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chromium / v8 / v8 / febd37b13aec47d0e13a5b265040860e9ad79f79 / . / src / builtins / builtins-sharedarraybuffer-gen.cc
blob: 010bf965cc6a6e7caa4faa0379e6fa11826c4a14 [file] [log] [blame]
// Copyright 2017 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.
#include "src/builtins/builtins-utils-gen.h"
#include "src/builtins/builtins.h"
#include "src/codegen/code-stub-assembler.h"
#include "src/objects/objects.h"
namespace v8 {
namespace internal {
using compiler::Node;
class SharedArrayBufferBuiltinsAssembler : public CodeStubAssembler {
public:
explicit SharedArrayBufferBuiltinsAssembler(
compiler::CodeAssemblerState* state)
: CodeStubAssembler(state) {}
protected:
using AssemblerFunction = Node* (CodeAssembler::*)(MachineType type,
Node* base, Node* offset,
Node* value,
Node* value_high);
void ValidateSharedTypedArray(TNode<Object> maybe_array,
TNode<Context> context,
TNode<Int32T>* out_elements_kind,
TNode<RawPtrT>* out_backing_store);
TNode<UintPtrT> ValidateAtomicAccess(TNode<JSTypedArray> array,
TNode<Object> index,
TNode<Context> context);
inline void DebugSanityCheckAtomicIndex(TNode<JSTypedArray> array,
TNode<UintPtrT> index);
void AtomicBinopBuiltinCommon(TNode<Object> maybe_array, TNode<Object> index,
TNode<Object> value, TNode<Context> context,
AssemblerFunction function,
Runtime::FunctionId runtime_function);
// Create a BigInt from the result of a 64-bit atomic operation, using
// projections on 32-bit platforms.
TNode<BigInt> BigIntFromSigned64(Node* signed64);
TNode<BigInt> BigIntFromUnsigned64(Node* unsigned64);
};
// https://tc39.es/ecma262/#sec-validatesharedintegertypedarray
void SharedArrayBufferBuiltinsAssembler::ValidateSharedTypedArray(
TNode<Object> maybe_array, TNode<Context> context,
TNode<Int32T>* out_elements_kind, TNode<RawPtrT>* out_backing_store) {
Label not_float_or_clamped(this), invalid(this);
// Fail if it is not a heap object.
GotoIf(TaggedIsSmi(maybe_array), &invalid);
// Fail if the array's instance type is not JSTypedArray.
TNode<Map> map = LoadMap(CAST(maybe_array));
GotoIfNot(IsJSTypedArrayMap(map), &invalid);
TNode<JSTypedArray> array = CAST(maybe_array);
// Fail if the array's JSArrayBuffer is not shared.
TNode<JSArrayBuffer> array_buffer = LoadJSArrayBufferViewBuffer(array);
TNode<Uint32T> bitfield = LoadJSArrayBufferBitField(array_buffer);
GotoIfNot(IsSetWord32<JSArrayBuffer::IsSharedBit>(bitfield), &invalid);
// Fail if the array's element type is float32, float64 or clamped.
