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Mypal/js/src/builtin/SIMD.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef builtin_SIMD_h
#define builtin_SIMD_h
#include "jsapi.h"
#include "NamespaceImports.h"
#include "builtin/TypedObjectConstants.h"
#include "jit/IonTypes.h"
#include "js/Conversions.h"
/*
* JS SIMD functions.
* Spec matching polyfill:
* https://github.com/tc39/ecmascript_simd/blob/master/src/ecmascript_simd.js
*/
// Bool8x16.
#define BOOL8X16_UNARY_FUNCTION_LIST(V) \
V(not, (UnaryFunc<Bool8x16, LogicalNot, Bool8x16>), 1) \
V(check, (UnaryFunc<Bool8x16, Identity, Bool8x16>), 1) \
V(splat, (FuncSplat<Bool8x16>), 1) \
V(allTrue, (AllTrue<Bool8x16>), 1) \
V(anyTrue, (AnyTrue<Bool8x16>), 1)
#define BOOL8X16_BINARY_FUNCTION_LIST(V) \
V(extractLane, (ExtractLane<Bool8x16>), 2) \
V(and, (BinaryFunc<Bool8x16, And, Bool8x16>), 2) \
V(or, (BinaryFunc<Bool8x16, Or, Bool8x16>), 2) \
V(xor, (BinaryFunc<Bool8x16, Xor, Bool8x16>), 2) \
#define BOOL8X16_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Bool8x16>), 3)
#define BOOL8X16_FUNCTION_LIST(V) \
BOOL8X16_UNARY_FUNCTION_LIST(V) \
BOOL8X16_BINARY_FUNCTION_LIST(V) \
BOOL8X16_TERNARY_FUNCTION_LIST(V)
// Bool 16x8.
#define BOOL16X8_UNARY_FUNCTION_LIST(V) \
V(not, (UnaryFunc<Bool16x8, LogicalNot, Bool16x8>), 1) \
V(check, (UnaryFunc<Bool16x8, Identity, Bool16x8>), 1) \
V(splat, (FuncSplat<Bool16x8>), 1) \
V(allTrue, (AllTrue<Bool16x8>), 1) \
V(anyTrue, (AnyTrue<Bool16x8>), 1)
#define BOOL16X8_BINARY_FUNCTION_LIST(V) \
V(extractLane, (ExtractLane<Bool16x8>), 2) \
V(and, (BinaryFunc<Bool16x8, And, Bool16x8>), 2) \
V(or, (BinaryFunc<Bool16x8, Or, Bool16x8>), 2) \
V(xor, (BinaryFunc<Bool16x8, Xor, Bool16x8>), 2) \
#define BOOL16X8_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Bool16x8>), 3)
#define BOOL16X8_FUNCTION_LIST(V) \
BOOL16X8_UNARY_FUNCTION_LIST(V) \
BOOL16X8_BINARY_FUNCTION_LIST(V) \
BOOL16X8_TERNARY_FUNCTION_LIST(V)
// Bool32x4.
#define BOOL32X4_UNARY_FUNCTION_LIST(V) \
V(not, (UnaryFunc<Bool32x4, LogicalNot, Bool32x4>), 1) \
V(check, (UnaryFunc<Bool32x4, Identity, Bool32x4>), 1) \
V(splat, (FuncSplat<Bool32x4>), 1) \
V(allTrue, (AllTrue<Bool32x4>), 1) \
V(anyTrue, (AnyTrue<Bool32x4>), 1)
#define BOOL32X4_BINARY_FUNCTION_LIST(V) \
V(extractLane, (ExtractLane<Bool32x4>), 2) \
V(and, (BinaryFunc<Bool32x4, And, Bool32x4>), 2) \
V(or, (BinaryFunc<Bool32x4, Or, Bool32x4>), 2) \
V(xor, (BinaryFunc<Bool32x4, Xor, Bool32x4>), 2) \
#define BOOL32X4_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Bool32x4>), 3)
#define BOOL32X4_FUNCTION_LIST(V) \
BOOL32X4_UNARY_FUNCTION_LIST(V) \
BOOL32X4_BINARY_FUNCTION_LIST(V) \
BOOL32X4_TERNARY_FUNCTION_LIST(V)
// Bool64x2.
#define BOOL64X2_UNARY_FUNCTION_LIST(V) \
V(not, (UnaryFunc<Bool64x2, LogicalNot, Bool64x2>), 1) \
V(check, (UnaryFunc<Bool64x2, Identity, Bool64x2>), 1) \
V(splat, (FuncSplat<Bool64x2>), 1) \
V(allTrue, (AllTrue<Bool64x2>), 1) \
V(anyTrue, (AnyTrue<Bool64x2>), 1)
#define BOOL64X2_BINARY_FUNCTION_LIST(V) \
V(extractLane, (ExtractLane<Bool64x2>), 2) \
V(and, (BinaryFunc<Bool64x2, And, Bool64x2>), 2) \
V(or, (BinaryFunc<Bool64x2, Or, Bool64x2>), 2) \
V(xor, (BinaryFunc<Bool64x2, Xor, Bool64x2>), 2) \
#define BOOL64X2_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Bool64x2>), 3)
#define BOOL64X2_FUNCTION_LIST(V) \
BOOL64X2_UNARY_FUNCTION_LIST(V) \
BOOL64X2_BINARY_FUNCTION_LIST(V) \
BOOL64X2_TERNARY_FUNCTION_LIST(V)
// Float32x4.
