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Unified Diff: src/arm64/simulator-logic-arm64.cc

Issue 2785183005: Revert "ARM64: Add NEON support" (Closed)
Patch Set: Created 3 years, 9 months ago
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Index: src/arm64/simulator-logic-arm64.cc
diff --git a/src/arm64/simulator-logic-arm64.cc b/src/arm64/simulator-logic-arm64.cc
deleted file mode 100644
index 75cb19d5e510e11d8648e1701680527e042105c4..0000000000000000000000000000000000000000
--- a/src/arm64/simulator-logic-arm64.cc
+++ /dev/null
@@ -1,4198 +0,0 @@
-// Copyright 2016 the V8 project authors. All rights reserved.
-// Use of this source code is governed by a BSD-style license that can be
-// found in the LICENSE file.
-
-#if V8_TARGET_ARCH_ARM64
-
-#include <cmath>
-#include "src/arm64/simulator-arm64.h"
-
-namespace v8 {
-namespace internal {
-
-#if defined(USE_SIMULATOR)
-
-namespace {
-
-// See FPRound for a description of this function.
-inline double FPRoundToDouble(int64_t sign, int64_t exponent, uint64_t mantissa,
- FPRounding round_mode) {
- uint64_t bits = FPRound<uint64_t, kDoubleExponentBits, kDoubleMantissaBits>(
- sign, exponent, mantissa, round_mode);
- return bit_cast<double>(bits);
-}
-
-// See FPRound for a description of this function.
-inline float FPRoundToFloat(int64_t sign, int64_t exponent, uint64_t mantissa,
- FPRounding round_mode) {
- uint32_t bits = FPRound<uint32_t, kFloatExponentBits, kFloatMantissaBits>(
- sign, exponent, mantissa, round_mode);
- return bit_cast<float>(bits);
-}
-
-// See FPRound for a description of this function.
-inline float16 FPRoundToFloat16(int64_t sign, int64_t exponent,
- uint64_t mantissa, FPRounding round_mode) {
- return FPRound<float16, kFloat16ExponentBits, kFloat16MantissaBits>(
- sign, exponent, mantissa, round_mode);
-}
-
-} // namespace
-
-double Simulator::FixedToDouble(int64_t src, int fbits, FPRounding round) {
- if (src >= 0) {
- return UFixedToDouble(src, fbits, round);
- } else if (src == INT64_MIN) {
- return -UFixedToDouble(src, fbits, round);
- } else {
- return -UFixedToDouble(-src, fbits, round);
- }
-}
-
-double Simulator::UFixedToDouble(uint64_t src, int fbits, FPRounding round) {
- // An input of 0 is a special case because the result is effectively
- // subnormal: The exponent is encoded as 0 and there is no implicit 1 bit.
- if (src == 0) {
- return 0.0;
- }
-
- // Calculate the exponent. The highest significant bit will have the value
- // 2^exponent.
- const int highest_significant_bit = 63 - CountLeadingZeros(src, 64);
- const int64_t exponent = highest_significant_bit - fbits;
-
- return FPRoundToDouble(0, exponent, src, round);
-}
-
-float Simulator::FixedToFloat(int64_t src, int fbits, FPRounding round) {
- if (src >= 0) {
- return UFixedToFloat(src, fbits, round);
- } else if (src == INT64_MIN) {
- return -UFixedToFloat(src, fbits, round);
- } else {
- return -UFixedToFloat(-src, fbits, round);
- }
-}
-
-float Simulator::UFixedToFloat(uint64_t src, int fbits, FPRounding round) {
- // An input of 0 is a special case because the result is effectively
- // subnormal: The exponent is encoded as 0 and there is no implicit 1 bit.
- if (src == 0) {
- return 0.0f;
- }
-
- // Calculate the exponent. The highest significant bit will have the value
- // 2^exponent.
- const int highest_significant_bit = 63 - CountLeadingZeros(src, 64);
- const int32_t exponent = highest_significant_bit - fbits;
-
- return FPRoundToFloat(0, exponent, src, round);
-}
-
-double Simulator::FPToDouble(float value) {
- switch (std::fpclassify(value)) {
- case FP_NAN: {
- if (IsSignallingNaN(value)) {
- FPProcessException();
- }
- if (DN()) return kFP64DefaultNaN;
-
- // Convert NaNs as the processor would:
- // - The sign is propagated.
- // - The mantissa is transferred entirely, except that the top bit is
- // forced to '1', making the result a quiet NaN. The unused (low-order)
- // mantissa bits are set to 0.
- uint32_t raw = bit_cast<uint32_t>(value);
-
- uint64_t sign = raw >> 31;
- uint64_t exponent = (1 << kDoubleExponentBits) - 1;
- uint64_t mantissa = unsigned_bitextract_64(21, 0, raw);
-
- // Unused low-order bits remain zero.
- mantissa <<= (kDoubleMantissaBits - kFloatMantissaBits);
-
- // Force a quiet NaN.
- mantissa |= (UINT64_C(1) << (kDoubleMantissaBits - 1));
-
- return double_pack(sign, exponent, mantissa);
- }
-
- case FP_ZERO:
- case FP_NORMAL:
- case FP_SUBNORMAL:
- case FP_INFINITE: {
- // All other inputs are preserved in a standard cast, because every value
- // representable using an IEEE-754 float is also representable using an
- // IEEE-754 double.
- return static_cast<double>(value);
- }
- }
-
- UNREACHABLE();
- return kFP64DefaultNaN;
-}
-
-float Simulator::FPToFloat(float16 value) {
- uint32_t sign = value >> 15;
- uint32_t exponent =
- unsigned_bitextract_32(kFloat16MantissaBits + kFloat16ExponentBits - 1,
- kFloat16MantissaBits, value);
- uint32_t mantissa =
- unsigned_bitextract_32(kFloat16MantissaBits - 1, 0, value);
-
- switch (float16classify(value)) {
- case FP_ZERO:
- return (sign == 0) ? 0.0f : -0.0f;
-
- case FP_INFINITE:
- return (sign == 0) ? kFP32PositiveInfinity : kFP32NegativeInfinity;
-
- case FP_SUBNORMAL: {
- // Calculate shift required to put mantissa into the most-significant bits
- // of the destination mantissa.
- int shift = CountLeadingZeros(mantissa << (32 - 10), 32);
-
- // Shift mantissa and discard implicit '1'.
- mantissa <<= (kFloatMantissaBits - kFloat16MantissaBits) + shift + 1;
- mantissa &= (1 << kFloatMantissaBits) - 1;
-
- // Adjust the exponent for the shift applied, and rebias.
- exponent = exponent - shift + (kFloatExponentBias - kFloat16ExponentBias);
- break;
- }
-
- case FP_NAN: {
- if (IsSignallingNaN(value)) {
- FPProcessException();
- }
- if (DN()) return kFP32DefaultNaN;
-
- // Convert NaNs as the processor would:
- // - The sign is propagated.
- // - The mantissa is transferred entirely, except that the top bit is
- // forced to '1', making the result a quiet NaN. The unused (low-order)
- // mantissa bits are set to 0.
- exponent = (1 << kFloatExponentBits) - 1;
-
- // Increase bits in mantissa, making low-order bits 0.
- mantissa <<= (kFloatMantissaBits - kFloat16MantissaBits);
- mantissa |= 1 << (kFloatMantissaBits - 1); // Force a quiet NaN.
- break;
- }
-
- case FP_NORMAL: {
- // Increase bits in mantissa, making low-order bits 0.
- mantissa <<= (kFloatMantissaBits - kFloat16MantissaBits);
-
- // Change exponent bias.
- exponent += (kFloatExponentBias - kFloat16ExponentBias);
- break;
- }
-
- default:
- UNREACHABLE();
- return kFP32DefaultNaN;
- }
- return float_pack(sign, exponent, mantissa);
-}
-
-float16 Simulator::FPToFloat16(float value, FPRounding round_mode) {
- // Only the FPTieEven rounding mode is implemented.
- DCHECK_EQ(round_mode, FPTieEven);
- USE(round_mode);
-
- int64_t sign = float_sign(value);
- int64_t exponent =
- static_cast<int64_t>(float_exp(value)) - kFloatExponentBias;
- uint32_t mantissa = float_mantissa(value);
-
- switch (std::fpclassify(value)) {
- case FP_NAN: {
- if (IsSignallingNaN(value)) {
- FPProcessException();
- }
- if (DN()) return kFP16DefaultNaN;
-
- // Convert NaNs as the processor would:
- // - The sign is propagated.
- // - The mantissa is transferred as much as possible, except that the top
- // bit is forced to '1', making the result a quiet NaN.
- float16 result =
- (sign == 0) ? kFP16PositiveInfinity : kFP16NegativeInfinity;
- result |= mantissa >> (kFloatMantissaBits - kFloat16MantissaBits);
- result |= (1 << (kFloat16MantissaBits - 1)); // Force a quiet NaN;
- return result;
- }
-
- case FP_ZERO:
- return (sign == 0) ? 0 : 0x8000;
-
- case FP_INFINITE:
- return (sign == 0) ? kFP16PositiveInfinity : kFP16NegativeInfinity;
-
- case FP_NORMAL:
- case FP_SUBNORMAL: {
- // Convert float-to-half as the processor would, assuming that FPCR.FZ
- // (flush-to-zero) is not set.
-
- // Add the implicit '1' bit to the mantissa.
- mantissa += (1 << kFloatMantissaBits);
- return FPRoundToFloat16(sign, exponent, mantissa, round_mode);
- }
- }
-
- UNREACHABLE();
- return kFP16DefaultNaN;
-}
-
-float16 Simulator::FPToFloat16(double value, FPRounding round_mode) {
- // Only the FPTieEven rounding mode is implemented.
- DCHECK_EQ(round_mode, FPTieEven);
- USE(round_mode);
-
- int64_t sign = double_sign(value);
- int64_t exponent =
- static_cast<int64_t>(double_exp(value)) - kDoubleExponentBias;
- uint64_t mantissa = double_mantissa(value);
-
- switch (std::fpclassify(value)) {
- case FP_NAN: {
- if (IsSignallingNaN(value)) {
- FPProcessException();
- }
- if (DN()) return kFP16DefaultNaN;
-
- // Convert NaNs as the processor would:
- // - The sign is propagated.
- // - The mantissa is transferred as much as possible, except that the top
- // bit is forced to '1', making the result a quiet NaN.
- float16 result =
- (sign == 0) ? kFP16PositiveInfinity : kFP16NegativeInfinity;
- result |= mantissa >> (kDoubleMantissaBits - kFloat16MantissaBits);
- result |= (1 << (kFloat16MantissaBits - 1)); // Force a quiet NaN;
- return result;
- }
-
- case FP_ZERO:
- return (sign == 0) ? 0 : 0x8000;
-
- case FP_INFINITE:
- return (sign == 0) ? kFP16PositiveInfinity : kFP16NegativeInfinity;
-
- case FP_NORMAL:
- case FP_SUBNORMAL: {
- // Convert double-to-half as the processor would, assuming that FPCR.FZ
- // (flush-to-zero) is not set.
-
- // Add the implicit '1' bit to the mantissa.
- mantissa += (UINT64_C(1) << kDoubleMantissaBits);
- return FPRoundToFloat16(sign, exponent, mantissa, round_mode);
- }
- }
-
- UNREACHABLE();
- return kFP16DefaultNaN;
-}
-
-float Simulator::FPToFloat(double value, FPRounding round_mode) {
- // Only the FPTieEven rounding mode is implemented.
- DCHECK((round_mode == FPTieEven) || (round_mode == FPRoundOdd));
- USE(round_mode);
-
- switch (std::fpclassify(value)) {
- case FP_NAN: {
- if (IsSignallingNaN(value)) {
- FPProcessException();
- }
- if (DN()) return kFP32DefaultNaN;
-
- // Convert NaNs as the processor would:
- // - The sign is propagated.
- // - The mantissa is transferred as much as possible, except that the
- // top bit is forced to '1', making the result a quiet NaN.
-
- uint64_t raw = bit_cast<uint64_t>(value);
-
- uint32_t sign = raw >> 63;
- uint32_t exponent = (1 << 8) - 1;
- uint32_t mantissa = static_cast<uint32_t>(unsigned_bitextract_64(
- 50, kDoubleMantissaBits - kFloatMantissaBits, raw));
- mantissa |= (1 << (kFloatMantissaBits - 1)); // Force a quiet NaN.
-
- return float_pack(sign, exponent, mantissa);
- }
-
- case FP_ZERO:
- case FP_INFINITE: {
- // In a C++ cast, any value representable in the target type will be
- // unchanged. This is always the case for +/-0.0 and infinities.
- return static_cast<float>(value);
- }
-
- case FP_NORMAL:
- case FP_SUBNORMAL: {
- // Convert double-to-float as the processor would, assuming that FPCR.FZ
- // (flush-to-zero) is not set.
- uint32_t sign = double_sign(value);
- int64_t exponent =
- static_cast<int64_t>(double_exp(value)) - kDoubleExponentBias;
- uint64_t mantissa = double_mantissa(value);
- if (std::fpclassify(value) == FP_NORMAL) {
- // For normal FP values, add the hidden bit.