STATIC_ASSERT(INT8_ELEMENTS < FLOAT32_ELEMENTS);
STATIC_ASSERT(INT16_ELEMENTS < FLOAT32_ELEMENTS);
STATIC_ASSERT(INT32_ELEMENTS < FLOAT32_ELEMENTS);
STATIC_ASSERT(UINT8_ELEMENTS < FLOAT32_ELEMENTS);
STATIC_ASSERT(UINT16_ELEMENTS < FLOAT32_ELEMENTS);
STATIC_ASSERT(UINT32_ELEMENTS < FLOAT32_ELEMENTS);
TNode<Int32T> elements_kind = LoadMapElementsKind(map);
GotoIf(Int32LessThan(elements_kind, Int32Constant(FLOAT32_ELEMENTS)),
&not_float_or_clamped);
STATIC_ASSERT(BIGINT64_ELEMENTS > UINT8_CLAMPED_ELEMENTS);
STATIC_ASSERT(BIGUINT64_ELEMENTS > UINT8_CLAMPED_ELEMENTS);
Branch(Int32GreaterThan(elements_kind, Int32Constant(UINT8_CLAMPED_ELEMENTS)),
&not_float_or_clamped, &invalid);
BIND(&invalid);
{
ThrowTypeError(context, MessageTemplate::kNotIntegerSharedTypedArray,
maybe_array);
}
BIND(&not_float_or_clamped);
*out_elements_kind = elements_kind;
TNode<RawPtrT> backing_store = LoadJSArrayBufferBackingStorePtr(array_buffer);
TNode<UintPtrT> byte_offset = LoadJSArrayBufferViewByteOffset(array);
*out_backing_store = RawPtrAdd(backing_store, Signed(byte_offset));
}
// https://tc39.github.io/ecma262/#sec-validateatomicaccess
// ValidateAtomicAccess( typedArray, requestIndex )
TNode<UintPtrT> SharedArrayBufferBuiltinsAssembler::ValidateAtomicAccess(
TNode<JSTypedArray> array, TNode<Object> index, TNode<Context> context) {
Label done(this), range_error(this);
TNode<UintPtrT> index_uintptr = ToIndex(context, index, &range_error);
TNode<UintPtrT> array_length = LoadJSTypedArrayLength(array);
Branch(UintPtrLessThan(index_uintptr, array_length), &done, &range_error);
BIND(&range_error);
ThrowRangeError(context, MessageTemplate::kInvalidAtomicAccessIndex);
BIND(&done);
return index_uintptr;
}
void SharedArrayBufferBuiltinsAssembler::DebugSanityCheckAtomicIndex(
TNode<JSTypedArray> array, TNode<UintPtrT> index) {
// In Debug mode, we re-validate the index as a sanity check because
// ToInteger above calls out to JavaScript. A SharedArrayBuffer can't be
// detached and the TypedArray length can't change either, so skipping this
// check in Release mode is safe.
CSA_ASSERT(this, Word32BinaryNot(
IsDetachedBuffer(LoadJSArrayBufferViewBuffer(array))));
CSA_ASSERT(this, UintPtrLessThan(index, LoadJSTypedArrayLength(array)));
}
TNode<BigInt> SharedArrayBufferBuiltinsAssembler::BigIntFromSigned64(
Node* signed64) {
if (Is64()) {
return BigIntFromInt64(UncheckedCast<IntPtrT>(signed64));
} else {
TNode<IntPtrT> low = UncheckedCast<IntPtrT>(Projection(0, signed64));
TNode<IntPtrT> high = UncheckedCast<IntPtrT>(Projection(1, signed64));
return BigIntFromInt32Pair(low, high);
}
}
TNode<BigInt> SharedArrayBufferBuiltinsAssembler::BigIntFromUnsigned64(
Node* unsigned64) {
if (Is64()) {
return BigIntFromUint64(UncheckedCast<UintPtrT>(unsigned64));
} else {
TNode<UintPtrT> low = UncheckedCast<UintPtrT>(Projection(0, unsigned64));
TNode<UintPtrT> high = UncheckedCast<UintPtrT>(Projection(1, unsigned64));
return BigIntFromUint32Pair(low, high);
}
}
// https://tc39.es/ecma262/#sec-atomicload
TF_BUILTIN(AtomicsLoad, SharedArrayBufferBuiltinsAssembler) {
TNode<Object> maybe_array = CAST(Parameter(Descriptor::kArray));
TNode<Object> index = CAST(Parameter(Descriptor::kIndex));
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
TNode<Int32T> elements_kind;
TNode<RawPtrT> backing_store;
ValidateSharedTypedArray(maybe_array, context, &elements_kind,
&backing_store);
TNode<JSTypedArray> array = CAST(maybe_array);
TNode<UintPtrT> index_word = ValidateAtomicAccess(array, index, context);
Label i8(this), u8(this), i16(this), u16(this), i32(this), u32(this),
i64(this), u64(this), other(this);
int32_t case_values[] = {
INT8_ELEMENTS, UINT8_ELEMENTS, INT16_ELEMENTS, UINT16_ELEMENTS,
INT32_ELEMENTS, UINT32_ELEMENTS, BIGINT64_ELEMENTS, BIGUINT64_ELEMENTS,
};
Label* case_labels[] = {&i8, &u8, &i16, &u16, &i32, &u32, &i64, &u64};
