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swiftshader / SwiftShader / 72e6f396eec5edfa6a4d3fabde1b7619f4f43062 / . / src / Reactor / Reactor.hpp
blob: e4b6be06e88034848da9d1b13578bbdd2801e698 [file] [log] [blame]
// Copyright 2016 The SwiftShader Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef rr_Reactor_hpp
#define rr_Reactor_hpp
#include "Nucleus.hpp"
#include "Routine.hpp"
#include "Traits.hpp"
#include <cassert>
#include <cstddef>
#include <cstdio>
#include <tuple>
#include <unordered_set>
#undef Bool // b/127920555
#ifdef ENABLE_RR_DEBUG_INFO
// Functions used for generating JIT debug info.
// See docs/ReactorDebugInfo.md for more information.
namespace rr
{
// Update the current source location for debug.
void EmitDebugLocation();
// Bind value to its symbolic name taken from the backtrace.
void EmitDebugVariable(class Value* value);
// Flush any pending variable bindings before the line ends.
void FlushDebug();
}
#define RR_DEBUG_INFO_UPDATE_LOC() rr::EmitDebugLocation()
#define RR_DEBUG_INFO_EMIT_VAR(value) rr::EmitDebugVariable(value)
#define RR_DEBUG_INFO_FLUSH() rr::FlushDebug()
#else
#define RR_DEBUG_INFO_UPDATE_LOC()
#define RR_DEBUG_INFO_EMIT_VAR(value)
#define RR_DEBUG_INFO_FLUSH()
#endif // ENABLE_RR_DEBUG_INFO
namespace rr
{
struct Capabilities
{
bool CoroutinesSupported; // Support for rr::Coroutine<F>
};
extern const Capabilities Caps;
class Bool;
class Byte;
class SByte;
class Byte4;
class SByte4;
class Byte8;
class SByte8;
class Byte16;
class SByte16;
class Short;
class UShort;
class Short2;
class UShort2;
class Short4;
class UShort4;
class Short8;
class UShort8;
class Int;
class UInt;
class Int2;
class UInt2;
class Int4;
class UInt4;
class Long;
class Half;
class Float;
class Float2;
class Float4;
class Void
{
public:
static Type *getType();
static bool isVoid()
{
return true;
}
};
template<class T>
class RValue;
template<class T>
class Pointer;
class Variable
{
friend class Nucleus;
friend class PrintValue;
Variable() = delete;
Variable &operator=(const Variable&) = delete;
public:
void materialize() const;
Value *loadValue() const;
Value *storeValue(Value *value) const;
Value *getBaseAddress() const;
Value *getElementPointer(Value *index, bool unsignedIndex) const;
protected:
Variable(Type *type, int arraySize);
Variable(const Variable&) = default;
~Variable();
const int arraySize;
private:
static void materializeAll();
static void killUnmaterialized();
static std::unordered_set<Variable*> unmaterializedVariables;
Type *const type;
mutable Value *rvalue = nullptr;
mutable Value *address = nullptr;
};
template<class T>
class LValue : public Variable
{
public:
LValue(int arraySize = 0);
RValue<Pointer<T>> operator&();
static bool isVoid()
{
return false;
}
// self() returns the this pointer to this LValue<T> object.
// This function exists because operator&() is overloaded.
inline LValue<T>* self() { return this; }
};
template<class T>
class Reference
{
public:
using reference_underlying_type = T;
explicit Reference(Value *pointer, int alignment = 1);
RValue<T> operator=(RValue<T> rhs) const;
RValue<T> operator=(const Reference<T> &ref) const;
RValue<T> operator+=(RValue<T> rhs) const;
RValue<Pointer<T>> operator&() const { return RValue<Pointer<T>>(address); }
Value *loadValue() const;
int getAlignment() const;
private:
Value *address;
const int alignment;
};
template<class T>
struct BoolLiteral
{
struct type;
};
template<>
struct BoolLiteral<Bool>
{
typedef bool type;
};
template<class T>
struct IntLiteral
{
struct type;
};
template<>
struct IntLiteral<Int>
{
typedef int type;
};
template<>
struct IntLiteral<UInt>
{
typedef unsigned int type;
};
template<>
struct IntLiteral<Long>
{
typedef int64_t type;
};
template<class T>
struct FloatLiteral
{
struct type;
};
template<>
struct FloatLiteral<Float>
{
typedef float type;
};
template<class T>
class RValue
{
public:
using rvalue_underlying_type = T;
explicit RValue(Value *rvalue);
#ifdef ENABLE_RR_DEBUG_INFO
RValue(const RValue<T> &rvalue);
#endif // ENABLE_RR_DEBUG_INFO
RValue(const T &lvalue);
RValue(typename BoolLiteral<T>::type i);
RValue(typename IntLiteral<T>::type i);
RValue(typename FloatLiteral<T>::type f);
RValue(const Reference<T> &rhs);
RValue<T> &operator=(const RValue<T>&) = delete;
Value *value; // FIXME: Make private
};
template<typename T>
struct Argument
{
explicit Argument(Value *value) : value(value) {}
Value *value;
};
class Bool : public LValue<Bool>
{
public:
Bool(Argument<Bool> argument);
Bool() = default;
Bool(bool x);
Bool(RValue<Bool> rhs);
Bool(const Bool &rhs);
Bool(const Reference<Bool> &rhs);
// RValue<Bool> operator=(bool rhs); // FIXME: Implement
RValue<Bool> operator=(RValue<Bool> rhs);
RValue<Bool> operator=(const Bool &rhs);
RValue<Bool> operator=(const Reference<Bool> &rhs);
static Type *getType();
};
RValue<Bool> operator!(RValue<Bool> val);
RValue<Bool> operator&&(RValue<Bool> lhs, RValue<Bool> rhs);
RValue<Bool> operator||(RValue<Bool> lhs, RValue<Bool> rhs);
RValue<Bool> operator!=(RValue<Bool> lhs, RValue<Bool> rhs);
RValue<Bool> operator==(RValue<Bool> lhs, RValue<Bool> rhs);
class Byte : public LValue<Byte>
{
public:
Byte(Argument<Byte> argument);
explicit Byte(RValue<Int> cast);
explicit Byte(RValue<UInt> cast);
explicit Byte(RValue<UShort> cast);
Byte() = default;
Byte(int x);
Byte(unsigned char x);
Byte(RValue<Byte> rhs);
Byte(const Byte &rhs);
Byte(const Reference<Byte> &rhs);
// RValue<Byte> operator=(unsigned char rhs); // FIXME: Implement
RValue<Byte> operator=(RValue<Byte> rhs);
RValue<Byte> operator=(const Byte &rhs);
RValue<Byte> operator=(const Reference<Byte> &rhs);
static Type *getType();
};
RValue<Byte> operator+(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator-(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator*(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator/(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator%(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator&(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator|(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator^(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator<<(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator>>(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Byte> operator+=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator-=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator*=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator/=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator%=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator&=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator|=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator^=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator<<=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator>>=(Byte &lhs, RValue<Byte> rhs);
RValue<Byte> operator+(RValue<Byte> val);
RValue<Byte> operator-(RValue<Byte> val);
RValue<Byte> operator~(RValue<Byte> val);
RValue<Byte> operator++(Byte &val, int); // Post-increment
const Byte &operator++(Byte &val); // Pre-increment
RValue<Byte> operator--(Byte &val, int); // Post-decrement
const Byte &operator--(Byte &val); // Pre-decrement
RValue<Bool> operator<(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Bool> operator<=(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Bool> operator>(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Bool> operator>=(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Bool> operator!=(RValue<Byte> lhs, RValue<Byte> rhs);
RValue<Bool> operator==(RValue<Byte> lhs, RValue<Byte> rhs);
class SByte : public LValue<SByte>
{
public:
SByte(Argument<SByte> argument);
explicit SByte(RValue<Int> cast);
explicit SByte(RValue<Short> cast);
SByte() = default;
SByte(signed char x);
SByte(RValue<SByte> rhs);
SByte(const SByte &rhs);
SByte(const Reference<SByte> &rhs);
// RValue<SByte> operator=(signed char rhs); // FIXME: Implement
RValue<SByte> operator=(RValue<SByte> rhs);
RValue<SByte> operator=(const SByte &rhs);
RValue<SByte> operator=(const Reference<SByte> &rhs);
static Type *getType();
};
RValue<SByte> operator+(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator-(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator*(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator/(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator%(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator&(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator|(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator^(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator<<(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator>>(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<SByte> operator+=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator-=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator*=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator/=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator%=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator&=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator|=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator^=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator<<=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator>>=(SByte &lhs, RValue<SByte> rhs);
RValue<SByte> operator+(RValue<SByte> val);
RValue<SByte> operator-(RValue<SByte> val);
RValue<SByte> operator~(RValue<SByte> val);
RValue<SByte> operator++(SByte &val, int); // Post-increment
const SByte &operator++(SByte &val); // Pre-increment
RValue<SByte> operator--(SByte &val, int); // Post-decrement
const SByte &operator--(SByte &val); // Pre-decrement
RValue<Bool> operator<(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<Bool> operator<=(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<Bool> operator>(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<Bool> operator>=(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<Bool> operator!=(RValue<SByte> lhs, RValue<SByte> rhs);
RValue<Bool> operator==(RValue<SByte> lhs, RValue<SByte> rhs);
class Short : public LValue<Short>
{
public:
Short(Argument<Short> argument);
explicit Short(RValue<Int> cast);
Short() = default;
Short(short x);
Short(RValue<Short> rhs);
Short(const Short &rhs);
Short(const Reference<Short> &rhs);
// RValue<Short> operator=(short rhs); // FIXME: Implement
RValue<Short> operator=(RValue<Short> rhs);
RValue<Short> operator=(const Short &rhs);
RValue<Short> operator=(const Reference<Short> &rhs);
static Type *getType();
};
RValue<Short> operator+(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator-(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator*(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator/(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator%(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator&(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator|(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator^(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator<<(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator>>(RValue<Short> lhs, RValue<Short> rhs);
RValue<Short> operator+=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator-=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator*=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator/=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator%=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator&=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator|=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator^=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator<<=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator>>=(Short &lhs, RValue<Short> rhs);
RValue<Short> operator+(RValue<Short> val);
RValue<Short> operator-(RValue<Short> val);
RValue<Short> operator~(RValue<Short> val);
RValue<Short> operator++(Short &val, int); // Post-increment
const Short &operator++(Short &val); // Pre-increment
RValue<Short> operator--(Short &val, int); // Post-decrement
const Short &operator--(Short &val); // Pre-decrement
RValue<Bool> operator<(RValue<Short> lhs, RValue<Short> rhs);
RValue<Bool> operator<=(RValue<Short> lhs, RValue<Short> rhs);
RValue<Bool> operator>(RValue<Short> lhs, RValue<Short> rhs);
RValue<Bool> operator>=(RValue<Short> lhs, RValue<Short> rhs);
RValue<Bool> operator!=(RValue<Short> lhs, RValue<Short> rhs);
RValue<Bool> operator==(RValue<Short> lhs, RValue<Short> rhs);
class UShort : public LValue<UShort>
{
public:
UShort(Argument<UShort> argument);
explicit UShort(RValue<UInt> cast);
explicit UShort(RValue<Int> cast);
UShort() = default;
UShort(unsigned short x);
UShort(RValue<UShort> rhs);
UShort(const UShort &rhs);
UShort(const Reference<UShort> &rhs);
// RValue<UShort> operator=(unsigned short rhs); // FIXME: Implement
RValue<UShort> operator=(RValue<UShort> rhs);
RValue<UShort> operator=(const UShort &rhs);
RValue<UShort> operator=(const Reference<UShort> &rhs);
static Type *getType();
};
RValue<UShort> operator+(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator-(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator*(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator/(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator%(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator&(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator|(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator^(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator<<(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator>>(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<UShort> operator+=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator-=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator*=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator/=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator%=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator&=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator|=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator^=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator<<=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator>>=(UShort &lhs, RValue<UShort> rhs);
RValue<UShort> operator+(RValue<UShort> val);
RValue<UShort> operator-(RValue<UShort> val);
RValue<UShort> operator~(RValue<UShort> val);
RValue<UShort> operator++(UShort &val, int); // Post-increment
const UShort &operator++(UShort &val); // Pre-increment