- mantissa |= (UINT64_C(1) << kDoubleMantissaBits);
- }
- return FPRoundToFloat(sign, exponent, mantissa, round_mode);
- }
- }
-
- UNREACHABLE();
- return kFP32DefaultNaN;
-}
-
-void Simulator::ld1(VectorFormat vform, LogicVRegister dst, uint64_t addr) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.ReadUintFromMem(vform, i, addr);
- addr += LaneSizeInBytesFromFormat(vform);
- }
-}
-
-void Simulator::ld1(VectorFormat vform, LogicVRegister dst, int index,
- uint64_t addr) {
- dst.ReadUintFromMem(vform, index, addr);
-}
-
-void Simulator::ld1r(VectorFormat vform, LogicVRegister dst, uint64_t addr) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.ReadUintFromMem(vform, i, addr);
- }
-}
-
-void Simulator::ld2(VectorFormat vform, LogicVRegister dst1,
- LogicVRegister dst2, uint64_t addr1) {
- dst1.ClearForWrite(vform);
- dst2.ClearForWrite(vform);
- int esize = LaneSizeInBytesFromFormat(vform);
- uint64_t addr2 = addr1 + esize;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst1.ReadUintFromMem(vform, i, addr1);
- dst2.ReadUintFromMem(vform, i, addr2);
- addr1 += 2 * esize;
- addr2 += 2 * esize;
- }
-}
-
-void Simulator::ld2(VectorFormat vform, LogicVRegister dst1,
- LogicVRegister dst2, int index, uint64_t addr1) {
- dst1.ClearForWrite(vform);
- dst2.ClearForWrite(vform);
- uint64_t addr2 = addr1 + LaneSizeInBytesFromFormat(vform);
- dst1.ReadUintFromMem(vform, index, addr1);
- dst2.ReadUintFromMem(vform, index, addr2);
-}
-
-void Simulator::ld2r(VectorFormat vform, LogicVRegister dst1,
- LogicVRegister dst2, uint64_t addr) {
- dst1.ClearForWrite(vform);
- dst2.ClearForWrite(vform);
- uint64_t addr2 = addr + LaneSizeInBytesFromFormat(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst1.ReadUintFromMem(vform, i, addr);
- dst2.ReadUintFromMem(vform, i, addr2);
- }
-}
-
-void Simulator::ld3(VectorFormat vform, LogicVRegister dst1,
- LogicVRegister dst2, LogicVRegister dst3, uint64_t addr1) {
- dst1.ClearForWrite(vform);
- dst2.ClearForWrite(vform);
- dst3.ClearForWrite(vform);
- int esize = LaneSizeInBytesFromFormat(vform);
- uint64_t addr2 = addr1 + esize;
- uint64_t addr3 = addr2 + esize;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst1.ReadUintFromMem(vform, i, addr1);
- dst2.ReadUintFromMem(vform, i, addr2);
- dst3.ReadUintFromMem(vform, i, addr3);
- addr1 += 3 * esize;
- addr2 += 3 * esize;
- addr3 += 3 * esize;
- }
-}
-
-void Simulator::ld3(VectorFormat vform, LogicVRegister dst1,
- LogicVRegister dst2, LogicVRegister dst3, int index,
- uint64_t addr1) {
- dst1.ClearForWrite(vform);
- dst2.ClearForWrite(vform);
- dst3.ClearForWrite(vform);
- uint64_t addr2 = addr1 + LaneSizeInBytesFromFormat(vform);
- uint64_t addr3 = addr2 + LaneSizeInBytesFromFormat(vform);
- dst1.ReadUintFromMem(vform, index, addr1);
- dst2.ReadUintFromMem(vform, index, addr2);
- dst3.ReadUintFromMem(vform, index, addr3);
-}
-
-void Simulator::ld3r(VectorFormat vform, LogicVRegister dst1,
- LogicVRegister dst2, LogicVRegister dst3, uint64_t addr) {
- dst1.ClearForWrite(vform);
- dst2.ClearForWrite(vform);
- dst3.ClearForWrite(vform);
- uint64_t addr2 = addr + LaneSizeInBytesFromFormat(vform);
- uint64_t addr3 = addr2 + LaneSizeInBytesFromFormat(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst1.ReadUintFromMem(vform, i, addr);
- dst2.ReadUintFromMem(vform, i, addr2);
- dst3.ReadUintFromMem(vform, i, addr3);
- }
-}
-
-void Simulator::ld4(VectorFormat vform, LogicVRegister dst1,
- LogicVRegister dst2, LogicVRegister dst3,
- LogicVRegister dst4, uint64_t addr1) {
- dst1.ClearForWrite(vform);
- dst2.ClearForWrite(vform);
- dst3.ClearForWrite(vform);
- dst4.ClearForWrite(vform);
- int esize = LaneSizeInBytesFromFormat(vform);
- uint64_t addr2 = addr1 + esize;
- uint64_t addr3 = addr2 + esize;
- uint64_t addr4 = addr3 + esize;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst1.ReadUintFromMem(vform, i, addr1);
- dst2.ReadUintFromMem(vform, i, addr2);
- dst3.ReadUintFromMem(vform, i, addr3);
- dst4.ReadUintFromMem(vform, i, addr4);
- addr1 += 4 * esize;
- addr2 += 4 * esize;
- addr3 += 4 * esize;
- addr4 += 4 * esize;
- }
-}
-
-void Simulator::ld4(VectorFormat vform, LogicVRegister dst1,
- LogicVRegister dst2, LogicVRegister dst3,
- LogicVRegister dst4, int index, uint64_t addr1) {
- dst1.ClearForWrite(vform);
- dst2.ClearForWrite(vform);
- dst3.ClearForWrite(vform);
- dst4.ClearForWrite(vform);
- uint64_t addr2 = addr1 + LaneSizeInBytesFromFormat(vform);
- uint64_t addr3 = addr2 + LaneSizeInBytesFromFormat(vform);
- uint64_t addr4 = addr3 + LaneSizeInBytesFromFormat(vform);
- dst1.ReadUintFromMem(vform, index, addr1);
- dst2.ReadUintFromMem(vform, index, addr2);
- dst3.ReadUintFromMem(vform, index, addr3);
- dst4.ReadUintFromMem(vform, index, addr4);
-}
-
-void Simulator::ld4r(VectorFormat vform, LogicVRegister dst1,
- LogicVRegister dst2, LogicVRegister dst3,
- LogicVRegister dst4, uint64_t addr) {
- dst1.ClearForWrite(vform);
- dst2.ClearForWrite(vform);
- dst3.ClearForWrite(vform);
- dst4.ClearForWrite(vform);
- uint64_t addr2 = addr + LaneSizeInBytesFromFormat(vform);
- uint64_t addr3 = addr2 + LaneSizeInBytesFromFormat(vform);
- uint64_t addr4 = addr3 + LaneSizeInBytesFromFormat(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst1.ReadUintFromMem(vform, i, addr);
- dst2.ReadUintFromMem(vform, i, addr2);
- dst3.ReadUintFromMem(vform, i, addr3);
- dst4.ReadUintFromMem(vform, i, addr4);
- }
-}
-
-void Simulator::st1(VectorFormat vform, LogicVRegister src, uint64_t addr) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- src.WriteUintToMem(vform, i, addr);
- addr += LaneSizeInBytesFromFormat(vform);
- }
-}
-
-void Simulator::st1(VectorFormat vform, LogicVRegister src, int index,
- uint64_t addr) {
- src.WriteUintToMem(vform, index, addr);
-}
-
-void Simulator::st2(VectorFormat vform, LogicVRegister dst, LogicVRegister dst2,
- uint64_t addr) {
- int esize = LaneSizeInBytesFromFormat(vform);
- uint64_t addr2 = addr + esize;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.WriteUintToMem(vform, i, addr);
- dst2.WriteUintToMem(vform, i, addr2);
- addr += 2 * esize;
- addr2 += 2 * esize;
- }
-}
-
-void Simulator::st2(VectorFormat vform, LogicVRegister dst, LogicVRegister dst2,
- int index, uint64_t addr) {
- int esize = LaneSizeInBytesFromFormat(vform);
- dst.WriteUintToMem(vform, index, addr);
- dst2.WriteUintToMem(vform, index, addr + 1 * esize);
-}
-
-void Simulator::st3(VectorFormat vform, LogicVRegister dst, LogicVRegister dst2,
- LogicVRegister dst3, uint64_t addr) {
- int esize = LaneSizeInBytesFromFormat(vform);
- uint64_t addr2 = addr + esize;
- uint64_t addr3 = addr2 + esize;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.WriteUintToMem(vform, i, addr);
- dst2.WriteUintToMem(vform, i, addr2);
- dst3.WriteUintToMem(vform, i, addr3);
- addr += 3 * esize;
- addr2 += 3 * esize;
- addr3 += 3 * esize;
- }
-}
-
-void Simulator::st3(VectorFormat vform, LogicVRegister dst, LogicVRegister dst2,
- LogicVRegister dst3, int index, uint64_t addr) {
- int esize = LaneSizeInBytesFromFormat(vform);
- dst.WriteUintToMem(vform, index, addr);
- dst2.WriteUintToMem(vform, index, addr + 1 * esize);
- dst3.WriteUintToMem(vform, index, addr + 2 * esize);
-}
-
-void Simulator::st4(VectorFormat vform, LogicVRegister dst, LogicVRegister dst2,
- LogicVRegister dst3, LogicVRegister dst4, uint64_t addr) {
- int esize = LaneSizeInBytesFromFormat(vform);
- uint64_t addr2 = addr + esize;
- uint64_t addr3 = addr2 + esize;
- uint64_t addr4 = addr3 + esize;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.WriteUintToMem(vform, i, addr);
- dst2.WriteUintToMem(vform, i, addr2);
- dst3.WriteUintToMem(vform, i, addr3);
- dst4.WriteUintToMem(vform, i, addr4);
- addr += 4 * esize;
- addr2 += 4 * esize;
- addr3 += 4 * esize;
- addr4 += 4 * esize;
- }
-}
-
-void Simulator::st4(VectorFormat vform, LogicVRegister dst, LogicVRegister dst2,
- LogicVRegister dst3, LogicVRegister dst4, int index,
- uint64_t addr) {
- int esize = LaneSizeInBytesFromFormat(vform);
- dst.WriteUintToMem(vform, index, addr);
- dst2.WriteUintToMem(vform, index, addr + 1 * esize);
- dst3.WriteUintToMem(vform, index, addr + 2 * esize);
- dst4.WriteUintToMem(vform, index, addr + 3 * esize);
-}
-
-LogicVRegister Simulator::cmp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, Condition cond) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- int64_t sa = src1.Int(vform, i);
- int64_t sb = src2.Int(vform, i);
- uint64_t ua = src1.Uint(vform, i);
- uint64_t ub = src2.Uint(vform, i);
- bool result = false;
- switch (cond) {
- case eq:
- result = (ua == ub);
- break;
- case ge:
- result = (sa >= sb);
- break;
- case gt:
- result = (sa > sb);
- break;
- case hi:
- result = (ua > ub);
- break;
- case hs:
- result = (ua >= ub);
- break;
- case lt:
- result = (sa < sb);
- break;
- case le:
- result = (sa <= sb);
- break;
- default:
- UNREACHABLE();
- break;
- }
- dst.SetUint(vform, i, result ? MaxUintFromFormat(vform) : 0);
- }
- return dst;
-}
-
-LogicVRegister Simulator::cmp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1, int imm,
- Condition cond) {
- SimVRegister temp;
- LogicVRegister imm_reg = dup_immediate(vform, temp, imm);
- return cmp(vform, dst, src1, imm_reg, cond);
-}
-
-LogicVRegister Simulator::cmptst(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- uint64_t ua = src1.Uint(vform, i);
- uint64_t ub = src2.Uint(vform, i);
- dst.SetUint(vform, i, ((ua & ub) != 0) ? MaxUintFromFormat(vform) : 0);
- }
- return dst;
-}
-
-LogicVRegister Simulator::add(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- int lane_size = LaneSizeInBitsFromFormat(vform);
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- // Test for unsigned saturation.
- uint64_t ua = src1.UintLeftJustified(vform, i);
- uint64_t ub = src2.UintLeftJustified(vform, i);
- uint64_t ur = ua + ub;
- if (ur < ua) {
- dst.SetUnsignedSat(i, true);
- }
-
- // Test for signed saturation.
- bool pos_a = (ua >> 63) == 0;
- bool pos_b = (ub >> 63) == 0;
- bool pos_r = (ur >> 63) == 0;
- // If the signs of the operands are the same, but different from the result,
- // there was an overflow.
- if ((pos_a == pos_b) && (pos_a != pos_r)) {
- dst.SetSignedSat(i, pos_a);
- }
-
- dst.SetInt(vform, i, ur >> (64 - lane_size));
- }
- return dst;
-}
-
-LogicVRegister Simulator::addp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uzp1(vform, temp1, src1, src2);
- uzp2(vform, temp2, src1, src2);
- add(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::mla(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- mul(vform, temp, src1, src2);
- add(vform, dst, dst, temp);
- return dst;
-}
-
-LogicVRegister Simulator::mls(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- mul(vform, temp, src1, src2);
- sub(vform, dst, dst, temp);
- return dst;
-}
-
-LogicVRegister Simulator::mul(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(vform, i, src1.Uint(vform, i) * src2.Uint(vform, i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::mul(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform = VectorFormatFillQ(vform);
- return mul(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::mla(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform = VectorFormatFillQ(vform);
- return mla(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::mls(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform = VectorFormatFillQ(vform);
- return mls(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::smull(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return smull(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::smull2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return smull2(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::umull(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return umull(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::umull2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return umull2(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::smlal(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return smlal(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::smlal2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return smlal2(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::umlal(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return umlal(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::umlal2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return umlal2(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::smlsl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return smlsl(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::smlsl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return smlsl2(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::umlsl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return umlsl(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::umlsl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return umlsl2(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::sqdmull(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return sqdmull(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::sqdmull2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return sqdmull2(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::sqdmlal(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return sqdmlal(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::sqdmlal2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return sqdmlal2(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::sqdmlsl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return sqdmlsl(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::sqdmlsl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform =
- VectorFormatHalfWidthDoubleLanes(VectorFormatFillQ(vform));
- return sqdmlsl2(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::sqdmulh(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform = VectorFormatFillQ(vform);
- return sqdmulh(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-LogicVRegister Simulator::sqrdmulh(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- SimVRegister temp;
- VectorFormat indexform = VectorFormatFillQ(vform);
- return sqrdmulh(vform, dst, src1, dup_element(indexform, temp, src2, index));
-}
-
-uint16_t Simulator::PolynomialMult(uint8_t op1, uint8_t op2) {
- uint16_t result = 0;
- uint16_t extended_op2 = op2;
- for (int i = 0; i < 8; ++i) {
- if ((op1 >> i) & 1) {
- result = result ^ (extended_op2 << i);
- }
- }
- return result;
-}
-
-LogicVRegister Simulator::pmul(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(vform, i,
- PolynomialMult(src1.Uint(vform, i), src2.Uint(vform, i)));
- }
- return dst;
-}
-
-LogicVRegister Simulator::pmull(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- VectorFormat vform_src = VectorFormatHalfWidth(vform);
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(
- vform, i,
- PolynomialMult(src1.Uint(vform_src, i), src2.Uint(vform_src, i)));
- }
- return dst;
-}
-
-LogicVRegister Simulator::pmull2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- VectorFormat vform_src = VectorFormatHalfWidthDoubleLanes(vform);
- dst.ClearForWrite(vform);
- int lane_count = LaneCountFromFormat(vform);
- for (int i = 0; i < lane_count; i++) {
- dst.SetUint(vform, i,
- PolynomialMult(src1.Uint(vform_src, lane_count + i),
- src2.Uint(vform_src, lane_count + i)));
- }
- return dst;
-}
-
-LogicVRegister Simulator::sub(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- int lane_size = LaneSizeInBitsFromFormat(vform);
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- // Test for unsigned saturation.
