#pragma once
#include "Opcode.h"
#include "OpcodeSize.h"
namespace JSC {
struct JSOpcodeTraits {
using OpcodeID = ::JSC::OpcodeID;
static constexpr OpcodeID numberOfBytecodesWithCheckpoints = static_cast<OpcodeID>(NUMBER_OF_BYTECODE_WITH_CHECKPOINTS);
static constexpr OpcodeID numberOfBytecodesWithMetadata = static_cast<OpcodeID>(NUMBER_OF_BYTECODE_WITH_METADATA);
static_assert(numberOfBytecodesWithCheckpoints <= numberOfBytecodesWithMetadata);
static constexpr OpcodeID wide16 = op_wide16;
static constexpr OpcodeID wide32 = op_wide32;
static constexpr const unsigned* opcodeLengths = ::JSC::opcodeLengths;
static constexpr const char* const* opcodeNames = ::JSC::opcodeNames;
static constexpr auto checkpointCountTable = bytecodeCheckpointCountTable;
};
struct WasmOpcodeTraits {
using OpcodeID = WasmOpcodeID;
static constexpr OpcodeID numberOfBytecodesWithCheckpoints = static_cast<OpcodeID>(NUMBER_OF_WASM_WITH_CHECKPOINTS);
static constexpr OpcodeID numberOfBytecodesWithMetadata = static_cast<OpcodeID>(NUMBER_OF_WASM_WITH_METADATA);
static_assert(numberOfBytecodesWithCheckpoints <= numberOfBytecodesWithMetadata);
static constexpr OpcodeID wide16 = wasm_wide16;
static constexpr OpcodeID wide32 = wasm_wide32;
static constexpr const unsigned* opcodeLengths = wasmOpcodeLengths;
static constexpr const char* const* opcodeNames = wasmOpcodeNames;
static constexpr auto checkpointCountTable = wasmCheckpointCountTable;
};
template<typename Opcode>
struct BaseInstruction {
struct Metadata { };
protected:
BaseInstruction()
{ }
private:
template<OpcodeSize Width>
class Impl {
public:
template<typename Traits = JSOpcodeTraits>
typename Traits::OpcodeID opcodeID() const { return static_cast<typename Traits::OpcodeID>(m_opcode); }
private:
typename TypeBySize<OpcodeSize::Narrow>::unsignedType m_opcode;
};
public:
template<typename Traits = JSOpcodeTraits>
typename Traits::OpcodeID opcodeID() const
{
if (isWide32<Traits>())
return wide32<Traits>()->template opcodeID<Traits>();
if (isWide16<Traits>())
return wide16<Traits>()->template opcodeID<Traits>();
return narrow()->template opcodeID<Traits>();
}
template<typename Traits = JSOpcodeTraits>
const char* name() const
{
return Traits::opcodeNames[opcodeID()];
}
template<typename Traits = JSOpcodeTraits>
bool isWide16() const
{
return narrow()->template opcodeID<Traits>() == Traits::wide16;
}
template<typename Traits = JSOpcodeTraits>
bool isWide32() const
{
return narrow()->template opcodeID<Traits>() == Traits::wide32;
}
template<typename Traits = JSOpcodeTraits>
OpcodeSize width() const
{
if (isWide32<Traits>())
return OpcodeSize::Wide32;
return isWide16<Traits>() ? OpcodeSize::Wide16 : OpcodeSize::Narrow;
}
template<typename Traits = JSOpcodeTraits>
bool hasMetadata() const
{
return opcodeID<Traits>() < Traits::numberOfBytecodesWithMetadata;
}
template<typename Traits = JSOpcodeTraits>
bool hasCheckpoints() const
{
return opcodeID<Traits>() < Traits::numberOfBytecodesWithCheckpoints;
}
template<typename Traits = JSOpcodeTraits>
unsigned numberOfCheckpoints() const
{
if (!hasCheckpoints<Traits>())
return 1;
return Traits::checkpointCountTable[opcodeID<Traits>()];
}
template<typename Traits = JSOpcodeTraits>
int sizeShiftAmount() const
{
if (isWide32<Traits>())
return 2;
if (isWide16<Traits>())
return 1;
return 0;
}
template<typename Traits = JSOpcodeTraits>
size_t size() const
{
auto sizeShiftAmount = this->sizeShiftAmount<Traits>();
size_t prefixSize = sizeShiftAmount ? 1 : 0;
size_t operandSize = static_cast<size_t>(1) << sizeShiftAmount;
size_t sizeOfBytecode = 1;
return sizeOfBytecode + (Traits::opcodeLengths[opcodeID<Traits>()] - 1) * operandSize + prefixSize;
}
template<class T, typename Traits = JSOpcodeTraits>
bool is() const
{
return opcodeID<Traits>() == T::opcodeID;
}
template<class T, typename Traits = JSOpcodeTraits>
T as() const
{
ASSERT((is<T, Traits>()));
return T::decode(reinterpret_cast<const uint8_t*>(this));
}
template<class T, OpcodeSize width, typename Traits = JSOpcodeTraits>
T asKnownWidth() const
{
ASSERT((is<T, Traits>()));
return T(reinterpret_cast<const typename TypeBySize<width>::unsignedType*>(this + (width == OpcodeSize::Narrow ? 1 : 2)));
}
template<class T, typename Traits = JSOpcodeTraits>
T* cast()
{
ASSERT((is<T, Traits>()));
return bitwise_cast<T*>(this);
}
template<class T, typename Traits = JSOpcodeTraits>
const T* cast() const
{
ASSERT((is<T, Traits>()));
return reinterpret_cast<const T*>(this);
}
const Impl<OpcodeSize::Narrow>* narrow() const
{
return reinterpret_cast<const Impl<OpcodeSize::Narrow>*>(this);
}
template<typename Traits = JSOpcodeTraits>
const Impl<OpcodeSize::Wide16>* wide16() const
{
ASSERT(isWide16<Traits>());
return reinterpret_cast<const Impl<OpcodeSize::Wide16>*>(this + 1);
}
template<typename Traits = JSOpcodeTraits>
const Impl<OpcodeSize::Wide32>* wide32() const
{
ASSERT(isWide32<Traits>());
return reinterpret_cast<const Impl<OpcodeSize::Wide32>*>(this + 1);
}
};
struct Instruction : public BaseInstruction<OpcodeID> {
};
static_assert(sizeof(Instruction) == 1, "So pointer math is the same as byte math");
struct WasmInstance : public BaseInstruction<WasmOpcodeID> {
};
static_assert(sizeof(WasmInstance) == 1, "So pointer math is the same as byte math");
}