RValue<UShort> operator--(UShort &val, int); // Post-decrement
const UShort &operator--(UShort &val); // Pre-decrement
RValue<Bool> operator<(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<Bool> operator<=(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<Bool> operator>(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<Bool> operator>=(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<Bool> operator!=(RValue<UShort> lhs, RValue<UShort> rhs);
RValue<Bool> operator==(RValue<UShort> lhs, RValue<UShort> rhs);
class Byte4 : public LValue<Byte4>
{
public:
explicit Byte4(RValue<Byte8> cast);
Byte4() = default;
// Byte4(int x, int y, int z, int w);
// Byte4(RValue<Byte4> rhs);
// Byte4(const Byte4 &rhs);
Byte4(const Reference<Byte4> &rhs);
// RValue<Byte4> operator=(RValue<Byte4> rhs);
// RValue<Byte4> operator=(const Byte4 &rhs);
// RValue<Byte4> operator=(const Reference<Byte4> &rhs);
static Type *getType();
};
// RValue<Byte4> operator+(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator-(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator*(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator/(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator%(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator&(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator|(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator^(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator<<(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator>>(RValue<Byte4> lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator+=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator-=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator*=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator/=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator%=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator&=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator|=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator^=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator<<=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator>>=(Byte4 &lhs, RValue<Byte4> rhs);
// RValue<Byte4> operator+(RValue<Byte4> val);
// RValue<Byte4> operator-(RValue<Byte4> val);
// RValue<Byte4> operator~(RValue<Byte4> val);
// RValue<Byte4> operator++(Byte4 &val, int); // Post-increment
// const Byte4 &operator++(Byte4 &val); // Pre-increment
// RValue<Byte4> operator--(Byte4 &val, int); // Post-decrement
// const Byte4 &operator--(Byte4 &val); // Pre-decrement
class SByte4 : public LValue<SByte4>
{
public:
SByte4() = default;
// SByte4(int x, int y, int z, int w);
// SByte4(RValue<SByte4> rhs);
// SByte4(const SByte4 &rhs);
// SByte4(const Reference<SByte4> &rhs);
// RValue<SByte4> operator=(RValue<SByte4> rhs);
// RValue<SByte4> operator=(const SByte4 &rhs);
// RValue<SByte4> operator=(const Reference<SByte4> &rhs);
static Type *getType();
};
// RValue<SByte4> operator+(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator-(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator*(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator/(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator%(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator&(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator|(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator^(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator<<(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator>>(RValue<SByte4> lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator+=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator-=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator*=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator/=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator%=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator&=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator|=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator^=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator<<=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator>>=(SByte4 &lhs, RValue<SByte4> rhs);
// RValue<SByte4> operator+(RValue<SByte4> val);
// RValue<SByte4> operator-(RValue<SByte4> val);
// RValue<SByte4> operator~(RValue<SByte4> val);
// RValue<SByte4> operator++(SByte4 &val, int); // Post-increment
// const SByte4 &operator++(SByte4 &val); // Pre-increment
// RValue<SByte4> operator--(SByte4 &val, int); // Post-decrement
// const SByte4 &operator--(SByte4 &val); // Pre-decrement
class Byte8 : public LValue<Byte8>
{
public:
Byte8() = default;
Byte8(uint8_t x0, uint8_t x1, uint8_t x2, uint8_t x3, uint8_t x4, uint8_t x5, uint8_t x6, uint8_t x7);
Byte8(RValue<Byte8> rhs);
Byte8(const Byte8 &rhs);
Byte8(const Reference<Byte8> &rhs);
RValue<Byte8> operator=(RValue<Byte8> rhs);
RValue<Byte8> operator=(const Byte8 &rhs);
RValue<Byte8> operator=(const Reference<Byte8> &rhs);
static Type *getType();
};
RValue<Byte8> operator+(RValue<Byte8> lhs, RValue<Byte8> rhs);
RValue<Byte8> operator-(RValue<Byte8> lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator*(RValue<Byte8> lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator/(RValue<Byte8> lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator%(RValue<Byte8> lhs, RValue<Byte8> rhs);
RValue<Byte8> operator&(RValue<Byte8> lhs, RValue<Byte8> rhs);
RValue<Byte8> operator|(RValue<Byte8> lhs, RValue<Byte8> rhs);
RValue<Byte8> operator^(RValue<Byte8> lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator<<(RValue<Byte8> lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator>>(RValue<Byte8> lhs, RValue<Byte8> rhs);
RValue<Byte8> operator+=(Byte8 &lhs, RValue<Byte8> rhs);
RValue<Byte8> operator-=(Byte8 &lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator*=(Byte8 &lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator/=(Byte8 &lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator%=(Byte8 &lhs, RValue<Byte8> rhs);
RValue<Byte8> operator&=(Byte8 &lhs, RValue<Byte8> rhs);
RValue<Byte8> operator|=(Byte8 &lhs, RValue<Byte8> rhs);
RValue<Byte8> operator^=(Byte8 &lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator<<=(Byte8 &lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator>>=(Byte8 &lhs, RValue<Byte8> rhs);
// RValue<Byte8> operator+(RValue<Byte8> val);
// RValue<Byte8> operator-(RValue<Byte8> val);
RValue<Byte8> operator~(RValue<Byte8> val);
// RValue<Byte8> operator++(Byte8 &val, int); // Post-increment
// const Byte8 &operator++(Byte8 &val); // Pre-increment
// RValue<Byte8> operator--(Byte8 &val, int); // Post-decrement
// const Byte8 &operator--(Byte8 &val); // Pre-decrement
RValue<Byte8> AddSat(RValue<Byte8> x, RValue<Byte8> y);
RValue<Byte8> SubSat(RValue<Byte8> x, RValue<Byte8> y);
RValue<Short4> Unpack(RValue<Byte4> x);
RValue<Short4> Unpack(RValue<Byte4> x, RValue<Byte4> y);
RValue<Short4> UnpackLow(RValue<Byte8> x, RValue<Byte8> y);
RValue<Short4> UnpackHigh(RValue<Byte8> x, RValue<Byte8> y);
RValue<Int> SignMask(RValue<Byte8> x);
// RValue<Byte8> CmpGT(RValue<Byte8> x, RValue<Byte8> y);
RValue<Byte8> CmpEQ(RValue<Byte8> x, RValue<Byte8> y);
class SByte8 : public LValue<SByte8>
{
public:
SByte8() = default;
SByte8(uint8_t x0, uint8_t x1, uint8_t x2, uint8_t x3, uint8_t x4, uint8_t x5, uint8_t x6, uint8_t x7);
SByte8(RValue<SByte8> rhs);
SByte8(const SByte8 &rhs);
SByte8(const Reference<SByte8> &rhs);
RValue<SByte8> operator=(RValue<SByte8> rhs);
RValue<SByte8> operator=(const SByte8 &rhs);
RValue<SByte8> operator=(const Reference<SByte8> &rhs);
static Type *getType();
};
RValue<SByte8> operator+(RValue<SByte8> lhs, RValue<SByte8> rhs);
RValue<SByte8> operator-(RValue<SByte8> lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator*(RValue<SByte8> lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator/(RValue<SByte8> lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator%(RValue<SByte8> lhs, RValue<SByte8> rhs);
RValue<SByte8> operator&(RValue<SByte8> lhs, RValue<SByte8> rhs);
RValue<SByte8> operator|(RValue<SByte8> lhs, RValue<SByte8> rhs);
RValue<SByte8> operator^(RValue<SByte8> lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator<<(RValue<SByte8> lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator>>(RValue<SByte8> lhs, RValue<SByte8> rhs);
RValue<SByte8> operator+=(SByte8 &lhs, RValue<SByte8> rhs);
RValue<SByte8> operator-=(SByte8 &lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator*=(SByte8 &lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator/=(SByte8 &lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator%=(SByte8 &lhs, RValue<SByte8> rhs);
RValue<SByte8> operator&=(SByte8 &lhs, RValue<SByte8> rhs);
RValue<SByte8> operator|=(SByte8 &lhs, RValue<SByte8> rhs);
RValue<SByte8> operator^=(SByte8 &lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator<<=(SByte8 &lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator>>=(SByte8 &lhs, RValue<SByte8> rhs);
// RValue<SByte8> operator+(RValue<SByte8> val);
// RValue<SByte8> operator-(RValue<SByte8> val);
RValue<SByte8> operator~(RValue<SByte8> val);
// RValue<SByte8> operator++(SByte8 &val, int); // Post-increment
// const SByte8 &operator++(SByte8 &val); // Pre-increment
// RValue<SByte8> operator--(SByte8 &val, int); // Post-decrement
// const SByte8 &operator--(SByte8 &val); // Pre-decrement
RValue<SByte8> AddSat(RValue<SByte8> x, RValue<SByte8> y);
RValue<SByte8> SubSat(RValue<SByte8> x, RValue<SByte8> y);
RValue<Short4> UnpackLow(RValue<SByte8> x, RValue<SByte8> y);
RValue<Short4> UnpackHigh(RValue<SByte8> x, RValue<SByte8> y);
RValue<Int> SignMask(RValue<SByte8> x);
RValue<Byte8> CmpGT(RValue<SByte8> x, RValue<SByte8> y);
RValue<Byte8> CmpEQ(RValue<SByte8> x, RValue<SByte8> y);
class Byte16 : public LValue<Byte16>
{
public:
Byte16() = default;
// Byte16(int x, int y, int z, int w);
Byte16(RValue<Byte16> rhs);
Byte16(const Byte16 &rhs);
Byte16(const Reference<Byte16> &rhs);
RValue<Byte16> operator=(RValue<Byte16> rhs);
RValue<Byte16> operator=(const Byte16 &rhs);
RValue<Byte16> operator=(const Reference<Byte16> &rhs);
static Type *getType();
};
// RValue<Byte16> operator+(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator-(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator*(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator/(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator%(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator&(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator|(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator^(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator<<(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator>>(RValue<Byte16> lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator+=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator-=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator*=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator/=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator%=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator&=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator|=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator^=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator<<=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator>>=(Byte16 &lhs, RValue<Byte16> rhs);
// RValue<Byte16> operator+(RValue<Byte16> val);
// RValue<Byte16> operator-(RValue<Byte16> val);
// RValue<Byte16> operator~(RValue<Byte16> val);
// RValue<Byte16> operator++(Byte16 &val, int); // Post-increment
// const Byte16 &operator++(Byte16 &val); // Pre-increment
// RValue<Byte16> operator--(Byte16 &val, int); // Post-decrement
// const Byte16 &operator--(Byte16 &val); // Pre-decrement
class SByte16 : public LValue<SByte16>
{
public:
SByte16() = default;
// SByte16(int x, int y, int z, int w);
// SByte16(RValue<SByte16> rhs);
// SByte16(const SByte16 &rhs);
// SByte16(const Reference<SByte16> &rhs);
// RValue<SByte16> operator=(RValue<SByte16> rhs);
// RValue<SByte16> operator=(const SByte16 &rhs);
// RValue<SByte16> operator=(const Reference<SByte16> &rhs);
static Type *getType();
};
// RValue<SByte16> operator+(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator-(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator*(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator/(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator%(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator&(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator|(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator^(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator<<(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator>>(RValue<SByte16> lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator+=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator-=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator*=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator/=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator%=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator&=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator|=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator^=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator<<=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator>>=(SByte16 &lhs, RValue<SByte16> rhs);
// RValue<SByte16> operator+(RValue<SByte16> val);
// RValue<SByte16> operator-(RValue<SByte16> val);
// RValue<SByte16> operator~(RValue<SByte16> val);
// RValue<SByte16> operator++(SByte16 &val, int); // Post-increment
// const SByte16 &operator++(SByte16 &val); // Pre-increment
// RValue<SByte16> operator--(SByte16 &val, int); // Post-decrement
// const SByte16 &operator--(SByte16 &val); // Pre-decrement
class Short2 : public LValue<Short2>
{
public:
explicit Short2(RValue<Short4> cast);
static Type *getType();
};
class UShort2 : public LValue<UShort2>
{
public:
explicit UShort2(RValue<UShort4> cast);
static Type *getType();
};
class Short4 : public LValue<Short4>
{
public:
explicit Short4(RValue<Int> cast);
explicit Short4(RValue<Int4> cast);
// explicit Short4(RValue<Float> cast);
explicit Short4(RValue<Float4> cast);
Short4() = default;
Short4(short xyzw);
Short4(short x, short y, short z, short w);
Short4(RValue<Short4> rhs);
Short4(const Short4 &rhs);
Short4(const Reference<Short4> &rhs);
Short4(RValue<UShort4> rhs);
Short4(const UShort4 &rhs);
Short4(const Reference<UShort4> &rhs);