#define FLOAT32X4_UNARY_FUNCTION_LIST(V) \
V(abs, (UnaryFunc<Float32x4, Abs, Float32x4>), 1) \
V(check, (UnaryFunc<Float32x4, Identity, Float32x4>), 1) \
V(fromFloat64x2Bits, (FuncConvertBits<Float64x2, Float32x4>), 1) \
V(fromInt8x16Bits, (FuncConvertBits<Int8x16, Float32x4>), 1) \
V(fromInt16x8Bits, (FuncConvertBits<Int16x8, Float32x4>), 1) \
V(fromInt32x4, (FuncConvert<Int32x4, Float32x4>), 1) \
V(fromInt32x4Bits, (FuncConvertBits<Int32x4, Float32x4>), 1) \
V(fromUint8x16Bits, (FuncConvertBits<Uint8x16, Float32x4>), 1) \
V(fromUint16x8Bits, (FuncConvertBits<Uint16x8, Float32x4>), 1) \
V(fromUint32x4, (FuncConvert<Uint32x4, Float32x4>), 1) \
V(fromUint32x4Bits, (FuncConvertBits<Uint32x4, Float32x4>), 1) \
V(neg, (UnaryFunc<Float32x4, Neg, Float32x4>), 1) \
V(reciprocalApproximation, (UnaryFunc<Float32x4, RecApprox, Float32x4>), 1) \
V(reciprocalSqrtApproximation, (UnaryFunc<Float32x4, RecSqrtApprox, Float32x4>), 1) \
V(splat, (FuncSplat<Float32x4>), 1) \
V(sqrt, (UnaryFunc<Float32x4, Sqrt, Float32x4>), 1)
#define FLOAT32X4_BINARY_FUNCTION_LIST(V) \
V(add, (BinaryFunc<Float32x4, Add, Float32x4>), 2) \
V(div, (BinaryFunc<Float32x4, Div, Float32x4>), 2) \
V(equal, (CompareFunc<Float32x4, Equal, Bool32x4>), 2) \
V(extractLane, (ExtractLane<Float32x4>), 2) \
V(greaterThan, (CompareFunc<Float32x4, GreaterThan, Bool32x4>), 2) \
V(greaterThanOrEqual, (CompareFunc<Float32x4, GreaterThanOrEqual, Bool32x4>), 2) \
V(lessThan, (CompareFunc<Float32x4, LessThan, Bool32x4>), 2) \
V(lessThanOrEqual, (CompareFunc<Float32x4, LessThanOrEqual, Bool32x4>), 2) \
V(load, (Load<Float32x4, 4>), 2) \
V(load3, (Load<Float32x4, 3>), 2) \
V(load2, (Load<Float32x4, 2>), 2) \
V(load1, (Load<Float32x4, 1>), 2) \
V(max, (BinaryFunc<Float32x4, Maximum, Float32x4>), 2) \
V(maxNum, (BinaryFunc<Float32x4, MaxNum, Float32x4>), 2) \
V(min, (BinaryFunc<Float32x4, Minimum, Float32x4>), 2) \
V(minNum, (BinaryFunc<Float32x4, MinNum, Float32x4>), 2) \
V(mul, (BinaryFunc<Float32x4, Mul, Float32x4>), 2) \
V(notEqual, (CompareFunc<Float32x4, NotEqual, Bool32x4>), 2) \
V(sub, (BinaryFunc<Float32x4, Sub, Float32x4>), 2)
#define FLOAT32X4_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Float32x4>), 3) \
V(select, (Select<Float32x4, Bool32x4>), 3) \
V(store, (Store<Float32x4, 4>), 3) \
V(store3, (Store<Float32x4, 3>), 3) \
V(store2, (Store<Float32x4, 2>), 3) \
V(store1, (Store<Float32x4, 1>), 3)
#define FLOAT32X4_SHUFFLE_FUNCTION_LIST(V) \
V(swizzle, Swizzle<Float32x4>, 5) \
V(shuffle, Shuffle<Float32x4>, 6)
#define FLOAT32X4_FUNCTION_LIST(V) \
FLOAT32X4_UNARY_FUNCTION_LIST(V) \
FLOAT32X4_BINARY_FUNCTION_LIST(V) \
FLOAT32X4_TERNARY_FUNCTION_LIST(V) \
FLOAT32X4_SHUFFLE_FUNCTION_LIST(V)
// Float64x2.
#define FLOAT64X2_UNARY_FUNCTION_LIST(V) \
V(abs, (UnaryFunc<Float64x2, Abs, Float64x2>), 1) \
V(check, (UnaryFunc<Float64x2, Identity, Float64x2>), 1) \
V(fromFloat32x4Bits, (FuncConvertBits<Float32x4, Float64x2>), 1) \
V(fromInt8x16Bits, (FuncConvertBits<Int8x16, Float64x2>), 1) \
V(fromInt16x8Bits, (FuncConvertBits<Int16x8, Float64x2>), 1) \
V(fromInt32x4Bits, (FuncConvertBits<Int32x4, Float64x2>), 1) \
V(fromUint8x16Bits, (FuncConvertBits<Uint8x16, Float64x2>), 1) \
V(fromUint16x8Bits, (FuncConvertBits<Uint16x8, Float64x2>), 1) \
V(fromUint32x4Bits, (FuncConvertBits<Uint32x4, Float64x2>), 1) \
V(neg, (UnaryFunc<Float64x2, Neg, Float64x2>), 1) \
V(reciprocalApproximation, (UnaryFunc<Float64x2, RecApprox, Float64x2>), 1) \
V(reciprocalSqrtApproximation, (UnaryFunc<Float64x2, RecSqrtApprox, Float64x2>), 1) \
V(splat, (FuncSplat<Float64x2>), 1) \
V(sqrt, (UnaryFunc<Float64x2, Sqrt, Float64x2>), 1)
#define FLOAT64X2_BINARY_FUNCTION_LIST(V) \
V(add, (BinaryFunc<Float64x2, Add, Float64x2>), 2) \
V(div, (BinaryFunc<Float64x2, Div, Float64x2>), 2) \
V(equal, (CompareFunc<Float64x2, Equal, Bool64x2>), 2) \
V(extractLane, (ExtractLane<Float64x2>), 2) \
V(greaterThan, (CompareFunc<Float64x2, GreaterThan, Bool64x2>), 2) \
V(greaterThanOrEqual, (CompareFunc<Float64x2, GreaterThanOrEqual, Bool64x2>), 2) \
V(lessThan, (CompareFunc<Float64x2, LessThan, Bool64x2>), 2) \
V(lessThanOrEqual, (CompareFunc<Float64x2, LessThanOrEqual, Bool64x2>), 2) \
V(load, (Load<Float64x2, 2>), 2) \
V(load1, (Load<Float64x2, 1>), 2) \
V(max, (BinaryFunc<Float64x2, Maximum, Float64x2>), 2) \
V(maxNum, (BinaryFunc<Float64x2, MaxNum, Float64x2>), 2) \
V(min, (BinaryFunc<Float64x2, Minimum, Float64x2>), 2) \
V(minNum, (BinaryFunc<Float64x2, MinNum, Float64x2>), 2) \
V(mul, (BinaryFunc<Float64x2, Mul, Float64x2>), 2) \
V(notEqual, (CompareFunc<Float64x2, NotEqual, Bool64x2>), 2) \
V(sub, (BinaryFunc<Float64x2, Sub, Float64x2>), 2)
#define FLOAT64X2_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Float64x2>), 3) \
V(select, (Select<Float64x2, Bool64x2>), 3) \
V(store, (Store<Float64x2, 2>), 3) \
V(store1, (Store<Float64x2, 1>), 3)
#define FLOAT64X2_SHUFFLE_FUNCTION_LIST(V) \
V(swizzle, Swizzle<Float64x2>, 3) \
V(shuffle, Shuffle<Float64x2>, 4)
#define FLOAT64X2_FUNCTION_LIST(V) \
FLOAT64X2_UNARY_FUNCTION_LIST(V) \
FLOAT64X2_BINARY_FUNCTION_LIST(V) \
FLOAT64X2_TERNARY_FUNCTION_LIST(V) \
FLOAT64X2_SHUFFLE_FUNCTION_LIST(V)
// Int8x16.