- uint64_t ua = src1.UintLeftJustified(vform, i);
- uint64_t ub = src2.UintLeftJustified(vform, i);
- uint64_t ur = ua - ub;
- if (ub > ua) {
- dst.SetUnsignedSat(i, false);
- }
-
- // Test for signed saturation.
- bool pos_a = (ua >> 63) == 0;
- bool pos_b = (ub >> 63) == 0;
- bool pos_r = (ur >> 63) == 0;
- // If the signs of the operands are different, and the sign of the first
- // operand doesn't match the result, there was an overflow.
- if ((pos_a != pos_b) && (pos_a != pos_r)) {
- dst.SetSignedSat(i, pos_a);
- }
-
- dst.SetInt(vform, i, ur >> (64 - lane_size));
- }
- return dst;
-}
-
-LogicVRegister Simulator::and_(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(vform, i, src1.Uint(vform, i) & src2.Uint(vform, i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::orr(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(vform, i, src1.Uint(vform, i) | src2.Uint(vform, i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::orn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(vform, i, src1.Uint(vform, i) | ~src2.Uint(vform, i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::eor(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(vform, i, src1.Uint(vform, i) ^ src2.Uint(vform, i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::bic(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(vform, i, src1.Uint(vform, i) & ~src2.Uint(vform, i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::bic(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, uint64_t imm) {
- uint64_t result[16];
- int laneCount = LaneCountFromFormat(vform);
- for (int i = 0; i < laneCount; ++i) {
- result[i] = src.Uint(vform, i) & ~imm;
- }
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::bif(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- uint64_t operand1 = dst.Uint(vform, i);
- uint64_t operand2 = ~src2.Uint(vform, i);
- uint64_t operand3 = src1.Uint(vform, i);
- uint64_t result = operand1 ^ ((operand1 ^ operand3) & operand2);
- dst.SetUint(vform, i, result);
- }
- return dst;
-}
-
-LogicVRegister Simulator::bit(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- uint64_t operand1 = dst.Uint(vform, i);
- uint64_t operand2 = src2.Uint(vform, i);
- uint64_t operand3 = src1.Uint(vform, i);
- uint64_t result = operand1 ^ ((operand1 ^ operand3) & operand2);
- dst.SetUint(vform, i, result);
- }
- return dst;
-}
-
-LogicVRegister Simulator::bsl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- uint64_t operand1 = src2.Uint(vform, i);
- uint64_t operand2 = dst.Uint(vform, i);
- uint64_t operand3 = src1.Uint(vform, i);
- uint64_t result = operand1 ^ ((operand1 ^ operand3) & operand2);
- dst.SetUint(vform, i, result);
- }
- return dst;
-}
-
-LogicVRegister Simulator::SMinMax(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, bool max) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- int64_t src1_val = src1.Int(vform, i);
- int64_t src2_val = src2.Int(vform, i);
- int64_t dst_val;
- if (max) {
- dst_val = (src1_val > src2_val) ? src1_val : src2_val;
- } else {
- dst_val = (src1_val < src2_val) ? src1_val : src2_val;
- }
- dst.SetInt(vform, i, dst_val);
- }
- return dst;
-}
-
-LogicVRegister Simulator::smax(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- return SMinMax(vform, dst, src1, src2, true);
-}
-
-LogicVRegister Simulator::smin(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- return SMinMax(vform, dst, src1, src2, false);
-}
-
-LogicVRegister Simulator::SMinMaxP(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, bool max) {
- int lanes = LaneCountFromFormat(vform);
- int64_t result[kMaxLanesPerVector];
- const LogicVRegister* src = &src1;
- for (int j = 0; j < 2; j++) {
- for (int i = 0; i < lanes; i += 2) {
- int64_t first_val = src->Int(vform, i);
- int64_t second_val = src->Int(vform, i + 1);
- int64_t dst_val;
- if (max) {
- dst_val = (first_val > second_val) ? first_val : second_val;
- } else {
- dst_val = (first_val < second_val) ? first_val : second_val;
- }
- DCHECK_LT((i >> 1) + (j * lanes / 2), kMaxLanesPerVector);
- result[(i >> 1) + (j * lanes / 2)] = dst_val;
- }
- src = &src2;
- }
- dst.SetIntArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::smaxp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- return SMinMaxP(vform, dst, src1, src2, true);
-}
-
-LogicVRegister Simulator::sminp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- return SMinMaxP(vform, dst, src1, src2, false);
-}
-
-LogicVRegister Simulator::addp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- DCHECK_EQ(vform, kFormatD);
-
- uint64_t dst_val = src.Uint(kFormat2D, 0) + src.Uint(kFormat2D, 1);
- dst.ClearForWrite(vform);
- dst.SetUint(vform, 0, dst_val);
- return dst;
-}
-
-LogicVRegister Simulator::addv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- VectorFormat vform_dst =
- ScalarFormatFromLaneSize(LaneSizeInBitsFromFormat(vform));
-
- int64_t dst_val = 0;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst_val += src.Int(vform, i);
- }
-
- dst.ClearForWrite(vform_dst);
- dst.SetInt(vform_dst, 0, dst_val);
- return dst;
-}
-
-LogicVRegister Simulator::saddlv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- VectorFormat vform_dst =
- ScalarFormatFromLaneSize(LaneSizeInBitsFromFormat(vform) * 2);
-
- int64_t dst_val = 0;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst_val += src.Int(vform, i);
- }
-
- dst.ClearForWrite(vform_dst);
- dst.SetInt(vform_dst, 0, dst_val);
- return dst;
-}
-
-LogicVRegister Simulator::uaddlv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- VectorFormat vform_dst =
- ScalarFormatFromLaneSize(LaneSizeInBitsFromFormat(vform) * 2);
-
- uint64_t dst_val = 0;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst_val += src.Uint(vform, i);
- }
-
- dst.ClearForWrite(vform_dst);
- dst.SetUint(vform_dst, 0, dst_val);
- return dst;
-}
-
-LogicVRegister Simulator::SMinMaxV(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, bool max) {
- int64_t dst_val = max ? INT64_MIN : INT64_MAX;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- int64_t src_val = src.Int(vform, i);
- if (max) {
- dst_val = (src_val > dst_val) ? src_val : dst_val;
- } else {
- dst_val = (src_val < dst_val) ? src_val : dst_val;
- }
- }
- dst.ClearForWrite(ScalarFormatFromFormat(vform));
- dst.SetInt(vform, 0, dst_val);
- return dst;
-}
-
-LogicVRegister Simulator::smaxv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- SMinMaxV(vform, dst, src, true);
- return dst;
-}
-
-LogicVRegister Simulator::sminv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- SMinMaxV(vform, dst, src, false);
- return dst;
-}
-
-LogicVRegister Simulator::UMinMax(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, bool max) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- uint64_t src1_val = src1.Uint(vform, i);
- uint64_t src2_val = src2.Uint(vform, i);
- uint64_t dst_val;
- if (max) {
- dst_val = (src1_val > src2_val) ? src1_val : src2_val;
- } else {
- dst_val = (src1_val < src2_val) ? src1_val : src2_val;
- }
- dst.SetUint(vform, i, dst_val);
- }
- return dst;
-}
-
-LogicVRegister Simulator::umax(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- return UMinMax(vform, dst, src1, src2, true);
-}
-
-LogicVRegister Simulator::umin(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- return UMinMax(vform, dst, src1, src2, false);
-}
-
-LogicVRegister Simulator::UMinMaxP(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, bool max) {
- int lanes = LaneCountFromFormat(vform);
- uint64_t result[kMaxLanesPerVector];
- const LogicVRegister* src = &src1;
- for (int j = 0; j < 2; j++) {
- for (int i = 0; i < LaneCountFromFormat(vform); i += 2) {
- uint64_t first_val = src->Uint(vform, i);
- uint64_t second_val = src->Uint(vform, i + 1);
- uint64_t dst_val;
- if (max) {
- dst_val = (first_val > second_val) ? first_val : second_val;
- } else {
- dst_val = (first_val < second_val) ? first_val : second_val;
- }
- DCHECK_LT((i >> 1) + (j * lanes / 2), kMaxLanesPerVector);
- result[(i >> 1) + (j * lanes / 2)] = dst_val;
- }
- src = &src2;
- }
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::umaxp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- return UMinMaxP(vform, dst, src1, src2, true);
-}
-
-LogicVRegister Simulator::uminp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- return UMinMaxP(vform, dst, src1, src2, false);
-}
-
-LogicVRegister Simulator::UMinMaxV(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, bool max) {
- uint64_t dst_val = max ? 0 : UINT64_MAX;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- uint64_t src_val = src.Uint(vform, i);
- if (max) {
- dst_val = (src_val > dst_val) ? src_val : dst_val;
- } else {
- dst_val = (src_val < dst_val) ? src_val : dst_val;
- }
- }
- dst.ClearForWrite(ScalarFormatFromFormat(vform));
- dst.SetUint(vform, 0, dst_val);
- return dst;
-}
-
-LogicVRegister Simulator::umaxv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- UMinMaxV(vform, dst, src, true);
- return dst;
-}
-
-LogicVRegister Simulator::uminv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- UMinMaxV(vform, dst, src, false);
- return dst;
-}
-
-LogicVRegister Simulator::shl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp;
- LogicVRegister shiftreg = dup_immediate(vform, temp, shift);
- return ushl(vform, dst, src, shiftreg);
-}
-
-LogicVRegister Simulator::sshll(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp1, temp2;
- LogicVRegister shiftreg = dup_immediate(vform, temp1, shift);
- LogicVRegister extendedreg = sxtl(vform, temp2, src);
- return sshl(vform, dst, extendedreg, shiftreg);
-}
-
-LogicVRegister Simulator::sshll2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp1, temp2;
- LogicVRegister shiftreg = dup_immediate(vform, temp1, shift);
- LogicVRegister extendedreg = sxtl2(vform, temp2, src);
- return sshl(vform, dst, extendedreg, shiftreg);
-}
-
-LogicVRegister Simulator::shll(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- int shift = LaneSizeInBitsFromFormat(vform) / 2;
- return sshll(vform, dst, src, shift);
-}
-
-LogicVRegister Simulator::shll2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- int shift = LaneSizeInBitsFromFormat(vform) / 2;
- return sshll2(vform, dst, src, shift);
-}
-
-LogicVRegister Simulator::ushll(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp1, temp2;
- LogicVRegister shiftreg = dup_immediate(vform, temp1, shift);
- LogicVRegister extendedreg = uxtl(vform, temp2, src);
- return ushl(vform, dst, extendedreg, shiftreg);
-}
-
-LogicVRegister Simulator::ushll2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp1, temp2;
- LogicVRegister shiftreg = dup_immediate(vform, temp1, shift);
- LogicVRegister extendedreg = uxtl2(vform, temp2, src);
- return ushl(vform, dst, extendedreg, shiftreg);
-}
-
-LogicVRegister Simulator::sli(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- dst.ClearForWrite(vform);
- int laneCount = LaneCountFromFormat(vform);
- for (int i = 0; i < laneCount; i++) {
- uint64_t src_lane = src.Uint(vform, i);
- uint64_t dst_lane = dst.Uint(vform, i);
- uint64_t shifted = src_lane << shift;
- uint64_t mask = MaxUintFromFormat(vform) << shift;
- dst.SetUint(vform, i, (dst_lane & ~mask) | shifted);
- }
- return dst;
-}
-
-LogicVRegister Simulator::sqshl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp;
- LogicVRegister shiftreg = dup_immediate(vform, temp, shift);
- return sshl(vform, dst, src, shiftreg).SignedSaturate(vform);
-}
-
-LogicVRegister Simulator::uqshl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp;
- LogicVRegister shiftreg = dup_immediate(vform, temp, shift);
- return ushl(vform, dst, src, shiftreg).UnsignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sqshlu(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp;
- LogicVRegister shiftreg = dup_immediate(vform, temp, shift);
- return sshl(vform, dst, src, shiftreg).UnsignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sri(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- dst.ClearForWrite(vform);
- int laneCount = LaneCountFromFormat(vform);
- DCHECK((shift > 0) &&
- (shift <= static_cast<int>(LaneSizeInBitsFromFormat(vform))));
- for (int i = 0; i < laneCount; i++) {
- uint64_t src_lane = src.Uint(vform, i);
- uint64_t dst_lane = dst.Uint(vform, i);
- uint64_t shifted;
- uint64_t mask;
- if (shift == 64) {
- shifted = 0;
- mask = 0;
- } else {
- shifted = src_lane >> shift;
- mask = MaxUintFromFormat(vform) >> shift;
- }
- dst.SetUint(vform, i, (dst_lane & ~mask) | shifted);
- }
- return dst;
-}
-
-LogicVRegister Simulator::ushr(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp;
- LogicVRegister shiftreg = dup_immediate(vform, temp, -shift);
- return ushl(vform, dst, src, shiftreg);
-}
-
-LogicVRegister Simulator::sshr(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- DCHECK_GE(shift, 0);
- SimVRegister temp;
- LogicVRegister shiftreg = dup_immediate(vform, temp, -shift);
- return sshl(vform, dst, src, shiftreg);
-}
-
-LogicVRegister Simulator::ssra(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- LogicVRegister shifted_reg = sshr(vform, temp, src, shift);
- return add(vform, dst, dst, shifted_reg);
-}
-
-LogicVRegister Simulator::usra(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- LogicVRegister shifted_reg = ushr(vform, temp, src, shift);
- return add(vform, dst, dst, shifted_reg);
-}
-
-LogicVRegister Simulator::srsra(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- LogicVRegister shifted_reg = sshr(vform, temp, src, shift).Round(vform);
- return add(vform, dst, dst, shifted_reg);
-}
-
-LogicVRegister Simulator::ursra(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- LogicVRegister shifted_reg = ushr(vform, temp, src, shift).Round(vform);
- return add(vform, dst, dst, shifted_reg);
-}
-
-LogicVRegister Simulator::cls(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- uint64_t result[16];
- int laneSizeInBits = LaneSizeInBitsFromFormat(vform);
- int laneCount = LaneCountFromFormat(vform);
- for (int i = 0; i < laneCount; i++) {
- result[i] = CountLeadingSignBits(src.Int(vform, i), laneSizeInBits);
- }
-
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::clz(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- uint64_t result[16];
- int laneSizeInBits = LaneSizeInBitsFromFormat(vform);
- int laneCount = LaneCountFromFormat(vform);
- for (int i = 0; i < laneCount; i++) {
- result[i] = CountLeadingZeros(src.Uint(vform, i), laneSizeInBits);
- }
-
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::cnt(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- uint64_t result[16];
- int laneSizeInBits = LaneSizeInBitsFromFormat(vform);
- int laneCount = LaneCountFromFormat(vform);
- for (int i = 0; i < laneCount; i++) {
- uint64_t value = src.Uint(vform, i);
- result[i] = 0;
- for (int j = 0; j < laneSizeInBits; j++) {
- result[i] += (value & 1);
- value >>= 1;
- }
- }
-
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::sshl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- int8_t shift_val = src2.Int(vform, i);
- int64_t lj_src_val = src1.IntLeftJustified(vform, i);
-
- // Set signed saturation state.