RValue<Short4> operator=(RValue<Short4> rhs);
RValue<Short4> operator=(const Short4 &rhs);
RValue<Short4> operator=(const Reference<Short4> &rhs);
RValue<Short4> operator=(RValue<UShort4> rhs);
RValue<Short4> operator=(const UShort4 &rhs);
RValue<Short4> operator=(const Reference<UShort4> &rhs);
static Type *getType();
};
RValue<Short4> operator+(RValue<Short4> lhs, RValue<Short4> rhs);
RValue<Short4> operator-(RValue<Short4> lhs, RValue<Short4> rhs);
RValue<Short4> operator*(RValue<Short4> lhs, RValue<Short4> rhs);
// RValue<Short4> operator/(RValue<Short4> lhs, RValue<Short4> rhs);
// RValue<Short4> operator%(RValue<Short4> lhs, RValue<Short4> rhs);
RValue<Short4> operator&(RValue<Short4> lhs, RValue<Short4> rhs);
RValue<Short4> operator|(RValue<Short4> lhs, RValue<Short4> rhs);
RValue<Short4> operator^(RValue<Short4> lhs, RValue<Short4> rhs);
RValue<Short4> operator<<(RValue<Short4> lhs, unsigned char rhs);
RValue<Short4> operator>>(RValue<Short4> lhs, unsigned char rhs);
RValue<Short4> operator+=(Short4 &lhs, RValue<Short4> rhs);
RValue<Short4> operator-=(Short4 &lhs, RValue<Short4> rhs);
RValue<Short4> operator*=(Short4 &lhs, RValue<Short4> rhs);
// RValue<Short4> operator/=(Short4 &lhs, RValue<Short4> rhs);
// RValue<Short4> operator%=(Short4 &lhs, RValue<Short4> rhs);
RValue<Short4> operator&=(Short4 &lhs, RValue<Short4> rhs);
RValue<Short4> operator|=(Short4 &lhs, RValue<Short4> rhs);
RValue<Short4> operator^=(Short4 &lhs, RValue<Short4> rhs);
RValue<Short4> operator<<=(Short4 &lhs, unsigned char rhs);
RValue<Short4> operator>>=(Short4 &lhs, unsigned char rhs);
// RValue<Short4> operator+(RValue<Short4> val);
RValue<Short4> operator-(RValue<Short4> val);
RValue<Short4> operator~(RValue<Short4> val);
// RValue<Short4> operator++(Short4 &val, int); // Post-increment
// const Short4 &operator++(Short4 &val); // Pre-increment
// RValue<Short4> operator--(Short4 &val, int); // Post-decrement
// const Short4 &operator--(Short4 &val); // Pre-decrement
// RValue<Bool> operator<(RValue<Short4> lhs, RValue<Short4> rhs);
// RValue<Bool> operator<=(RValue<Short4> lhs, RValue<Short4> rhs);
// RValue<Bool> operator>(RValue<Short4> lhs, RValue<Short4> rhs);
// RValue<Bool> operator>=(RValue<Short4> lhs, RValue<Short4> rhs);
// RValue<Bool> operator!=(RValue<Short4> lhs, RValue<Short4> rhs);
// RValue<Bool> operator==(RValue<Short4> lhs, RValue<Short4> rhs);
RValue<Short4> RoundShort4(RValue<Float4> cast);
RValue<Short4> Max(RValue<Short4> x, RValue<Short4> y);
RValue<Short4> Min(RValue<Short4> x, RValue<Short4> y);
RValue<Short4> AddSat(RValue<Short4> x, RValue<Short4> y);
RValue<Short4> SubSat(RValue<Short4> x, RValue<Short4> y);
RValue<Short4> MulHigh(RValue<Short4> x, RValue<Short4> y);
RValue<Int2> MulAdd(RValue<Short4> x, RValue<Short4> y);
RValue<SByte8> PackSigned(RValue<Short4> x, RValue<Short4> y);
RValue<Byte8> PackUnsigned(RValue<Short4> x, RValue<Short4> y);
RValue<Int2> UnpackLow(RValue<Short4> x, RValue<Short4> y);
RValue<Int2> UnpackHigh(RValue<Short4> x, RValue<Short4> y);
RValue<Short4> Swizzle(RValue<Short4> x, unsigned char select);
RValue<Short4> Insert(RValue<Short4> val, RValue<Short> element, int i);
RValue<Short> Extract(RValue<Short4> val, int i);
RValue<Short4> CmpGT(RValue<Short4> x, RValue<Short4> y);
RValue<Short4> CmpEQ(RValue<Short4> x, RValue<Short4> y);
class UShort4 : public LValue<UShort4>
{
public:
explicit UShort4(RValue<Int4> cast);
explicit UShort4(RValue<Float4> cast, bool saturate = false);
UShort4() = default;
UShort4(unsigned short xyzw);
UShort4(unsigned short x, unsigned short y, unsigned short z, unsigned short w);
UShort4(RValue<UShort4> rhs);
UShort4(const UShort4 &rhs);
UShort4(const Reference<UShort4> &rhs);
UShort4(RValue<Short4> rhs);
UShort4(const Short4 &rhs);
UShort4(const Reference<Short4> &rhs);
RValue<UShort4> operator=(RValue<UShort4> rhs);
RValue<UShort4> operator=(const UShort4 &rhs);
RValue<UShort4> operator=(const Reference<UShort4> &rhs);
RValue<UShort4> operator=(RValue<Short4> rhs);
RValue<UShort4> operator=(const Short4 &rhs);
RValue<UShort4> operator=(const Reference<Short4> &rhs);
static Type *getType();
};
RValue<UShort4> operator+(RValue<UShort4> lhs, RValue<UShort4> rhs);
RValue<UShort4> operator-(RValue<UShort4> lhs, RValue<UShort4> rhs);
RValue<UShort4> operator*(RValue<UShort4> lhs, RValue<UShort4> rhs);
// RValue<UShort4> operator/(RValue<UShort4> lhs, RValue<UShort4> rhs);
// RValue<UShort4> operator%(RValue<UShort4> lhs, RValue<UShort4> rhs);
RValue<UShort4> operator&(RValue<UShort4> lhs, RValue<UShort4> rhs);
RValue<UShort4> operator|(RValue<UShort4> lhs, RValue<UShort4> rhs);
RValue<UShort4> operator^(RValue<UShort4> lhs, RValue<UShort4> rhs);
RValue<UShort4> operator<<(RValue<UShort4> lhs, unsigned char rhs);
RValue<UShort4> operator>>(RValue<UShort4> lhs, unsigned char rhs);
// RValue<UShort4> operator+=(UShort4 &lhs, RValue<UShort4> rhs);
// RValue<UShort4> operator-=(UShort4 &lhs, RValue<UShort4> rhs);
// RValue<UShort4> operator*=(UShort4 &lhs, RValue<UShort4> rhs);
// RValue<UShort4> operator/=(UShort4 &lhs, RValue<UShort4> rhs);
// RValue<UShort4> operator%=(UShort4 &lhs, RValue<UShort4> rhs);
// RValue<UShort4> operator&=(UShort4 &lhs, RValue<UShort4> rhs);
// RValue<UShort4> operator|=(UShort4 &lhs, RValue<UShort4> rhs);
// RValue<UShort4> operator^=(UShort4 &lhs, RValue<UShort4> rhs);
RValue<UShort4> operator<<=(UShort4 &lhs, unsigned char rhs);
RValue<UShort4> operator>>=(UShort4 &lhs, unsigned char rhs);
// RValue<UShort4> operator+(RValue<UShort4> val);
// RValue<UShort4> operator-(RValue<UShort4> val);
RValue<UShort4> operator~(RValue<UShort4> val);
// RValue<UShort4> operator++(UShort4 &val, int); // Post-increment
// const UShort4 &operator++(UShort4 &val); // Pre-increment
// RValue<UShort4> operator--(UShort4 &val, int); // Post-decrement
// const UShort4 &operator--(UShort4 &val); // Pre-decrement
RValue<UShort4> Max(RValue<UShort4> x, RValue<UShort4> y);
RValue<UShort4> Min(RValue<UShort4> x, RValue<UShort4> y);
RValue<UShort4> AddSat(RValue<UShort4> x, RValue<UShort4> y);
RValue<UShort4> SubSat(RValue<UShort4> x, RValue<UShort4> y);
RValue<UShort4> MulHigh(RValue<UShort4> x, RValue<UShort4> y);
RValue<UShort4> Average(RValue<UShort4> x, RValue<UShort4> y);
class Short8 : public LValue<Short8>
{
public:
Short8() = default;
Short8(short c);
Short8(short c0, short c1, short c2, short c3, short c4, short c5, short c6, short c7);
Short8(RValue<Short8> rhs);
// Short8(const Short8 &rhs);
Short8(const Reference<Short8> &rhs);
Short8(RValue<Short4> lo, RValue<Short4> hi);
RValue<Short8> operator=(RValue<Short8> rhs);
RValue<Short8> operator=(const Short8 &rhs);
RValue<Short8> operator=(const Reference<Short8> &rhs);
static Type *getType();
};
RValue<Short8> operator+(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Short8> operator-(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Short8> operator*(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Short8> operator/(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Short8> operator%(RValue<Short8> lhs, RValue<Short8> rhs);
RValue<Short8> operator&(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Short8> operator|(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Short8> operator^(RValue<Short8> lhs, RValue<Short8> rhs);
RValue<Short8> operator<<(RValue<Short8> lhs, unsigned char rhs);
RValue<Short8> operator>>(RValue<Short8> lhs, unsigned char rhs);
// RValue<Short8> operator<<(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Short8> operator>>(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Short8> operator+=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator-=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator*=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator/=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator%=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator&=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator|=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator^=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator<<=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator>>=(Short8 &lhs, RValue<Short8> rhs);
// RValue<Short8> operator+(RValue<Short8> val);
// RValue<Short8> operator-(RValue<Short8> val);
// RValue<Short8> operator~(RValue<Short8> val);
// RValue<Short8> operator++(Short8 &val, int); // Post-increment
// const Short8 &operator++(Short8 &val); // Pre-increment
// RValue<Short8> operator--(Short8 &val, int); // Post-decrement
// const Short8 &operator--(Short8 &val); // Pre-decrement
// RValue<Bool> operator<(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Bool> operator<=(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Bool> operator>(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Bool> operator>=(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Bool> operator!=(RValue<Short8> lhs, RValue<Short8> rhs);
// RValue<Bool> operator==(RValue<Short8> lhs, RValue<Short8> rhs);
RValue<Short8> MulHigh(RValue<Short8> x, RValue<Short8> y);
RValue<Int4> MulAdd(RValue<Short8> x, RValue<Short8> y);
RValue<Int4> Abs(RValue<Int4> x);
class UShort8 : public LValue<UShort8>
{
public:
UShort8() = default;
UShort8(unsigned short c);
UShort8(unsigned short c0, unsigned short c1, unsigned short c2, unsigned short c3, unsigned short c4, unsigned short c5, unsigned short c6, unsigned short c7);
UShort8(RValue<UShort8> rhs);
// UShort8(const UShort8 &rhs);
UShort8(const Reference<UShort8> &rhs);
UShort8(RValue<UShort4> lo, RValue<UShort4> hi);
RValue<UShort8> operator=(RValue<UShort8> rhs);
RValue<UShort8> operator=(const UShort8 &rhs);
RValue<UShort8> operator=(const Reference<UShort8> &rhs);
static Type *getType();
};
RValue<UShort8> operator+(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator-(RValue<UShort8> lhs, RValue<UShort8> rhs);
RValue<UShort8> operator*(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator/(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator%(RValue<UShort8> lhs, RValue<UShort8> rhs);
RValue<UShort8> operator&(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator|(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator^(RValue<UShort8> lhs, RValue<UShort8> rhs);
RValue<UShort8> operator<<(RValue<UShort8> lhs, unsigned char rhs);
RValue<UShort8> operator>>(RValue<UShort8> lhs, unsigned char rhs);
// RValue<UShort8> operator<<(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator>>(RValue<UShort8> lhs, RValue<UShort8> rhs);
RValue<UShort8> operator+=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator-=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator*=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator/=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator%=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator&=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator|=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator^=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator<<=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator>>=(UShort8 &lhs, RValue<UShort8> rhs);
// RValue<UShort8> operator+(RValue<UShort8> val);
// RValue<UShort8> operator-(RValue<UShort8> val);
RValue<UShort8> operator~(RValue<UShort8> val);
// RValue<UShort8> operator++(UShort8 &val, int); // Post-increment
// const UShort8 &operator++(UShort8 &val); // Pre-increment
// RValue<UShort8> operator--(UShort8 &val, int); // Post-decrement
// const UShort8 &operator--(UShort8 &val); // Pre-decrement
// RValue<Bool> operator<(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<Bool> operator<=(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<Bool> operator>(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<Bool> operator>=(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<Bool> operator!=(RValue<UShort8> lhs, RValue<UShort8> rhs);
// RValue<Bool> operator==(RValue<UShort8> lhs, RValue<UShort8> rhs);
RValue<UShort8> Swizzle(RValue<UShort8> x, char select0, char select1, char select2, char select3, char select4, char select5, char select6, char select7);
RValue<UShort8> MulHigh(RValue<UShort8> x, RValue<UShort8> y);
class Int : public LValue<Int>
{
public:
Int(Argument<Int> argument);
explicit Int(RValue<Byte> cast);
explicit Int(RValue<SByte> cast);
explicit Int(RValue<Short> cast);
explicit Int(RValue<UShort> cast);
explicit Int(RValue<Int2> cast);
explicit Int(RValue<Long> cast);
explicit Int(RValue<Float> cast);
Int() = default;
Int(int x);
Int(RValue<Int> rhs);
Int(RValue<UInt> rhs);
Int(const Int &rhs);
Int(const UInt &rhs);
Int(const Reference<Int> &rhs);
Int(const Reference<UInt> &rhs);
RValue<Int> operator=(int rhs);
RValue<Int> operator=(RValue<Int> rhs);
RValue<Int> operator=(RValue<UInt> rhs);
RValue<Int> operator=(const Int &rhs);
RValue<Int> operator=(const UInt &rhs);
RValue<Int> operator=(const Reference<Int> &rhs);
RValue<Int> operator=(const Reference<UInt> &rhs);
static Type *getType();
};
RValue<Int> operator+(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator-(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator*(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator/(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator%(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator&(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator|(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator^(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator<<(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator>>(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> operator+=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator-=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator*=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator/=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator%=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator&=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator|=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator^=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator<<=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator>>=(Int &lhs, RValue<Int> rhs);
RValue<Int> operator+(RValue<Int> val);
RValue<Int> operator-(RValue<Int> val);
RValue<Int> operator~(RValue<Int> val);
RValue<Int> operator++(Int &val, int); // Post-increment
const Int &operator++(Int &val); // Pre-increment
RValue<Int> operator--(Int &val, int); // Post-decrement