#define INT8X16_UNARY_FUNCTION_LIST(V) \
V(check, (UnaryFunc<Int8x16, Identity, Int8x16>), 1) \
V(fromFloat32x4Bits, (FuncConvertBits<Float32x4, Int8x16>), 1) \
V(fromFloat64x2Bits, (FuncConvertBits<Float64x2, Int8x16>), 1) \
V(fromInt16x8Bits, (FuncConvertBits<Int16x8, Int8x16>), 1) \
V(fromInt32x4Bits, (FuncConvertBits<Int32x4, Int8x16>), 1) \
V(fromUint8x16Bits, (FuncConvertBits<Uint8x16, Int8x16>), 1) \
V(fromUint16x8Bits, (FuncConvertBits<Uint16x8, Int8x16>), 1) \
V(fromUint32x4Bits, (FuncConvertBits<Uint32x4, Int8x16>), 1) \
V(neg, (UnaryFunc<Int8x16, Neg, Int8x16>), 1) \
V(not, (UnaryFunc<Int8x16, Not, Int8x16>), 1) \
V(splat, (FuncSplat<Int8x16>), 1)
#define INT8X16_BINARY_FUNCTION_LIST(V) \
V(add, (BinaryFunc<Int8x16, Add, Int8x16>), 2) \
V(addSaturate, (BinaryFunc<Int8x16, AddSaturate, Int8x16>), 2) \
V(and, (BinaryFunc<Int8x16, And, Int8x16>), 2) \
V(equal, (CompareFunc<Int8x16, Equal, Bool8x16>), 2) \
V(extractLane, (ExtractLane<Int8x16>), 2) \
V(greaterThan, (CompareFunc<Int8x16, GreaterThan, Bool8x16>), 2) \
V(greaterThanOrEqual, (CompareFunc<Int8x16, GreaterThanOrEqual, Bool8x16>), 2) \
V(lessThan, (CompareFunc<Int8x16, LessThan, Bool8x16>), 2) \
V(lessThanOrEqual, (CompareFunc<Int8x16, LessThanOrEqual, Bool8x16>), 2) \
V(load, (Load<Int8x16, 16>), 2) \
V(mul, (BinaryFunc<Int8x16, Mul, Int8x16>), 2) \
V(notEqual, (CompareFunc<Int8x16, NotEqual, Bool8x16>), 2) \
V(or, (BinaryFunc<Int8x16, Or, Int8x16>), 2) \
V(sub, (BinaryFunc<Int8x16, Sub, Int8x16>), 2) \
V(subSaturate, (BinaryFunc<Int8x16, SubSaturate, Int8x16>), 2) \
V(shiftLeftByScalar, (BinaryScalar<Int8x16, ShiftLeft>), 2) \
V(shiftRightByScalar, (BinaryScalar<Int8x16, ShiftRightArithmetic>), 2) \
V(xor, (BinaryFunc<Int8x16, Xor, Int8x16>), 2)
#define INT8X16_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Int8x16>), 3) \
V(select, (Select<Int8x16, Bool8x16>), 3) \
V(store, (Store<Int8x16, 16>), 3)
#define INT8X16_SHUFFLE_FUNCTION_LIST(V) \
V(swizzle, Swizzle<Int8x16>, 17) \
V(shuffle, Shuffle<Int8x16>, 18)
#define INT8X16_FUNCTION_LIST(V) \
INT8X16_UNARY_FUNCTION_LIST(V) \
INT8X16_BINARY_FUNCTION_LIST(V) \
INT8X16_TERNARY_FUNCTION_LIST(V) \
INT8X16_SHUFFLE_FUNCTION_LIST(V)
// Uint8x16.
#define UINT8X16_UNARY_FUNCTION_LIST(V) \
V(check, (UnaryFunc<Uint8x16, Identity, Uint8x16>), 1) \
V(fromFloat32x4Bits, (FuncConvertBits<Float32x4, Uint8x16>), 1) \
V(fromFloat64x2Bits, (FuncConvertBits<Float64x2, Uint8x16>), 1) \
V(fromInt8x16Bits, (FuncConvertBits<Int8x16, Uint8x16>), 1) \
V(fromInt16x8Bits, (FuncConvertBits<Int16x8, Uint8x16>), 1) \
V(fromInt32x4Bits, (FuncConvertBits<Int32x4, Uint8x16>), 1) \
V(fromUint16x8Bits, (FuncConvertBits<Uint16x8, Uint8x16>), 1) \
V(fromUint32x4Bits, (FuncConvertBits<Uint32x4, Uint8x16>), 1) \
V(neg, (UnaryFunc<Uint8x16, Neg, Uint8x16>), 1) \
V(not, (UnaryFunc<Uint8x16, Not, Uint8x16>), 1) \
V(splat, (FuncSplat<Uint8x16>), 1)
#define UINT8X16_BINARY_FUNCTION_LIST(V) \
V(add, (BinaryFunc<Uint8x16, Add, Uint8x16>), 2) \
V(addSaturate, (BinaryFunc<Uint8x16, AddSaturate, Uint8x16>), 2) \
V(and, (BinaryFunc<Uint8x16, And, Uint8x16>), 2) \
V(equal, (CompareFunc<Uint8x16, Equal, Bool8x16>), 2) \
V(extractLane, (ExtractLane<Uint8x16>), 2) \
V(greaterThan, (CompareFunc<Uint8x16, GreaterThan, Bool8x16>), 2) \
V(greaterThanOrEqual, (CompareFunc<Uint8x16, GreaterThanOrEqual, Bool8x16>), 2) \
V(lessThan, (CompareFunc<Uint8x16, LessThan, Bool8x16>), 2) \
V(lessThanOrEqual, (CompareFunc<Uint8x16, LessThanOrEqual, Bool8x16>), 2) \
V(load, (Load<Uint8x16, 16>), 2) \
V(mul, (BinaryFunc<Uint8x16, Mul, Uint8x16>), 2) \
V(notEqual, (CompareFunc<Uint8x16, NotEqual, Bool8x16>), 2) \
V(or, (BinaryFunc<Uint8x16, Or, Uint8x16>), 2) \
V(sub, (BinaryFunc<Uint8x16, Sub, Uint8x16>), 2) \
V(subSaturate, (BinaryFunc<Uint8x16, SubSaturate, Uint8x16>), 2) \
V(shiftLeftByScalar, (BinaryScalar<Uint8x16, ShiftLeft>), 2) \
V(shiftRightByScalar, (BinaryScalar<Uint8x16, ShiftRightLogical>), 2) \
V(xor, (BinaryFunc<Uint8x16, Xor, Uint8x16>), 2)
#define UINT8X16_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Uint8x16>), 3) \
V(select, (Select<Uint8x16, Bool8x16>), 3) \
V(store, (Store<Uint8x16, 16>), 3)
#define UINT8X16_SHUFFLE_FUNCTION_LIST(V) \
V(swizzle, Swizzle<Uint8x16>, 17) \
V(shuffle, Shuffle<Uint8x16>, 18)
#define UINT8X16_FUNCTION_LIST(V) \
UINT8X16_UNARY_FUNCTION_LIST(V) \
UINT8X16_BINARY_FUNCTION_LIST(V) \
UINT8X16_TERNARY_FUNCTION_LIST(V) \
UINT8X16_SHUFFLE_FUNCTION_LIST(V)
// Int16x8.
