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cobalt / cobalt / 72bde07ae3f88e8fd742a603ece725b122de47f5 / . / src / third_party / angle / src / common / bitset_utils.h
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//
// Copyright 2015 The ANGLE Project Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
//
// bitset_utils:
// Bitset-related helper classes, such as a fast iterator to scan for set bits.
//
#ifndef COMMON_BITSETITERATOR_H_
#define COMMON_BITSETITERATOR_H_
#include <stdint.h>
#include <bitset>
#include "common/angleutils.h"
#include "common/debug.h"
#include "common/mathutil.h"
#include "common/platform.h"
namespace angle
{
template <typename BitsT, typename ParamT>
constexpr static BitsT Bit(ParamT x)
{
return (static_cast<BitsT>(1) << static_cast<size_t>(x));
}
template <size_t N, typename BitsT, typename ParamT = std::size_t>
class BitSetT final
{
public:
class Reference final
{
public:
~Reference() {}
Reference &operator=(bool x)
{
mParent->set(mBit, x);
return *this;
}
explicit operator bool() const { return mParent->test(mBit); }
private:
friend class BitSetT;
Reference(BitSetT *parent, ParamT bit) : mParent(parent), mBit(bit) {}
BitSetT *mParent;
ParamT mBit;
};
class Iterator final
{
public:
Iterator(const BitSetT &bits);
Iterator &operator++();
bool operator==(const Iterator &other) const;
bool operator!=(const Iterator &other) const;
ParamT operator*() const;
// These helper functions allow mutating an iterator in-flight.
// They only operate on later bits to ensure we don't iterate the same bit twice.
void resetLaterBit(std::size_t index)
{
ASSERT(index > mCurrentBit);
mBitsCopy.reset(index);
}
void setLaterBit(std::size_t index)
{
ASSERT(index > mCurrentBit);
mBitsCopy.set(index);
}
private:
std::size_t getNextBit();
BitSetT mBitsCopy;
std::size_t mCurrentBit;
};
BitSetT();
constexpr explicit BitSetT(BitsT value);
BitSetT(const BitSetT &other);
BitSetT &operator=(const BitSetT &other);
bool operator==(const BitSetT &other) const;
bool operator!=(const BitSetT &other) const;
constexpr bool operator[](ParamT pos) const;
Reference operator[](ParamT pos) { return Reference(this, pos); }
bool test(ParamT pos) const;
bool all() const;
bool any() const;
bool none() const;
std::size_t count() const;
constexpr std::size_t size() const { return N; }
BitSetT &operator&=(const BitSetT &other);
BitSetT &operator|=(const BitSetT &other);
BitSetT &operator^=(const BitSetT &other);
BitSetT operator~() const;
BitSetT &operator&=(BitsT value);
BitSetT &operator|=(BitsT value);
BitSetT &operator^=(BitsT value);
BitSetT operator<<(std::size_t pos) const;
BitSetT &operator<<=(std::size_t pos);
BitSetT operator>>(std::size_t pos) const;
BitSetT &operator>>=(std::size_t pos);
BitSetT &set();
BitSetT &set(ParamT pos, bool value = true);
BitSetT &reset();
BitSetT &reset(ParamT pos);
BitSetT &flip();
BitSetT &flip(ParamT pos);
unsigned long to_ulong() const { return static_cast<unsigned long>(mBits); }
BitsT bits() const { return mBits; }
Iterator begin() const { return Iterator(*this); }
Iterator end() const { return Iterator(BitSetT()); }
private:
// Produces a mask of ones up to the "x"th bit.
constexpr static BitsT Mask(std::size_t x)
{
return ((Bit<BitsT>(static_cast<ParamT>(x - 1)) - 1) << 1) + 1;
}
BitsT mBits;
};
template <size_t N>
class IterableBitSet : public std::bitset<N>
{
public:
IterableBitSet() {}
IterableBitSet(const std::bitset<N> &implicitBitSet) : std::bitset<N>(implicitBitSet) {}
class Iterator final
{
public:
Iterator(const std::bitset<N> &bits);
Iterator &operator++();
bool operator==(const Iterator &other) const;
bool operator!=(const Iterator &other) const;
unsigned long operator*() const { return mCurrentBit; }
// These helper functions allow mutating an iterator in-flight.