const Int &operator--(Int &val); // Pre-decrement
RValue<Bool> operator<(RValue<Int> lhs, RValue<Int> rhs);
RValue<Bool> operator<=(RValue<Int> lhs, RValue<Int> rhs);
RValue<Bool> operator>(RValue<Int> lhs, RValue<Int> rhs);
RValue<Bool> operator>=(RValue<Int> lhs, RValue<Int> rhs);
RValue<Bool> operator!=(RValue<Int> lhs, RValue<Int> rhs);
RValue<Bool> operator==(RValue<Int> lhs, RValue<Int> rhs);
RValue<Int> Max(RValue<Int> x, RValue<Int> y);
RValue<Int> Min(RValue<Int> x, RValue<Int> y);
RValue<Int> Clamp(RValue<Int> x, RValue<Int> min, RValue<Int> max);
RValue<Int> RoundInt(RValue<Float> cast);
class Long : public LValue<Long>
{
public:
// Long(Argument<Long> argument);
// explicit Long(RValue<Short> cast);
// explicit Long(RValue<UShort> cast);
explicit Long(RValue<Int> cast);
explicit Long(RValue<UInt> cast);
// explicit Long(RValue<Float> cast);
Long() = default;
// Long(qword x);
Long(RValue<Long> rhs);
// Long(RValue<ULong> rhs);
// Long(const Long &rhs);
// Long(const Reference<Long> &rhs);
// Long(const ULong &rhs);
// Long(const Reference<ULong> &rhs);
RValue<Long> operator=(int64_t rhs);
RValue<Long> operator=(RValue<Long> rhs);
// RValue<Long> operator=(RValue<ULong> rhs);
RValue<Long> operator=(const Long &rhs);
RValue<Long> operator=(const Reference<Long> &rhs);
// RValue<Long> operator=(const ULong &rhs);
// RValue<Long> operator=(const Reference<ULong> &rhs);
static Type *getType();
};
RValue<Long> operator+(RValue<Long> lhs, RValue<Long> rhs);
RValue<Long> operator-(RValue<Long> lhs, RValue<Long> rhs);
RValue<Long> operator*(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Long> operator/(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Long> operator%(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Long> operator&(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Long> operator|(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Long> operator^(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Long> operator<<(RValue<Long> lhs, RValue<Long> rhs);
RValue<Long> operator>>(RValue<Long> lhs, RValue<Long> rhs);
RValue<Long> operator+=(Long &lhs, RValue<Long> rhs);
RValue<Long> operator-=(Long &lhs, RValue<Long> rhs);
// RValue<Long> operator*=(Long &lhs, RValue<Long> rhs);
// RValue<Long> operator/=(Long &lhs, RValue<Long> rhs);
// RValue<Long> operator%=(Long &lhs, RValue<Long> rhs);
// RValue<Long> operator&=(Long &lhs, RValue<Long> rhs);
// RValue<Long> operator|=(Long &lhs, RValue<Long> rhs);
// RValue<Long> operator^=(Long &lhs, RValue<Long> rhs);
// RValue<Long> operator<<=(Long &lhs, RValue<Long> rhs);
// RValue<Long> operator>>=(Long &lhs, RValue<Long> rhs);
// RValue<Long> operator+(RValue<Long> val);
// RValue<Long> operator-(RValue<Long> val);
// RValue<Long> operator~(RValue<Long> val);
// RValue<Long> operator++(Long &val, int); // Post-increment
// const Long &operator++(Long &val); // Pre-increment
// RValue<Long> operator--(Long &val, int); // Post-decrement
// const Long &operator--(Long &val); // Pre-decrement
// RValue<Bool> operator<(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Bool> operator<=(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Bool> operator>(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Bool> operator>=(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Bool> operator!=(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Bool> operator==(RValue<Long> lhs, RValue<Long> rhs);
// RValue<Long> RoundLong(RValue<Float> cast);
RValue<Long> AddAtomic( RValue<Pointer<Long>> x, RValue<Long> y);
class UInt : public LValue<UInt>
{
public:
UInt(Argument<UInt> argument);
explicit UInt(RValue<UShort> cast);
explicit UInt(RValue<Long> cast);
explicit UInt(RValue<Float> cast);
UInt() = default;
UInt(int x);
UInt(unsigned int x);
UInt(RValue<UInt> rhs);
UInt(RValue<Int> rhs);
UInt(const UInt &rhs);
UInt(const Int &rhs);
UInt(const Reference<UInt> &rhs);
UInt(const Reference<Int> &rhs);
RValue<UInt> operator=(unsigned int rhs);
RValue<UInt> operator=(RValue<UInt> rhs);
RValue<UInt> operator=(RValue<Int> rhs);
RValue<UInt> operator=(const UInt &rhs);
RValue<UInt> operator=(const Int &rhs);
RValue<UInt> operator=(const Reference<UInt> &rhs);
RValue<UInt> operator=(const Reference<Int> &rhs);
static Type *getType();
};
RValue<UInt> operator+(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator-(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator*(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator/(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator%(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator&(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator|(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator^(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator<<(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator>>(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> operator+=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator-=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator*=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator/=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator%=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator&=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator|=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator^=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator<<=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator>>=(UInt &lhs, RValue<UInt> rhs);
RValue<UInt> operator+(RValue<UInt> val);
RValue<UInt> operator-(RValue<UInt> val);
RValue<UInt> operator~(RValue<UInt> val);
RValue<UInt> operator++(UInt &val, int); // Post-increment
const UInt &operator++(UInt &val); // Pre-increment
RValue<UInt> operator--(UInt &val, int); // Post-decrement
const UInt &operator--(UInt &val); // Pre-decrement
RValue<Bool> operator<(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<Bool> operator<=(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<Bool> operator>(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<Bool> operator>=(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<Bool> operator!=(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<Bool> operator==(RValue<UInt> lhs, RValue<UInt> rhs);
RValue<UInt> Max(RValue<UInt> x, RValue<UInt> y);
RValue<UInt> Min(RValue<UInt> x, RValue<UInt> y);
RValue<UInt> Clamp(RValue<UInt> x, RValue<UInt> min, RValue<UInt> max);
RValue<UInt> AddAtomic(RValue<Pointer<UInt>> x, RValue<UInt> y, std::memory_order memoryOrder);
RValue<UInt> SubAtomic(RValue<Pointer<UInt>> x, RValue<UInt> y, std::memory_order memoryOrder);
RValue<UInt> AndAtomic(RValue<Pointer<UInt>> x, RValue<UInt> y, std::memory_order memoryOrder);
RValue<UInt> OrAtomic(RValue<Pointer<UInt>> x, RValue<UInt> y, std::memory_order memoryOrder);
RValue<UInt> XorAtomic(RValue<Pointer<UInt>> x, RValue<UInt> y, std::memory_order memoryOrder);
RValue<Int> MinAtomic(RValue<Pointer<Int>> x, RValue<Int> y, std::memory_order memoryOrder);
RValue<Int> MaxAtomic(RValue<Pointer<Int>> x, RValue<Int> y, std::memory_order memoryOrder);
RValue<UInt> MinAtomic(RValue<Pointer<UInt>> x, RValue<UInt> y, std::memory_order memoryOrder);
RValue<UInt> MaxAtomic(RValue<Pointer<UInt>> x, RValue<UInt> y, std::memory_order memoryOrder);
RValue<UInt> ExchangeAtomic(RValue<Pointer<UInt>> x, RValue<UInt> y, std::memory_order memoryOrder);
RValue<UInt> CompareExchangeAtomic(RValue<Pointer<UInt>> x, RValue<UInt> y, RValue<UInt> compare, std::memory_order memoryOrderEqual, std::memory_order memoryOrderUnequal);
// RValue<UInt> RoundUInt(RValue<Float> cast);
class Int2 : public LValue<Int2>
{
public:
// explicit Int2(RValue<Int> cast);
explicit Int2(RValue<Int4> cast);
Int2() = default;
Int2(int x, int y);
Int2(RValue<Int2> rhs);
Int2(const Int2 &rhs);
Int2(const Reference<Int2> &rhs);
Int2(RValue<Int> lo, RValue<Int> hi);
RValue<Int2> operator=(RValue<Int2> rhs);
RValue<Int2> operator=(const Int2 &rhs);
RValue<Int2> operator=(const Reference<Int2> &rhs);
static Type *getType();
};
RValue<Int2> operator+(RValue<Int2> lhs, RValue<Int2> rhs);
RValue<Int2> operator-(RValue<Int2> lhs, RValue<Int2> rhs);
// RValue<Int2> operator*(RValue<Int2> lhs, RValue<Int2> rhs);
// RValue<Int2> operator/(RValue<Int2> lhs, RValue<Int2> rhs);
// RValue<Int2> operator%(RValue<Int2> lhs, RValue<Int2> rhs);
RValue<Int2> operator&(RValue<Int2> lhs, RValue<Int2> rhs);
RValue<Int2> operator|(RValue<Int2> lhs, RValue<Int2> rhs);
RValue<Int2> operator^(RValue<Int2> lhs, RValue<Int2> rhs);
RValue<Int2> operator<<(RValue<Int2> lhs, unsigned char rhs);
RValue<Int2> operator>>(RValue<Int2> lhs, unsigned char rhs);
RValue<Int2> operator+=(Int2 &lhs, RValue<Int2> rhs);
RValue<Int2> operator-=(Int2 &lhs, RValue<Int2> rhs);
// RValue<Int2> operator*=(Int2 &lhs, RValue<Int2> rhs);
// RValue<Int2> operator/=(Int2 &lhs, RValue<Int2> rhs);
// RValue<Int2> operator%=(Int2 &lhs, RValue<Int2> rhs);
RValue<Int2> operator&=(Int2 &lhs, RValue<Int2> rhs);
RValue<Int2> operator|=(Int2 &lhs, RValue<Int2> rhs);
RValue<Int2> operator^=(Int2 &lhs, RValue<Int2> rhs);
RValue<Int2> operator<<=(Int2 &lhs, unsigned char rhs);
RValue<Int2> operator>>=(Int2 &lhs, unsigned char rhs);
// RValue<Int2> operator+(RValue<Int2> val);
// RValue<Int2> operator-(RValue<Int2> val);
RValue<Int2> operator~(RValue<Int2> val);
// RValue<Int2> operator++(Int2 &val, int); // Post-increment
// const Int2 &operator++(Int2 &val); // Pre-increment
// RValue<Int2> operator--(Int2 &val, int); // Post-decrement
// const Int2 &operator--(Int2 &val); // Pre-decrement
// RValue<Bool> operator<(RValue<Int2> lhs, RValue<Int2> rhs);
// RValue<Bool> operator<=(RValue<Int2> lhs, RValue<Int2> rhs);
// RValue<Bool> operator>(RValue<Int2> lhs, RValue<Int2> rhs);
// RValue<Bool> operator>=(RValue<Int2> lhs, RValue<Int2> rhs);
// RValue<Bool> operator!=(RValue<Int2> lhs, RValue<Int2> rhs);
// RValue<Bool> operator==(RValue<Int2> lhs, RValue<Int2> rhs);
// RValue<Int2> RoundInt(RValue<Float4> cast);
RValue<Short4> UnpackLow(RValue<Int2> x, RValue<Int2> y);
RValue<Short4> UnpackHigh(RValue<Int2> x, RValue<Int2> y);
RValue<Int> Extract(RValue<Int2> val, int i);
RValue<Int2> Insert(RValue<Int2> val, RValue<Int> element, int i);
class UInt2 : public LValue<UInt2>
{
public:
UInt2() = default;
UInt2(unsigned int x, unsigned int y);
UInt2(RValue<UInt2> rhs);
UInt2(const UInt2 &rhs);
UInt2(const Reference<UInt2> &rhs);
RValue<UInt2> operator=(RValue<UInt2> rhs);
RValue<UInt2> operator=(const UInt2 &rhs);
RValue<UInt2> operator=(const Reference<UInt2> &rhs);
static Type *getType();
};
RValue<UInt2> operator+(RValue<UInt2> lhs, RValue<UInt2> rhs);
RValue<UInt2> operator-(RValue<UInt2> lhs, RValue<UInt2> rhs);
// RValue<UInt2> operator*(RValue<UInt2> lhs, RValue<UInt2> rhs);
// RValue<UInt2> operator/(RValue<UInt2> lhs, RValue<UInt2> rhs);
// RValue<UInt2> operator%(RValue<UInt2> lhs, RValue<UInt2> rhs);
RValue<UInt2> operator&(RValue<UInt2> lhs, RValue<UInt2> rhs);
RValue<UInt2> operator|(RValue<UInt2> lhs, RValue<UInt2> rhs);
RValue<UInt2> operator^(RValue<UInt2> lhs, RValue<UInt2> rhs);
RValue<UInt2> operator<<(RValue<UInt2> lhs, unsigned char rhs);
RValue<UInt2> operator>>(RValue<UInt2> lhs, unsigned char rhs);
RValue<UInt2> operator+=(UInt2 &lhs, RValue<UInt2> rhs);
RValue<UInt2> operator-=(UInt2 &lhs, RValue<UInt2> rhs);
// RValue<UInt2> operator*=(UInt2 &lhs, RValue<UInt2> rhs);
// RValue<UInt2> operator/=(UInt2 &lhs, RValue<UInt2> rhs);
// RValue<UInt2> operator%=(UInt2 &lhs, RValue<UInt2> rhs);
RValue<UInt2> operator&=(UInt2 &lhs, RValue<UInt2> rhs);
RValue<UInt2> operator|=(UInt2 &lhs, RValue<UInt2> rhs);
RValue<UInt2> operator^=(UInt2 &lhs, RValue<UInt2> rhs);
RValue<UInt2> operator<<=(UInt2 &lhs, unsigned char rhs);
RValue<UInt2> operator>>=(UInt2 &lhs, unsigned char rhs);
// RValue<UInt2> operator+(RValue<UInt2> val);
// RValue<UInt2> operator-(RValue<UInt2> val);
RValue<UInt2> operator~(RValue<UInt2> val);
// RValue<UInt2> operator++(UInt2 &val, int); // Post-increment
// const UInt2 &operator++(UInt2 &val); // Pre-increment
// RValue<UInt2> operator--(UInt2 &val, int); // Post-decrement
// const UInt2 &operator--(UInt2 &val); // Pre-decrement
// RValue<Bool> operator<(RValue<UInt2> lhs, RValue<UInt2> rhs);
// RValue<Bool> operator<=(RValue<UInt2> lhs, RValue<UInt2> rhs);
// RValue<Bool> operator>(RValue<UInt2> lhs, RValue<UInt2> rhs);
// RValue<Bool> operator>=(RValue<UInt2> lhs, RValue<UInt2> rhs);
// RValue<Bool> operator!=(RValue<UInt2> lhs, RValue<UInt2> rhs);
// RValue<Bool> operator==(RValue<UInt2> lhs, RValue<UInt2> rhs);
// RValue<UInt2> RoundInt(RValue<Float4> cast);
RValue<UInt> Extract(RValue<UInt2> val, int i);
RValue<UInt2> Insert(RValue<UInt2> val, RValue<UInt> element, int i);
template<class T>
struct Scalar;
template<class Vector4>
struct XYZW;
template<class Vector4, int T>
class Swizzle2
{
friend Vector4;
public:
operator RValue<Vector4>() const;
private:
Vector4 *parent;
};
template<class Vector4, int T>
class Swizzle4
{
public:
operator RValue<Vector4>() const;
private:
Vector4 *parent;
};
template<class Vector4, int T>
class SwizzleMask4
{
friend XYZW<Vector4>;
public:
operator RValue<Vector4>() const;
RValue<Vector4> operator=(RValue<Vector4> rhs);
RValue<Vector4> operator=(RValue<typename Scalar<Vector4>::Type> rhs);
private:
Vector4 *parent;
};
template<>
struct Scalar<Float4>
{
using Type = Float;
};
template<>
struct Scalar<Int4>
{
using Type = Int;
};
template<>
struct Scalar<UInt4>
{
using Type = UInt;
};
template<class Vector4, int T>
class SwizzleMask1
{
public:
operator RValue<typename Scalar<Vector4>::Type>() const;
operator RValue<Vector4>() const;
RValue<Vector4> operator=(float x);
RValue<Vector4> operator=(RValue<Vector4> rhs);
RValue<Vector4> operator=(RValue<typename Scalar<Vector4>::Type> rhs);
private:
Vector4 *parent;
};
template<class Vector4, int T>
class SwizzleMask2
{
friend class Float4;
public:
operator RValue<Vector4>() const;
RValue<Vector4> operator=(RValue<Vector4> rhs);
private:
Float4 *parent;
};
template<class Vector4>
struct XYZW
{
friend Vector4;
private:
XYZW(Vector4 *parent)
{
xyzw.parent = parent;
}
public:
union
{
SwizzleMask1<Vector4, 0x00> x;
SwizzleMask1<Vector4, 0x55> y;
SwizzleMask1<Vector4, 0xAA> z;
SwizzleMask1<Vector4, 0xFF> w;
Swizzle2<Vector4, 0x00> xx;
Swizzle2<Vector4, 0x01> yx;
Swizzle2<Vector4, 0x02> zx;
Swizzle2<Vector4, 0x03> wx;
SwizzleMask2<Vector4, 0x54> xy;
Swizzle2<Vector4, 0x55> yy;
