruction_c *i)
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{
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->dst());
BxPackedXmmRegister op2 = BX_READ_XMM_REG(i->src()), result;
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Bit8u imm8 = i->Ib();
// compare all pairs of Ai, Bj
Bit8u BoolRes[16][16];
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compare_strings(BoolRes, op1, op2, imm8);
unsigned num_elements = (imm8 & 0x1) ? 8 : 16;
unsigned len1 = find_eos(op1, imm8);
unsigned len2 = find_eos(op2, imm8);
Bit16u result2 = aggregate(BoolRes, len1, len2, imm8);
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// As defined by imm8[6], result2 is then either stored to the least
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// significant bits of XMM0 (zero extended to 128 bits) or expanded
// into a byte/word-mask and then stored to XMM0
if (imm8 & 0x40) {
if (num_elements == 8) {
for (int index = 0; index < 8; index++)
result.xmm16u(index) = (result2 & (1<<index)) ? 0xffff : 0;
}
else { // num_elements = 16
for (int index = 0; index < 16; index++)
result.xmmubyte(index) = (result2 & (1<<index)) ? 0xff : 0;
}
}
else {
result.xmm64u(1) = 0;
result.xmm64u(0) = (Bit64u) result2;
}
Bit32u flags = 0;
if (result2 != 0) flags |= EFlagsCFMask;
if (len1 < num_elements) flags |= EFlagsSFMask;
if (len2 < num_elements) flags |= EFlagsZFMask;
if (result2 & 0x1)
flags |= EFlagsOFMask;
setEFlagsOSZAPC(flags);
BX_WRITE_XMM_REGZ(0, result, i->getVL()); /* store result XMM0 */
BX_NEXT_INSTR(i);
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}
/* 66 0F 3A 63 */
void BX_CPP_AttrRegparmN(1) BX_CPU_C::PCMPISTRI_VdqWdqIbR(bxInstruction_c *i)
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{
BxPackedXmmRegister op1 = BX_READ_XMM_REG(i->dst()), op2 = BX_READ_XMM_REG(i->src());
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Bit8u imm8 = i->Ib();
// compare all pairs of Ai, Bj
Bit8u BoolRes[16][16];
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compare_strings(BoolRes, op1, op2, imm8);
unsigned num_elements = (imm8 & 0x1) ? 8 : 16;
int index;
unsigned len1 = find_eos(op1, imm8);
unsigned len2 = find_eos(op2, imm8);
Bit16u result2 = aggregate(BoolRes, len1, len2, imm8);
// The index of the first (or last, according to imm8[6]) set bit of result2
// is returned to ECX. If no bits are set in IntRes2, ECX is set to 16 (8)
if (imm8 & 0x40) {
// The index returned to ECX is of the MSB in result2
for (index=num_elements-1; index>=0; index--)
if (result2 & (1<<index)) break;
if (index < 0) index = num_elements;
}
else {
// The index returned to ECX is of the LSB in result2
for (index=0; index<(int)num_elements; index++)
if (result2 & (1<<index)) break;
}
RCX = index;
Bit32u flags = 0;
if (result2 != 0) flags |= EFlagsCFMask;
if (len1 < num_elements) flags |= EFlagsSFMask;
if (len2 < num_elements) flags |= EFlagsZFMask;
if (result2 & 0x1)
flags |= EFlagsOFMask;
setEFlagsOSZAPC(flags);
BX_NEXT_INSTR(i);
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}
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#endif // BX_CPU_LEVEL >= 6