- if ((shift_val > CountLeadingSignBits(lj_src_val, 64)) &&
- (lj_src_val != 0)) {
- dst.SetSignedSat(i, lj_src_val >= 0);
- }
-
- // Set unsigned saturation state.
- if (lj_src_val < 0) {
- dst.SetUnsignedSat(i, false);
- } else if ((shift_val > CountLeadingZeros(lj_src_val, 64)) &&
- (lj_src_val != 0)) {
- dst.SetUnsignedSat(i, true);
- }
-
- int64_t src_val = src1.Int(vform, i);
- bool src_is_negative = src_val < 0;
- if (shift_val > 63) {
- dst.SetInt(vform, i, 0);
- } else if (shift_val < -63) {
- dst.SetRounding(i, src_is_negative);
- dst.SetInt(vform, i, src_is_negative ? -1 : 0);
- } else {
- // Use unsigned types for shifts, as behaviour is undefined for signed
- // lhs.
- uint64_t usrc_val = static_cast<uint64_t>(src_val);
-
- if (shift_val < 0) {
- // Convert to right shift.
- shift_val = -shift_val;
-
- // Set rounding state by testing most-significant bit shifted out.
- // Rounding only needed on right shifts.
- if (((usrc_val >> (shift_val - 1)) & 1) == 1) {
- dst.SetRounding(i, true);
- }
-
- usrc_val >>= shift_val;
-
- if (src_is_negative) {
- // Simulate sign-extension.
- usrc_val |= (~UINT64_C(0) << (64 - shift_val));
- }
- } else {
- usrc_val <<= shift_val;
- }
- dst.SetUint(vform, i, usrc_val);
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::ushl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- int8_t shift_val = src2.Int(vform, i);
- uint64_t lj_src_val = src1.UintLeftJustified(vform, i);
-
- // Set saturation state.
- if ((shift_val > CountLeadingZeros(lj_src_val, 64)) && (lj_src_val != 0)) {
- dst.SetUnsignedSat(i, true);
- }
-
- uint64_t src_val = src1.Uint(vform, i);
- if ((shift_val > 63) || (shift_val < -64)) {
- dst.SetUint(vform, i, 0);
- } else {
- if (shift_val < 0) {
- // Set rounding state. Rounding only needed on right shifts.
- if (((src_val >> (-shift_val - 1)) & 1) == 1) {
- dst.SetRounding(i, true);
- }
-
- if (shift_val == -64) {
- src_val = 0;
- } else {
- src_val >>= -shift_val;
- }
- } else {
- src_val <<= shift_val;
- }
- dst.SetUint(vform, i, src_val);
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::neg(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- // Test for signed saturation.
- int64_t sa = src.Int(vform, i);
- if (sa == MinIntFromFormat(vform)) {
- dst.SetSignedSat(i, true);
- }
- dst.SetInt(vform, i, (sa == INT64_MIN) ? sa : -sa);
- }
- return dst;
-}
-
-LogicVRegister Simulator::suqadd(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- int64_t sa = dst.IntLeftJustified(vform, i);
- uint64_t ub = src.UintLeftJustified(vform, i);
- uint64_t ur = sa + ub;
-
- int64_t sr = bit_cast<int64_t>(ur);
- if (sr < sa) { // Test for signed positive saturation.
- dst.SetInt(vform, i, MaxIntFromFormat(vform));
- } else {
- dst.SetUint(vform, i, dst.Int(vform, i) + src.Uint(vform, i));
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::usqadd(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- uint64_t ua = dst.UintLeftJustified(vform, i);
- int64_t sb = src.IntLeftJustified(vform, i);
- uint64_t ur = ua + sb;
-
- if ((sb > 0) && (ur <= ua)) {
- dst.SetUint(vform, i, MaxUintFromFormat(vform)); // Positive saturation.
- } else if ((sb < 0) && (ur >= ua)) {
- dst.SetUint(vform, i, 0); // Negative saturation.
- } else {
- dst.SetUint(vform, i, dst.Uint(vform, i) + src.Int(vform, i));
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::abs(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- // Test for signed saturation.
- int64_t sa = src.Int(vform, i);
- if (sa == MinIntFromFormat(vform)) {
- dst.SetSignedSat(i, true);
- }
- if (sa < 0) {
- dst.SetInt(vform, i, (sa == INT64_MIN) ? sa : -sa);
- } else {
- dst.SetInt(vform, i, sa);
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::ExtractNarrow(VectorFormat dstform,
- LogicVRegister dst, bool dstIsSigned,
- const LogicVRegister& src,
- bool srcIsSigned) {
- bool upperhalf = false;
- VectorFormat srcform = kFormatUndefined;
- int64_t ssrc[8];
- uint64_t usrc[8];
-
- switch (dstform) {
- case kFormat8B:
- upperhalf = false;
- srcform = kFormat8H;
- break;
- case kFormat16B:
- upperhalf = true;
- srcform = kFormat8H;
- break;
- case kFormat4H:
- upperhalf = false;
- srcform = kFormat4S;
- break;
- case kFormat8H:
- upperhalf = true;
- srcform = kFormat4S;
- break;
- case kFormat2S:
- upperhalf = false;
- srcform = kFormat2D;
- break;
- case kFormat4S:
- upperhalf = true;
- srcform = kFormat2D;
- break;
- case kFormatB:
- upperhalf = false;
- srcform = kFormatH;
- break;
- case kFormatH:
- upperhalf = false;
- srcform = kFormatS;
- break;
- case kFormatS:
- upperhalf = false;
- srcform = kFormatD;
- break;
- default:
- UNIMPLEMENTED();
- }
-
- for (int i = 0; i < LaneCountFromFormat(srcform); i++) {
- ssrc[i] = src.Int(srcform, i);
- usrc[i] = src.Uint(srcform, i);
- }
-
- int offset;
- if (upperhalf) {
- offset = LaneCountFromFormat(dstform) / 2;
- } else {
- offset = 0;
- dst.ClearForWrite(dstform);
- }
-
- for (int i = 0; i < LaneCountFromFormat(srcform); i++) {
- // Test for signed saturation
- if (ssrc[i] > MaxIntFromFormat(dstform)) {
- dst.SetSignedSat(offset + i, true);
- } else if (ssrc[i] < MinIntFromFormat(dstform)) {
- dst.SetSignedSat(offset + i, false);
- }
-
- // Test for unsigned saturation
- if (srcIsSigned) {
- if (ssrc[i] > static_cast<int64_t>(MaxUintFromFormat(dstform))) {
- dst.SetUnsignedSat(offset + i, true);
- } else if (ssrc[i] < 0) {
- dst.SetUnsignedSat(offset + i, false);
- }
- } else {
- if (usrc[i] > MaxUintFromFormat(dstform)) {
- dst.SetUnsignedSat(offset + i, true);
- }
- }
-
- int64_t result;
- if (srcIsSigned) {
- result = ssrc[i] & MaxUintFromFormat(dstform);
- } else {
- result = usrc[i] & MaxUintFromFormat(dstform);
- }
-
- if (dstIsSigned) {
- dst.SetInt(dstform, offset + i, result);
- } else {
- dst.SetUint(dstform, offset + i, result);
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::xtn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return ExtractNarrow(vform, dst, true, src, true);
-}
-
-LogicVRegister Simulator::sqxtn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return ExtractNarrow(vform, dst, true, src, true).SignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sqxtun(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return ExtractNarrow(vform, dst, false, src, true).UnsignedSaturate(vform);
-}
-
-LogicVRegister Simulator::uqxtn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return ExtractNarrow(vform, dst, false, src, false).UnsignedSaturate(vform);
-}
-
-LogicVRegister Simulator::AbsDiff(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, bool issigned) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- if (issigned) {
- int64_t sr = src1.Int(vform, i) - src2.Int(vform, i);
- sr = sr > 0 ? sr : -sr;
- dst.SetInt(vform, i, sr);
- } else {
- int64_t sr = src1.Uint(vform, i) - src2.Uint(vform, i);
- sr = sr > 0 ? sr : -sr;
- dst.SetUint(vform, i, sr);
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::saba(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- dst.ClearForWrite(vform);
- AbsDiff(vform, temp, src1, src2, true);
- add(vform, dst, dst, temp);
- return dst;
-}
-
-LogicVRegister Simulator::uaba(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- dst.ClearForWrite(vform);
- AbsDiff(vform, temp, src1, src2, false);
- add(vform, dst, dst, temp);
- return dst;
-}
-
-LogicVRegister Simulator::not_(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(vform, i, ~src.Uint(vform, i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::rbit(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- uint64_t result[16];
- int laneCount = LaneCountFromFormat(vform);
- int laneSizeInBits = LaneSizeInBitsFromFormat(vform);
- uint64_t reversed_value;
- uint64_t value;
- for (int i = 0; i < laneCount; i++) {
- value = src.Uint(vform, i);
- reversed_value = 0;
- for (int j = 0; j < laneSizeInBits; j++) {
- reversed_value = (reversed_value << 1) | (value & 1);
- value >>= 1;
- }
- result[i] = reversed_value;
- }
-
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::rev(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int revSize) {
- uint64_t result[16];
- int laneCount = LaneCountFromFormat(vform);
- int laneSize = LaneSizeInBytesFromFormat(vform);
- int lanesPerLoop = revSize / laneSize;
- for (int i = 0; i < laneCount; i += lanesPerLoop) {
- for (int j = 0; j < lanesPerLoop; j++) {
- result[i + lanesPerLoop - 1 - j] = src.Uint(vform, i + j);
- }
- }
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::rev16(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return rev(vform, dst, src, 2);
-}
-
-LogicVRegister Simulator::rev32(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return rev(vform, dst, src, 4);
-}
-
-LogicVRegister Simulator::rev64(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return rev(vform, dst, src, 8);
-}
-
-LogicVRegister Simulator::addlp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, bool is_signed,
- bool do_accumulate) {
- VectorFormat vformsrc = VectorFormatHalfWidthDoubleLanes(vform);
- DCHECK_LE(LaneSizeInBitsFromFormat(vformsrc), 32U);
- DCHECK_LE(LaneCountFromFormat(vform), 8);
-
- uint64_t result[8];
- int lane_count = LaneCountFromFormat(vform);
- for (int i = 0; i < lane_count; i++) {
- if (is_signed) {
- result[i] = static_cast<uint64_t>(src.Int(vformsrc, 2 * i) +
- src.Int(vformsrc, 2 * i + 1));
- } else {
- result[i] = src.Uint(vformsrc, 2 * i) + src.Uint(vformsrc, 2 * i + 1);
- }
- }
-
- dst.ClearForWrite(vform);
- for (int i = 0; i < lane_count; ++i) {
- if (do_accumulate) {
- result[i] += dst.Uint(vform, i);
- }
- dst.SetUint(vform, i, result[i]);
- }
-
- return dst;
-}
-
-LogicVRegister Simulator::saddlp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return addlp(vform, dst, src, true, false);
-}
-
-LogicVRegister Simulator::uaddlp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return addlp(vform, dst, src, false, false);
-}
-
-LogicVRegister Simulator::sadalp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return addlp(vform, dst, src, true, true);
-}
-
-LogicVRegister Simulator::uadalp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return addlp(vform, dst, src, false, true);
-}
-
-LogicVRegister Simulator::ext(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- uint8_t result[16];
- int laneCount = LaneCountFromFormat(vform);
- for (int i = 0; i < laneCount - index; ++i) {
- result[i] = src1.Uint(vform, i + index);
- }
- for (int i = 0; i < index; ++i) {
- result[laneCount - index + i] = src2.Uint(vform, i);
- }
- dst.ClearForWrite(vform);
- for (int i = 0; i < laneCount; ++i) {
- dst.SetUint(vform, i, result[i]);
- }
- return dst;
-}
-
-LogicVRegister Simulator::dup_element(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src,
- int src_index) {
- int laneCount = LaneCountFromFormat(vform);
- uint64_t value = src.Uint(vform, src_index);
- dst.ClearForWrite(vform);
- for (int i = 0; i < laneCount; ++i) {
- dst.SetUint(vform, i, value);
- }
- return dst;
-}
-
-LogicVRegister Simulator::dup_immediate(VectorFormat vform, LogicVRegister dst,
- uint64_t imm) {
- int laneCount = LaneCountFromFormat(vform);
- uint64_t value = imm & MaxUintFromFormat(vform);
- dst.ClearForWrite(vform);
- for (int i = 0; i < laneCount; ++i) {
- dst.SetUint(vform, i, value);
- }
- return dst;
-}
-
-LogicVRegister Simulator::ins_element(VectorFormat vform, LogicVRegister dst,
- int dst_index, const LogicVRegister& src,
- int src_index) {
- dst.SetUint(vform, dst_index, src.Uint(vform, src_index));
- return dst;
-}
-
-LogicVRegister Simulator::ins_immediate(VectorFormat vform, LogicVRegister dst,
- int dst_index, uint64_t imm) {
- uint64_t value = imm & MaxUintFromFormat(vform);
- dst.SetUint(vform, dst_index, value);
- return dst;
-}
-
-LogicVRegister Simulator::movi(VectorFormat vform, LogicVRegister dst,
- uint64_t imm) {
- int laneCount = LaneCountFromFormat(vform);
- dst.ClearForWrite(vform);
- for (int i = 0; i < laneCount; ++i) {
- dst.SetUint(vform, i, imm);
- }
- return dst;
-}
-
-LogicVRegister Simulator::mvni(VectorFormat vform, LogicVRegister dst,
- uint64_t imm) {
- int laneCount = LaneCountFromFormat(vform);
- dst.ClearForWrite(vform);
- for (int i = 0; i < laneCount; ++i) {
- dst.SetUint(vform, i, ~imm);
- }
- return dst;
-}
-
-LogicVRegister Simulator::orr(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, uint64_t imm) {
- uint64_t result[16];
- int laneCount = LaneCountFromFormat(vform);
- for (int i = 0; i < laneCount; ++i) {
- result[i] = src.Uint(vform, i) | imm;
- }
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::uxtl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- VectorFormat vform_half = VectorFormatHalfWidth(vform);
-
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetUint(vform, i, src.Uint(vform_half, i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::sxtl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- VectorFormat vform_half = VectorFormatHalfWidth(vform);
-
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetInt(vform, i, src.Int(vform_half, i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::uxtl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- VectorFormat vform_half = VectorFormatHalfWidth(vform);
- int lane_count = LaneCountFromFormat(vform);
-
- dst.ClearForWrite(vform);
- for (int i = 0; i < lane_count; i++) {
- dst.SetUint(vform, i, src.Uint(vform_half, lane_count + i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::sxtl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- VectorFormat vform_half = VectorFormatHalfWidth(vform);
- int lane_count = LaneCountFromFormat(vform);
-
- dst.ClearForWrite(vform);
- for (int i = 0; i < lane_count; i++) {
- dst.SetInt(vform, i, src.Int(vform_half, lane_count + i));
- }
- return dst;
-}
-
-LogicVRegister Simulator::shrn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vform_src = VectorFormatDoubleWidth(vform);
- VectorFormat vform_dst = vform;
- LogicVRegister shifted_src = ushr(vform_src, temp, src, shift);