Swizzle2<Vector4, 0x56> zy;
Swizzle2<Vector4, 0x57> wy;
SwizzleMask2<Vector4, 0xA8> xz;
SwizzleMask2<Vector4, 0xA9> yz;
Swizzle2<Vector4, 0xAA> zz;
Swizzle2<Vector4, 0xAB> wz;
SwizzleMask2<Vector4, 0xFC> xw;
SwizzleMask2<Vector4, 0xFD> yw;
SwizzleMask2<Vector4, 0xFE> zw;
Swizzle2<Vector4, 0xFF> ww;
Swizzle4<Vector4, 0x00> xxx;
Swizzle4<Vector4, 0x01> yxx;
Swizzle4<Vector4, 0x02> zxx;
Swizzle4<Vector4, 0x03> wxx;
Swizzle4<Vector4, 0x04> xyx;
Swizzle4<Vector4, 0x05> yyx;
Swizzle4<Vector4, 0x06> zyx;
Swizzle4<Vector4, 0x07> wyx;
Swizzle4<Vector4, 0x08> xzx;
Swizzle4<Vector4, 0x09> yzx;
Swizzle4<Vector4, 0x0A> zzx;
Swizzle4<Vector4, 0x0B> wzx;
Swizzle4<Vector4, 0x0C> xwx;
Swizzle4<Vector4, 0x0D> ywx;
Swizzle4<Vector4, 0x0E> zwx;
Swizzle4<Vector4, 0x0F> wwx;
Swizzle4<Vector4, 0x50> xxy;
Swizzle4<Vector4, 0x51> yxy;
Swizzle4<Vector4, 0x52> zxy;
Swizzle4<Vector4, 0x53> wxy;
Swizzle4<Vector4, 0x54> xyy;
Swizzle4<Vector4, 0x55> yyy;
Swizzle4<Vector4, 0x56> zyy;
Swizzle4<Vector4, 0x57> wyy;
Swizzle4<Vector4, 0x58> xzy;
Swizzle4<Vector4, 0x59> yzy;
Swizzle4<Vector4, 0x5A> zzy;
Swizzle4<Vector4, 0x5B> wzy;
Swizzle4<Vector4, 0x5C> xwy;
Swizzle4<Vector4, 0x5D> ywy;
Swizzle4<Vector4, 0x5E> zwy;
Swizzle4<Vector4, 0x5F> wwy;
Swizzle4<Vector4, 0xA0> xxz;
Swizzle4<Vector4, 0xA1> yxz;
Swizzle4<Vector4, 0xA2> zxz;
Swizzle4<Vector4, 0xA3> wxz;
SwizzleMask4<Vector4, 0xA4> xyz;
Swizzle4<Vector4, 0xA5> yyz;
Swizzle4<Vector4, 0xA6> zyz;
Swizzle4<Vector4, 0xA7> wyz;
Swizzle4<Vector4, 0xA8> xzz;
Swizzle4<Vector4, 0xA9> yzz;
Swizzle4<Vector4, 0xAA> zzz;
Swizzle4<Vector4, 0xAB> wzz;
Swizzle4<Vector4, 0xAC> xwz;
Swizzle4<Vector4, 0xAD> ywz;
Swizzle4<Vector4, 0xAE> zwz;
Swizzle4<Vector4, 0xAF> wwz;
Swizzle4<Vector4, 0xF0> xxw;
Swizzle4<Vector4, 0xF1> yxw;
Swizzle4<Vector4, 0xF2> zxw;
Swizzle4<Vector4, 0xF3> wxw;
SwizzleMask4<Vector4, 0xF4> xyw;
Swizzle4<Vector4, 0xF5> yyw;
Swizzle4<Vector4, 0xF6> zyw;
Swizzle4<Vector4, 0xF7> wyw;
SwizzleMask4<Vector4, 0xF8> xzw;
SwizzleMask4<Vector4, 0xF9> yzw;
Swizzle4<Vector4, 0xFA> zzw;
Swizzle4<Vector4, 0xFB> wzw;
Swizzle4<Vector4, 0xFC> xww;
Swizzle4<Vector4, 0xFD> yww;
Swizzle4<Vector4, 0xFE> zww;
Swizzle4<Vector4, 0xFF> www;
Swizzle4<Vector4, 0x00> xxxx;
Swizzle4<Vector4, 0x01> yxxx;
Swizzle4<Vector4, 0x02> zxxx;
Swizzle4<Vector4, 0x03> wxxx;
Swizzle4<Vector4, 0x04> xyxx;
Swizzle4<Vector4, 0x05> yyxx;
Swizzle4<Vector4, 0x06> zyxx;
Swizzle4<Vector4, 0x07> wyxx;
Swizzle4<Vector4, 0x08> xzxx;
Swizzle4<Vector4, 0x09> yzxx;
Swizzle4<Vector4, 0x0A> zzxx;
Swizzle4<Vector4, 0x0B> wzxx;
Swizzle4<Vector4, 0x0C> xwxx;
Swizzle4<Vector4, 0x0D> ywxx;
Swizzle4<Vector4, 0x0E> zwxx;
Swizzle4<Vector4, 0x0F> wwxx;
Swizzle4<Vector4, 0x10> xxyx;
Swizzle4<Vector4, 0x11> yxyx;
Swizzle4<Vector4, 0x12> zxyx;
Swizzle4<Vector4, 0x13> wxyx;
Swizzle4<Vector4, 0x14> xyyx;
Swizzle4<Vector4, 0x15> yyyx;
Swizzle4<Vector4, 0x16> zyyx;
Swizzle4<Vector4, 0x17> wyyx;
Swizzle4<Vector4, 0x18> xzyx;
Swizzle4<Vector4, 0x19> yzyx;
Swizzle4<Vector4, 0x1A> zzyx;
Swizzle4<Vector4, 0x1B> wzyx;
Swizzle4<Vector4, 0x1C> xwyx;
Swizzle4<Vector4, 0x1D> ywyx;
Swizzle4<Vector4, 0x1E> zwyx;
Swizzle4<Vector4, 0x1F> wwyx;
Swizzle4<Vector4, 0x20> xxzx;
Swizzle4<Vector4, 0x21> yxzx;
Swizzle4<Vector4, 0x22> zxzx;
Swizzle4<Vector4, 0x23> wxzx;
Swizzle4<Vector4, 0x24> xyzx;
Swizzle4<Vector4, 0x25> yyzx;
Swizzle4<Vector4, 0x26> zyzx;
Swizzle4<Vector4, 0x27> wyzx;
Swizzle4<Vector4, 0x28> xzzx;
Swizzle4<Vector4, 0x29> yzzx;
Swizzle4<Vector4, 0x2A> zzzx;
Swizzle4<Vector4, 0x2B> wzzx;
Swizzle4<Vector4, 0x2C> xwzx;
Swizzle4<Vector4, 0x2D> ywzx;
Swizzle4<Vector4, 0x2E> zwzx;
Swizzle4<Vector4, 0x2F> wwzx;
Swizzle4<Vector4, 0x30> xxwx;
Swizzle4<Vector4, 0x31> yxwx;
Swizzle4<Vector4, 0x32> zxwx;
Swizzle4<Vector4, 0x33> wxwx;
Swizzle4<Vector4, 0x34> xywx;
Swizzle4<Vector4, 0x35> yywx;
Swizzle4<Vector4, 0x36> zywx;
Swizzle4<Vector4, 0x37> wywx;
Swizzle4<Vector4, 0x38> xzwx;
Swizzle4<Vector4, 0x39> yzwx;
Swizzle4<Vector4, 0x3A> zzwx;
Swizzle4<Vector4, 0x3B> wzwx;
Swizzle4<Vector4, 0x3C> xwwx;
Swizzle4<Vector4, 0x3D> ywwx;
Swizzle4<Vector4, 0x3E> zwwx;
Swizzle4<Vector4, 0x3F> wwwx;
Swizzle4<Vector4, 0x40> xxxy;
Swizzle4<Vector4, 0x41> yxxy;
Swizzle4<Vector4, 0x42> zxxy;
Swizzle4<Vector4, 0x43> wxxy;
Swizzle4<Vector4, 0x44> xyxy;
Swizzle4<Vector4, 0x45> yyxy;
Swizzle4<Vector4, 0x46> zyxy;
Swizzle4<Vector4, 0x47> wyxy;
Swizzle4<Vector4, 0x48> xzxy;
Swizzle4<Vector4, 0x49> yzxy;
Swizzle4<Vector4, 0x4A> zzxy;
Swizzle4<Vector4, 0x4B> wzxy;
Swizzle4<Vector4, 0x4C> xwxy;
Swizzle4<Vector4, 0x4D> ywxy;
Swizzle4<Vector4, 0x4E> zwxy;
Swizzle4<Vector4, 0x4F> wwxy;
Swizzle4<Vector4, 0x50> xxyy;
Swizzle4<Vector4, 0x51> yxyy;
Swizzle4<Vector4, 0x52> zxyy;
Swizzle4<Vector4, 0x53> wxyy;
Swizzle4<Vector4, 0x54> xyyy;
Swizzle4<Vector4, 0x55> yyyy;
Swizzle4<Vector4, 0x56> zyyy;
Swizzle4<Vector4, 0x57> wyyy;
Swizzle4<Vector4, 0x58> xzyy;
Swizzle4<Vector4, 0x59> yzyy;
Swizzle4<Vector4, 0x5A> zzyy;
Swizzle4<Vector4, 0x5B> wzyy;
Swizzle4<Vector4, 0x5C> xwyy;
Swizzle4<Vector4, 0x5D> ywyy;
Swizzle4<Vector4, 0x5E> zwyy;
Swizzle4<Vector4, 0x5F> wwyy;
Swizzle4<Vector4, 0x60> xxzy;
Swizzle4<Vector4, 0x61> yxzy;
Swizzle4<Vector4, 0x62> zxzy;
Swizzle4<Vector4, 0x63> wxzy;
Swizzle4<Vector4, 0x64> xyzy;
Swizzle4<Vector4, 0x65> yyzy;
Swizzle4<Vector4, 0x66> zyzy;
Swizzle4<Vector4, 0x67> wyzy;
Swizzle4<Vector4, 0x68> xzzy;
Swizzle4<Vector4, 0x69> yzzy;
Swizzle4<Vector4, 0x6A> zzzy;
Swizzle4<Vector4, 0x6B> wzzy;
Swizzle4<Vector4, 0x6C> xwzy;
Swizzle4<Vector4, 0x6D> ywzy;
Swizzle4<Vector4, 0x6E> zwzy;
Swizzle4<Vector4, 0x6F> wwzy;
Swizzle4<Vector4, 0x70> xxwy;
Swizzle4<Vector4, 0x71> yxwy;
Swizzle4<Vector4, 0x72> zxwy;
Swizzle4<Vector4, 0x73> wxwy;
Swizzle4<Vector4, 0x74> xywy;
Swizzle4<Vector4, 0x75> yywy;
Swizzle4<Vector4, 0x76> zywy;
Swizzle4<Vector4, 0x77> wywy;
Swizzle4<Vector4, 0x78> xzwy;
Swizzle4<Vector4, 0x79> yzwy;
Swizzle4<Vector4, 0x7A> zzwy;
Swizzle4<Vector4, 0x7B> wzwy;
Swizzle4<Vector4, 0x7C> xwwy;
Swizzle4<Vector4, 0x7D> ywwy;
Swizzle4<Vector4, 0x7E> zwwy;
Swizzle4<Vector4, 0x7F> wwwy;
Swizzle4<Vector4, 0x80> xxxz;
Swizzle4<Vector4, 0x81> yxxz;
Swizzle4<Vector4, 0x82> zxxz;
Swizzle4<Vector4, 0x83> wxxz;
Swizzle4<Vector4, 0x84> xyxz;
Swizzle4<Vector4, 0x85> yyxz;
Swizzle4<Vector4, 0x86> zyxz;
Swizzle4<Vector4, 0x87> wyxz;
Swizzle4<Vector4, 0x88> xzxz;
Swizzle4<Vector4, 0x89> yzxz;
Swizzle4<Vector4, 0x8A> zzxz;
Swizzle4<Vector4, 0x8B> wzxz;
Swizzle4<Vector4, 0x8C> xwxz;
Swizzle4<Vector4, 0x8D> ywxz;
Swizzle4<Vector4, 0x8E> zwxz;
Swizzle4<Vector4, 0x8F> wwxz;
Swizzle4<Vector4, 0x90> xxyz;
Swizzle4<Vector4, 0x91> yxyz;
Swizzle4<Vector4, 0x92> zxyz;
Swizzle4<Vector4, 0x93> wxyz;
Swizzle4<Vector4, 0x94> xyyz;
Swizzle4<Vector4, 0x95> yyyz;
Swizzle4<Vector4, 0x96> zyyz;
Swizzle4<Vector4, 0x97> wyyz;
Swizzle4<Vector4, 0x98> xzyz;
Swizzle4<Vector4, 0x99> yzyz;
Swizzle4<Vector4, 0x9A> zzyz;
Swizzle4<Vector4, 0x9B> wzyz;
Swizzle4<Vector4, 0x9C> xwyz;
Swizzle4<Vector4, 0x9D> ywyz;
Swizzle4<Vector4, 0x9E> zwyz;
Swizzle4<Vector4, 0x9F> wwyz;
Swizzle4<Vector4, 0xA0> xxzz;
Swizzle4<Vector4, 0xA1> yxzz;
Swizzle4<Vector4, 0xA2> zxzz;
Swizzle4<Vector4, 0xA3> wxzz;
Swizzle4<Vector4, 0xA4> xyzz;
Swizzle4<Vector4, 0xA5> yyzz;
Swizzle4<Vector4, 0xA6> zyzz;
Swizzle4<Vector4, 0xA7> wyzz;
Swizzle4<Vector4, 0xA8> xzzz;
Swizzle4<Vector4, 0xA9> yzzz;
Swizzle4<Vector4, 0xAA> zzzz;
Swizzle4<Vector4, 0xAB> wzzz;
Swizzle4<Vector4, 0xAC> xwzz;
Swizzle4<Vector4, 0xAD> ywzz;
Swizzle4<Vector4, 0xAE> zwzz;
Swizzle4<Vector4, 0xAF> wwzz;
Swizzle4<Vector4, 0xB0> xxwz;
Swizzle4<Vector4, 0xB1> yxwz;
Swizzle4<Vector4, 0xB2> zxwz;
Swizzle4<Vector4, 0xB3> wxwz;
Swizzle4<Vector4, 0xB4> xywz;
Swizzle4<Vector4, 0xB5> yywz;
Swizzle4<Vector4, 0xB6> zywz;
Swizzle4<Vector4, 0xB7> wywz;
Swizzle4<Vector4, 0xB8> xzwz;
Swizzle4<Vector4, 0xB9> yzwz;
Swizzle4<Vector4, 0xBA> zzwz;
Swizzle4<Vector4, 0xBB> wzwz;
Swizzle4<Vector4, 0xBC> xwwz;
Swizzle4<Vector4, 0xBD> ywwz;
Swizzle4<Vector4, 0xBE> zwwz;
Swizzle4<Vector4, 0xBF> wwwz;
Swizzle4<Vector4, 0xC0> xxxw;
Swizzle4<Vector4, 0xC1> yxxw;
Swizzle4<Vector4, 0xC2> zxxw;
Swizzle4<Vector4, 0xC3> wxxw;
Swizzle4<Vector4, 0xC4> xyxw;
Swizzle4<Vector4, 0xC5> yyxw;
Swizzle4<Vector4, 0xC6> zyxw;
Swizzle4<Vector4, 0xC7> wyxw;
Swizzle4<Vector4, 0xC8> xzxw;
Swizzle4<Vector4, 0xC9> yzxw;
Swizzle4<Vector4, 0xCA> zzxw;
Swizzle4<Vector4, 0xCB> wzxw;
Swizzle4<Vector4, 0xCC> xwxw;
Swizzle4<Vector4, 0xCD> ywxw;
Swizzle4<Vector4, 0xCE> zwxw;
Swizzle4<Vector4, 0xCF> wwxw;
Swizzle4<Vector4, 0xD0> xxyw;
Swizzle4<Vector4, 0xD1> yxyw;
Swizzle4<Vector4, 0xD2> zxyw;
Swizzle4<Vector4, 0xD3> wxyw;
Swizzle4<Vector4, 0xD4> xyyw;
Swizzle4<Vector4, 0xD5> yyyw;
Swizzle4<Vector4, 0xD6> zyyw;
Swizzle4<Vector4, 0xD7> wyyw;
Swizzle4<Vector4, 0xD8> xzyw;
Swizzle4<Vector4, 0xD9> yzyw;
Swizzle4<Vector4, 0xDA> zzyw;
Swizzle4<Vector4, 0xDB> wzyw;
Swizzle4<Vector4, 0xDC> xwyw;
Swizzle4<Vector4, 0xDD> ywyw;
Swizzle4<Vector4, 0xDE> zwyw;
Swizzle4<Vector4, 0xDF> wwyw;
Swizzle4<Vector4, 0xE0> xxzw;
Swizzle4<Vector4, 0xE1> yxzw;
Swizzle4<Vector4, 0xE2> zxzw;
Swizzle4<Vector4, 0xE3> wxzw;
SwizzleMask4<Vector4, 0xE4> xyzw;
Swizzle4<Vector4, 0xE5> yyzw;
Swizzle4<Vector4, 0xE6> zyzw;
Swizzle4<Vector4, 0xE7> wyzw;
Swizzle4<Vector4, 0xE8> xzzw;
Swizzle4<Vector4, 0xE9> yzzw;
Swizzle4<Vector4, 0xEA> zzzw;
Swizzle4<Vector4, 0xEB> wzzw;
Swizzle4<Vector4, 0xEC> xwzw;
Swizzle4<Vector4, 0xED> ywzw;
Swizzle4<Vector4, 0xEE> zwzw;
Swizzle4<Vector4, 0xEF> wwzw;
Swizzle4<Vector4, 0xF0> xxww;
Swizzle4<Vector4, 0xF1> yxww;
Swizzle4<Vector4, 0xF2> zxww;
Swizzle4<Vector4, 0xF3> wxww;
Swizzle4<Vector4, 0xF4> xyww;
Swizzle4<Vector4, 0xF5> yyww;
Swizzle4<Vector4, 0xF6> zyww;
Swizzle4<Vector4, 0xF7> wyww;
Swizzle4<Vector4, 0xF8> xzww;
Swizzle4<Vector4, 0xF9> yzww;
Swizzle4<Vector4, 0xFA> zzww;
Swizzle4<Vector4, 0xFB> wzww;
Swizzle4<Vector4, 0xFC> xwww;
Swizzle4<Vector4, 0xFD> ywww;
Swizzle4<Vector4, 0xFE> zwww;
Swizzle4<Vector4, 0xFF> wwww;
};
};
class Int4 : public LValue<Int4>, public XYZW<Int4>
{
public:
explicit Int4(RValue<Byte4> cast);
explicit Int4(RValue<SByte4> cast);
explicit Int4(RValue<Float4> cast);
explicit Int4(RValue<Short4> cast);
explicit Int4(RValue<UShort4> cast);
Int4();
Int4(int xyzw);
Int4(int x, int yzw);
Int4(int x, int y, int zw);
Int4(int x, int y, int z, int w);
Int4(RValue<Int4> rhs);
Int4(const Int4 &rhs);
Int4(const Reference<Int4> &rhs);
Int4(RValue<UInt4> rhs);
Int4(const UInt4 &rhs);
Int4(const Reference<UInt4> &rhs);
Int4(RValue<Int2> lo, RValue<Int2> hi);
Int4(RValue<Int> rhs);
Int4(const Int &rhs);
Int4(const Reference<Int> &rhs);
RValue<Int4> operator=(RValue<Int4> rhs);
RValue<Int4> operator=(const Int4 &rhs);
RValue<Int4> operator=(const Reference<Int4> &rhs);
static Type *getType();
private:
void constant(int x, int y, int z, int w);
};
RValue<Int4> operator+(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator-(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator*(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator/(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator%(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator&(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator|(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator^(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator<<(RValue<Int4> lhs, unsigned char rhs);
RValue<Int4> operator>>(RValue<Int4> lhs, unsigned char rhs);
RValue<Int4> operator<<(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator>>(RValue<Int4> lhs, RValue<Int4> rhs);
RValue<Int4> operator+=(Int4 &lhs, RValue<Int4> rhs);
RValue<Int4> operator-=(Int4 &lhs, RValue<Int4> rhs);
RValue<Int4> operator*=(Int4 &lhs, RValue<Int4> rhs);
// RValue<Int4> operator/=(Int4 &lhs, RValue<Int4> rhs);
// RValue<Int4> operator%=(Int4 &lhs, RValue<Int4> rhs);
RValue<Int4> operator&=(Int4 &lhs, RValue<Int4> rhs);
RValue<Int4> operator|=(Int4 &lhs, RValue<Int4> rhs);
RValue<Int4> operator^=(Int4 &lhs, RValue<Int4> rhs);
RValue<Int4> operator<<=(Int4 &lhs, unsigned char rhs);
RValue<Int4> operator>>=(Int4 &lhs, unsigned char rhs);
RValue<Int4> operator+(RValue<Int4> val);
RValue<Int4> operator-(RValue<Int4> val);
RValue<Int4> operator~(RValue<Int4> val);
// RValue<Int4> operator++(Int4 &val, int); // Post-increment
// const Int4 &operator++(Int4 &val); // Pre-increment
// RValue<Int4> operator--(Int4 &val, int); // Post-decrement
// const Int4 &operator--(Int4 &val); // Pre-decrement
// RValue<Bool> operator<(RValue<Int4> lhs, RValue<Int4> rhs);
// RValue<Bool> operator<=(RValue<Int4> lhs, RValue<Int4> rhs);
// RValue<Bool> operator>(RValue<Int4> lhs, RValue<Int4> rhs);
// RValue<Bool> operator>=(RValue<Int4> lhs, RValue<Int4> rhs);
// RValue<Bool> operator!=(RValue<Int4> lhs, RValue<Int4> rhs);
// RValue<Bool> operator==(RValue<Int4> lhs, RValue<Int4> rhs);
inline RValue<Int4> operator+(RValue<Int> lhs, RValue<Int4> rhs)
{
return Int4(lhs) + rhs;
}
inline RValue<Int4> operator+(RValue<Int4> lhs, RValue<Int> rhs)
{
return lhs + Int4(rhs);
}
RValue<Int4> CmpEQ(RValue<Int4> x, RValue<Int4> y);
RValue<Int4> CmpLT(RValue<Int4> x, RValue<Int4> y);
RValue<Int4> CmpLE(RValue<Int4> x, RValue<Int4> y);
RValue<Int4> CmpNEQ(RValue<Int4> x, RValue<Int4> y);
RValue<Int4> CmpNLT(RValue<Int4> x, RValue<Int4> y);
RValue<Int4> CmpNLE(RValue<Int4> x, RValue<Int4> y);
inline RValue<Int4> CmpGT(RValue<Int4> x, RValue<Int4> y) { return CmpNLE(x, y); }
inline RValue<Int4> CmpGE(RValue<Int4> x, RValue<Int4> y) { return CmpNLT(x, y); }
RValue<Int4> Max(RValue<Int4> x, RValue<Int4> y);
RValue<Int4> Min(RValue<Int4> x, RValue<Int4> y);
RValue<Int4> RoundInt(RValue<Float4> cast);
RValue<Short8> PackSigned(RValue<Int4> x, RValue<Int4> y);
RValue<UShort8> PackUnsigned(RValue<Int4> x, RValue<Int4> y);
RValue<Int> Extract(RValue<Int4> val, int i);
RValue<Int4> Insert(RValue<Int4> val, RValue<Int> element, int i);
RValue<Int> SignMask(RValue<Int4> x);
RValue<Int4> Swizzle(RValue<Int4> x, unsigned char select);
RValue<Int4> MulHigh(RValue<Int4> x, RValue<Int4> y);
class UInt4 : public LValue<UInt4>, public XYZW<UInt4>
{
public:
explicit UInt4(RValue<Float4> cast);
UInt4();
UInt4(int xyzw);
UInt4(int x, int yzw);
UInt4(int x, int y, int zw);
UInt4(int x, int y, int z, int w);
UInt4(RValue<UInt4> rhs);
UInt4(const UInt4 &rhs);
UInt4(const Reference<UInt4> &rhs);
UInt4(RValue<Int4> rhs);
UInt4(const Int4 &rhs);
UInt4(const Reference<Int4> &rhs);
UInt4(RValue<UInt2> lo, RValue<UInt2> hi);
UInt4(RValue<UInt> rhs);
UInt4(const UInt &rhs);