#define INT16X8_UNARY_FUNCTION_LIST(V) \
V(check, (UnaryFunc<Int16x8, Identity, Int16x8>), 1) \
V(fromFloat32x4Bits, (FuncConvertBits<Float32x4, Int16x8>), 1) \
V(fromFloat64x2Bits, (FuncConvertBits<Float64x2, Int16x8>), 1) \
V(fromInt8x16Bits, (FuncConvertBits<Int8x16, Int16x8>), 1) \
V(fromInt32x4Bits, (FuncConvertBits<Int32x4, Int16x8>), 1) \
V(fromUint8x16Bits, (FuncConvertBits<Uint8x16, Int16x8>), 1) \
V(fromUint16x8Bits, (FuncConvertBits<Uint16x8, Int16x8>), 1) \
V(fromUint32x4Bits, (FuncConvertBits<Uint32x4, Int16x8>), 1) \
V(neg, (UnaryFunc<Int16x8, Neg, Int16x8>), 1) \
V(not, (UnaryFunc<Int16x8, Not, Int16x8>), 1) \
V(splat, (FuncSplat<Int16x8>), 1)
#define INT16X8_BINARY_FUNCTION_LIST(V) \
V(add, (BinaryFunc<Int16x8, Add, Int16x8>), 2) \
V(addSaturate, (BinaryFunc<Int16x8, AddSaturate, Int16x8>), 2) \
V(and, (BinaryFunc<Int16x8, And, Int16x8>), 2) \
V(equal, (CompareFunc<Int16x8, Equal, Bool16x8>), 2) \
V(extractLane, (ExtractLane<Int16x8>), 2) \
V(greaterThan, (CompareFunc<Int16x8, GreaterThan, Bool16x8>), 2) \
V(greaterThanOrEqual, (CompareFunc<Int16x8, GreaterThanOrEqual, Bool16x8>), 2) \
V(lessThan, (CompareFunc<Int16x8, LessThan, Bool16x8>), 2) \
V(lessThanOrEqual, (CompareFunc<Int16x8, LessThanOrEqual, Bool16x8>), 2) \
V(load, (Load<Int16x8, 8>), 2) \
V(mul, (BinaryFunc<Int16x8, Mul, Int16x8>), 2) \
V(notEqual, (CompareFunc<Int16x8, NotEqual, Bool16x8>), 2) \
V(or, (BinaryFunc<Int16x8, Or, Int16x8>), 2) \
V(sub, (BinaryFunc<Int16x8, Sub, Int16x8>), 2) \
V(subSaturate, (BinaryFunc<Int16x8, SubSaturate, Int16x8>), 2) \
V(shiftLeftByScalar, (BinaryScalar<Int16x8, ShiftLeft>), 2) \
V(shiftRightByScalar, (BinaryScalar<Int16x8, ShiftRightArithmetic>), 2) \
V(xor, (BinaryFunc<Int16x8, Xor, Int16x8>), 2)
#define INT16X8_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Int16x8>), 3) \
V(select, (Select<Int16x8, Bool16x8>), 3) \
V(store, (Store<Int16x8, 8>), 3)
#define INT16X8_SHUFFLE_FUNCTION_LIST(V) \
V(swizzle, Swizzle<Int16x8>, 9) \
V(shuffle, Shuffle<Int16x8>, 10)
#define INT16X8_FUNCTION_LIST(V) \
INT16X8_UNARY_FUNCTION_LIST(V) \
INT16X8_BINARY_FUNCTION_LIST(V) \
INT16X8_TERNARY_FUNCTION_LIST(V) \
INT16X8_SHUFFLE_FUNCTION_LIST(V)
// Uint16x8.
#define UINT16X8_UNARY_FUNCTION_LIST(V) \
V(check, (UnaryFunc<Uint16x8, Identity, Uint16x8>), 1) \
V(fromFloat32x4Bits, (FuncConvertBits<Float32x4, Uint16x8>), 1) \
V(fromFloat64x2Bits, (FuncConvertBits<Float64x2, Uint16x8>), 1) \
V(fromInt8x16Bits, (FuncConvertBits<Int8x16, Uint16x8>), 1) \
V(fromInt16x8Bits, (FuncConvertBits<Int16x8, Uint16x8>), 1) \
V(fromInt32x4Bits, (FuncConvertBits<Int32x4, Uint16x8>), 1) \
V(fromUint8x16Bits, (FuncConvertBits<Uint8x16, Uint16x8>), 1) \
V(fromUint32x4Bits, (FuncConvertBits<Uint32x4, Uint16x8>), 1) \
V(neg, (UnaryFunc<Uint16x8, Neg, Uint16x8>), 1) \
V(not, (UnaryFunc<Uint16x8, Not, Uint16x8>), 1) \
V(splat, (FuncSplat<Uint16x8>), 1)
#define UINT16X8_BINARY_FUNCTION_LIST(V) \
V(add, (BinaryFunc<Uint16x8, Add, Uint16x8>), 2) \
V(addSaturate, (BinaryFunc<Uint16x8, AddSaturate, Uint16x8>), 2) \
V(and, (BinaryFunc<Uint16x8, And, Uint16x8>), 2) \
V(equal, (CompareFunc<Uint16x8, Equal, Bool16x8>), 2) \
V(extractLane, (ExtractLane<Uint16x8>), 2) \
V(greaterThan, (CompareFunc<Uint16x8, GreaterThan, Bool16x8>), 2) \
V(greaterThanOrEqual, (CompareFunc<Uint16x8, GreaterThanOrEqual, Bool16x8>), 2) \
V(lessThan, (CompareFunc<Uint16x8, LessThan, Bool16x8>), 2) \
V(lessThanOrEqual, (CompareFunc<Uint16x8, LessThanOrEqual, Bool16x8>), 2) \
V(load, (Load<Uint16x8, 8>), 2) \
V(mul, (BinaryFunc<Uint16x8, Mul, Uint16x8>), 2) \
V(notEqual, (CompareFunc<Uint16x8, NotEqual, Bool16x8>), 2) \
V(or, (BinaryFunc<Uint16x8, Or, Uint16x8>), 2) \
V(sub, (BinaryFunc<Uint16x8, Sub, Uint16x8>), 2) \
V(subSaturate, (BinaryFunc<Uint16x8, SubSaturate, Uint16x8>), 2) \
V(shiftLeftByScalar, (BinaryScalar<Uint16x8, ShiftLeft>), 2) \
V(shiftRightByScalar, (BinaryScalar<Uint16x8, ShiftRightLogical>), 2) \
V(xor, (BinaryFunc<Uint16x8, Xor, Uint16x8>), 2)
#define UINT16X8_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Uint16x8>), 3) \
V(select, (Select<Uint16x8, Bool16x8>), 3) \
V(store, (Store<Uint16x8, 8>), 3)
#define UINT16X8_SHUFFLE_FUNCTION_LIST(V) \
V(swizzle, Swizzle<Uint16x8>, 9) \
V(shuffle, Shuffle<Uint16x8>, 10)
#define UINT16X8_FUNCTION_LIST(V) \
UINT16X8_UNARY_FUNCTION_LIST(V) \
UINT16X8_BINARY_FUNCTION_LIST(V) \
UINT16X8_TERNARY_FUNCTION_LIST(V) \
UINT16X8_SHUFFLE_FUNCTION_LIST(V)
// Int32x4.