Switch(elements_kind, &other, case_values, case_labels,
arraysize(case_labels));
BIND(&i8);
Return(
SmiFromInt32(AtomicLoad(MachineType::Int8(), backing_store, index_word)));
BIND(&u8);
Return(SmiFromInt32(
AtomicLoad(MachineType::Uint8(), backing_store, index_word)));
BIND(&i16);
Return(SmiFromInt32(
AtomicLoad(MachineType::Int16(), backing_store, WordShl(index_word, 1))));
BIND(&u16);
Return(SmiFromInt32(AtomicLoad(MachineType::Uint16(), backing_store,
WordShl(index_word, 1))));
BIND(&i32);
Return(ChangeInt32ToTagged(
AtomicLoad(MachineType::Int32(), backing_store, WordShl(index_word, 2))));
BIND(&u32);
Return(ChangeUint32ToTagged(AtomicLoad(MachineType::Uint32(), backing_store,
WordShl(index_word, 2))));
#if V8_TARGET_ARCH_MIPS && !_MIPS_ARCH_MIPS32R6
BIND(&i64);
Goto(&u64);
BIND(&u64);
{
TNode<Number> index_number = ChangeUintPtrToTagged(index_word);
Return(CallRuntime(Runtime::kAtomicsLoad64, context, array, index_number));
}
#else
BIND(&i64);
// This uses Uint64() intentionally: AtomicLoad is not implemented for
// Int64(), which is fine because the machine instruction only cares
// about words.
Return(BigIntFromSigned64(AtomicLoad(MachineType::Uint64(), backing_store,
WordShl(index_word, 3))));
BIND(&u64);
Return(BigIntFromUnsigned64(AtomicLoad(MachineType::Uint64(), backing_store,
WordShl(index_word, 3))));
#endif
// This shouldn't happen, we've already validated the type.
BIND(&other);
Unreachable();
}
// https://tc39.es/ecma262/#sec-atomics.store
TF_BUILTIN(AtomicsStore, SharedArrayBufferBuiltinsAssembler) {
TNode<Object> maybe_array = CAST(Parameter(Descriptor::kArray));
TNode<Object> index = CAST(Parameter(Descriptor::kIndex));
TNode<Object> value = CAST(Parameter(Descriptor::kValue));
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
TNode<Int32T> elements_kind;
TNode<RawPtrT> backing_store;
ValidateSharedTypedArray(maybe_array, context, &elements_kind,
&backing_store);
TNode<JSTypedArray> array = CAST(maybe_array);
TNode<UintPtrT> index_word = ValidateAtomicAccess(array, index, context);
Label u8(this), u16(this), u32(this), u64(this), other(this);
STATIC_ASSERT(BIGINT64_ELEMENTS > INT32_ELEMENTS);
STATIC_ASSERT(BIGUINT64_ELEMENTS > INT32_ELEMENTS);
GotoIf(Int32GreaterThan(elements_kind, Int32Constant(INT32_ELEMENTS)), &u64);
TNode<Number> value_integer = ToInteger_Inline(context, value);
TNode<Word32T> value_word32 = TruncateTaggedToWord32(context, value_integer);
DebugSanityCheckAtomicIndex(array, index_word);
int32_t case_values[] = {
INT8_ELEMENTS, UINT8_ELEMENTS, INT16_ELEMENTS,
UINT16_ELEMENTS, INT32_ELEMENTS, UINT32_ELEMENTS,
};
Label* case_labels[] = {&u8, &u8, &u16, &u16, &u32, &u32};
Switch(elements_kind, &other, case_values, case_labels,
arraysize(case_labels));
BIND(&u8);
AtomicStore(MachineRepresentation::kWord8, backing_store, index_word,
value_word32);
Return(value_integer);
BIND(&u16);
AtomicStore(MachineRepresentation::kWord16, backing_store,
WordShl(index_word, 1), value_word32);
Return(value_integer);
BIND(&u32);
AtomicStore(MachineRepresentation::kWord32, backing_store,
WordShl(index_word, 2), value_word32);
Return(value_integer);
BIND(&u64);
#if V8_TARGET_ARCH_MIPS && !_MIPS_ARCH_MIPS32R6
TNode<Number> index_number = ChangeUintPtrToTagged(index_word);
Return(CallRuntime(Runtime::kAtomicsStore64, context, array, index_number,
value));
#else
TNode<BigInt> value_bigint = ToBigInt(context, value);
DebugSanityCheckAtomicIndex(array, index_word);
TVARIABLE(UintPtrT, var_low);
TVARIABLE(UintPtrT, var_high);
BigIntToRawBytes(value_bigint, &var_low, &var_high);
TNode<UintPtrT> high = Is64() ? TNode<UintPtrT>() : var_high.value();
AtomicStore(MachineRepresentation::kWord64, backing_store,
WordShl(index_word, 3), var_low.value(), high);
Return(value_bigint);
#endif
// This shouldn't happen, we've already validated the type.