UInt4(const Reference<UInt> &rhs);
RValue<UInt4> operator=(RValue<UInt4> rhs);
RValue<UInt4> operator=(const UInt4 &rhs);
RValue<UInt4> operator=(const Reference<UInt4> &rhs);
static Type *getType();
private:
void constant(int x, int y, int z, int w);
};
RValue<UInt4> operator+(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator-(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator*(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator/(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator%(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator&(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator|(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator^(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator<<(RValue<UInt4> lhs, unsigned char rhs);
RValue<UInt4> operator>>(RValue<UInt4> lhs, unsigned char rhs);
RValue<UInt4> operator<<(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator>>(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> operator+=(UInt4 &lhs, RValue<UInt4> rhs);
RValue<UInt4> operator-=(UInt4 &lhs, RValue<UInt4> rhs);
RValue<UInt4> operator*=(UInt4 &lhs, RValue<UInt4> rhs);
// RValue<UInt4> operator/=(UInt4 &lhs, RValue<UInt4> rhs);
// RValue<UInt4> operator%=(UInt4 &lhs, RValue<UInt4> rhs);
RValue<UInt4> operator&=(UInt4 &lhs, RValue<UInt4> rhs);
RValue<UInt4> operator|=(UInt4 &lhs, RValue<UInt4> rhs);
RValue<UInt4> operator^=(UInt4 &lhs, RValue<UInt4> rhs);
RValue<UInt4> operator<<=(UInt4 &lhs, unsigned char rhs);
RValue<UInt4> operator>>=(UInt4 &lhs, unsigned char rhs);
RValue<UInt4> operator+(RValue<UInt4> val);
RValue<UInt4> operator-(RValue<UInt4> val);
RValue<UInt4> operator~(RValue<UInt4> val);
// RValue<UInt4> operator++(UInt4 &val, int); // Post-increment
// const UInt4 &operator++(UInt4 &val); // Pre-increment
// RValue<UInt4> operator--(UInt4 &val, int); // Post-decrement
// const UInt4 &operator--(UInt4 &val); // Pre-decrement
// RValue<Bool> operator<(RValue<UInt4> lhs, RValue<UInt4> rhs);
// RValue<Bool> operator<=(RValue<UInt4> lhs, RValue<UInt4> rhs);
// RValue<Bool> operator>(RValue<UInt4> lhs, RValue<UInt4> rhs);
// RValue<Bool> operator>=(RValue<UInt4> lhs, RValue<UInt4> rhs);
// RValue<Bool> operator!=(RValue<UInt4> lhs, RValue<UInt4> rhs);
// RValue<Bool> operator==(RValue<UInt4> lhs, RValue<UInt4> rhs);
RValue<UInt4> CmpEQ(RValue<UInt4> x, RValue<UInt4> y);
RValue<UInt4> CmpLT(RValue<UInt4> x, RValue<UInt4> y);
RValue<UInt4> CmpLE(RValue<UInt4> x, RValue<UInt4> y);
RValue<UInt4> CmpNEQ(RValue<UInt4> x, RValue<UInt4> y);
RValue<UInt4> CmpNLT(RValue<UInt4> x, RValue<UInt4> y);
RValue<UInt4> CmpNLE(RValue<UInt4> x, RValue<UInt4> y);
inline RValue<UInt4> CmpGT(RValue<UInt4> x, RValue<UInt4> y) { return CmpNLE(x, y); }
inline RValue<UInt4> CmpGE(RValue<UInt4> x, RValue<UInt4> y) { return CmpNLT(x, y); }
RValue<UInt4> Max(RValue<UInt4> x, RValue<UInt4> y);
RValue<UInt4> Min(RValue<UInt4> x, RValue<UInt4> y);
RValue<UInt4> MulHigh(RValue<UInt4> x, RValue<UInt4> y);
RValue<UInt> Extract(RValue<UInt4> val, int i);
RValue<UInt4> Insert(RValue<UInt4> val, RValue<UInt> element, int i);
// RValue<UInt4> RoundInt(RValue<Float4> cast);
RValue<UInt4> Swizzle(RValue<UInt4> x, unsigned char select);
class Half : public LValue<Half>
{
public:
explicit Half(RValue<Float> cast);
static Type *getType();
};
class Float : public LValue<Float>
{
public:
explicit Float(RValue<Int> cast);
explicit Float(RValue<UInt> cast);
explicit Float(RValue<Half> cast);
Float() = default;
Float(float x);
Float(RValue<Float> rhs);
Float(const Float &rhs);
Float(const Reference<Float> &rhs);
Float(Argument<Float> argument);
template<int T>
Float(const SwizzleMask1<Float4, T> &rhs);
// RValue<Float> operator=(float rhs); // FIXME: Implement
RValue<Float> operator=(RValue<Float> rhs);
RValue<Float> operator=(const Float &rhs);
RValue<Float> operator=(const Reference<Float> &rhs);
template<int T>
RValue<Float> operator=(const SwizzleMask1<Float4, T> &rhs);
static Type *getType();
};
RValue<Float> operator+(RValue<Float> lhs, RValue<Float> rhs);
RValue<Float> operator-(RValue<Float> lhs, RValue<Float> rhs);
RValue<Float> operator*(RValue<Float> lhs, RValue<Float> rhs);
RValue<Float> operator/(RValue<Float> lhs, RValue<Float> rhs);
RValue<Float> operator+=(Float &lhs, RValue<Float> rhs);
RValue<Float> operator-=(Float &lhs, RValue<Float> rhs);
RValue<Float> operator*=(Float &lhs, RValue<Float> rhs);
RValue<Float> operator/=(Float &lhs, RValue<Float> rhs);
RValue<Float> operator+(RValue<Float> val);
RValue<Float> operator-(RValue<Float> val);
RValue<Bool> operator<(RValue<Float> lhs, RValue<Float> rhs);
RValue<Bool> operator<=(RValue<Float> lhs, RValue<Float> rhs);
RValue<Bool> operator>(RValue<Float> lhs, RValue<Float> rhs);
RValue<Bool> operator>=(RValue<Float> lhs, RValue<Float> rhs);
RValue<Bool> operator!=(RValue<Float> lhs, RValue<Float> rhs);
RValue<Bool> operator==(RValue<Float> lhs, RValue<Float> rhs);
RValue<Float> Abs(RValue<Float> x);
RValue<Float> Max(RValue<Float> x, RValue<Float> y);
RValue<Float> Min(RValue<Float> x, RValue<Float> y);
RValue<Float> Rcp_pp(RValue<Float> val, bool exactAtPow2 = false);
RValue<Float> RcpSqrt_pp(RValue<Float> val);
RValue<Float> Sqrt(RValue<Float> x);
// RValue<Int4> IsInf(RValue<Float> x);
// RValue<Int4> IsNan(RValue<Float> x);
RValue<Float> Round(RValue<Float> x);
RValue<Float> Trunc(RValue<Float> x);
RValue<Float> Frac(RValue<Float> x);
RValue<Float> Floor(RValue<Float> x);
RValue<Float> Ceil(RValue<Float> x);
// Trigonometric functions
// TODO: Currently unimplemented for Subzero.
// RValue<Float> Sin(RValue<Float> x);
// RValue<Float> Cos(RValue<Float> x);
// RValue<Float> Tan(RValue<Float> x);
// RValue<Float> Asin(RValue<Float> x);
// RValue<Float> Acos(RValue<Float> x);
// RValue<Float> Atan(RValue<Float> x);
// RValue<Float> Sinh(RValue<Float> x);
// RValue<Float> Cosh(RValue<Float> x);
// RValue<Float> Tanh(RValue<Float> x);
// RValue<Float> Asinh(RValue<Float> x);
// RValue<Float> Acosh(RValue<Float> x);
// RValue<Float> Atanh(RValue<Float> x);
// RValue<Float> Atan2(RValue<Float> x, RValue<Float> y);
// Exponential functions
// TODO: Currently unimplemented for Subzero.
// RValue<Float> Pow(RValue<Float> x, RValue<Float> y);
// RValue<Float> Exp(RValue<Float> x);
// RValue<Float> Log(RValue<Float> x);
RValue<Float> Exp2(RValue<Float> x);
RValue<Float> Log2(RValue<Float> x);
class Float2 : public LValue<Float2>
{
public:
// explicit Float2(RValue<Byte2> cast);
// explicit Float2(RValue<Short2> cast);
// explicit Float2(RValue<UShort2> cast);
// explicit Float2(RValue<Int2> cast);
// explicit Float2(RValue<UInt2> cast);
explicit Float2(RValue<Float4> cast);
Float2() = default;
// Float2(float x, float y);
// Float2(RValue<Float2> rhs);
// Float2(const Float2 &rhs);
// Float2(const Reference<Float2> &rhs);
// Float2(RValue<Float> rhs);
// Float2(const Float &rhs);
// Float2(const Reference<Float> &rhs);
// template<int T>
// Float2(const SwizzleMask1<T> &rhs);
// RValue<Float2> operator=(float replicate);
// RValue<Float2> operator=(RValue<Float2> rhs);
// RValue<Float2> operator=(const Float2 &rhs);
// RValue<Float2> operator=(const Reference<Float2> &rhs);
// RValue<Float2> operator=(RValue<Float> rhs);
// RValue<Float2> operator=(const Float &rhs);
// RValue<Float2> operator=(const Reference<Float> &rhs);
// template<int T>
// RValue<Float2> operator=(const SwizzleMask1<T> &rhs);
static Type *getType();
};
// RValue<Float2> operator+(RValue<Float2> lhs, RValue<Float2> rhs);
// RValue<Float2> operator-(RValue<Float2> lhs, RValue<Float2> rhs);
// RValue<Float2> operator*(RValue<Float2> lhs, RValue<Float2> rhs);
// RValue<Float2> operator/(RValue<Float2> lhs, RValue<Float2> rhs);
// RValue<Float2> operator%(RValue<Float2> lhs, RValue<Float2> rhs);
// RValue<Float2> operator+=(Float2 &lhs, RValue<Float2> rhs);
// RValue<Float2> operator-=(Float2 &lhs, RValue<Float2> rhs);
// RValue<Float2> operator*=(Float2 &lhs, RValue<Float2> rhs);
// RValue<Float2> operator/=(Float2 &lhs, RValue<Float2> rhs);
// RValue<Float2> operator%=(Float2 &lhs, RValue<Float2> rhs);
// RValue<Float2> operator+(RValue<Float2> val);
// RValue<Float2> operator-(RValue<Float2> val);
// RValue<Float2> Abs(RValue<Float2> x);
// RValue<Float2> Max(RValue<Float2> x, RValue<Float2> y);
// RValue<Float2> Min(RValue<Float2> x, RValue<Float2> y);
// RValue<Float2> Swizzle(RValue<Float2> x, unsigned char select);
// RValue<Float2> Mask(Float2 &lhs, RValue<Float2> rhs, unsigned char select);
class Float4 : public LValue<Float4>, public XYZW<Float4>
{
public:
explicit Float4(RValue<Byte4> cast);
explicit Float4(RValue<SByte4> cast);
explicit Float4(RValue<Short4> cast);
explicit Float4(RValue<UShort4> cast);
explicit Float4(RValue<Int4> cast);
explicit Float4(RValue<UInt4> cast);
Float4();
Float4(float xyzw);
Float4(float x, float yzw);
Float4(float x, float y, float zw);
Float4(float x, float y, float z, float w);
Float4(RValue<Float4> rhs);
Float4(const Float4 &rhs);
Float4(const Reference<Float4> &rhs);
Float4(RValue<Float> rhs);
Float4(const Float &rhs);
Float4(const Reference<Float> &rhs);
template<int T>
Float4(const SwizzleMask1<Float4, T> &rhs);
template<int T>
Float4(const Swizzle4<Float4, T> &rhs);
template<int X, int Y>
Float4(const Swizzle2<Float4, X> &x, const Swizzle2<Float4, Y> &y);
template<int X, int Y>
Float4(const SwizzleMask2<Float4, X> &x, const Swizzle2<Float4, Y> &y);
template<int X, int Y>
Float4(const Swizzle2<Float4, X> &x, const SwizzleMask2<Float4, Y> &y);
template<int X, int Y>
Float4(const SwizzleMask2<Float4, X> &x, const SwizzleMask2<Float4, Y> &y);
RValue<Float4> operator=(float replicate);
RValue<Float4> operator=(RValue<Float4> rhs);
RValue<Float4> operator=(const Float4 &rhs);
RValue<Float4> operator=(const Reference<Float4> &rhs);
RValue<Float4> operator=(RValue<Float> rhs);
RValue<Float4> operator=(const Float &rhs);
RValue<Float4> operator=(const Reference<Float> &rhs);
template<int T>
RValue<Float4> operator=(const SwizzleMask1<Float4, T> &rhs);
template<int T>
RValue<Float4> operator=(const Swizzle4<Float4, T> &rhs);
static Type *getType();
private:
void constant(float x, float y, float z, float w);
};
RValue<Float4> operator+(RValue<Float4> lhs, RValue<Float4> rhs);
RValue<Float4> operator-(RValue<Float4> lhs, RValue<Float4> rhs);
RValue<Float4> operator*(RValue<Float4> lhs, RValue<Float4> rhs);
RValue<Float4> operator/(RValue<Float4> lhs, RValue<Float4> rhs);
RValue<Float4> operator%(RValue<Float4> lhs, RValue<Float4> rhs);
RValue<Float4> operator+=(Float4 &lhs, RValue<Float4> rhs);
RValue<Float4> operator-=(Float4 &lhs, RValue<Float4> rhs);
RValue<Float4> operator*=(Float4 &lhs, RValue<Float4> rhs);
RValue<Float4> operator/=(Float4 &lhs, RValue<Float4> rhs);
RValue<Float4> operator%=(Float4 &lhs, RValue<Float4> rhs);
RValue<Float4> operator+(RValue<Float4> val);
RValue<Float4> operator-(RValue<Float4> val);
RValue<Float4> Abs(RValue<Float4> x);
RValue<Float4> Max(RValue<Float4> x, RValue<Float4> y);
RValue<Float4> Min(RValue<Float4> x, RValue<Float4> y);
RValue<Float4> Rcp_pp(RValue<Float4> val, bool exactAtPow2 = false);
RValue<Float4> RcpSqrt_pp(RValue<Float4> val);
RValue<Float4> Sqrt(RValue<Float4> x);
RValue<Float4> Insert(RValue<Float4> val, RValue<Float> element, int i);
RValue<Float> Extract(RValue<Float4> x, int i);
RValue<Float4> Swizzle(RValue<Float4> x, unsigned char select);
RValue<Float4> ShuffleLowHigh(RValue<Float4> x, RValue<Float4> y, unsigned char imm);
RValue<Float4> UnpackLow(RValue<Float4> x, RValue<Float4> y);
RValue<Float4> UnpackHigh(RValue<Float4> x, RValue<Float4> y);
RValue<Float4> Mask(Float4 &lhs, RValue<Float4> rhs, unsigned char select);
RValue<Int> SignMask(RValue<Float4> x);
// Ordered comparison functions
RValue<Int4> CmpEQ(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpLT(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpLE(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpNEQ(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpNLT(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpNLE(RValue<Float4> x, RValue<Float4> y);
inline RValue<Int4> CmpGT(RValue<Float4> x, RValue<Float4> y) { return CmpNLE(x, y); }
inline RValue<Int4> CmpGE(RValue<Float4> x, RValue<Float4> y) { return CmpNLT(x, y); }
// Unordered comparison functions
RValue<Int4> CmpUEQ(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpULT(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpULE(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpUNEQ(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpUNLT(RValue<Float4> x, RValue<Float4> y);
RValue<Int4> CmpUNLE(RValue<Float4> x, RValue<Float4> y);
inline RValue<Int4> CmpUGT(RValue<Float4> x, RValue<Float4> y) { return CmpUNLE(x, y); }
inline RValue<Int4> CmpUGE(RValue<Float4> x, RValue<Float4> y) { return CmpUNLT(x, y); }
RValue<Int4> IsInf(RValue<Float4> x);
RValue<Int4> IsNan(RValue<Float4> x);
RValue<Float4> Round(RValue<Float4> x);
RValue<Float4> Trunc(RValue<Float4> x);
RValue<Float4> Frac(RValue<Float4> x);
RValue<Float4> Floor(RValue<Float4> x);
RValue<Float4> Ceil(RValue<Float4> x);
// Trigonometric functions
// TODO: Currently unimplemented for Subzero.
RValue<Float4> Sin(RValue<Float4> x);
RValue<Float4> Cos(RValue<Float4> x);
RValue<Float4> Tan(RValue<Float4> x);
RValue<Float4> Asin(RValue<Float4> x);
RValue<Float4> Acos(RValue<Float4> x);
RValue<Float4> Atan(RValue<Float4> x);
RValue<Float4> Sinh(RValue<Float4> x);
RValue<Float4> Cosh(RValue<Float4> x);
RValue<Float4> Tanh(RValue<Float4> x);
RValue<Float4> Asinh(RValue<Float4> x);
RValue<Float4> Acosh(RValue<Float4> x);
RValue<Float4> Atanh(RValue<Float4> x);
RValue<Float4> Atan2(RValue<Float4> x, RValue<Float4> y);
// Exponential functions
// TODO: Currently unimplemented for Subzero.
RValue<Float4> Pow(RValue<Float4> x, RValue<Float4> y);
RValue<Float4> Exp(RValue<Float4> x);
RValue<Float4> Log(RValue<Float4> x);
RValue<Float4> Exp2(RValue<Float4> x);
RValue<Float4> Log2(RValue<Float4> x);
// Bit Manipulation functions.
// TODO: Currently unimplemented for Subzero.
// Count leading zeros.
// Returns 32 when: isZeroUndef && x == 0.
// Returns an undefined value when: !isZeroUndef && x == 0.
RValue<UInt> Ctlz(RValue<UInt> x, bool isZeroUndef);
RValue<UInt4> Ctlz(RValue<UInt4> x, bool isZeroUndef);
// Count trailing zeros.
// Returns 32 when: isZeroUndef && x == 0.
// Returns an undefined value when: !isZeroUndef && x == 0.