#define INT32X4_UNARY_FUNCTION_LIST(V) \
V(check, (UnaryFunc<Int32x4, Identity, Int32x4>), 1) \
V(fromFloat32x4, (FuncConvert<Float32x4, Int32x4>), 1) \
V(fromFloat32x4Bits, (FuncConvertBits<Float32x4, Int32x4>), 1) \
V(fromFloat64x2Bits, (FuncConvertBits<Float64x2, Int32x4>), 1) \
V(fromInt8x16Bits, (FuncConvertBits<Int8x16, Int32x4>), 1) \
V(fromInt16x8Bits, (FuncConvertBits<Int16x8, Int32x4>), 1) \
V(fromUint8x16Bits, (FuncConvertBits<Uint8x16, Int32x4>), 1) \
V(fromUint16x8Bits, (FuncConvertBits<Uint16x8, Int32x4>), 1) \
V(fromUint32x4Bits, (FuncConvertBits<Uint32x4, Int32x4>), 1) \
V(neg, (UnaryFunc<Int32x4, Neg, Int32x4>), 1) \
V(not, (UnaryFunc<Int32x4, Not, Int32x4>), 1) \
V(splat, (FuncSplat<Int32x4>), 0)
#define INT32X4_BINARY_FUNCTION_LIST(V) \
V(add, (BinaryFunc<Int32x4, Add, Int32x4>), 2) \
V(and, (BinaryFunc<Int32x4, And, Int32x4>), 2) \
V(equal, (CompareFunc<Int32x4, Equal, Bool32x4>), 2) \
V(extractLane, (ExtractLane<Int32x4>), 2) \
V(greaterThan, (CompareFunc<Int32x4, GreaterThan, Bool32x4>), 2) \
V(greaterThanOrEqual, (CompareFunc<Int32x4, GreaterThanOrEqual, Bool32x4>), 2) \
V(lessThan, (CompareFunc<Int32x4, LessThan, Bool32x4>), 2) \
V(lessThanOrEqual, (CompareFunc<Int32x4, LessThanOrEqual, Bool32x4>), 2) \
V(load, (Load<Int32x4, 4>), 2) \
V(load3, (Load<Int32x4, 3>), 2) \
V(load2, (Load<Int32x4, 2>), 2) \
V(load1, (Load<Int32x4, 1>), 2) \
V(mul, (BinaryFunc<Int32x4, Mul, Int32x4>), 2) \
V(notEqual, (CompareFunc<Int32x4, NotEqual, Bool32x4>), 2) \
V(or, (BinaryFunc<Int32x4, Or, Int32x4>), 2) \
V(sub, (BinaryFunc<Int32x4, Sub, Int32x4>), 2) \
V(shiftLeftByScalar, (BinaryScalar<Int32x4, ShiftLeft>), 2) \
V(shiftRightByScalar, (BinaryScalar<Int32x4, ShiftRightArithmetic>), 2) \
V(xor, (BinaryFunc<Int32x4, Xor, Int32x4>), 2)
#define INT32X4_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Int32x4>), 3) \
V(select, (Select<Int32x4, Bool32x4>), 3) \
V(store, (Store<Int32x4, 4>), 3) \
V(store3, (Store<Int32x4, 3>), 3) \
V(store2, (Store<Int32x4, 2>), 3) \
V(store1, (Store<Int32x4, 1>), 3)
#define INT32X4_SHUFFLE_FUNCTION_LIST(V) \
V(swizzle, Swizzle<Int32x4>, 5) \
V(shuffle, Shuffle<Int32x4>, 6)
#define INT32X4_FUNCTION_LIST(V) \
INT32X4_UNARY_FUNCTION_LIST(V) \
INT32X4_BINARY_FUNCTION_LIST(V) \
INT32X4_TERNARY_FUNCTION_LIST(V) \
INT32X4_SHUFFLE_FUNCTION_LIST(V)
// Uint32x4.
#define UINT32X4_UNARY_FUNCTION_LIST(V) \
V(check, (UnaryFunc<Uint32x4, Identity, Uint32x4>), 1) \
V(fromFloat32x4, (FuncConvert<Float32x4, Uint32x4>), 1) \
V(fromFloat32x4Bits, (FuncConvertBits<Float32x4, Uint32x4>), 1) \
V(fromFloat64x2Bits, (FuncConvertBits<Float64x2, Uint32x4>), 1) \
V(fromInt8x16Bits, (FuncConvertBits<Int8x16, Uint32x4>), 1) \
V(fromInt16x8Bits, (FuncConvertBits<Int16x8, Uint32x4>), 1) \
V(fromInt32x4Bits, (FuncConvertBits<Int32x4, Uint32x4>), 1) \
V(fromUint8x16Bits, (FuncConvertBits<Uint8x16, Uint32x4>), 1) \
V(fromUint16x8Bits, (FuncConvertBits<Uint16x8, Uint32x4>), 1) \
V(neg, (UnaryFunc<Uint32x4, Neg, Uint32x4>), 1) \
V(not, (UnaryFunc<Uint32x4, Not, Uint32x4>), 1) \
V(splat, (FuncSplat<Uint32x4>), 0)
#define UINT32X4_BINARY_FUNCTION_LIST(V) \
V(add, (BinaryFunc<Uint32x4, Add, Uint32x4>), 2) \
V(and, (BinaryFunc<Uint32x4, And, Uint32x4>), 2) \
V(equal, (CompareFunc<Uint32x4, Equal, Bool32x4>), 2) \
V(extractLane, (ExtractLane<Uint32x4>), 2) \
V(greaterThan, (CompareFunc<Uint32x4, GreaterThan, Bool32x4>), 2) \
V(greaterThanOrEqual, (CompareFunc<Uint32x4, GreaterThanOrEqual, Bool32x4>), 2) \
V(lessThan, (CompareFunc<Uint32x4, LessThan, Bool32x4>), 2) \
V(lessThanOrEqual, (CompareFunc<Uint32x4, LessThanOrEqual, Bool32x4>), 2) \
V(load, (Load<Uint32x4, 4>), 2) \
V(load3, (Load<Uint32x4, 3>), 2) \
V(load2, (Load<Uint32x4, 2>), 2) \
V(load1, (Load<Uint32x4, 1>), 2) \
V(mul, (BinaryFunc<Uint32x4, Mul, Uint32x4>), 2) \
V(notEqual, (CompareFunc<Uint32x4, NotEqual, Bool32x4>), 2) \
V(or, (BinaryFunc<Uint32x4, Or, Uint32x4>), 2) \
V(sub, (BinaryFunc<Uint32x4, Sub, Uint32x4>), 2) \
V(shiftLeftByScalar, (BinaryScalar<Uint32x4, ShiftLeft>), 2) \
V(shiftRightByScalar, (BinaryScalar<Uint32x4, ShiftRightLogical>), 2) \
V(xor, (BinaryFunc<Uint32x4, Xor, Uint32x4>), 2)
#define UINT32X4_TERNARY_FUNCTION_LIST(V) \
V(replaceLane, (ReplaceLane<Uint32x4>), 3) \
V(select, (Select<Uint32x4, Bool32x4>), 3) \
V(store, (Store<Uint32x4, 4>), 3) \
V(store3, (Store<Uint32x4, 3>), 3) \
V(store2, (Store<Uint32x4, 2>), 3) \
V(store1, (Store<Uint32x4, 1>), 3)
#define UINT32X4_SHUFFLE_FUNCTION_LIST(V) \
V(swizzle, Swizzle<Uint32x4>, 5) \
V(shuffle, Shuffle<Uint32x4>, 6)
#define UINT32X4_FUNCTION_LIST(V) \
UINT32X4_UNARY_FUNCTION_LIST(V) \
UINT32X4_BINARY_FUNCTION_LIST(V) \
UINT32X4_TERNARY_FUNCTION_LIST(V) \
UINT32X4_SHUFFLE_FUNCTION_LIST(V)
/*
* The FOREACH macros below partition all of the SIMD operations into disjoint
* sets.
*/
// Operations available on all SIMD types. Mixed arity.
#define FOREACH_COMMON_SIMD_OP(_) \
_(extractLane) \
_(replaceLane) \
_(check) \
_(splat)
// Lanewise operations available on numeric SIMD types.
// Include lane-wise select here since it is not arithmetic and defined on
// numeric types too.
#define FOREACH_LANE_SIMD_OP(_) \
_(select) \
_(swizzle) \
_(shuffle)
// Memory operations available on numeric SIMD types.
#define FOREACH_MEMORY_SIMD_OP(_) \
_(load) \
_(store)
// Memory operations available on numeric X4 SIMD types.
#define FOREACH_MEMORY_X4_SIMD_OP(_) \
_(load1) \
_(load2) \
_(load3) \
_(store1) \
_(store2) \
_(store3)
// Unary operations on Bool vectors.
#define FOREACH_BOOL_SIMD_UNOP(_) \
_(allTrue) \
_(anyTrue)
// Unary bitwise SIMD operators defined on all integer and boolean SIMD types.
#define FOREACH_BITWISE_SIMD_UNOP(_) \
_(not)
// Binary bitwise SIMD operators defined on all integer and boolean SIMD types.
#define FOREACH_BITWISE_SIMD_BINOP(_) \
_(and) \
_(or) \
_(xor)
// Bitwise shifts defined on integer SIMD types.
