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// Copyright 2021 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include <stddef.h>
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#include <stdint.h>
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#include "src/base/macros.h"
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#include "src/wasm/compilation-environment.h"
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#include "src/wasm/wasm-opcodes.h"
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#include "test/cctest/wasm/wasm-run-utils.h"
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#include "test/common/wasm/wasm-macro-gen.h"
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namespace v8 {
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namespace internal {
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namespace wasm {
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using Int8UnOp = int8_t (*)(int8_t);
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using Int8BinOp = int8_t (*)(int8_t, int8_t);
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using Uint8BinOp = uint8_t (*)(uint8_t, uint8_t);
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using Int8CompareOp = int (*)(int8_t, int8_t);
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using Int8ShiftOp = int8_t (*)(int8_t, int);
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using Int16UnOp = int16_t (*)(int16_t);
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using Int16BinOp = int16_t (*)(int16_t, int16_t);
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using Uint16BinOp = uint16_t (*)(uint16_t, uint16_t);
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using Int16ShiftOp = int16_t (*)(int16_t, int);
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using Int32UnOp = int32_t (*)(int32_t);
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using Int32BinOp = int32_t (*)(int32_t, int32_t);
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using Int32ShiftOp = int32_t (*)(int32_t, int);
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using Int64UnOp = int64_t (*)(int64_t);
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using Int64BinOp = int64_t (*)(int64_t, int64_t);
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using Int64ShiftOp = int64_t (*)(int64_t, int);
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using FloatUnOp = float (*)(float);
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using FloatBinOp = float (*)(float, float);
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using FloatCompareOp = int32_t (*)(float, float);
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using DoubleUnOp = double (*)(double);
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using DoubleBinOp = double (*)(double, double);
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using DoubleCompareOp = int64_t (*)(double, double);
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void RunI8x16UnOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int8UnOp expected_op);
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template <typename T = int8_t, typename OpType = T (*)(T, T)>
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void RunI8x16BinOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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OpType expected_op);
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void RunI8x16ShiftOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int8ShiftOp expected_op);
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void RunI8x16MixedRelationalOpTest(TestExecutionTier execution_tier,
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WasmOpcode opcode, Int8BinOp expected_op);
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void RunI16x8UnOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int16UnOp expected_op);
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template <typename T = int16_t, typename OpType = T (*)(T, T)>
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void RunI16x8BinOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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OpType expected_op);
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void RunI16x8ShiftOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int16ShiftOp expected_op);
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void RunI16x8MixedRelationalOpTest(TestExecutionTier execution_tier,
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WasmOpcode opcode, Int16BinOp expected_op);
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void RunI32x4UnOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int32UnOp expected_op);
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void RunI32x4BinOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int32BinOp expected_op);
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void RunI32x4ShiftOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int32ShiftOp expected_op);
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void RunI64x2UnOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int64UnOp expected_op);
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void RunI64x2BinOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int64BinOp expected_op);
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void RunI64x2ShiftOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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Int64ShiftOp expected_op);
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2021-03-26 16:52:13 +00:00
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// Generic expected value functions.
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template <typename T, typename = typename std::enable_if<
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std::is_floating_point<T>::value>::type>
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T Negate(T a) {
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return -a;
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}
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#if V8_OS_AIX
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template <typename T>
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bool MightReverseSign(T float_op) {
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return float_op == static_cast<T>(Negate) ||
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float_op == static_cast<T>(std::abs);
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}
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#endif
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// Test some values not included in the float inputs from value_helper. These
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// tests are useful for opcodes that are synthesized during code gen, like Min
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// and Max on ia32 and x64.
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static constexpr uint32_t nan_test_array[] = {
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// Bit patterns of quiet NaNs and signaling NaNs, with or without
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// additional payload.
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0x7FC00000, 0xFFC00000, 0x7FFFFFFF, 0xFFFFFFFF, 0x7F876543, 0xFF876543,
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// NaN with top payload bit unset.
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0x7FA00000,
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// Both Infinities.
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0x7F800000, 0xFF800000,
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// Some "normal" numbers, 1 and -1.
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0x3F800000, 0xBF800000};
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#define FOR_FLOAT32_NAN_INPUTS(i) \
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for (size_t i = 0; i < arraysize(nan_test_array); ++i)
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// Test some values not included in the double inputs from value_helper. These
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// tests are useful for opcodes that are synthesized during code gen, like Min
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// and Max on ia32 and x64.
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static constexpr uint64_t double_nan_test_array[] = {
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// quiet NaNs, + and -
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0x7FF8000000000001, 0xFFF8000000000001,
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// with payload
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0x7FF8000000000011, 0xFFF8000000000011,
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// signaling NaNs, + and -
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0x7FF0000000000001, 0xFFF0000000000001,
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// with payload
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0x7FF0000000000011, 0xFFF0000000000011,
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// Both Infinities.
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0x7FF0000000000000, 0xFFF0000000000000,
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// Some "normal" numbers, 1 and -1.
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0x3FF0000000000000, 0xBFF0000000000000};
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#define FOR_FLOAT64_NAN_INPUTS(i) \
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for (size_t i = 0; i < arraysize(double_nan_test_array); ++i)
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// Returns true if the platform can represent the result.
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template <typename T>
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bool PlatformCanRepresent(T x) {
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#if V8_TARGET_ARCH_ARM
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return std::fpclassify(x) != FP_SUBNORMAL;
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#else
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return true;
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#endif
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}
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// Returns true for very small and very large numbers. We skip these test
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// values for the approximation instructions, which don't work at the extremes.
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bool IsExtreme(float x);
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bool IsSameNan(float expected, float actual);
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bool IsCanonical(float actual);
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void CheckFloatResult(float x, float y, float expected, float actual,
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bool exact = true);
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bool IsExtreme(double x);
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bool IsSameNan(double expected, double actual);
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bool IsCanonical(double actual);
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void CheckDoubleResult(double x, double y, double expected, double actual,
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bool exact = true);
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void RunF32x4UnOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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FloatUnOp expected_op, bool exact = true);
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void RunF32x4BinOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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FloatBinOp expected_op);
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void RunF32x4CompareOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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FloatCompareOp expected_op);
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void RunF64x2UnOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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DoubleUnOp expected_op, bool exact = true);
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void RunF64x2BinOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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DoubleBinOp expected_op);
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void RunF64x2CompareOpTest(TestExecutionTier execution_tier, WasmOpcode opcode,
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DoubleCompareOp expected_op);
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} // namespace wasm
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} // namespace internal
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} // namespace v8
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