RValue<UInt> Cttz(RValue<UInt> x, bool isZeroUndef);
RValue<UInt4> Cttz(RValue<UInt4> x, bool isZeroUndef);
template<class T>
class Pointer : public LValue<Pointer<T>>
{
public:
template<class S>
Pointer(RValue<Pointer<S>> pointerS, int alignment = 1) : alignment(alignment)
{
Value *pointerT = Nucleus::createBitCast(pointerS.value, Nucleus::getPointerType(T::getType()));
LValue<Pointer<T>>::storeValue(pointerT);
}
template<class S>
Pointer(const Pointer<S> &pointer, int alignment = 1) : alignment(alignment)
{
Value *pointerS = pointer.loadValue();
Value *pointerT = Nucleus::createBitCast(pointerS, Nucleus::getPointerType(T::getType()));
LValue<Pointer<T>>::storeValue(pointerT);
}
Pointer(Argument<Pointer<T>> argument);
Pointer();
Pointer(RValue<Pointer<T>> rhs);
Pointer(const Pointer<T> &rhs);
Pointer(const Reference<Pointer<T>> &rhs);
Pointer(std::nullptr_t);
RValue<Pointer<T>> operator=(RValue<Pointer<T>> rhs);
RValue<Pointer<T>> operator=(const Pointer<T> &rhs);
RValue<Pointer<T>> operator=(const Reference<Pointer<T>> &rhs);
RValue<Pointer<T>> operator=(std::nullptr_t);
Reference<T> operator*();
Reference<T> operator[](int index);
Reference<T> operator[](unsigned int index);
Reference<T> operator[](RValue<Int> index);
Reference<T> operator[](RValue<UInt> index);
static Type *getType();
private:
const int alignment;
};
RValue<Pointer<Byte>> operator+(RValue<Pointer<Byte>> lhs, int offset);
RValue<Pointer<Byte>> operator+(RValue<Pointer<Byte>> lhs, RValue<Int> offset);
RValue<Pointer<Byte>> operator+(RValue<Pointer<Byte>> lhs, RValue<UInt> offset);
RValue<Pointer<Byte>> operator+=(Pointer<Byte> &lhs, int offset);
RValue<Pointer<Byte>> operator+=(Pointer<Byte> &lhs, RValue<Int> offset);
RValue<Pointer<Byte>> operator+=(Pointer<Byte> &lhs, RValue<UInt> offset);
RValue<Pointer<Byte>> operator-(RValue<Pointer<Byte>> lhs, int offset);
RValue<Pointer<Byte>> operator-(RValue<Pointer<Byte>> lhs, RValue<Int> offset);
RValue<Pointer<Byte>> operator-(RValue<Pointer<Byte>> lhs, RValue<UInt> offset);
RValue<Pointer<Byte>> operator-=(Pointer<Byte> &lhs, int offset);
RValue<Pointer<Byte>> operator-=(Pointer<Byte> &lhs, RValue<Int> offset);
RValue<Pointer<Byte>> operator-=(Pointer<Byte> &lhs, RValue<UInt> offset);
template <typename T>
RValue<Bool> operator==(const Pointer<T> &lhs, const Pointer<T> &rhs)
{
return RValue<Bool>(Nucleus::createPtrEQ(lhs.loadValue(), rhs.loadValue()));
}
template<typename T>
RValue<T> Load(RValue<Pointer<T>> pointer, unsigned int alignment, bool atomic, std::memory_order memoryOrder)
{
return RValue<T>(Nucleus::createLoad(pointer.value, T::getType(), false, alignment, atomic, memoryOrder));
}
template<typename T>
RValue<T> Load(Pointer<T> pointer, unsigned int alignment, bool atomic, std::memory_order memoryOrder)
{
return Load(RValue<Pointer<T>>(pointer), alignment, atomic, memoryOrder);
}
// TODO: Use SIMD to template these.
RValue<Float4> MaskedLoad(RValue<Pointer<Float4>> base, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes = false);
RValue<Int4> MaskedLoad(RValue<Pointer<Int4>> base, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes = false);
void MaskedStore(RValue<Pointer<Float4>> base, RValue<Float4> val, RValue<Int4> mask, unsigned int alignment);
void MaskedStore(RValue<Pointer<Int4>> base, RValue<Int4> val, RValue<Int4> mask, unsigned int alignment);
RValue<Float4> Gather(RValue<Pointer<Float>> base, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes = false);
RValue<Int4> Gather(RValue<Pointer<Int>> base, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes = false);
void Scatter(RValue<Pointer<Float>> base, RValue<Float4> val, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment);
void Scatter(RValue<Pointer<Int>> base, RValue<Int4> val, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment);
template<typename T>
void Store(RValue<T> value, RValue<Pointer<T>> pointer, unsigned int alignment, bool atomic, std::memory_order memoryOrder)
{
Nucleus::createStore(value.value, pointer.value, T::getType(), false, alignment, atomic, memoryOrder);
}
template<typename T>
void Store(RValue<T> value, Pointer<T> pointer, unsigned int alignment, bool atomic, std::memory_order memoryOrder)
{
Store(value, RValue<Pointer<T>>(pointer), alignment, atomic, memoryOrder);
}
template<typename T>
void Store(T value, Pointer<T> pointer, unsigned int alignment, bool atomic, std::memory_order memoryOrder)
{
Store(RValue<T>(value), RValue<Pointer<T>>(pointer), alignment, atomic, memoryOrder);
}
// Fence adds a memory barrier that enforces ordering constraints on memory
// operations. memoryOrder can only be one of:
// std::memory_order_acquire, std::memory_order_release,
// std::memory_order_acq_rel, or std::memory_order_seq_cst.
void Fence(std::memory_order memoryOrder);
template<class T, int S = 1>
class Array : public LValue<T>
{
public:
Array(int size = S);
Reference<T> operator[](int index);
Reference<T> operator[](unsigned int index);
Reference<T> operator[](RValue<Int> index);
Reference<T> operator[](RValue<UInt> index);
// self() returns the this pointer to this Array object.
// This function exists because operator&() is overloaded by LValue<T>.
inline Array* self() { return this; }
};
// RValue<Array<T>> operator++(Array<T> &val, int); // Post-increment
// const Array<T> &operator++(Array<T> &val); // Pre-increment
// RValue<Array<T>> operator--(Array<T> &val, int); // Post-decrement
// const Array<T> &operator--(Array<T> &val); // Pre-decrement
void branch(RValue<Bool> cmp, BasicBlock *bodyBB, BasicBlock *endBB);
// ValueOf returns a rr::Value* for the given C-type, RValue<T>, LValue<T>
// or Reference<T>.
template <typename T>
inline Value* ValueOf(const T &v)
{
return ReactorType<T>::cast(v).loadValue();
}
void Return();
template<class T>
void Return(const T &ret)
{
static_assert(CanBeUsedAsReturn< ReactorTypeT<T> >::value, "Unsupported type for Return()");
Nucleus::createRet(ValueOf<T>(ret));
// Place any unreachable instructions in an unreferenced block.
Nucleus::setInsertBlock(Nucleus::createBasicBlock());
}
// Generic template, leave undefined!
template<typename FunctionType>
class Function;
// Specialized for function types
template<typename Return, typename... Arguments>
class Function<Return(Arguments...)>
{
// Static assert that the function signature is valid.
static_assert(sizeof(AssertFunctionSignatureIsValid<Return(Arguments...)>) >= 0, "Invalid function signature");
public:
Function();
virtual ~Function();
template<int index>
Argument<typename std::tuple_element<index, std::tuple<Arguments...>>::type> Arg() const
{
Value *arg = Nucleus::getArgument(index);
return Argument<typename std::tuple_element<index, std::tuple<Arguments...>>::type>(arg);
}
std::shared_ptr<Routine> operator()(const char *name, ...);
std::shared_ptr<Routine> operator()(const Config::Edit &cfg, const char *name, ...);
protected:
Nucleus *core;
std::vector<Type*> arguments;
};
template<typename Return>
class Function<Return()> : public Function<Return(Void)>
{
};
// FunctionT accepts a C-style function type template argument, allowing it to return a type-safe RoutineT wrapper
template<typename FunctionType>
class FunctionT;
template<typename Return, typename... Arguments>
class FunctionT<Return(Arguments...)> : public Function<CToReactorT<Return>(CToReactorT<Arguments>...)>
{
public:
// Type of base class
using BaseType = Function<CToReactorT<Return>(CToReactorT<Arguments>...)>;
// Function type, e.g. void(int,float)
using CFunctionType = Return(Arguments...);
// Reactor function type, e.g. Void(Int, Float)
using ReactorFunctionType = CToReactorT<Return>(CToReactorT<Arguments>...);
// Returned RoutineT type
using RoutineType = RoutineT<CFunctionType>;
// Hide base implementations of operator()
RoutineType operator()(const char* name, ...)
{
return RoutineType(BaseType::operator()(name));
}
RoutineType operator()(const Config::Edit& cfg, const char* name, ...)
{
return RoutineType(BaseType::operator()(cfg, name));
}
};
RValue<Long> Ticks();
}
namespace rr
{
template<class T>
LValue<T>::LValue(int arraySize) : Variable(T::getType(), arraySize)
{
#ifdef ENABLE_RR_DEBUG_INFO
materialize();
#endif // ENABLE_RR_DEBUG_INFO
}
inline void Variable::materialize() const
{
if(!address)
{
address = Nucleus::allocateStackVariable(type, arraySize);
RR_DEBUG_INFO_EMIT_VAR(address);
if(rvalue)
{
storeValue(rvalue);
rvalue = nullptr;
}
}
}
inline Value *Variable::loadValue() const
{
if(rvalue)
{
return rvalue;
}
if(!address)
{
// TODO: Return undef instead.
materialize();
}
return Nucleus::createLoad(address, type, false, 0);
}
inline Value *Variable::storeValue(Value *value) const
{
if(address)
{
return Nucleus::createStore(value, address, type, false, 0);
}
rvalue = value;
return value;
}
inline Value *Variable::getBaseAddress() const
{
materialize();
return address;
}
inline Value *Variable::getElementPointer(Value *index, bool unsignedIndex) const
{
return Nucleus::createGEP(getBaseAddress(), type, index, unsignedIndex);
}
template<class T>
RValue<Pointer<T>> LValue<T>::operator&()
{
return RValue<Pointer<T>>(getBaseAddress());
}
template<class T>
Reference<T>::Reference(Value *pointer, int alignment) : alignment(alignment)
{
address = pointer;
}
template<class T>
RValue<T> Reference<T>::operator=(RValue<T> rhs) const
{
Nucleus::createStore(rhs.value, address, T::getType(), false, alignment);
return rhs;
}
template<class T>
RValue<T> Reference<T>::operator=(const Reference<T> &ref) const
{
Value *tmp = Nucleus::createLoad(ref.address, T::getType(), false, ref.alignment);
Nucleus::createStore(tmp, address, T::getType(), false, alignment);
return RValue<T>(tmp);
}
template<class T>
RValue<T> Reference<T>::operator+=(RValue<T> rhs) const
{
return *this = *this + rhs;
}
template<class T>
Value *Reference<T>::loadValue() const
{
return Nucleus::createLoad(address, T::getType(), false, alignment);
}
template<class T>
int Reference<T>::getAlignment() const
{
return alignment;
}
#ifdef ENABLE_RR_DEBUG_INFO
template<class T>
RValue<T>::RValue(const RValue<T> &rvalue) : value(rvalue.value)
{
RR_DEBUG_INFO_EMIT_VAR(value);
}
#endif // ENABLE_RR_DEBUG_INFO
template<class T>
RValue<T>::RValue(Value *rvalue)
{
assert(Nucleus::createBitCast(rvalue, T::getType()) == rvalue); // Run-time type should match T, so bitcast is no-op.
value = rvalue;
RR_DEBUG_INFO_EMIT_VAR(value);
}
template<class T>
RValue<T>::RValue(const T &lvalue)
{
value = lvalue.loadValue();
RR_DEBUG_INFO_EMIT_VAR(value);
}
template<class T>
RValue<T>::RValue(typename BoolLiteral<T>::type i)
{
value = Nucleus::createConstantBool(i);
RR_DEBUG_INFO_EMIT_VAR(value);
}
template<class T>
RValue<T>::RValue(typename IntLiteral<T>::type i)
{
value = Nucleus::createConstantInt(i);
RR_DEBUG_INFO_EMIT_VAR(value);
}
template<class T>
RValue<T>::RValue(typename FloatLiteral<T>::type f)
{
value = Nucleus::createConstantFloat(f);
RR_DEBUG_INFO_EMIT_VAR(value);
}
template<class T>
RValue<T>::RValue(const Reference<T> &ref)
{
value = ref.loadValue();
RR_DEBUG_INFO_EMIT_VAR(value);
}
template<class Vector4, int T>
Swizzle2<Vector4, T>::operator RValue<Vector4>() const
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *vector = parent->loadValue();
return Swizzle(RValue<Vector4>(vector), T);
}
template<class Vector4, int T>
Swizzle4<Vector4, T>::operator RValue<Vector4>() const
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *vector = parent->loadValue();
return Swizzle(RValue<Vector4>(vector), T);
}
template<class Vector4, int T>
SwizzleMask4<Vector4, T>::operator RValue<Vector4>() const
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *vector = parent->loadValue();
return Swizzle(RValue<Vector4>(vector), T);
}
template<class Vector4, int T>
RValue<Vector4> SwizzleMask4<Vector4, T>::operator=(RValue<Vector4> rhs)
{
RR_DEBUG_INFO_UPDATE_LOC();
return Mask(*parent, rhs, T);
}
template<class Vector4, int T>
RValue<Vector4> SwizzleMask4<Vector4, T>::operator=(RValue<typename Scalar<Vector4>::Type> rhs)
{
RR_DEBUG_INFO_UPDATE_LOC();
return Mask(*parent, Vector4(rhs), T);
}
template<class Vector4, int T>
SwizzleMask1<Vector4, T>::operator RValue<typename Scalar<Vector4>::Type>() const // FIXME: Call a non-template function
{
RR_DEBUG_INFO_UPDATE_LOC();
return Extract(*parent, T & 0x3);
}
template<class Vector4, int T>
SwizzleMask1<Vector4, T>::operator RValue<Vector4>() const
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *vector = parent->loadValue();
return Swizzle(RValue<Vector4>(vector), T);
}
template<class Vector4, int T>
RValue<Vector4> SwizzleMask1<Vector4, T>::operator=(float x)
{
RR_DEBUG_INFO_UPDATE_LOC();
return *parent = Insert(*parent, Float(x), T & 0x3);
}
template<class Vector4, int T>
RValue<Vector4> SwizzleMask1<Vector4, T>::operator=(RValue<Vector4> rhs)
{
RR_DEBUG_INFO_UPDATE_LOC();
return Mask(*parent, Float4(rhs), T);
}
template<class Vector4, int T>
RValue<Vector4> SwizzleMask1<Vector4, T>::operator=(RValue<typename Scalar<Vector4>::Type> rhs) // FIXME: Call a non-template function
{
RR_DEBUG_INFO_UPDATE_LOC();
return *parent = Insert(*parent, rhs, T & 0x3);
}
template<class Vector4, int T>
SwizzleMask2<Vector4, T>::operator RValue<Vector4>() const
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *vector = parent->loadValue();
return Swizzle(RValue<Float4>(vector), T);
}
template<class Vector4, int T>
RValue<Vector4> SwizzleMask2<Vector4, T>::operator=(RValue<Vector4> rhs)
{
RR_DEBUG_INFO_UPDATE_LOC();
return Mask(*parent, Float4(rhs), T);
}
template<int T>
Float::Float(const SwizzleMask1<Float4, T> &rhs)
{
*this = rhs.operator RValue<Float>();
}
template<int T>
RValue<Float> Float::operator=(const SwizzleMask1<Float4, T> &rhs)
{
return *this = rhs.operator RValue<Float>();
}
template<int T>
Float4::Float4(const SwizzleMask1<Float4, T> &rhs) : XYZW(this)
{
*this = rhs.operator RValue<Float4>();
}
template<int T>
Float4::Float4(const Swizzle4<Float4, T> &rhs) : XYZW(this)
{
*this = rhs.operator RValue<Float4>();
}
template<int X, int Y>
Float4::Float4(const Swizzle2<Float4, X> &x, const Swizzle2<Float4, Y> &y) : XYZW(this)
{
RR_DEBUG_INFO_UPDATE_LOC();
*this = ShuffleLowHigh(*x.parent, *y.parent, (X & 0xF) | (Y & 0xF) << 4);
}
template<int X, int Y>
Float4::Float4(const SwizzleMask2<Float4, X> &x, const Swizzle2<Float4, Y> &y) : XYZW(this)
{
RR_DEBUG_INFO_UPDATE_LOC();
*this = ShuffleLowHigh(*x.parent, *y.parent, (X & 0xF) | (Y & 0xF) << 4);
}
template<int X, int Y>
Float4::Float4(const Swizzle2<Float4, X> &x, const SwizzleMask2<Float4, Y> &y) : XYZW(this)
{
RR_DEBUG_INFO_UPDATE_LOC();
*this = ShuffleLowHigh(*x.parent, *y.parent, (X & 0xF) | (Y & 0xF) << 4);
}
template<int X, int Y>
Float4::Float4(const SwizzleMask2<Float4, X> &x, const SwizzleMask2<Float4, Y> &y) : XYZW(this)
{
RR_DEBUG_INFO_UPDATE_LOC();
*this = ShuffleLowHigh(*x.parent, *y.parent, (X & 0xF) | (Y & 0xF) << 4);
}
template<int T>
RValue<Float4> Float4::operator=(const SwizzleMask1<Float4, T> &rhs)
{
return *this = rhs.operator RValue<Float4>();
}
template<int T>
RValue<Float4> Float4::operator=(const Swizzle4<Float4, T> &rhs)
{
return *this = rhs.operator RValue<Float4>();
}
// Returns a reactor pointer to the fixed-address ptr.