- return ExtractNarrow(vform_dst, dst, false, shifted_src, false);
-}
-
-LogicVRegister Simulator::shrn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(VectorFormatHalfLanes(vform));
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = ushr(vformsrc, temp, src, shift);
- return ExtractNarrow(vformdst, dst, false, shifted_src, false);
-}
-
-LogicVRegister Simulator::rshrn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(vform);
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = ushr(vformsrc, temp, src, shift).Round(vformsrc);
- return ExtractNarrow(vformdst, dst, false, shifted_src, false);
-}
-
-LogicVRegister Simulator::rshrn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(VectorFormatHalfLanes(vform));
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = ushr(vformsrc, temp, src, shift).Round(vformsrc);
- return ExtractNarrow(vformdst, dst, false, shifted_src, false);
-}
-
-LogicVRegister Simulator::Table(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& ind,
- bool zero_out_of_bounds,
- const LogicVRegister* tab1,
- const LogicVRegister* tab2,
- const LogicVRegister* tab3,
- const LogicVRegister* tab4) {
- DCHECK_NOT_NULL(tab1);
- const LogicVRegister* tab[4] = {tab1, tab2, tab3, tab4};
- uint64_t result[kMaxLanesPerVector];
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- result[i] = zero_out_of_bounds ? 0 : dst.Uint(kFormat16B, i);
- }
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- uint64_t j = ind.Uint(vform, i);
- int tab_idx = static_cast<int>(j >> 4);
- int j_idx = static_cast<int>(j & 15);
- if ((tab_idx < 4) && (tab[tab_idx] != NULL)) {
- result[i] = tab[tab_idx]->Uint(kFormat16B, j_idx);
- }
- }
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::tbl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& tab,
- const LogicVRegister& ind) {
- return Table(vform, dst, ind, true, &tab);
-}
-
-LogicVRegister Simulator::tbl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& tab,
- const LogicVRegister& tab2,
- const LogicVRegister& ind) {
- return Table(vform, dst, ind, true, &tab, &tab2);
-}
-
-LogicVRegister Simulator::tbl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& tab,
- const LogicVRegister& tab2,
- const LogicVRegister& tab3,
- const LogicVRegister& ind) {
- return Table(vform, dst, ind, true, &tab, &tab2, &tab3);
-}
-
-LogicVRegister Simulator::tbl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& tab,
- const LogicVRegister& tab2,
- const LogicVRegister& tab3,
- const LogicVRegister& tab4,
- const LogicVRegister& ind) {
- return Table(vform, dst, ind, true, &tab, &tab2, &tab3, &tab4);
-}
-
-LogicVRegister Simulator::tbx(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& tab,
- const LogicVRegister& ind) {
- return Table(vform, dst, ind, false, &tab);
-}
-
-LogicVRegister Simulator::tbx(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& tab,
- const LogicVRegister& tab2,
- const LogicVRegister& ind) {
- return Table(vform, dst, ind, false, &tab, &tab2);
-}
-
-LogicVRegister Simulator::tbx(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& tab,
- const LogicVRegister& tab2,
- const LogicVRegister& tab3,
- const LogicVRegister& ind) {
- return Table(vform, dst, ind, false, &tab, &tab2, &tab3);
-}
-
-LogicVRegister Simulator::tbx(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& tab,
- const LogicVRegister& tab2,
- const LogicVRegister& tab3,
- const LogicVRegister& tab4,
- const LogicVRegister& ind) {
- return Table(vform, dst, ind, false, &tab, &tab2, &tab3, &tab4);
-}
-
-LogicVRegister Simulator::uqshrn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- return shrn(vform, dst, src, shift).UnsignedSaturate(vform);
-}
-
-LogicVRegister Simulator::uqshrn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- return shrn2(vform, dst, src, shift).UnsignedSaturate(vform);
-}
-
-LogicVRegister Simulator::uqrshrn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- return rshrn(vform, dst, src, shift).UnsignedSaturate(vform);
-}
-
-LogicVRegister Simulator::uqrshrn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- return rshrn2(vform, dst, src, shift).UnsignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sqshrn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(vform);
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = sshr(vformsrc, temp, src, shift);
- return sqxtn(vformdst, dst, shifted_src);
-}
-
-LogicVRegister Simulator::sqshrn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(VectorFormatHalfLanes(vform));
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = sshr(vformsrc, temp, src, shift);
- return sqxtn(vformdst, dst, shifted_src);
-}
-
-LogicVRegister Simulator::sqrshrn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(vform);
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = sshr(vformsrc, temp, src, shift).Round(vformsrc);
- return sqxtn(vformdst, dst, shifted_src);
-}
-
-LogicVRegister Simulator::sqrshrn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(VectorFormatHalfLanes(vform));
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = sshr(vformsrc, temp, src, shift).Round(vformsrc);
- return sqxtn(vformdst, dst, shifted_src);
-}
-
-LogicVRegister Simulator::sqshrun(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(vform);
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = sshr(vformsrc, temp, src, shift);
- return sqxtun(vformdst, dst, shifted_src);
-}
-
-LogicVRegister Simulator::sqshrun2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(VectorFormatHalfLanes(vform));
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = sshr(vformsrc, temp, src, shift);
- return sqxtun(vformdst, dst, shifted_src);
-}
-
-LogicVRegister Simulator::sqrshrun(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(vform);
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = sshr(vformsrc, temp, src, shift).Round(vformsrc);
- return sqxtun(vformdst, dst, shifted_src);
-}
-
-LogicVRegister Simulator::sqrshrun2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int shift) {
- SimVRegister temp;
- VectorFormat vformsrc = VectorFormatDoubleWidth(VectorFormatHalfLanes(vform));
- VectorFormat vformdst = vform;
- LogicVRegister shifted_src = sshr(vformsrc, temp, src, shift).Round(vformsrc);
- return sqxtun(vformdst, dst, shifted_src);
-}
-
-LogicVRegister Simulator::uaddl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl(vform, temp1, src1);
- uxtl(vform, temp2, src2);
- add(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::uaddl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl2(vform, temp1, src1);
- uxtl2(vform, temp2, src2);
- add(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::uaddw(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- uxtl(vform, temp, src2);
- add(vform, dst, src1, temp);
- return dst;
-}
-
-LogicVRegister Simulator::uaddw2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- uxtl2(vform, temp, src2);
- add(vform, dst, src1, temp);
- return dst;
-}
-
-LogicVRegister Simulator::saddl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl(vform, temp1, src1);
- sxtl(vform, temp2, src2);
- add(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::saddl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl2(vform, temp1, src1);
- sxtl2(vform, temp2, src2);
- add(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::saddw(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- sxtl(vform, temp, src2);
- add(vform, dst, src1, temp);
- return dst;
-}
-
-LogicVRegister Simulator::saddw2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- sxtl2(vform, temp, src2);
- add(vform, dst, src1, temp);
- return dst;
-}
-
-LogicVRegister Simulator::usubl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl(vform, temp1, src1);
- uxtl(vform, temp2, src2);
- sub(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::usubl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl2(vform, temp1, src1);
- uxtl2(vform, temp2, src2);
- sub(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::usubw(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- uxtl(vform, temp, src2);
- sub(vform, dst, src1, temp);
- return dst;
-}
-
-LogicVRegister Simulator::usubw2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- uxtl2(vform, temp, src2);
- sub(vform, dst, src1, temp);
- return dst;
-}
-
-LogicVRegister Simulator::ssubl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl(vform, temp1, src1);
- sxtl(vform, temp2, src2);
- sub(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::ssubl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl2(vform, temp1, src1);
- sxtl2(vform, temp2, src2);
- sub(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::ssubw(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- sxtl(vform, temp, src2);
- sub(vform, dst, src1, temp);
- return dst;
-}
-
-LogicVRegister Simulator::ssubw2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- sxtl2(vform, temp, src2);
- sub(vform, dst, src1, temp);
- return dst;
-}
-
-LogicVRegister Simulator::uabal(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl(vform, temp1, src1);
- uxtl(vform, temp2, src2);
- uaba(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::uabal2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl2(vform, temp1, src1);
- uxtl2(vform, temp2, src2);
- uaba(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::sabal(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl(vform, temp1, src1);
- sxtl(vform, temp2, src2);
- saba(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::sabal2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl2(vform, temp1, src1);
- sxtl2(vform, temp2, src2);
- saba(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::uabdl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl(vform, temp1, src1);
- uxtl(vform, temp2, src2);
- AbsDiff(vform, dst, temp1, temp2, false);
- return dst;
-}
-
-LogicVRegister Simulator::uabdl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl2(vform, temp1, src1);
- uxtl2(vform, temp2, src2);
- AbsDiff(vform, dst, temp1, temp2, false);
- return dst;
-}
-
-LogicVRegister Simulator::sabdl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl(vform, temp1, src1);
- sxtl(vform, temp2, src2);
- AbsDiff(vform, dst, temp1, temp2, true);
- return dst;
-}
-
-LogicVRegister Simulator::sabdl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl2(vform, temp1, src1);
- sxtl2(vform, temp2, src2);
- AbsDiff(vform, dst, temp1, temp2, true);
- return dst;
-}
-
-LogicVRegister Simulator::umull(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl(vform, temp1, src1);
- uxtl(vform, temp2, src2);
- mul(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::umull2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl2(vform, temp1, src1);
- uxtl2(vform, temp2, src2);
- mul(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::smull(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl(vform, temp1, src1);
- sxtl(vform, temp2, src2);
- mul(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::smull2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl2(vform, temp1, src1);
- sxtl2(vform, temp2, src2);
- mul(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::umlsl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl(vform, temp1, src1);
- uxtl(vform, temp2, src2);
- mls(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::umlsl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl2(vform, temp1, src1);
- uxtl2(vform, temp2, src2);
- mls(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::smlsl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl(vform, temp1, src1);
- sxtl(vform, temp2, src2);
- mls(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::smlsl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl2(vform, temp1, src1);
- sxtl2(vform, temp2, src2);
- mls(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::umlal(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl(vform, temp1, src1);
- uxtl(vform, temp2, src2);
- mla(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::umlal2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- uxtl2(vform, temp1, src1);
- uxtl2(vform, temp2, src2);
- mla(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::smlal(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl(vform, temp1, src1);
- sxtl(vform, temp2, src2);
- mla(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::smlal2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp1, temp2;
- sxtl2(vform, temp1, src1);
- sxtl2(vform, temp2, src2);
- mla(vform, dst, temp1, temp2);
- return dst;
-}
-
-LogicVRegister Simulator::sqdmlal(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- LogicVRegister product = sqdmull(vform, temp, src1, src2);
- return add(vform, dst, dst, product).SignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sqdmlal2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- LogicVRegister product = sqdmull2(vform, temp, src1, src2);
- return add(vform, dst, dst, product).SignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sqdmlsl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- LogicVRegister product = sqdmull(vform, temp, src1, src2);
- return sub(vform, dst, dst, product).SignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sqdmlsl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- LogicVRegister product = sqdmull2(vform, temp, src1, src2);
- return sub(vform, dst, dst, product).SignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sqdmull(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- LogicVRegister product = smull(vform, temp, src1, src2);
- return add(vform, dst, product, product).SignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sqdmull2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- LogicVRegister product = smull2(vform, temp, src1, src2);
- return add(vform, dst, product, product).SignedSaturate(vform);
-}
-
-LogicVRegister Simulator::sqrdmulh(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, bool round) {
- // 2 * INT_32_MIN * INT_32_MIN causes int64_t to overflow.