// They only operate on later bits to ensure we don't iterate the same bit twice.
void resetLaterBit(std::size_t index)
{
ASSERT(index > mCurrentBit);
mBits.reset(index - mOffset);
}
void setLaterBit(std::size_t index)
{
ASSERT(index > mCurrentBit);
mBits.set(index - mOffset);
}
private:
unsigned long getNextBit();
static constexpr size_t BitsPerWord = sizeof(uint32_t) * 8;
std::bitset<N> mBits;
unsigned long mCurrentBit;
unsigned long mOffset;
};
Iterator begin() const { return Iterator(*this); }
Iterator end() const { return Iterator(std::bitset<N>(0)); }
};
template <size_t N>
IterableBitSet<N>::Iterator::Iterator(const std::bitset<N> &bitset)
: mBits(bitset), mCurrentBit(0), mOffset(0)
{
if (mBits.any())
{
mCurrentBit = getNextBit();
}
else
{
mOffset = static_cast<unsigned long>(rx::roundUp(N, BitsPerWord));
}
}
template <size_t N>
ANGLE_INLINE typename IterableBitSet<N>::Iterator &IterableBitSet<N>::Iterator::operator++()
{
ASSERT(mBits.any());
mBits.set(mCurrentBit - mOffset, 0);
mCurrentBit = getNextBit();
return *this;
}
template <size_t N>
bool IterableBitSet<N>::Iterator::operator==(const Iterator &other) const
{
return mOffset == other.mOffset && mBits == other.mBits;
}
template <size_t N>
bool IterableBitSet<N>::Iterator::operator!=(const Iterator &other) const
{
return !(*this == other);
}
template <size_t N>
unsigned long IterableBitSet<N>::Iterator::getNextBit()
{
// TODO(jmadill): Use 64-bit scan when possible.
static constexpr std::bitset<N> wordMask(std::numeric_limits<uint32_t>::max());
while (mOffset < N)
{
uint32_t wordBits = static_cast<uint32_t>((mBits & wordMask).to_ulong());
if (wordBits != 0)
{
return gl::ScanForward(wordBits) + mOffset;
}
mBits >>= BitsPerWord;
mOffset += BitsPerWord;
}
return 0;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT>::BitSetT() : mBits(0)
{
static_assert(N > 0, "Bitset type cannot support zero bits.");
static_assert(N <= sizeof(BitsT) * 8, "Bitset type cannot support a size this large.");
}
template <size_t N, typename BitsT, typename ParamT>
constexpr BitSetT<N, BitsT, ParamT>::BitSetT(BitsT value) : mBits(value & Mask(N))
{}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT>::BitSetT(const BitSetT &other) : mBits(other.mBits)
{}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::operator=(const BitSetT &other)
{
mBits = other.mBits;
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
bool BitSetT<N, BitsT, ParamT>::operator==(const BitSetT &other) const
{
return mBits == other.mBits;
}
template <size_t N, typename BitsT, typename ParamT>
bool BitSetT<N, BitsT, ParamT>::operator!=(const BitSetT &other) const
{
return mBits != other.mBits;
}
template <size_t N, typename BitsT, typename ParamT>
constexpr bool BitSetT<N, BitsT, ParamT>::operator[](ParamT pos) const
{
return test(pos);
}
template <size_t N, typename BitsT, typename ParamT>
bool BitSetT<N, BitsT, ParamT>::test(ParamT pos) const
{
return (mBits & Bit<BitsT>(pos)) != 0;
}
template <size_t N, typename BitsT, typename ParamT>
bool BitSetT<N, BitsT, ParamT>::all() const
{
ASSERT(mBits == (mBits & Mask(N)));
return mBits == Mask(N);
}
template <size_t N, typename BitsT, typename ParamT>
bool BitSetT<N, BitsT, ParamT>::any() const
{
ASSERT(mBits == (mBits & Mask(N)));
return (mBits != 0);
}
template <size_t N, typename BitsT, typename ParamT>
bool BitSetT<N, BitsT, ParamT>::none() const
{
ASSERT(mBits == (mBits & Mask(N)));
return (mBits == 0);
}
template <size_t N, typename BitsT, typename ParamT>
std::size_t BitSetT<N, BitsT, ParamT>::count() const
{
return gl::BitCount(mBits);
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::operator&=(const BitSetT &other)
{
mBits &= other.mBits;
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::operator|=(const BitSetT &other)
{
mBits |= other.mBits;
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::operator^=(const BitSetT &other)
{
mBits = mBits ^ other.mBits;
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> BitSetT<N, BitsT, ParamT>::operator~() const
{
return BitSetT<N, BitsT, ParamT>(~mBits & Mask(N));
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::operator&=(BitsT value)
{
mBits &= value;
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::operator|=(BitsT value)
{
mBits |= value & Mask(N);
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::operator^=(BitsT value)
{
mBits ^= value & Mask(N);