BIND(&other);
Unreachable();
}
// https://tc39.es/ecma262/#sec-atomics.exchange
TF_BUILTIN(AtomicsExchange, SharedArrayBufferBuiltinsAssembler) {
TNode<Object> maybe_array = CAST(Parameter(Descriptor::kArray));
TNode<Object> index = CAST(Parameter(Descriptor::kIndex));
TNode<Object> value = CAST(Parameter(Descriptor::kValue));
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
TNode<Int32T> elements_kind;
TNode<RawPtrT> backing_store;
ValidateSharedTypedArray(maybe_array, context, &elements_kind,
&backing_store);
TNode<JSTypedArray> array = CAST(maybe_array);
TNode<UintPtrT> index_word = ValidateAtomicAccess(array, index, context);
#if V8_TARGET_ARCH_MIPS || V8_TARGET_ARCH_MIPS64
TNode<Number> index_number = ChangeUintPtrToTagged(index_word);
Return(CallRuntime(Runtime::kAtomicsExchange, context, array, index_number,
value));
#else
Label i8(this), u8(this), i16(this), u16(this), i32(this), u32(this),
i64(this), u64(this), big(this), other(this);
STATIC_ASSERT(BIGINT64_ELEMENTS > INT32_ELEMENTS);
STATIC_ASSERT(BIGUINT64_ELEMENTS > INT32_ELEMENTS);
GotoIf(Int32GreaterThan(elements_kind, Int32Constant(INT32_ELEMENTS)), &big);
TNode<Number> value_integer = ToInteger_Inline(context, value);
DebugSanityCheckAtomicIndex(array, index_word);
TNode<Word32T> value_word32 = TruncateTaggedToWord32(context, value_integer);
int32_t case_values[] = {
INT8_ELEMENTS, UINT8_ELEMENTS, INT16_ELEMENTS,
UINT16_ELEMENTS, INT32_ELEMENTS, UINT32_ELEMENTS,
};
Label* case_labels[] = {
&i8, &u8, &i16, &u16, &i32, &u32,
};
Switch(elements_kind, &other, case_values, case_labels,
arraysize(case_labels));
BIND(&i8);
Return(SmiFromInt32(AtomicExchange(MachineType::Int8(), backing_store,
index_word, value_word32)));
BIND(&u8);
Return(SmiFromInt32(AtomicExchange(MachineType::Uint8(), backing_store,
index_word, value_word32)));
BIND(&i16);
Return(SmiFromInt32(AtomicExchange(MachineType::Int16(), backing_store,
WordShl(index_word, 1), value_word32)));
BIND(&u16);
Return(SmiFromInt32(AtomicExchange(MachineType::Uint16(), backing_store,
WordShl(index_word, 1), value_word32)));
BIND(&i32);
Return(ChangeInt32ToTagged(AtomicExchange(MachineType::Int32(), backing_store,
WordShl(index_word, 2),
value_word32)));
BIND(&u32);
Return(ChangeUint32ToTagged(
AtomicExchange(MachineType::Uint32(), backing_store,
WordShl(index_word, 2), value_word32)));
BIND(&big);
TNode<BigInt> value_bigint = ToBigInt(context, value);
DebugSanityCheckAtomicIndex(array, index_word);
TVARIABLE(UintPtrT, var_low);
TVARIABLE(UintPtrT, var_high);
BigIntToRawBytes(value_bigint, &var_low, &var_high);
TNode<UintPtrT> high = Is64() ? TNode<UintPtrT>() : var_high.value();
GotoIf(Word32Equal(elements_kind, Int32Constant(BIGINT64_ELEMENTS)), &i64);
GotoIf(Word32Equal(elements_kind, Int32Constant(BIGUINT64_ELEMENTS)), &u64);
Unreachable();
BIND(&i64);
// This uses Uint64() intentionally: AtomicExchange is not implemented for
// Int64(), which is fine because the machine instruction only cares
// about words.