- // To avoid this, we use (src1 * src2 + 1 << (esize - 2)) >> (esize - 1)
- // which is same as (2 * src1 * src2 + 1 << (esize - 1)) >> esize.
-
- int esize = LaneSizeInBitsFromFormat(vform);
- int round_const = round ? (1 << (esize - 2)) : 0;
- int64_t product;
-
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- product = src1.Int(vform, i) * src2.Int(vform, i);
- product += round_const;
- product = product >> (esize - 1);
-
- if (product > MaxIntFromFormat(vform)) {
- product = MaxIntFromFormat(vform);
- } else if (product < MinIntFromFormat(vform)) {
- product = MinIntFromFormat(vform);
- }
- dst.SetInt(vform, i, product);
- }
- return dst;
-}
-
-LogicVRegister Simulator::sqdmulh(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- return sqrdmulh(vform, dst, src1, src2, false);
-}
-
-LogicVRegister Simulator::addhn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- add(VectorFormatDoubleWidth(vform), temp, src1, src2);
- shrn(vform, dst, temp, LaneSizeInBitsFromFormat(vform));
- return dst;
-}
-
-LogicVRegister Simulator::addhn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- add(VectorFormatDoubleWidth(VectorFormatHalfLanes(vform)), temp, src1, src2);
- shrn2(vform, dst, temp, LaneSizeInBitsFromFormat(vform));
- return dst;
-}
-
-LogicVRegister Simulator::raddhn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- add(VectorFormatDoubleWidth(vform), temp, src1, src2);
- rshrn(vform, dst, temp, LaneSizeInBitsFromFormat(vform));
- return dst;
-}
-
-LogicVRegister Simulator::raddhn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- add(VectorFormatDoubleWidth(VectorFormatHalfLanes(vform)), temp, src1, src2);
- rshrn2(vform, dst, temp, LaneSizeInBitsFromFormat(vform));
- return dst;
-}
-
-LogicVRegister Simulator::subhn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- sub(VectorFormatDoubleWidth(vform), temp, src1, src2);
- shrn(vform, dst, temp, LaneSizeInBitsFromFormat(vform));
- return dst;
-}
-
-LogicVRegister Simulator::subhn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- sub(VectorFormatDoubleWidth(VectorFormatHalfLanes(vform)), temp, src1, src2);
- shrn2(vform, dst, temp, LaneSizeInBitsFromFormat(vform));
- return dst;
-}
-
-LogicVRegister Simulator::rsubhn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- sub(VectorFormatDoubleWidth(vform), temp, src1, src2);
- rshrn(vform, dst, temp, LaneSizeInBitsFromFormat(vform));
- return dst;
-}
-
-LogicVRegister Simulator::rsubhn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- sub(VectorFormatDoubleWidth(VectorFormatHalfLanes(vform)), temp, src1, src2);
- rshrn2(vform, dst, temp, LaneSizeInBitsFromFormat(vform));
- return dst;
-}
-
-LogicVRegister Simulator::trn1(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- uint64_t result[16];
- int laneCount = LaneCountFromFormat(vform);
- int pairs = laneCount / 2;
- for (int i = 0; i < pairs; ++i) {
- result[2 * i] = src1.Uint(vform, 2 * i);
- result[(2 * i) + 1] = src2.Uint(vform, 2 * i);
- }
-
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::trn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- uint64_t result[16];
- int laneCount = LaneCountFromFormat(vform);
- int pairs = laneCount / 2;
- for (int i = 0; i < pairs; ++i) {
- result[2 * i] = src1.Uint(vform, (2 * i) + 1);
- result[(2 * i) + 1] = src2.Uint(vform, (2 * i) + 1);
- }
-
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::zip1(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- uint64_t result[16];
- int laneCount = LaneCountFromFormat(vform);
- int pairs = laneCount / 2;
- for (int i = 0; i < pairs; ++i) {
- result[2 * i] = src1.Uint(vform, i);
- result[(2 * i) + 1] = src2.Uint(vform, i);
- }
-
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::zip2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- uint64_t result[16];
- int laneCount = LaneCountFromFormat(vform);
- int pairs = laneCount / 2;
- for (int i = 0; i < pairs; ++i) {
- result[2 * i] = src1.Uint(vform, pairs + i);
- result[(2 * i) + 1] = src2.Uint(vform, pairs + i);
- }
-
- dst.SetUintArray(vform, result);
- return dst;
-}
-
-LogicVRegister Simulator::uzp1(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- uint64_t result[32];
- int laneCount = LaneCountFromFormat(vform);
- for (int i = 0; i < laneCount; ++i) {
- result[i] = src1.Uint(vform, i);
- result[laneCount + i] = src2.Uint(vform, i);
- }
-
- dst.ClearForWrite(vform);
- for (int i = 0; i < laneCount; ++i) {
- dst.SetUint(vform, i, result[2 * i]);
- }
- return dst;
-}
-
-LogicVRegister Simulator::uzp2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- uint64_t result[32];
- int laneCount = LaneCountFromFormat(vform);
- for (int i = 0; i < laneCount; ++i) {
- result[i] = src1.Uint(vform, i);
- result[laneCount + i] = src2.Uint(vform, i);
- }
-
- dst.ClearForWrite(vform);
- for (int i = 0; i < laneCount; ++i) {
- dst.SetUint(vform, i, result[(2 * i) + 1]);
- }
- return dst;
-}
-
-template <typename T>
-T Simulator::FPAdd(T op1, T op2) {
- T result = FPProcessNaNs(op1, op2);
- if (std::isnan(result)) return result;
-
- if (std::isinf(op1) && std::isinf(op2) && (op1 != op2)) {
- // inf + -inf returns the default NaN.
- FPProcessException();
- return FPDefaultNaN<T>();
- } else {
- // Other cases should be handled by standard arithmetic.
- return op1 + op2;
- }
-}
-
-template <typename T>
-T Simulator::FPSub(T op1, T op2) {
- // NaNs should be handled elsewhere.
- DCHECK(!std::isnan(op1) && !std::isnan(op2));
-
- if (std::isinf(op1) && std::isinf(op2) && (op1 == op2)) {
- // inf - inf returns the default NaN.
- FPProcessException();
- return FPDefaultNaN<T>();
- } else {
- // Other cases should be handled by standard arithmetic.
- return op1 - op2;
- }
-}
-
-template <typename T>
-T Simulator::FPMul(T op1, T op2) {
- // NaNs should be handled elsewhere.
- DCHECK(!std::isnan(op1) && !std::isnan(op2));
-
- if ((std::isinf(op1) && (op2 == 0.0)) || (std::isinf(op2) && (op1 == 0.0))) {
- // inf * 0.0 returns the default NaN.
- FPProcessException();
- return FPDefaultNaN<T>();
- } else {
- // Other cases should be handled by standard arithmetic.
- return op1 * op2;
- }
-}
-
-template <typename T>
-T Simulator::FPMulx(T op1, T op2) {
- if ((std::isinf(op1) && (op2 == 0.0)) || (std::isinf(op2) && (op1 == 0.0))) {
- // inf * 0.0 returns +/-2.0.
- T two = 2.0;
- return copysign(1.0, op1) * copysign(1.0, op2) * two;
- }
- return FPMul(op1, op2);
-}
-
-template <typename T>
-T Simulator::FPMulAdd(T a, T op1, T op2) {
- T result = FPProcessNaNs3(a, op1, op2);
-
- T sign_a = copysign(1.0, a);
- T sign_prod = copysign(1.0, op1) * copysign(1.0, op2);
- bool isinf_prod = std::isinf(op1) || std::isinf(op2);
- bool operation_generates_nan =
- (std::isinf(op1) && (op2 == 0.0)) || // inf * 0.0
- (std::isinf(op2) && (op1 == 0.0)) || // 0.0 * inf
- (std::isinf(a) && isinf_prod && (sign_a != sign_prod)); // inf - inf
-
- if (std::isnan(result)) {
- // Generated NaNs override quiet NaNs propagated from a.
- if (operation_generates_nan && IsQuietNaN(a)) {
- FPProcessException();
- return FPDefaultNaN<T>();
- } else {
- return result;
- }
- }
-
- // If the operation would produce a NaN, return the default NaN.
- if (operation_generates_nan) {
- FPProcessException();
- return FPDefaultNaN<T>();
- }
-
- // Work around broken fma implementations for exact zero results: The sign of
- // exact 0.0 results is positive unless both a and op1 * op2 are negative.
- if (((op1 == 0.0) || (op2 == 0.0)) && (a == 0.0)) {
- return ((sign_a < 0) && (sign_prod < 0)) ? -0.0 : 0.0;
- }
-
- result = FusedMultiplyAdd(op1, op2, a);
- DCHECK(!std::isnan(result));
-
- // Work around broken fma implementations for rounded zero results: If a is
- // 0.0, the sign of the result is the sign of op1 * op2 before rounding.
- if ((a == 0.0) && (result == 0.0)) {
- return copysign(0.0, sign_prod);
- }
-
- return result;
-}
-
-template <typename T>
-T Simulator::FPDiv(T op1, T op2) {
- // NaNs should be handled elsewhere.
- DCHECK(!std::isnan(op1) && !std::isnan(op2));
-
- if ((std::isinf(op1) && std::isinf(op2)) || ((op1 == 0.0) && (op2 == 0.0))) {
- // inf / inf and 0.0 / 0.0 return the default NaN.
- FPProcessException();
- return FPDefaultNaN<T>();
- } else {
- if (op2 == 0.0) {
- FPProcessException();
- if (!std::isnan(op1)) {
- double op1_sign = copysign(1.0, op1);
- double op2_sign = copysign(1.0, op2);
- return static_cast<T>(op1_sign * op2_sign * kFP64PositiveInfinity);
- }
- }
-
- // Other cases should be handled by standard arithmetic.
- return op1 / op2;
- }
-}
-
-template <typename T>
-T Simulator::FPSqrt(T op) {
- if (std::isnan(op)) {
- return FPProcessNaN(op);
- } else if (op < 0.0) {
- FPProcessException();
- return FPDefaultNaN<T>();
- } else {
- return sqrt(op);
- }
-}
-
-template <typename T>
-T Simulator::FPMax(T a, T b) {
- T result = FPProcessNaNs(a, b);
- if (std::isnan(result)) return result;
-
- if ((a == 0.0) && (b == 0.0) && (copysign(1.0, a) != copysign(1.0, b))) {
- // a and b are zero, and the sign differs: return +0.0.
- return 0.0;
- } else {
- return (a > b) ? a : b;
- }
-}
-
-template <typename T>
-T Simulator::FPMaxNM(T a, T b) {
- if (IsQuietNaN(a) && !IsQuietNaN(b)) {
- a = kFP64NegativeInfinity;
- } else if (!IsQuietNaN(a) && IsQuietNaN(b)) {
- b = kFP64NegativeInfinity;
- }
-
- T result = FPProcessNaNs(a, b);
- return std::isnan(result) ? result : FPMax(a, b);
-}
-
-template <typename T>
-T Simulator::FPMin(T a, T b) {
- T result = FPProcessNaNs(a, b);
- if (std::isnan(result)) return result;
-
- if ((a == 0.0) && (b == 0.0) && (copysign(1.0, a) != copysign(1.0, b))) {
- // a and b are zero, and the sign differs: return -0.0.
- return -0.0;
- } else {
- return (a < b) ? a : b;
- }
-}
-
-template <typename T>
-T Simulator::FPMinNM(T a, T b) {
- if (IsQuietNaN(a) && !IsQuietNaN(b)) {
- a = kFP64PositiveInfinity;
- } else if (!IsQuietNaN(a) && IsQuietNaN(b)) {
- b = kFP64PositiveInfinity;
- }
-
- T result = FPProcessNaNs(a, b);
- return std::isnan(result) ? result : FPMin(a, b);
-}
-
-template <typename T>
-T Simulator::FPRecipStepFused(T op1, T op2) {
- const T two = 2.0;
- if ((std::isinf(op1) && (op2 == 0.0)) ||
- ((op1 == 0.0) && (std::isinf(op2)))) {
- return two;
- } else if (std::isinf(op1) || std::isinf(op2)) {
- // Return +inf if signs match, otherwise -inf.
- return ((op1 >= 0.0) == (op2 >= 0.0)) ? kFP64PositiveInfinity
- : kFP64NegativeInfinity;
- } else {
- return FusedMultiplyAdd(op1, op2, two);
- }
-}
-
-template <typename T>
-T Simulator::FPRSqrtStepFused(T op1, T op2) {
- const T one_point_five = 1.5;
- const T two = 2.0;
-
- if ((std::isinf(op1) && (op2 == 0.0)) ||
- ((op1 == 0.0) && (std::isinf(op2)))) {
- return one_point_five;
- } else if (std::isinf(op1) || std::isinf(op2)) {
- // Return +inf if signs match, otherwise -inf.
- return ((op1 >= 0.0) == (op2 >= 0.0)) ? kFP64PositiveInfinity
- : kFP64NegativeInfinity;
- } else {
- // The multiply-add-halve operation must be fully fused, so avoid interim
- // rounding by checking which operand can be losslessly divided by two
- // before doing the multiply-add.
- if (std::isnormal(op1 / two)) {
- return FusedMultiplyAdd(op1 / two, op2, one_point_five);
- } else if (std::isnormal(op2 / two)) {
- return FusedMultiplyAdd(op1, op2 / two, one_point_five);
- } else {
- // Neither operand is normal after halving: the result is dominated by
- // the addition term, so just return that.