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> BitSetT<N, BitsT, ParamT>::operator<<(std::size_t pos) const
{
return BitSetT<N, BitsT, ParamT>((mBits << pos) & Mask(N));
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::operator<<=(std::size_t pos)
{
mBits = (mBits << pos & Mask(N));
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> BitSetT<N, BitsT, ParamT>::operator>>(std::size_t pos) const
{
return BitSetT<N, BitsT, ParamT>(mBits >> pos);
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::operator>>=(std::size_t pos)
{
mBits = ((mBits >> pos) & Mask(N));
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::set()
{
ASSERT(mBits == (mBits & Mask(N)));
mBits = Mask(N);
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::set(ParamT pos, bool value)
{
ASSERT(mBits == (mBits & Mask(N)));
if (value)
{
mBits |= Bit<BitsT>(pos) & Mask(N);
}
else
{
reset(pos);
}
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::reset()
{
ASSERT(mBits == (mBits & Mask(N)));
mBits = 0;
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::reset(ParamT pos)
{
ASSERT(mBits == (mBits & Mask(N)));
mBits &= ~Bit<BitsT>(pos);
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::flip()
{
ASSERT(mBits == (mBits & Mask(N)));
mBits ^= Mask(N);
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT> &BitSetT<N, BitsT, ParamT>::flip(ParamT pos)
{
ASSERT(mBits == (mBits & Mask(N)));
mBits ^= Bit<BitsT>(pos) & Mask(N);
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
BitSetT<N, BitsT, ParamT>::Iterator::Iterator(const BitSetT &bits) : mBitsCopy(bits), mCurrentBit(0)
{
if (bits.any())
{
mCurrentBit = getNextBit();
}
}
template <size_t N, typename BitsT, typename ParamT>
ANGLE_INLINE typename BitSetT<N, BitsT, ParamT>::Iterator &BitSetT<N, BitsT, ParamT>::Iterator::
operator++()
{
ASSERT(mBitsCopy.any());
mBitsCopy.reset(static_cast<ParamT>(mCurrentBit));
mCurrentBit = getNextBit();
return *this;
}
template <size_t N, typename BitsT, typename ParamT>
bool BitSetT<N, BitsT, ParamT>::Iterator::operator==(const Iterator &other) const
{
return mBitsCopy == other.mBitsCopy;
}
template <size_t N, typename BitsT, typename ParamT>
bool BitSetT<N, BitsT, ParamT>::Iterator::operator!=(const Iterator &other) const
{
return !(*this == other);
}
template <size_t N, typename BitsT, typename ParamT>
ParamT BitSetT<N, BitsT, ParamT>::Iterator::operator*() const
{
return static_cast<ParamT>(mCurrentBit);
}
template <size_t N, typename BitsT, typename ParamT>
std::size_t BitSetT<N, BitsT, ParamT>::Iterator::getNextBit()
{
if (mBitsCopy.none())
{
return 0;
}
return gl::ScanForward(mBitsCopy.mBits);
}
template <size_t N>
using BitSet32 = BitSetT<N, uint32_t>;
// ScanForward for 64-bits requires a 64-bit implementation.
#if defined(ANGLE_IS_64_BIT_CPU)
template <size_t N>
using BitSet64 = BitSetT<N, uint64_t>;
#endif // defined(ANGLE_IS_64_BIT_CPU)
namespace priv
{
template <size_t N, typename T>
using EnableIfBitsFit = typename std::enable_if<N <= sizeof(T) * 8>::type;
template <size_t N, typename Enable = void>
struct GetBitSet
{
using Type = IterableBitSet<N>;
};
// Prefer 64-bit bitsets on 64-bit CPUs. They seem faster than 32-bit.
#if defined(ANGLE_IS_64_BIT_CPU)
template <size_t N>
struct GetBitSet<N, EnableIfBitsFit<N, uint64_t>>
{
using Type = BitSet64<N>;
};
#else
template <size_t N>
struct GetBitSet<N, EnableIfBitsFit<N, uint32_t>>
{
using Type = BitSet32<N>;
};
#endif // defined(ANGLE_IS_64_BIT_CPU)
} // namespace priv
template <size_t N>
using BitSet = typename priv::GetBitSet<N>::Type;
} // namespace angle
template <size_t N, typename BitsT, typename ParamT>
inline angle::BitSetT<N, BitsT, ParamT> operator&(const angle::BitSetT<N, BitsT, ParamT> &lhs,
const angle::BitSetT<N, BitsT, ParamT> &rhs)
{
angle::BitSetT<N, BitsT, ParamT> result(lhs);
result &= rhs.bits();
return result;
}
template <size_t N, typename BitsT, typename ParamT>
inline angle::BitSetT<N, BitsT, ParamT> operator|(const angle::BitSetT<N, BitsT, ParamT> &lhs,
const angle::BitSetT<N, BitsT, ParamT> &rhs)
{
angle::BitSetT<N, BitsT, ParamT> result(lhs);
result |= rhs.bits();
return result;
}
template <size_t N, typename BitsT, typename ParamT>
inline angle::BitSetT<N, BitsT, ParamT> operator^(const angle::BitSetT<N, BitsT, ParamT> &lhs,
const angle::BitSetT<N, BitsT, ParamT> &rhs)
{
angle::BitSetT<N, BitsT, ParamT> result(lhs);
result ^= rhs.bits();
return result;
}
#endif // COMMON_BITSETITERATOR_H_