Return(BigIntFromSigned64(AtomicExchange(MachineType::Uint64(), backing_store,
WordShl(index_word, 3),
var_low.value(), high)));
BIND(&u64);
Return(BigIntFromUnsigned64(
AtomicExchange(MachineType::Uint64(), backing_store,
WordShl(index_word, 3), var_low.value(), high)));
// This shouldn't happen, we've already validated the type.
BIND(&other);
Unreachable();
#endif // V8_TARGET_ARCH_MIPS || V8_TARGET_ARCH_MIPS64
}
// https://tc39.es/ecma262/#sec-atomics.compareexchange
TF_BUILTIN(AtomicsCompareExchange, SharedArrayBufferBuiltinsAssembler) {
TNode<Object> maybe_array = CAST(Parameter(Descriptor::kArray));
TNode<Object> index = CAST(Parameter(Descriptor::kIndex));
TNode<Object> old_value = CAST(Parameter(Descriptor::kOldValue));
TNode<Object> new_value = CAST(Parameter(Descriptor::kNewValue));
TNode<Context> context = CAST(Parameter(Descriptor::kContext));
TNode<Int32T> elements_kind;
TNode<RawPtrT> backing_store;
ValidateSharedTypedArray(maybe_array, context, &elements_kind,
&backing_store);
TNode<JSTypedArray> array = CAST(maybe_array);
TNode<UintPtrT> index_word = ValidateAtomicAccess(array, index, context);
#if V8_TARGET_ARCH_MIPS || V8_TARGET_ARCH_MIPS64 || V8_TARGET_ARCH_PPC64 || \
V8_TARGET_ARCH_PPC || V8_TARGET_ARCH_S390 || V8_TARGET_ARCH_S390X
TNode<Number> index_number = ChangeUintPtrToTagged(index_word);
Return(CallRuntime(Runtime::kAtomicsCompareExchange, context, array,
index_number, old_value, new_value));
#else
Label i8(this), u8(this), i16(this), u16(this), i32(this), u32(this),
i64(this), u64(this), big(this), other(this);
STATIC_ASSERT(BIGINT64_ELEMENTS > INT32_ELEMENTS);
STATIC_ASSERT(BIGUINT64_ELEMENTS > INT32_ELEMENTS);
GotoIf(Int32GreaterThan(elements_kind, Int32Constant(INT32_ELEMENTS)), &big);
TNode<Number> old_value_integer = ToInteger_Inline(context, old_value);
TNode<Number> new_value_integer = ToInteger_Inline(context, new_value);
DebugSanityCheckAtomicIndex(array, index_word);
TNode<Word32T> old_value_word32 =
TruncateTaggedToWord32(context, old_value_integer);
TNode<Word32T> new_value_word32 =
TruncateTaggedToWord32(context, new_value_integer);
int32_t case_values[] = {
INT8_ELEMENTS, UINT8_ELEMENTS, INT16_ELEMENTS,
UINT16_ELEMENTS, INT32_ELEMENTS, UINT32_ELEMENTS,
};
Label* case_labels[] = {
&i8, &u8, &i16, &u16, &i32, &u32,
};
Switch(elements_kind, &other, case_values, case_labels,
arraysize(case_labels));
BIND(&i8);
Return(SmiFromInt32(AtomicCompareExchange(MachineType::Int8(), backing_store,
index_word, old_value_word32,
new_value_word32)));
BIND(&u8);
Return(SmiFromInt32(AtomicCompareExchange(MachineType::Uint8(), backing_store,
index_word, old_value_word32,
new_value_word32)));
BIND(&i16);
Return(SmiFromInt32(AtomicCompareExchange(
MachineType::Int16(), backing_store, WordShl(index_word, 1),
old_value_word32, new_value_word32)));
BIND(&u16);
Return(SmiFromInt32(AtomicCompareExchange(
MachineType::Uint16(), backing_store, WordShl(index_word, 1),
old_value_word32, new_value_word32)));
BIND(&i32);
Return(ChangeInt32ToTagged(AtomicCompareExchange(
MachineType::Int32(), backing_store, WordShl(index_word, 2),