- return one_point_five;
- }
- }
-}
-
-double Simulator::FPRoundInt(double value, FPRounding round_mode) {
- if ((value == 0.0) || (value == kFP64PositiveInfinity) ||
- (value == kFP64NegativeInfinity)) {
- return value;
- } else if (std::isnan(value)) {
- return FPProcessNaN(value);
- }
-
- double int_result = std::floor(value);
- double error = value - int_result;
- switch (round_mode) {
- case FPTieAway: {
- // Take care of correctly handling the range ]-0.5, -0.0], which must
- // yield -0.0.
- if ((-0.5 < value) && (value < 0.0)) {
- int_result = -0.0;
-
- } else if ((error > 0.5) || ((error == 0.5) && (int_result >= 0.0))) {
- // If the error is greater than 0.5, or is equal to 0.5 and the integer
- // result is positive, round up.
- int_result++;
- }
- break;
- }
- case FPTieEven: {
- // Take care of correctly handling the range [-0.5, -0.0], which must
- // yield -0.0.
- if ((-0.5 <= value) && (value < 0.0)) {
- int_result = -0.0;
-
- // If the error is greater than 0.5, or is equal to 0.5 and the integer
- // result is odd, round up.
- } else if ((error > 0.5) ||
- ((error == 0.5) && (std::fmod(int_result, 2) != 0))) {
- int_result++;
- }
- break;
- }
- case FPZero: {
- // If value>0 then we take floor(value)
- // otherwise, ceil(value).
- if (value < 0) {
- int_result = ceil(value);
- }
- break;
- }
- case FPNegativeInfinity: {
- // We always use floor(value).
- break;
- }
- case FPPositiveInfinity: {
- // Take care of correctly handling the range ]-1.0, -0.0], which must
- // yield -0.0.
- if ((-1.0 < value) && (value < 0.0)) {
- int_result = -0.0;
-
- // If the error is non-zero, round up.
- } else if (error > 0.0) {
- int_result++;
- }
- break;
- }
- default:
- UNIMPLEMENTED();
- }
- return int_result;
-}
-
-int32_t Simulator::FPToInt32(double value, FPRounding rmode) {
- value = FPRoundInt(value, rmode);
- if (value >= kWMaxInt) {
- return kWMaxInt;
- } else if (value < kWMinInt) {
- return kWMinInt;
- }
- return std::isnan(value) ? 0 : static_cast<int32_t>(value);
-}
-
-int64_t Simulator::FPToInt64(double value, FPRounding rmode) {
- value = FPRoundInt(value, rmode);
- if (value >= kXMaxInt) {
- return kXMaxInt;
- } else if (value < kXMinInt) {
- return kXMinInt;
- }
- return std::isnan(value) ? 0 : static_cast<int64_t>(value);
-}
-
-uint32_t Simulator::FPToUInt32(double value, FPRounding rmode) {
- value = FPRoundInt(value, rmode);
- if (value >= kWMaxUInt) {
- return kWMaxUInt;
- } else if (value < 0.0) {
- return 0;
- }
- return std::isnan(value) ? 0 : static_cast<uint32_t>(value);
-}
-
-uint64_t Simulator::FPToUInt64(double value, FPRounding rmode) {
- value = FPRoundInt(value, rmode);
- if (value >= kXMaxUInt) {
- return kXMaxUInt;
- } else if (value < 0.0) {
- return 0;
- }
- return std::isnan(value) ? 0 : static_cast<uint64_t>(value);
-}
-
-#define DEFINE_NEON_FP_VECTOR_OP(FN, OP, PROCNAN) \
- template <typename T> \
- LogicVRegister Simulator::FN(VectorFormat vform, LogicVRegister dst, \
- const LogicVRegister& src1, \
- const LogicVRegister& src2) { \
- dst.ClearForWrite(vform); \
- for (int i = 0; i < LaneCountFromFormat(vform); i++) { \
- T op1 = src1.Float<T>(i); \
- T op2 = src2.Float<T>(i); \
- T result; \
- if (PROCNAN) { \
- result = FPProcessNaNs(op1, op2); \
- if (!std::isnan(result)) { \
- result = OP(op1, op2); \
- } \
- } else { \
- result = OP(op1, op2); \
- } \
- dst.SetFloat(i, result); \
- } \
- return dst; \
- } \
- \
- LogicVRegister Simulator::FN(VectorFormat vform, LogicVRegister dst, \
- const LogicVRegister& src1, \
- const LogicVRegister& src2) { \
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) { \
- FN<float>(vform, dst, src1, src2); \
- } else { \
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize); \
- FN<double>(vform, dst, src1, src2); \
- } \
- return dst; \
- }
-NEON_FP3SAME_LIST(DEFINE_NEON_FP_VECTOR_OP)
-#undef DEFINE_NEON_FP_VECTOR_OP
-
-LogicVRegister Simulator::fnmul(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- LogicVRegister product = fmul(vform, temp, src1, src2);
- return fneg(vform, dst, product);
-}
-
-template <typename T>
-LogicVRegister Simulator::frecps(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- T op1 = -src1.Float<T>(i);
- T op2 = src2.Float<T>(i);
- T result = FPProcessNaNs(op1, op2);
- dst.SetFloat(i, std::isnan(result) ? result : FPRecipStepFused(op1, op2));
- }
- return dst;
-}
-
-LogicVRegister Simulator::frecps(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- frecps<float>(vform, dst, src1, src2);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- frecps<double>(vform, dst, src1, src2);
- }
- return dst;
-}
-
-template <typename T>
-LogicVRegister Simulator::frsqrts(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- T op1 = -src1.Float<T>(i);
- T op2 = src2.Float<T>(i);
- T result = FPProcessNaNs(op1, op2);
- dst.SetFloat(i, std::isnan(result) ? result : FPRSqrtStepFused(op1, op2));
- }
- return dst;
-}
-
-LogicVRegister Simulator::frsqrts(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- frsqrts<float>(vform, dst, src1, src2);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- frsqrts<double>(vform, dst, src1, src2);
- }
- return dst;
-}
-
-template <typename T>
-LogicVRegister Simulator::fcmp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, Condition cond) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- bool result = false;
- T op1 = src1.Float<T>(i);
- T op2 = src2.Float<T>(i);
- T nan_result = FPProcessNaNs(op1, op2);
- if (!std::isnan(nan_result)) {
- switch (cond) {
- case eq:
- result = (op1 == op2);
- break;
- case ge:
- result = (op1 >= op2);
- break;
- case gt:
- result = (op1 > op2);
- break;
- case le:
- result = (op1 <= op2);
- break;
- case lt:
- result = (op1 < op2);
- break;
- default:
- UNREACHABLE();
- break;
- }
- }
- dst.SetUint(vform, i, result ? MaxUintFromFormat(vform) : 0);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcmp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, Condition cond) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- fcmp<float>(vform, dst, src1, src2, cond);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- fcmp<double>(vform, dst, src1, src2, cond);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcmp_zero(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, Condition cond) {
- SimVRegister temp;
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- LogicVRegister zero_reg =
- dup_immediate(vform, temp, bit_cast<uint32_t>(0.0f));
- fcmp<float>(vform, dst, src, zero_reg, cond);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- LogicVRegister zero_reg =
- dup_immediate(vform, temp, bit_cast<uint64_t>(0.0));
- fcmp<double>(vform, dst, src, zero_reg, cond);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fabscmp(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, Condition cond) {
- SimVRegister temp1, temp2;
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- LogicVRegister abs_src1 = fabs_<float>(vform, temp1, src1);
- LogicVRegister abs_src2 = fabs_<float>(vform, temp2, src2);
- fcmp<float>(vform, dst, abs_src1, abs_src2, cond);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- LogicVRegister abs_src1 = fabs_<double>(vform, temp1, src1);
- LogicVRegister abs_src2 = fabs_<double>(vform, temp2, src2);
- fcmp<double>(vform, dst, abs_src1, abs_src2, cond);
- }
- return dst;
-}
-
-template <typename T>
-LogicVRegister Simulator::fmla(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- T op1 = src1.Float<T>(i);
- T op2 = src2.Float<T>(i);
- T acc = dst.Float<T>(i);
- T result = FPMulAdd(acc, op1, op2);
- dst.SetFloat(i, result);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fmla(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- fmla<float>(vform, dst, src1, src2);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- fmla<double>(vform, dst, src1, src2);
- }
- return dst;
-}
-
-template <typename T>
-LogicVRegister Simulator::fmls(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- T op1 = -src1.Float<T>(i);
- T op2 = src2.Float<T>(i);
- T acc = dst.Float<T>(i);
- T result = FPMulAdd(acc, op1, op2);
- dst.SetFloat(i, result);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fmls(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- fmls<float>(vform, dst, src1, src2);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- fmls<double>(vform, dst, src1, src2);
- }
- return dst;
-}
-
-template <typename T>
-LogicVRegister Simulator::fneg(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- T op = src.Float<T>(i);
- op = -op;
- dst.SetFloat(i, op);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fneg(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- fneg<float>(vform, dst, src);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- fneg<double>(vform, dst, src);
- }
- return dst;
-}
-
-template <typename T>
-LogicVRegister Simulator::fabs_(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- T op = src.Float<T>(i);
- if (copysign(1.0, op) < 0.0) {
- op = -op;
- }
- dst.SetFloat(i, op);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fabs_(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- fabs_<float>(vform, dst, src);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- fabs_<double>(vform, dst, src);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fabd(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2) {
- SimVRegister temp;
- fsub(vform, temp, src1, src2);
- fabs_(vform, dst, temp);
- return dst;
-}
-
-LogicVRegister Simulator::fsqrt(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- float result = FPSqrt(src.Float<float>(i));
- dst.SetFloat(i, result);
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- double result = FPSqrt(src.Float<double>(i));
- dst.SetFloat(i, result);
- }
- }
- return dst;
-}
-
-#define DEFINE_NEON_FP_PAIR_OP(FNP, FN, OP) \
- LogicVRegister Simulator::FNP(VectorFormat vform, LogicVRegister dst, \
- const LogicVRegister& src1, \
- const LogicVRegister& src2) { \
- SimVRegister temp1, temp2; \
- uzp1(vform, temp1, src1, src2); \
- uzp2(vform, temp2, src1, src2); \
- FN(vform, dst, temp1, temp2); \
- return dst; \
- } \
- \
- LogicVRegister Simulator::FNP(VectorFormat vform, LogicVRegister dst, \
- const LogicVRegister& src) { \
- if (vform == kFormatS) { \
- float result = OP(src.Float<float>(0), src.Float<float>(1)); \
- dst.SetFloat(0, result); \
- } else { \
- DCHECK_EQ(vform, kFormatD); \
- double result = OP(src.Float<double>(0), src.Float<double>(1)); \
- dst.SetFloat(0, result); \
- } \
- dst.ClearForWrite(vform); \
- return dst; \
- }
-NEON_FPPAIRWISE_LIST(DEFINE_NEON_FP_PAIR_OP)
-#undef DEFINE_NEON_FP_PAIR_OP
-
-LogicVRegister Simulator::FMinMaxV(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, FPMinMaxOp Op) {
- DCHECK_EQ(vform, kFormat4S);
- USE(vform);
- float result1 = (this->*Op)(src.Float<float>(0), src.Float<float>(1));
- float result2 = (this->*Op)(src.Float<float>(2), src.Float<float>(3));
- float result = (this->*Op)(result1, result2);
- dst.ClearForWrite(kFormatS);
- dst.SetFloat<float>(0, result);
- return dst;
-}
-
-LogicVRegister Simulator::fmaxv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return FMinMaxV(vform, dst, src, &Simulator::FPMax);
-}
-
-LogicVRegister Simulator::fminv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return FMinMaxV(vform, dst, src, &Simulator::FPMin);
-}
-
-LogicVRegister Simulator::fmaxnmv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return FMinMaxV(vform, dst, src, &Simulator::FPMaxNM);
-}
-
-LogicVRegister Simulator::fminnmv(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- return FMinMaxV(vform, dst, src, &Simulator::FPMinNM);
-}
-
-LogicVRegister Simulator::fmul(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- dst.ClearForWrite(vform);
- SimVRegister temp;
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- LogicVRegister index_reg = dup_element(kFormat4S, temp, src2, index);
- fmul<float>(vform, dst, src1, index_reg);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- LogicVRegister index_reg = dup_element(kFormat2D, temp, src2, index);
- fmul<double>(vform, dst, src1, index_reg);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fmla(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- dst.ClearForWrite(vform);
- SimVRegister temp;
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- LogicVRegister index_reg = dup_element(kFormat4S, temp, src2, index);
- fmla<float>(vform, dst, src1, index_reg);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- LogicVRegister index_reg = dup_element(kFormat2D, temp, src2, index);
- fmla<double>(vform, dst, src1, index_reg);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fmls(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- dst.ClearForWrite(vform);
- SimVRegister temp;
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- LogicVRegister index_reg = dup_element(kFormat4S, temp, src2, index);
- fmls<float>(vform, dst, src1, index_reg);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- LogicVRegister index_reg = dup_element(kFormat2D, temp, src2, index);
- fmls<double>(vform, dst, src1, index_reg);
- }
- return dst;
-}
-
-LogicVRegister Simulator::fmulx(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src1,
- const LogicVRegister& src2, int index) {
- dst.ClearForWrite(vform);
- SimVRegister temp;
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- LogicVRegister index_reg = dup_element(kFormat4S, temp, src2, index);
- fmulx<float>(vform, dst, src1, index_reg);
-
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- LogicVRegister index_reg = dup_element(kFormat2D, temp, src2, index);
- fmulx<double>(vform, dst, src1, index_reg);
- }
- return dst;
-}
-
-LogicVRegister Simulator::frint(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src,
- FPRounding rounding_mode,
- bool inexact_exception) {
- dst.ClearForWrite(vform);
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- float input = src.Float<float>(i);
- float rounded = FPRoundInt(input, rounding_mode);
- if (inexact_exception && !std::isnan(input) && (input != rounded)) {
- FPProcessException();
- }
- dst.SetFloat<float>(i, rounded);
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- double input = src.Float<double>(i);
- double rounded = FPRoundInt(input, rounding_mode);
- if (inexact_exception && !std::isnan(input) && (input != rounded)) {
- FPProcessException();
- }
- dst.SetFloat<double>(i, rounded);
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcvts(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src,
- FPRounding rounding_mode, int fbits) {
- dst.ClearForWrite(vform);
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- float op = src.Float<float>(i) * std::pow(2.0f, fbits);
- dst.SetInt(vform, i, FPToInt32(op, rounding_mode));
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- double op = src.Float<double>(i) * std::pow(2.0, fbits);
- dst.SetInt(vform, i, FPToInt64(op, rounding_mode));
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcvtu(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src,
- FPRounding rounding_mode, int fbits) {
- dst.ClearForWrite(vform);
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- float op = src.Float<float>(i) * std::pow(2.0f, fbits);
- dst.SetUint(vform, i, FPToUInt32(op, rounding_mode));
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- double op = src.Float<double>(i) * std::pow(2.0, fbits);
- dst.SetUint(vform, i, FPToUInt64(op, rounding_mode));
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcvtl(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- for (int i = LaneCountFromFormat(vform) - 1; i >= 0; i--) {
- dst.SetFloat(i, FPToFloat(src.Float<float16>(i)));
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- for (int i = LaneCountFromFormat(vform) - 1; i >= 0; i--) {
- dst.SetFloat(i, FPToDouble(src.Float<float>(i)));
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcvtl2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- int lane_count = LaneCountFromFormat(vform);
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- for (int i = 0; i < lane_count; i++) {
- dst.SetFloat(i, FPToFloat(src.Float<float16>(i + lane_count)));
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- for (int i = 0; i < lane_count; i++) {
- dst.SetFloat(i, FPToDouble(src.Float<float>(i + lane_count)));
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcvtn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- if (LaneSizeInBytesFromFormat(vform) == kHRegSize) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetFloat(i, FPToFloat16(src.Float<float>(i), FPTieEven));
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kSRegSize);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetFloat(i, FPToFloat(src.Float<double>(i), FPTieEven));
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcvtn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- int lane_count = LaneCountFromFormat(vform) / 2;
- if (LaneSizeInBytesFromFormat(vform) == kHRegSize) {
- for (int i = lane_count - 1; i >= 0; i--) {
- dst.SetFloat(i + lane_count, FPToFloat16(src.Float<float>(i), FPTieEven));
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kSRegSize);
- for (int i = lane_count - 1; i >= 0; i--) {
- dst.SetFloat(i + lane_count, FPToFloat(src.Float<double>(i), FPTieEven));
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcvtxn(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kSRegSize);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- dst.SetFloat(i, FPToFloat(src.Float<double>(i), FPRoundOdd));
- }
- return dst;
-}
-
-LogicVRegister Simulator::fcvtxn2(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kSRegSize);
- int lane_count = LaneCountFromFormat(vform) / 2;
- for (int i = lane_count - 1; i >= 0; i--) {
- dst.SetFloat(i + lane_count, FPToFloat(src.Float<double>(i), FPRoundOdd));
- }
- return dst;
-}
-
-// Based on reference C function recip_sqrt_estimate from ARM ARM.
