// Copyright 2023 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.

#ifndef V8_OBJECTS_ABSTRACT_CODE_INL_H_

#define V8_OBJECTS_ABSTRACT_CODE_INL_H_

#include "src/objects/abstract-code.h"

// Include the non-inl header before the rest of the headers.

#include "src/objects/bytecode-array-inl.h"

#include "src/objects/code-inl.h"

#include "src/objects/instance-type-inl.h"

// Has to be the last include (doesn't have include guards):

#include "src/objects/object-macros.h"

namespace v8 {

namespace internal {

OBJECT_CONSTRUCTORS_IMPL(AbstractCode, HeapObject)

int AbstractCode::InstructionSize(PtrComprCageBase cage_base) {

Tagged<Map> map_object = map(cage_base);

if (InstanceTypeChecker::IsCode(map_object)) {

return GetCode()->instruction_size();

} else {

DCHECK(InstanceTypeChecker::IsBytecodeArray(map_object));

return GetBytecodeArray()->length();

}

}

Tagged<TrustedByteArray> AbstractCode::SourcePositionTable(

Isolate* isolate, Tagged<SharedFunctionInfo> sfi) {

Tagged<Map> map_object = map(isolate);

if (InstanceTypeChecker::IsCode(map_object)) {

return GetCode()->SourcePositionTable(isolate, sfi);

} else {

DCHECK(InstanceTypeChecker::IsBytecodeArray(map_object));

return GetBytecodeArray()->SourcePositionTable(isolate);

}

}

int AbstractCode::SizeIncludingMetadata(PtrComprCageBase cage_base) {

Tagged<Map> map_object = map(cage_base);

if (InstanceTypeChecker::IsCode(map_object)) {

return GetCode()->SizeIncludingMetadata();

} else {

DCHECK(InstanceTypeChecker::IsBytecodeArray(map_object));

return GetBytecodeArray()->SizeIncludingMetadata();

}

}

Address AbstractCode::InstructionStart(PtrComprCageBase cage_base) {

Tagged<Map> map_object = map(cage_base);

if (InstanceTypeChecker::IsCode(map_object)) {

return GetCode()->instruction_start();

} else {

DCHECK(InstanceTypeChecker::IsBytecodeArray(map_object));

return GetBytecodeArray()->GetFirstBytecodeAddress();

}

}

Address AbstractCode::InstructionEnd(PtrComprCageBase cage_base) {

Tagged<Map> map_object = map(cage_base);

if (InstanceTypeChecker::IsCode(map_object)) {

return GetCode()->instruction_end();

} else {

DCHECK(InstanceTypeChecker::IsBytecodeArray(map_object));

Tagged<BytecodeArray> bytecode_array = GetBytecodeArray();

return bytecode_array->GetFirstBytecodeAddress() + bytecode_array->length();

}

}

bool AbstractCode::contains(Isolate* isolate, Address inner_pointer) {

PtrComprCageBase cage_base(isolate);

Tagged<Map> map_object = map(cage_base);

if (InstanceTypeChecker::IsCode(map_object)) {

return GetCode()->contains(isolate, inner_pointer);

} else {

DCHECK(InstanceTypeChecker::IsBytecodeArray(map_object));

return (address() <= inner_pointer) &&

(inner_pointer <= address() + Size(cage_base));

}

}

CodeKind AbstractCode::kind(PtrComprCageBase cage_base) {

Tagged<Map> map_object = map(cage_base);

if (InstanceTypeChecker::IsCode(map_object)) {

return GetCode()->kind();

} else {

DCHECK(InstanceTypeChecker::IsBytecodeArray(map_object));

return CodeKind::INTERPRETED_FUNCTION;

}

}

Builtin AbstractCode::builtin_id(PtrComprCageBase cage_base) {

Tagged<Map> map_object = map(cage_base);

if (InstanceTypeChecker::IsCode(map_object)) {

return GetCode()->builtin_id();

} else {

DCHECK(InstanceTypeChecker::IsBytecodeArray(map_object));

return Builtin::kNoBuiltinId;

}

}

bool AbstractCode::has_instruction_stream(PtrComprCageBase cage_base) {

DCHECK(InstanceTypeChecker::IsCode(map(cage_base)));

return GetCode()->has_instruction_stream();

}

Tagged<Code> AbstractCode::GetCode() { return Cast<Code>(*this); }

Tagged<BytecodeArray> AbstractCode::GetBytecodeArray() {

return Cast<BytecodeArray>(*this);

}

} // namespace internal

} // namespace v8

#include "src/objects/object-macros-undef.h"

#endif // V8_OBJECTS_ABSTRACT_CODE_INL_H_