old_value_word32, new_value_word32)));
BIND(&u32);
Return(ChangeUint32ToTagged(AtomicCompareExchange(
MachineType::Uint32(), backing_store, WordShl(index_word, 2),
old_value_word32, new_value_word32)));
BIND(&big);
TNode<BigInt> old_value_bigint = ToBigInt(context, old_value);
TNode<BigInt> new_value_bigint = ToBigInt(context, new_value);
DebugSanityCheckAtomicIndex(array, index_word);
TVARIABLE(UintPtrT, var_old_low);
TVARIABLE(UintPtrT, var_old_high);
TVARIABLE(UintPtrT, var_new_low);
TVARIABLE(UintPtrT, var_new_high);
BigIntToRawBytes(old_value_bigint, &var_old_low, &var_old_high);
BigIntToRawBytes(new_value_bigint, &var_new_low, &var_new_high);
TNode<UintPtrT> old_high = Is64() ? TNode<UintPtrT>() : var_old_high.value();
TNode<UintPtrT> new_high = Is64() ? TNode<UintPtrT>() : var_new_high.value();
GotoIf(Word32Equal(elements_kind, Int32Constant(BIGINT64_ELEMENTS)), &i64);
GotoIf(Word32Equal(elements_kind, Int32Constant(BIGUINT64_ELEMENTS)), &u64);
Unreachable();
BIND(&i64);
// This uses Uint64() intentionally: AtomicCompareExchange is not implemented
// for Int64(), which is fine because the machine instruction only cares
// about words.
Return(BigIntFromSigned64(AtomicCompareExchange(
MachineType::Uint64(), backing_store, WordShl(index_word, 3),
var_old_low.value(), var_new_low.value(), old_high, new_high)));
BIND(&u64);
Return(BigIntFromUnsigned64(AtomicCompareExchange(
MachineType::Uint64(), backing_store, WordShl(index_word, 3),
var_old_low.value(), var_new_low.value(), old_high, new_high)));
// This shouldn't happen, we've already validated the type.
BIND(&other);
Unreachable();
#endif // V8_TARGET_ARCH_MIPS || V8_TARGET_ARCH_MIPS64 || V8_TARGET_ARCH_PPC64
// || V8_TARGET_ARCH_PPC || V8_TARGET_ARCH_S390 || V8_TARGET_ARCH_S390X
}
#define BINOP_BUILTIN(op) \
TF_BUILTIN(Atomics##op, SharedArrayBufferBuiltinsAssembler) { \
TNode<Object> array = CAST(Parameter(Descriptor::kArray)); \
TNode<Object> index = CAST(Parameter(Descriptor::kIndex)); \
TNode<Object> value = CAST(Parameter(Descriptor::kValue)); \
TNode<Context> context = CAST(Parameter(Descriptor::kContext)); \
AtomicBinopBuiltinCommon(array, index, value, context, \
&CodeAssembler::Atomic##op, \
Runtime::kAtomics##op); \
}
// https://tc39.es/ecma262/#sec-atomics.add
BINOP_BUILTIN(Add)
// https://tc39.es/ecma262/#sec-atomics.sub
BINOP_BUILTIN(Sub)
// https://tc39.es/ecma262/#sec-atomics.and
BINOP_BUILTIN(And)
// https://tc39.es/ecma262/#sec-atomics.or
BINOP_BUILTIN(Or)
// https://tc39.es/ecma262/#sec-atomics.xor
BINOP_BUILTIN(Xor)
#undef BINOP_BUILTIN
// https://tc39.es/ecma262/#sec-atomicreadmodifywrite
void SharedArrayBufferBuiltinsAssembler::AtomicBinopBuiltinCommon(
TNode<Object> maybe_array, TNode<Object> index, TNode<Object> value,
TNode<Context> context, AssemblerFunction function,
Runtime::FunctionId runtime_function) {
TNode<Int32T> elements_kind;
TNode<RawPtrT> backing_store;
ValidateSharedTypedArray(maybe_array, context, &elements_kind,
&backing_store);
TNode<JSTypedArray> array = CAST(maybe_array);
TNode<UintPtrT> index_word = ValidateAtomicAccess(array, index, context);