RValue<Pointer<Byte>> ConstantPointer(void const * ptr);
// Returns a reactor pointer to an immutable copy of the data of size bytes.
RValue<Pointer<Byte>> ConstantData(void const * data, size_t size);
template<class T>
Pointer<T>::Pointer(Argument<Pointer<T>> argument) : alignment(1)
{
LValue<Pointer<T>>::materialize(); // FIXME(b/129757459)
LValue<Pointer<T>>::storeValue(argument.value);
}
template<class T>
Pointer<T>::Pointer() : alignment(1) {}
template<class T>
Pointer<T>::Pointer(RValue<Pointer<T>> rhs) : alignment(1)
{
LValue<Pointer<T>>::storeValue(rhs.value);
}
template<class T>
Pointer<T>::Pointer(const Pointer<T> &rhs) : alignment(rhs.alignment)
{
Value *value = rhs.loadValue();
LValue<Pointer<T>>::storeValue(value);
}
template<class T>
Pointer<T>::Pointer(const Reference<Pointer<T>> &rhs) : alignment(rhs.getAlignment())
{
Value *value = rhs.loadValue();
LValue<Pointer<T>>::storeValue(value);
}
template<class T>
Pointer<T>::Pointer(std::nullptr_t) : alignment(1)
{
Value *value = Nucleus::createNullPointer(T::getType());
LValue<Pointer<T>>::storeValue(value);
}
template<class T>
RValue<Pointer<T>> Pointer<T>::operator=(RValue<Pointer<T>> rhs)
{
LValue<Pointer<T>>::storeValue(rhs.value);
return rhs;
}
template<class T>
RValue<Pointer<T>> Pointer<T>::operator=(const Pointer<T> &rhs)
{
Value *value = rhs.loadValue();
LValue<Pointer<T>>::storeValue(value);
return RValue<Pointer<T>>(value);
}
template<class T>
RValue<Pointer<T>> Pointer<T>::operator=(const Reference<Pointer<T>> &rhs)
{
Value *value = rhs.loadValue();
LValue<Pointer<T>>::storeValue(value);
return RValue<Pointer<T>>(value);
}
template<class T>
RValue<Pointer<T>> Pointer<T>::operator=(std::nullptr_t)
{
Value *value = Nucleus::createNullPointer(T::getType());
LValue<Pointer<T>>::storeValue(value);
return RValue<Pointer<T>>(this);
}
template<class T>
Reference<T> Pointer<T>::operator*()
{
return Reference<T>(LValue<Pointer<T>>::loadValue(), alignment);
}
template<class T>
Reference<T> Pointer<T>::operator[](int index)
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *element = Nucleus::createGEP(LValue<Pointer<T>>::loadValue(), T::getType(), Nucleus::createConstantInt(index), false);
return Reference<T>(element, alignment);
}
template<class T>
Reference<T> Pointer<T>::operator[](unsigned int index)
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *element = Nucleus::createGEP(LValue<Pointer<T>>::loadValue(), T::getType(), Nucleus::createConstantInt(index), true);
return Reference<T>(element, alignment);
}
template<class T>
Reference<T> Pointer<T>::operator[](RValue<Int> index)
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *element = Nucleus::createGEP(LValue<Pointer<T>>::loadValue(), T::getType(), index.value, false);
return Reference<T>(element, alignment);
}
template<class T>
Reference<T> Pointer<T>::operator[](RValue<UInt> index)
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *element = Nucleus::createGEP(LValue<Pointer<T>>::loadValue(), T::getType(), index.value, true);
return Reference<T>(element, alignment);
}
template<class T>
Type *Pointer<T>::getType()
{
return Nucleus::getPointerType(T::getType());
}
template<class T, int S>
Array<T, S>::Array(int size) : LValue<T>(size)
{
}
template<class T, int S>
Reference<T> Array<T, S>::operator[](int index)
{
assert(index < this->arraySize);
Value *element = LValue<T>::getElementPointer(Nucleus::createConstantInt(index), false);
return Reference<T>(element);
}
template<class T, int S>
Reference<T> Array<T, S>::operator[](unsigned int index)
{
assert(index < static_cast<unsigned int>(this->arraySize));
Value *element = LValue<T>::getElementPointer(Nucleus::createConstantInt(index), true);
return Reference<T>(element);
}
template<class T, int S>
Reference<T> Array<T, S>::operator[](RValue<Int> index)
{
Value *element = LValue<T>::getElementPointer(index.value, false);
return Reference<T>(element);
}
template<class T, int S>
Reference<T> Array<T, S>::operator[](RValue<UInt> index)
{
Value *element = LValue<T>::getElementPointer(index.value, true);
return Reference<T>(element);
}
// template<class T>
// RValue<Array<T>> operator++(Array<T> &val, int)
// {
// // FIXME: Requires storing the address of the array
// }
// template<class T>
// const Array<T> &operator++(Array<T> &val)
// {
// // FIXME: Requires storing the address of the array
// }
// template<class T>
// RValue<Array<T>> operator--(Array<T> &val, int)
// {
// // FIXME: Requires storing the address of the array
// }
// template<class T>
// const Array<T> &operator--(Array<T> &val)
// {
// // FIXME: Requires storing the address of the array
// }
template<class T>
RValue<T> IfThenElse(RValue<Bool> condition, RValue<T> ifTrue, RValue<T> ifFalse)
{
RR_DEBUG_INFO_UPDATE_LOC();
return RValue<T>(Nucleus::createSelect(condition.value, ifTrue.value, ifFalse.value));
}
template<class T>
RValue<T> IfThenElse(RValue<Bool> condition, const T &ifTrue, RValue<T> ifFalse)
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *trueValue = ifTrue.loadValue();
return RValue<T>(Nucleus::createSelect(condition.value, trueValue, ifFalse.value));
}
template<class T>
RValue<T> IfThenElse(RValue<Bool> condition, RValue<T> ifTrue, const T &ifFalse)
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *falseValue = ifFalse.loadValue();
return RValue<T>(Nucleus::createSelect(condition.value, ifTrue.value, falseValue));
}
template<class T>
RValue<T> IfThenElse(RValue<Bool> condition, const T &ifTrue, const T &ifFalse)
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *trueValue = ifTrue.loadValue();
Value *falseValue = ifFalse.loadValue();
return RValue<T>(Nucleus::createSelect(condition.value, trueValue, falseValue));
}
template<typename Return, typename... Arguments>
Function<Return(Arguments...)>::Function()
{
core = new Nucleus();
Type *types[] = {Arguments::getType()...};
for(Type *type : types)
{
if(type != Void::getType())
{
arguments.push_back(type);
}
}
Nucleus::createFunction(Return::getType(), arguments);
}
template<typename Return, typename... Arguments>
Function<Return(Arguments...)>::~Function()
{
delete core;
}
template<typename Return, typename... Arguments>
std::shared_ptr<Routine> Function<Return(Arguments...)>::operator()(const char *name, ...)
{
char fullName[1024 + 1];
va_list vararg;
va_start(vararg, name);
vsnprintf(fullName, 1024, name, vararg);
va_end(vararg);
return core->acquireRoutine(fullName, Config::Edit::None);
}
template<typename Return, typename... Arguments>
std::shared_ptr<Routine> Function<Return(Arguments...)>::operator()(const Config::Edit &cfg, const char *name, ...)
{
char fullName[1024 + 1];
va_list vararg;
va_start(vararg, name);
vsnprintf(fullName, 1024, name, vararg);
va_end(vararg);
return core->acquireRoutine(fullName, cfg);
}
template<class T, class S>
RValue<T> ReinterpretCast(RValue<S> val)
{
RR_DEBUG_INFO_UPDATE_LOC();
return RValue<T>(Nucleus::createBitCast(val.value, T::getType()));
}
template<class T, class S>
RValue<T> ReinterpretCast(const LValue<S> &var)
{
RR_DEBUG_INFO_UPDATE_LOC();
Value *val = var.loadValue();
return RValue<T>(Nucleus::createBitCast(val, T::getType()));
}
template<class T, class S>
RValue<T> ReinterpretCast(const Reference<S> &var)
{
return ReinterpretCast<T>(RValue<S>(var));
}
template<class T>
RValue<T> As(Value *val)
{
RR_DEBUG_INFO_UPDATE_LOC();
return RValue<T>(Nucleus::createBitCast(val, T::getType()));
}
template<class T, class S>
RValue<T> As(RValue<S> val)
{
return ReinterpretCast<T>(val);
}
template<class T, class S>
RValue<T> As(const LValue<S> &var)
{
return ReinterpretCast<T>(var);
}
template<class T, class S>
RValue<T> As(const Reference<S> &val)
{
return ReinterpretCast<T>(val);
}
// Calls the function pointer fptr with the given arguments, return type
// and parameter types. Returns the call's return value if the function has
// a non-void return type.
Value* Call(RValue<Pointer<Byte>> fptr, Type* retTy, std::initializer_list<Value*> args, std::initializer_list<Type*> paramTys);
template <typename F>
class CallHelper {};
template<typename Return, typename ... Arguments>
class CallHelper<Return(Arguments...)>
{
public:
using RReturn = CToReactorT<Return>;
static inline RReturn Call(Return(fptr)(Arguments...), CToReactorT<Arguments>... args)
{
return RValue<RReturn>(rr::Call(
ConstantPointer(reinterpret_cast<void*>(fptr)),
RReturn::getType(),
{ ValueOf(args) ... },
{ CToReactorT<Arguments>::getType() ... }));
}
static inline RReturn Call(Pointer<Byte> fptr, CToReactorT<Arguments>... args)
{
return RValue<RReturn>(rr::Call(
fptr,
RReturn::getType(),
{ ValueOf(args) ... },
{ CToReactorT<Arguments>::getType() ... }));
}
};
template<typename ... Arguments>
class CallHelper<void(Arguments...)>
{
public:
static inline void Call(void(fptr)(Arguments...), CToReactorT<Arguments>... args)
{
rr::Call(ConstantPointer(reinterpret_cast<void*>(fptr)),
Void::getType(),
{ ValueOf(args) ... },
{ CToReactorT<Arguments>::getType() ... });
}
static inline void Call(Pointer<Byte> fptr, CToReactorT<Arguments>... args)
{
rr::Call(fptr,
Void::getType(),
{ ValueOf(args) ... },
{ CToReactorT<Arguments>::getType() ... });
}
};
template <typename T>
inline ReactorTypeT<T> CastToReactor(const T& v) { return ReactorType<T>::cast(v); }
// Calls the static function pointer fptr with the given arguments args.
template<typename Return, typename ... CArgs, typename ... RArgs>
inline CToReactorT<Return> Call(Return(fptr)(CArgs...), RArgs&&... args)
{
return CallHelper<Return(CArgs...)>::Call(fptr, CastToReactor(std::forward<RArgs>(args))...);
}
// Calls the static function pointer fptr with the given arguments args.
// Overload for calling functions with void return type.
template<typename ... CArgs, typename ... RArgs>
inline void Call(void(fptr)(CArgs...), RArgs&&... args)
{
CallHelper<void(CArgs...)>::Call(fptr, CastToReactor(std::forward<RArgs>(args))...);
}
// Calls the member function pointer fptr with the given arguments args.
// object can be a Class*, or a Pointer<Byte>.
template<typename Return, typename Class, typename C, typename ... CArgs, typename ... RArgs>
inline CToReactorT<Return> Call(Return(Class::* fptr)(CArgs...), C&& object, RArgs&&... args)
{
using Helper = CallHelper<Return(Class*, void*, CArgs...)>;
using fptrTy = decltype(fptr);
struct Static {
static inline Return Call(Class* object, void* fptrptr, CArgs... args)
{
auto fptr = *reinterpret_cast<fptrTy*>(fptrptr);
return (object->*fptr)(std::forward<CArgs>(args)...);
}
};
return Helper::Call(&Static::Call,
CastToReactor(object),
ConstantData(&fptr, sizeof(fptr)),
CastToReactor(std::forward<RArgs>(args))...);
}
// Calls the member function pointer fptr with the given arguments args.
// Overload for calling functions with void return type.
// object can be a Class*, or a Pointer<Byte>.
template<typename Class, typename C, typename ... CArgs, typename ... RArgs>
inline void Call(void(Class::* fptr)(CArgs...), C&& object, RArgs&&... args)
{
using Helper = CallHelper<void(Class*, void*, CArgs...)>;
using fptrTy = decltype(fptr);
struct Static {
static inline void Call(Class* object, void* fptrptr, CArgs... args)
{
auto fptr = *reinterpret_cast<fptrTy*>(fptrptr);
(object->*fptr)(std::forward<CArgs>(args)...);
}
};
Helper::Call(&Static::Call,
CastToReactor(object),
ConstantData(&fptr, sizeof(fptr)),
CastToReactor(std::forward<RArgs>(args))...);
}
// Calls the Reactor function pointer fptr with the signature
// FUNCTION_SIGNATURE and arguments.
template<typename FUNCTION_SIGNATURE, typename ... RArgs>
inline void Call(Pointer<Byte> fptr, RArgs&& ... args)
{
CallHelper<FUNCTION_SIGNATURE>::Call(fptr, CastToReactor(std::forward<RArgs>(args))...);
}
// Breakpoint emits an instruction that will cause the application to trap.
// This can be used to stop an attached debugger at the given call.
void Breakpoint();
class ForData
{
public:
ForData(bool init) : loopOnce(init)
{
}
operator bool()
{
return loopOnce;
}
bool operator=(bool value)
{
return loopOnce = value;
}
bool setup()
{
RR_DEBUG_INFO_FLUSH();
if(Nucleus::getInsertBlock() != endBB)
{
testBB = Nucleus::createBasicBlock();
Nucleus::createBr(testBB);
Nucleus::setInsertBlock(testBB);
return true;
}
return false;
}
bool test(RValue<Bool> cmp)
{
BasicBlock *bodyBB = Nucleus::createBasicBlock();
endBB = Nucleus::createBasicBlock();
Nucleus::createCondBr(cmp.value, bodyBB, endBB);
Nucleus::setInsertBlock(bodyBB);
return true;
}
void end()
{
Nucleus::createBr(testBB);
Nucleus::setInsertBlock(endBB);
}
private:
BasicBlock *testBB = nullptr;
BasicBlock *endBB = nullptr;
bool loopOnce = true;
};
class IfElseData
{
public:
IfElseData(RValue<Bool> cmp) : iteration(0)
{
condition = cmp.value;
beginBB = Nucleus::getInsertBlock();
trueBB = Nucleus::createBasicBlock();
falseBB = nullptr;
endBB = Nucleus::createBasicBlock();
Nucleus::setInsertBlock(trueBB);
}
~IfElseData()
{
Nucleus::createBr(endBB);
Nucleus::setInsertBlock(beginBB);
Nucleus::createCondBr(condition, trueBB, falseBB ? falseBB : endBB);
Nucleus::setInsertBlock(endBB);
}
operator int()
{
return iteration;
}
IfElseData &operator++()
{
++iteration;
return *this;
}
void elseClause()
{
Nucleus::createBr(endBB);
falseBB = Nucleus::createBasicBlock();
Nucleus::setInsertBlock(falseBB);
}
private:
Value *condition;
BasicBlock *beginBB;
BasicBlock *trueBB;
BasicBlock *falseBB;
BasicBlock *endBB;
int iteration;
};
#define For(init, cond, inc) \
for(ForData for__ = true; for__; for__ = false) \
for(init; for__.setup() && for__.test(cond); inc, for__.end())
#define While(cond) For((void)0, cond, (void)0)
#define Do \
{ \
BasicBlock *body__ = Nucleus::createBasicBlock(); \
Nucleus::createBr(body__); \
Nucleus::setInsertBlock(body__);
#define Until(cond) \
BasicBlock *end__ = Nucleus::createBasicBlock(); \
Nucleus::createCondBr((cond).value, end__, body__); \
Nucleus::setInsertBlock(end__); \
}
enum {IF_BLOCK__, ELSE_CLAUSE__, ELSE_BLOCK__, IFELSE_NUM__};
#define If(cond) \
for(IfElseData ifElse__(cond); ifElse__ < IFELSE_NUM__; ++ifElse__) \
if(ifElse__ == IF_BLOCK__)
#define Else \
else if(ifElse__ == ELSE_CLAUSE__) \
{ \
ifElse__.elseClause(); \
} \
else // ELSE_BLOCK__
}
#include "Traits.inl"
#endif // rr_Reactor_hpp