#define FOREACH_SHIFT_SIMD_OP(_) \
_(shiftLeftByScalar) \
_(shiftRightByScalar)
// Unary arithmetic operators defined on numeric SIMD types.
#define FOREACH_NUMERIC_SIMD_UNOP(_) \
_(neg)
// Binary arithmetic operators defined on numeric SIMD types.
#define FOREACH_NUMERIC_SIMD_BINOP(_) \
_(add) \
_(sub) \
_(mul)
// Unary arithmetic operators defined on floating point SIMD types.
#define FOREACH_FLOAT_SIMD_UNOP(_) \
_(abs) \
_(sqrt) \
_(reciprocalApproximation) \
_(reciprocalSqrtApproximation)
// Binary arithmetic operators defined on floating point SIMD types.
#define FOREACH_FLOAT_SIMD_BINOP(_) \
_(div) \
_(max) \
_(min) \
_(maxNum) \
_(minNum)
// Binary operations on small integer (< 32 bits) vectors.
#define FOREACH_SMINT_SIMD_BINOP(_) \
_(addSaturate) \
_(subSaturate)
// Comparison operators defined on numeric SIMD types.
#define FOREACH_COMP_SIMD_OP(_) \
_(lessThan) \
_(lessThanOrEqual) \
_(equal) \
_(notEqual) \
_(greaterThan) \
_(greaterThanOrEqual)
/*
* All SIMD operations, excluding casts.
*/
#define FORALL_SIMD_NONCAST_OP(_) \
FOREACH_COMMON_SIMD_OP(_) \
FOREACH_LANE_SIMD_OP(_) \
FOREACH_MEMORY_SIMD_OP(_) \
FOREACH_MEMORY_X4_SIMD_OP(_) \
FOREACH_BOOL_SIMD_UNOP(_) \
FOREACH_BITWISE_SIMD_UNOP(_) \
FOREACH_BITWISE_SIMD_BINOP(_) \
FOREACH_SHIFT_SIMD_OP(_) \
FOREACH_NUMERIC_SIMD_UNOP(_) \
FOREACH_NUMERIC_SIMD_BINOP(_) \
FOREACH_FLOAT_SIMD_UNOP(_) \
FOREACH_FLOAT_SIMD_BINOP(_) \
FOREACH_SMINT_SIMD_BINOP(_) \
FOREACH_COMP_SIMD_OP(_)
/*
* All operations on integer SIMD types, excluding casts and
* FOREACH_MEMORY_X4_OP.
*/
#define FORALL_INT_SIMD_OP(_) \
FOREACH_COMMON_SIMD_OP(_) \
FOREACH_LANE_SIMD_OP(_) \
FOREACH_MEMORY_SIMD_OP(_) \
FOREACH_BITWISE_SIMD_UNOP(_) \
FOREACH_BITWISE_SIMD_BINOP(_) \
FOREACH_SHIFT_SIMD_OP(_) \
FOREACH_NUMERIC_SIMD_UNOP(_) \
FOREACH_NUMERIC_SIMD_BINOP(_) \
FOREACH_COMP_SIMD_OP(_)
/*
* All operations on floating point SIMD types, excluding casts and
* FOREACH_MEMORY_X4_OP.
*/
#define FORALL_FLOAT_SIMD_OP(_) \
FOREACH_COMMON_SIMD_OP(_) \
FOREACH_LANE_SIMD_OP(_) \
FOREACH_MEMORY_SIMD_OP(_) \
FOREACH_NUMERIC_SIMD_UNOP(_) \
FOREACH_NUMERIC_SIMD_BINOP(_) \
FOREACH_FLOAT_SIMD_UNOP(_) \
FOREACH_FLOAT_SIMD_BINOP(_) \
FOREACH_COMP_SIMD_OP(_)
/*
* All operations on Bool SIMD types.
*
* These types don't have casts, so no need to specialize.
*/
#define FORALL_BOOL_SIMD_OP(_) \
FOREACH_COMMON_SIMD_OP(_) \
FOREACH_BOOL_SIMD_UNOP(_) \
FOREACH_BITWISE_SIMD_UNOP(_) \
FOREACH_BITWISE_SIMD_BINOP(_)
/*
* The sets of cast operations are listed per type below.
*
* These sets are not disjoint.
*/
#define FOREACH_INT8X16_SIMD_CAST(_) \
_(fromFloat32x4Bits) \
_(fromFloat64x2Bits) \
_(fromInt16x8Bits) \
_(fromInt32x4Bits)
#define FOREACH_INT16X8_SIMD_CAST(_) \
_(fromFloat32x4Bits) \
_(fromFloat64x2Bits) \
_(fromInt8x16Bits) \
_(fromInt32x4Bits)
#define FOREACH_INT32X4_SIMD_CAST(_) \
_(fromFloat32x4) \
_(fromFloat32x4Bits) \
_(fromFloat64x2Bits) \
_(fromInt8x16Bits) \
_(fromInt16x8Bits)
#define FOREACH_FLOAT32X4_SIMD_CAST(_)\
_(fromFloat64x2Bits) \
_(fromInt8x16Bits) \
_(fromInt16x8Bits) \
_(fromInt32x4) \
_(fromInt32x4Bits)
#define FOREACH_FLOAT64X2_SIMD_CAST(_)\
_(fromFloat32x4Bits) \
_(fromInt8x16Bits) \
_(fromInt16x8Bits) \
_(fromInt32x4Bits)
// All operations on Int32x4.
#define FORALL_INT32X4_SIMD_OP(_) \
FORALL_INT_SIMD_OP(_) \
FOREACH_MEMORY_X4_SIMD_OP(_) \
FOREACH_INT32X4_SIMD_CAST(_)
// All operations on Float32X4
#define FORALL_FLOAT32X4_SIMD_OP(_) \
FORALL_FLOAT_SIMD_OP(_) \
FOREACH_MEMORY_X4_SIMD_OP(_) \
FOREACH_FLOAT32X4_SIMD_CAST(_)
/*
* All SIMD operations assuming only 32x4 types exist.
* This is used in the current asm.js impl.
*/
#define FORALL_SIMD_ASMJS_OP(_) \
FORALL_SIMD_NONCAST_OP(_) \
_(fromFloat32x4) \
_(fromFloat32x4Bits) \
_(fromInt8x16Bits) \
_(fromInt16x8Bits) \
_(fromInt32x4) \
_(fromInt32x4Bits) \
_(fromUint8x16Bits) \
_(fromUint16x8Bits) \
_(fromUint32x4) \
_(fromUint32x4Bits)
// All operations on Int8x16 or Uint8x16 in the asm.js world.
// Note: this does not include conversions and casts to/from Uint8x16 because
// this list is shared between Int8x16 and Uint8x16.
#define FORALL_INT8X16_ASMJS_OP(_) \
FORALL_INT_SIMD_OP(_) \
FOREACH_SMINT_SIMD_BINOP(_) \
_(fromInt16x8Bits) \
_(fromInt32x4Bits) \
_(fromFloat32x4Bits)
// All operations on Int16x8 or Uint16x8 in the asm.js world.
// Note: this does not include conversions and casts to/from Uint16x8 because
// this list is shared between Int16x8 and Uint16x8.
#define FORALL_INT16X8_ASMJS_OP(_) \
FORALL_INT_SIMD_OP(_) \
FOREACH_SMINT_SIMD_BINOP(_) \
_(fromInt8x16Bits) \
_(fromInt32x4Bits) \
_(fromFloat32x4Bits)
// All operations on Int32x4 or Uint32x4 in the asm.js world.