#if V8_TARGET_ARCH_MIPS || V8_TARGET_ARCH_MIPS64 || V8_TARGET_ARCH_PPC64 || \
V8_TARGET_ARCH_PPC || V8_TARGET_ARCH_S390 || V8_TARGET_ARCH_S390X
TNode<Number> index_number = ChangeUintPtrToTagged(index_word);
Return(CallRuntime(runtime_function, context, array, index_number, value));
#else
Label i8(this), u8(this), i16(this), u16(this), i32(this), u32(this),
i64(this), u64(this), big(this), other(this);
STATIC_ASSERT(BIGINT64_ELEMENTS > INT32_ELEMENTS);
STATIC_ASSERT(BIGUINT64_ELEMENTS > INT32_ELEMENTS);
GotoIf(Int32GreaterThan(elements_kind, Int32Constant(INT32_ELEMENTS)), &big);
TNode<Number> value_integer = ToInteger_Inline(context, value);
DebugSanityCheckAtomicIndex(array, index_word);
TNode<Word32T> value_word32 = TruncateTaggedToWord32(context, value_integer);
int32_t case_values[] = {
INT8_ELEMENTS, UINT8_ELEMENTS, INT16_ELEMENTS,
UINT16_ELEMENTS, INT32_ELEMENTS, UINT32_ELEMENTS,
};
Label* case_labels[] = {
&i8, &u8, &i16, &u16, &i32, &u32,
};
Switch(elements_kind, &other, case_values, case_labels,
arraysize(case_labels));
BIND(&i8);
Return(SmiFromInt32((this->*function)(MachineType::Int8(), backing_store,
index_word, value_word32, nullptr)));
BIND(&u8);
Return(SmiFromInt32((this->*function)(MachineType::Uint8(), backing_store,
index_word, value_word32, nullptr)));
BIND(&i16);
Return(SmiFromInt32((this->*function)(MachineType::Int16(), backing_store,
WordShl(index_word, 1), value_word32,
nullptr)));
BIND(&u16);
Return(SmiFromInt32((this->*function)(MachineType::Uint16(), backing_store,
WordShl(index_word, 1), value_word32,
nullptr)));
BIND(&i32);
Return(ChangeInt32ToTagged(
(this->*function)(MachineType::Int32(), backing_store,
WordShl(index_word, 2), value_word32, nullptr)));
BIND(&u32);
Return(ChangeUint32ToTagged(
(this->*function)(MachineType::Uint32(), backing_store,
WordShl(index_word, 2), value_word32, nullptr)));
BIND(&big);
TNode<BigInt> value_bigint = ToBigInt(context, value);
DebugSanityCheckAtomicIndex(array, index_word);
TVARIABLE(UintPtrT, var_low);
TVARIABLE(UintPtrT, var_high);
BigIntToRawBytes(value_bigint, &var_low, &var_high);
TNode<UintPtrT> high = Is64() ? TNode<UintPtrT>() : var_high.value();
GotoIf(Word32Equal(elements_kind, Int32Constant(BIGINT64_ELEMENTS)), &i64);
GotoIf(Word32Equal(elements_kind, Int32Constant(BIGUINT64_ELEMENTS)), &u64);
Unreachable();
BIND(&i64);
// This uses Uint64() intentionally: Atomic* ops are not implemented for
// Int64(), which is fine because the machine instructions only care
// about words.
Return(BigIntFromSigned64(
(this->*function)(MachineType::Uint64(), backing_store,
WordShl(index_word, 3), var_low.value(), high)));
BIND(&u64);
Return(BigIntFromUnsigned64(
(this->*function)(MachineType::Uint64(), backing_store,
WordShl(index_word, 3), var_low.value(), high)));
// This shouldn't happen, we've already validated the type.
BIND(&other);
Unreachable();
#endif // V8_TARGET_ARCH_MIPS || V8_TARGET_ARCH_MIPS64 || V8_TARGET_ARCH_PPC64
// || V8_TARGET_ARCH_PPC || V8_TARGET_ARCH_S390 || V8_TARGET_ARCH_S390X
}
} // namespace internal
} // namespace v8