-double Simulator::recip_sqrt_estimate(double a) {
- int q0, q1, s;
- double r;
- if (a < 0.5) {
- q0 = static_cast<int>(a * 512.0);
- r = 1.0 / sqrt((static_cast<double>(q0) + 0.5) / 512.0);
- } else {
- q1 = static_cast<int>(a * 256.0);
- r = 1.0 / sqrt((static_cast<double>(q1) + 0.5) / 256.0);
- }
- s = static_cast<int>(256.0 * r + 0.5);
- return static_cast<double>(s) / 256.0;
-}
-
-namespace {
-
-inline uint64_t Bits(uint64_t val, int start_bit, int end_bit) {
- return unsigned_bitextract_64(start_bit, end_bit, val);
-}
-
-} // anonymous namespace
-
-template <typename T>
-T Simulator::FPRecipSqrtEstimate(T op) {
- static_assert(std::is_same<float, T>::value || std::is_same<double, T>::value,
- "T must be a float or double");
-
- if (std::isnan(op)) {
- return FPProcessNaN(op);
- } else if (op == 0.0) {
- if (copysign(1.0, op) < 0.0) {
- return kFP64NegativeInfinity;
- } else {
- return kFP64PositiveInfinity;
- }
- } else if (copysign(1.0, op) < 0.0) {
- FPProcessException();
- return FPDefaultNaN<T>();
- } else if (std::isinf(op)) {
- return 0.0;
- } else {
- uint64_t fraction;
- int32_t exp, result_exp;
-
- if (sizeof(T) == sizeof(float)) {
- exp = static_cast<int32_t>(float_exp(op));
- fraction = float_mantissa(op);
- fraction <<= 29;
- } else {
- exp = static_cast<int32_t>(double_exp(op));
- fraction = double_mantissa(op);
- }
-
- if (exp == 0) {
- while (Bits(fraction, 51, 51) == 0) {
- fraction = Bits(fraction, 50, 0) << 1;
- exp -= 1;
- }
- fraction = Bits(fraction, 50, 0) << 1;
- }
-
- double scaled;
- if (Bits(exp, 0, 0) == 0) {
- scaled = double_pack(0, 1022, Bits(fraction, 51, 44) << 44);
- } else {
- scaled = double_pack(0, 1021, Bits(fraction, 51, 44) << 44);
- }
-
- if (sizeof(T) == sizeof(float)) {
- result_exp = (380 - exp) / 2;
- } else {
- result_exp = (3068 - exp) / 2;
- }
-
- uint64_t estimate = bit_cast<uint64_t>(recip_sqrt_estimate(scaled));
-
- if (sizeof(T) == sizeof(float)) {
- uint32_t exp_bits = static_cast<uint32_t>(Bits(result_exp, 7, 0));
- uint32_t est_bits = static_cast<uint32_t>(Bits(estimate, 51, 29));
- return float_pack(0, exp_bits, est_bits);
- } else {
- return double_pack(0, Bits(result_exp, 10, 0), Bits(estimate, 51, 0));
- }
- }
-}
-
-LogicVRegister Simulator::frsqrte(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- float input = src.Float<float>(i);
- dst.SetFloat(i, FPRecipSqrtEstimate<float>(input));
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- double input = src.Float<double>(i);
- dst.SetFloat(i, FPRecipSqrtEstimate<double>(input));
- }
- }
- return dst;
-}
-
-template <typename T>
-T Simulator::FPRecipEstimate(T op, FPRounding rounding) {
- static_assert(std::is_same<float, T>::value || std::is_same<double, T>::value,
- "T must be a float or double");
- uint32_t sign;
-
- if (sizeof(T) == sizeof(float)) {
- sign = float_sign(op);
- } else {
- sign = double_sign(op);
- }
-
- if (std::isnan(op)) {
- return FPProcessNaN(op);
- } else if (std::isinf(op)) {
- return (sign == 1) ? -0.0 : 0.0;
- } else if (op == 0.0) {
- FPProcessException(); // FPExc_DivideByZero exception.
- return (sign == 1) ? kFP64NegativeInfinity : kFP64PositiveInfinity;
- } else if (((sizeof(T) == sizeof(float)) &&
- (std::fabs(op) < std::pow(2.0, -128.0))) ||
- ((sizeof(T) == sizeof(double)) &&
- (std::fabs(op) < std::pow(2.0, -1024.0)))) {
- bool overflow_to_inf = false;
- switch (rounding) {
- case FPTieEven:
- overflow_to_inf = true;
- break;
- case FPPositiveInfinity:
- overflow_to_inf = (sign == 0);
- break;
- case FPNegativeInfinity:
- overflow_to_inf = (sign == 1);
- break;
- case FPZero:
- overflow_to_inf = false;
- break;
- default:
- break;
- }
- FPProcessException(); // FPExc_Overflow and FPExc_Inexact.
- if (overflow_to_inf) {
- return (sign == 1) ? kFP64NegativeInfinity : kFP64PositiveInfinity;
- } else {
- // Return FPMaxNormal(sign).
- if (sizeof(T) == sizeof(float)) {
- return float_pack(sign, 0xfe, 0x07fffff);
- } else {
- return double_pack(sign, 0x7fe, 0x0fffffffffffffl);
- }
- }
- } else {
- uint64_t fraction;
- int32_t exp, result_exp;
- uint32_t sign;
-
- if (sizeof(T) == sizeof(float)) {
- sign = float_sign(op);
- exp = static_cast<int32_t>(float_exp(op));
- fraction = float_mantissa(op);
- fraction <<= 29;
- } else {
- sign = double_sign(op);
- exp = static_cast<int32_t>(double_exp(op));
- fraction = double_mantissa(op);
- }
-
- if (exp == 0) {
- if (Bits(fraction, 51, 51) == 0) {
- exp -= 1;
- fraction = Bits(fraction, 49, 0) << 2;
- } else {
- fraction = Bits(fraction, 50, 0) << 1;
- }
- }
-
- double scaled = double_pack(0, 1022, Bits(fraction, 51, 44) << 44);
-
- if (sizeof(T) == sizeof(float)) {
- result_exp = 253 - exp;
- } else {
- result_exp = 2045 - exp;
- }
-
- double estimate = recip_estimate(scaled);
-
- fraction = double_mantissa(estimate);
- if (result_exp == 0) {
- fraction = (UINT64_C(1) << 51) | Bits(fraction, 51, 1);
- } else if (result_exp == -1) {
- fraction = (UINT64_C(1) << 50) | Bits(fraction, 51, 2);
- result_exp = 0;
- }
- if (sizeof(T) == sizeof(float)) {
- uint32_t exp_bits = static_cast<uint32_t>(Bits(result_exp, 7, 0));
- uint32_t frac_bits = static_cast<uint32_t>(Bits(fraction, 51, 29));
- return float_pack(sign, exp_bits, frac_bits);
- } else {
- return double_pack(sign, Bits(result_exp, 10, 0), Bits(fraction, 51, 0));
- }
- }
-}
-
-LogicVRegister Simulator::frecpe(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, FPRounding round) {
- dst.ClearForWrite(vform);
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- float input = src.Float<float>(i);
- dst.SetFloat(i, FPRecipEstimate<float>(input, round));
- }
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- double input = src.Float<double>(i);
- dst.SetFloat(i, FPRecipEstimate<double>(input, round));
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::ursqrte(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- uint64_t operand;
- uint32_t result;
- double dp_operand, dp_result;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- operand = src.Uint(vform, i);
- if (operand <= 0x3FFFFFFF) {
- result = 0xFFFFFFFF;
- } else {
- dp_operand = operand * std::pow(2.0, -32);
- dp_result = recip_sqrt_estimate(dp_operand) * std::pow(2.0, 31);
- result = static_cast<uint32_t>(dp_result);
- }
- dst.SetUint(vform, i, result);
- }
- return dst;
-}
-
-// Based on reference C function recip_estimate from ARM ARM.
-double Simulator::recip_estimate(double a) {
- int q, s;
- double r;
- q = static_cast<int>(a * 512.0);
- r = 1.0 / ((static_cast<double>(q) + 0.5) / 512.0);
- s = static_cast<int>(256.0 * r + 0.5);
- return static_cast<double>(s) / 256.0;
-}
-
-LogicVRegister Simulator::urecpe(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- uint64_t operand;
- uint32_t result;
- double dp_operand, dp_result;
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- operand = src.Uint(vform, i);
- if (operand <= 0x7FFFFFFF) {
- result = 0xFFFFFFFF;
- } else {
- dp_operand = operand * std::pow(2.0, -32);
- dp_result = recip_estimate(dp_operand) * std::pow(2.0, 31);
- result = static_cast<uint32_t>(dp_result);
- }
- dst.SetUint(vform, i, result);
- }
- return dst;
-}
-
-template <typename T>
-LogicVRegister Simulator::frecpx(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- dst.ClearForWrite(vform);
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- T op = src.Float<T>(i);
- T result;
- if (std::isnan(op)) {
- result = FPProcessNaN(op);
- } else {
- int exp;
- uint32_t sign;
- if (sizeof(T) == sizeof(float)) {
- sign = float_sign(op);
- exp = static_cast<int>(float_exp(op));
- exp = (exp == 0) ? (0xFF - 1) : static_cast<int>(Bits(~exp, 7, 0));
- result = float_pack(sign, exp, 0);
- } else {
- sign = double_sign(op);
- exp = static_cast<int>(double_exp(op));
- exp = (exp == 0) ? (0x7FF - 1) : static_cast<int>(Bits(~exp, 10, 0));
- result = double_pack(sign, exp, 0);
- }
- }
- dst.SetFloat(i, result);
- }
- return dst;
-}
-
-LogicVRegister Simulator::frecpx(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- frecpx<float>(vform, dst, src);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- frecpx<double>(vform, dst, src);
- }
- return dst;
-}
-
-LogicVRegister Simulator::scvtf(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int fbits,
- FPRounding round) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- float result = FixedToFloat(src.Int(kFormatS, i), fbits, round);
- dst.SetFloat<float>(i, result);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- double result = FixedToDouble(src.Int(kFormatD, i), fbits, round);
- dst.SetFloat<double>(i, result);
- }
- }
- return dst;
-}
-
-LogicVRegister Simulator::ucvtf(VectorFormat vform, LogicVRegister dst,
- const LogicVRegister& src, int fbits,
- FPRounding round) {
- for (int i = 0; i < LaneCountFromFormat(vform); i++) {
- if (LaneSizeInBytesFromFormat(vform) == kSRegSize) {
- float result = UFixedToFloat(src.Uint(kFormatS, i), fbits, round);
- dst.SetFloat<float>(i, result);
- } else {
- DCHECK_EQ(LaneSizeInBytesFromFormat(vform), kDRegSize);
- double result = UFixedToDouble(src.Uint(kFormatD, i), fbits, round);
- dst.SetFloat<double>(i, result);
- }
- }
- return dst;
-}
-
-#endif // USE_SIMULATOR
-
-} // namespace internal
-} // namespace v8
-
-#endif // V8_TARGET_ARCH_ARM64
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