// Note: this does not include conversions and casts to/from Uint32x4 because
// this list is shared between Int32x4 and Uint32x4.
#define FORALL_INT32X4_ASMJS_OP(_) \
FORALL_INT_SIMD_OP(_) \
FOREACH_MEMORY_X4_SIMD_OP(_) \
_(fromInt8x16Bits) \
_(fromInt16x8Bits) \
_(fromFloat32x4) \
_(fromFloat32x4Bits)
// All operations on Float32X4 in the asm.js world.
#define FORALL_FLOAT32X4_ASMJS_OP(_) \
FORALL_FLOAT_SIMD_OP(_) \
FOREACH_MEMORY_X4_SIMD_OP(_) \
_(fromInt8x16Bits) \
_(fromInt16x8Bits) \
_(fromInt32x4Bits) \
_(fromInt32x4) \
_(fromUint32x4)
namespace js {
// Complete set of SIMD types.
// It must be kept in sync with the enumeration of values in
// TypedObjectConstants.h; in particular we need to ensure that Count is
// appropriately set with respect to the number of actual types.
enum class SimdType {
Int8x16 = JS_SIMDTYPEREPR_INT8X16,
Int16x8 = JS_SIMDTYPEREPR_INT16X8,
Int32x4 = JS_SIMDTYPEREPR_INT32X4,
Uint8x16 = JS_SIMDTYPEREPR_UINT8X16,
Uint16x8 = JS_SIMDTYPEREPR_UINT16X8,
Uint32x4 = JS_SIMDTYPEREPR_UINT32X4,
Float32x4 = JS_SIMDTYPEREPR_FLOAT32X4,
Float64x2 = JS_SIMDTYPEREPR_FLOAT64X2,
Bool8x16 = JS_SIMDTYPEREPR_BOOL8X16,
Bool16x8 = JS_SIMDTYPEREPR_BOOL16X8,
Bool32x4 = JS_SIMDTYPEREPR_BOOL32X4,
Bool64x2 = JS_SIMDTYPEREPR_BOOL64X2,
Count
};
// The integer SIMD types have a lot of operations that do the exact same thing
// for signed and unsigned integer types. Sometimes it is simpler to treat
// signed and unsigned integer SIMD types as the same type, using a SimdSign to
// distinguish the few cases where there is a difference.
enum class SimdSign {
// Signedness is not applicable to this type. (i.e., Float or Bool).
NotApplicable,
// Treat as an unsigned integer with a range 0 .. 2^N-1.
Unsigned,
// Treat as a signed integer in two's complement encoding.
Signed,
};
// Get the signedness of a SIMD type.
inline SimdSign
GetSimdSign(SimdType t)
{
switch(t) {
case SimdType::Int8x16:
case SimdType::Int16x8:
case SimdType::Int32x4:
return SimdSign::Signed;
case SimdType::Uint8x16:
case SimdType::Uint16x8:
case SimdType::Uint32x4:
return SimdSign::Unsigned;
default:
return SimdSign::NotApplicable;
}
}
inline bool
IsSignedIntSimdType(SimdType type)
{
return GetSimdSign(type) == SimdSign::Signed;
}
// Get the boolean SIMD type with the same shape as t.
//
// This is the result type of a comparison operation, and it can also be used to
// identify the geometry of a SIMD type.
inline SimdType
GetBooleanSimdType(SimdType t)
{
switch(t) {
case SimdType::Int8x16:
case SimdType::Uint8x16:
case SimdType::Bool8x16:
return SimdType::Bool8x16;
case SimdType::Int16x8:
case SimdType::Uint16x8:
case SimdType::Bool16x8:
return SimdType::Bool16x8;
case SimdType::Int32x4:
case SimdType::Uint32x4:
case SimdType::Float32x4:
case SimdType::Bool32x4:
return SimdType::Bool32x4;
case SimdType::Float64x2:
case SimdType::Bool64x2:
return SimdType::Bool64x2;
case SimdType::Count:
break;
}
MOZ_MAKE_COMPILER_ASSUME_IS_UNREACHABLE("Bad SIMD type");
}
// Get the number of lanes in a SIMD type.
inline unsigned
GetSimdLanes(SimdType t)
{
switch(t) {
case SimdType::Int8x16:
case SimdType::Uint8x16:
case SimdType::Bool8x16:
return 16;
case SimdType::Int16x8:
case SimdType::Uint16x8:
case SimdType::Bool16x8:
return 8;
case SimdType::Int32x4:
case SimdType::Uint32x4:
case SimdType::Float32x4:
case SimdType::Bool32x4:
return 4;
case SimdType::Float64x2:
case SimdType::Bool64x2:
return 2;
case SimdType::Count:
break;
}
MOZ_MAKE_COMPILER_ASSUME_IS_UNREACHABLE("Bad SIMD type");
}
// Complete set of SIMD operations.
//
// No SIMD types implement all of these operations.
//
// C++ defines keywords and/or/xor/not, so prepend Fn_ to all named functions to
// avoid clashes.
//
// Note: because of a gcc < v4.8's compiler bug, uint8_t can't be used as the
// storage class here. See bug 1243810. See also
// https://gcc.gnu.org/bugzilla/show_bug.cgi?id=64037 .
enum class SimdOperation {
// The constructor call. No Fn_ prefix here.
Constructor,
// All the operations, except for casts.
#define DEFOP(x) Fn_##x,
FORALL_SIMD_NONCAST_OP(DEFOP)
#undef DEFOP
// Int <-> Float conversions.
Fn_fromInt32x4,
Fn_fromUint32x4,
Fn_fromFloat32x4,
// Bitcasts. One for each type with a memory representation.
Fn_fromInt8x16Bits,
Fn_fromInt16x8Bits,
Fn_fromInt32x4Bits,
Fn_fromUint8x16Bits,
Fn_fromUint16x8Bits,
Fn_fromUint32x4Bits,
Fn_fromFloat32x4Bits,
Fn_fromFloat64x2Bits,
Last = Fn_fromFloat64x2Bits
};
// These classes implement the concept containing the following constraints:
// - requires typename Elem: this is the scalar lane type, stored in each lane
// of the SIMD vector.
// - requires static const unsigned lanes: this is the number of lanes (length)
// of the SIMD vector.
// - requires static const SimdType type: this is the SimdType enum value
// corresponding to the SIMD type.
// - requires static bool Cast(JSContext*, JS::HandleValue, Elem*): casts a
// given Value to the current scalar lane type and saves it in the Elem
// out-param.
// - requires static Value ToValue(Elem): returns a Value of the right type
// containing the given value.
//
// This concept is used in the templates above to define the functions
// associated to a given type and in their implementations, to avoid code
// redundancy.
struct Float32x4 {
typedef float Elem;
static const unsigned lanes = 4;
static const SimdType type = SimdType::Float32x4;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
double d;
if (!ToNumber(cx, v, &d))
return false;
*out = float(d);
return true;
}
static Value ToValue(Elem value) {
return DoubleValue(JS::CanonicalizeNaN(value));
}
};
struct Float64x2 {
typedef double Elem;
static const unsigned lanes = 2;
static const SimdType type = SimdType::Float64x2;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
return ToNumber(cx, v, out);
}
static Value ToValue(Elem value) {
return DoubleValue(JS::CanonicalizeNaN(value));
}
};
struct Int8x16 {
typedef int8_t Elem;
static const unsigned lanes = 16;
static const SimdType type = SimdType::Int8x16;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
return ToInt8(cx, v, out);
}
static Value ToValue(Elem value) {
return NumberValue(value);
}
};
struct Int16x8 {
typedef int16_t Elem;
static const unsigned lanes = 8;
static const SimdType type = SimdType::Int16x8;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
return ToInt16(cx, v, out);
}
static Value ToValue(Elem value) {
return NumberValue(value);
}
};
struct Int32x4 {
typedef int32_t Elem;
static const unsigned lanes = 4;
static const SimdType type = SimdType::Int32x4;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
return ToInt32(cx, v, out);
}
static Value ToValue(Elem value) {
return NumberValue(value);
}
};
struct Uint8x16 {
typedef uint8_t Elem;
static const unsigned lanes = 16;
static const SimdType type = SimdType::Uint8x16;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
return ToUint8(cx, v, out);
}
static Value ToValue(Elem value) {
return NumberValue(value);
}
};
struct Uint16x8 {
typedef uint16_t Elem;
static const unsigned lanes = 8;
static const SimdType type = SimdType::Uint16x8;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
return ToUint16(cx, v, out);
}
static Value ToValue(Elem value) {
return NumberValue(value);
}
};
struct Uint32x4 {
typedef uint32_t Elem;
static const unsigned lanes = 4;
static const SimdType type = SimdType::Uint32x4;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
return ToUint32(cx, v, out);
}
static Value ToValue(Elem value) {
return NumberValue(value);
}
};
struct Bool8x16 {
typedef int8_t Elem;
static const unsigned lanes = 16;
static const SimdType type = SimdType::Bool8x16;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
*out = ToBoolean(v) ? -1 : 0;
return true;
}
static Value ToValue(Elem value) {
return BooleanValue(value);
}
};
struct Bool16x8 {
typedef int16_t Elem;
static const unsigned lanes = 8;
static const SimdType type = SimdType::Bool16x8;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
*out = ToBoolean(v) ? -1 : 0;
return true;
}
static Value ToValue(Elem value) {
return BooleanValue(value);
}
};
struct Bool32x4 {
typedef int32_t Elem;
static const unsigned lanes = 4;
static const SimdType type = SimdType::Bool32x4;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
*out = ToBoolean(v) ? -1 : 0;
return true;
}
static Value ToValue(Elem value) {
return BooleanValue(value);
}
};
struct Bool64x2 {
typedef int64_t Elem;
static const unsigned lanes = 2;
static const SimdType type = SimdType::Bool64x2;
static MOZ_MUST_USE bool Cast(JSContext* cx, JS::HandleValue v, Elem* out) {
*out = ToBoolean(v) ? -1 : 0;
return true;
}
static Value ToValue(Elem value) {
return BooleanValue(value);
}
};
// Get the well known name of the SIMD.* object corresponding to type.
PropertyName* SimdTypeToName(const JSAtomState& atoms, SimdType type);
// Check if name is the well known name of a SIMD type.
// Returns true and sets *type iff name is known.
bool IsSimdTypeName(const JSAtomState& atoms, const PropertyName* name, SimdType* type);
const char* SimdTypeToString(SimdType type);
template<typename V>
JSObject* CreateSimd(JSContext* cx, const typename V::Elem* data);
template<typename V>
bool IsVectorObject(HandleValue v);
template<typename V>
MOZ_MUST_USE bool ToSimdConstant(JSContext* cx, HandleValue v, jit::SimdConstant* out);
JSObject*
InitSimdClass(JSContext* cx, HandleObject obj);
namespace jit {
extern const JSJitInfo JitInfo_SimdInt32x4_extractLane;
extern const JSJitInfo JitInfo_SimdFloat32x4_extractLane;
} // namespace jit
#define DECLARE_SIMD_FLOAT32X4_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_float32x4_##Name(JSContext* cx, unsigned argc, Value* vp);
FLOAT32X4_FUNCTION_LIST(DECLARE_SIMD_FLOAT32X4_FUNCTION)
#undef DECLARE_SIMD_FLOAT32X4_FUNCTION
#define DECLARE_SIMD_FLOAT64X2_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_float64x2_##Name(JSContext* cx, unsigned argc, Value* vp);
FLOAT64X2_FUNCTION_LIST(DECLARE_SIMD_FLOAT64X2_FUNCTION)
#undef DECLARE_SIMD_FLOAT64X2_FUNCTION
#define DECLARE_SIMD_INT8X16_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_int8x16_##Name(JSContext* cx, unsigned argc, Value* vp);
INT8X16_FUNCTION_LIST(DECLARE_SIMD_INT8X16_FUNCTION)
#undef DECLARE_SIMD_INT8X16_FUNCTION
#define DECLARE_SIMD_INT16X8_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_int16x8_##Name(JSContext* cx, unsigned argc, Value* vp);
INT16X8_FUNCTION_LIST(DECLARE_SIMD_INT16X8_FUNCTION)
#undef DECLARE_SIMD_INT16X8_FUNCTION
#define DECLARE_SIMD_INT32X4_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_int32x4_##Name(JSContext* cx, unsigned argc, Value* vp);
INT32X4_FUNCTION_LIST(DECLARE_SIMD_INT32X4_FUNCTION)
#undef DECLARE_SIMD_INT32X4_FUNCTION
#define DECLARE_SIMD_UINT8X16_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_uint8x16_##Name(JSContext* cx, unsigned argc, Value* vp);
UINT8X16_FUNCTION_LIST(DECLARE_SIMD_UINT8X16_FUNCTION)
#undef DECLARE_SIMD_UINT8X16_FUNCTION
#define DECLARE_SIMD_UINT16X8_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_uint16x8_##Name(JSContext* cx, unsigned argc, Value* vp);
UINT16X8_FUNCTION_LIST(DECLARE_SIMD_UINT16X8_FUNCTION)
#undef DECLARE_SIMD_UINT16X8_FUNCTION
#define DECLARE_SIMD_UINT32X4_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_uint32x4_##Name(JSContext* cx, unsigned argc, Value* vp);
UINT32X4_FUNCTION_LIST(DECLARE_SIMD_UINT32X4_FUNCTION)
#undef DECLARE_SIMD_UINT32X4_FUNCTION
#define DECLARE_SIMD_BOOL8X16_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_bool8x16_##Name(JSContext* cx, unsigned argc, Value* vp);
BOOL8X16_FUNCTION_LIST(DECLARE_SIMD_BOOL8X16_FUNCTION)
#undef DECLARE_SIMD_BOOL8X16_FUNCTION
#define DECLARE_SIMD_BOOL16X8_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_bool16x8_##Name(JSContext* cx, unsigned argc, Value* vp);
BOOL16X8_FUNCTION_LIST(DECLARE_SIMD_BOOL16X8_FUNCTION)
#undef DECLARE_SIMD_BOOL16X8_FUNCTION
#define DECLARE_SIMD_BOOL32X4_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_bool32x4_##Name(JSContext* cx, unsigned argc, Value* vp);
BOOL32X4_FUNCTION_LIST(DECLARE_SIMD_BOOL32X4_FUNCTION)
#undef DECLARE_SIMD_BOOL32X4_FUNCTION
#define DECLARE_SIMD_BOOL64X2_FUNCTION(Name, Func, Operands) \
extern MOZ_MUST_USE bool \
simd_bool64x2_##Name(JSContext* cx, unsigned argc, Value* vp);
BOOL64X2_FUNCTION_LIST(DECLARE_SIMD_BOOL64X2_FUNCTION)
#undef DECLARE_SIMD_BOOL64X2_FUNCTION
} /* namespace js */
#endif /* builtin_SIMD_h */
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