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construct/include/ircd/simd/lzcnt.h

197 lines
4 KiB
C++

// The Construct
//
// Copyright (C) The Construct Developers, Authors & Contributors
// Copyright (C) 2016-2020 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#pragma once
#define HAVE_IRCD_SIMD_LZCNT_H
// This suite is for counting leading zero bits of a word T. It is not for
// per-lane clz'ing; for this reason all overloads are explicitly instantiated
// and optimal conversions are performed.
namespace ircd::simd
{
template<class T> uint _lzcnt(const T) noexcept;
template<class T> uint lzcnt(const T) noexcept = delete;
template<> uint lzcnt(const u512x1) noexcept;
template<> uint lzcnt(const u256x1) noexcept;
template<> uint lzcnt(const u128x1) noexcept;
template<> uint lzcnt(const u64x8) noexcept;
template<> uint lzcnt(const u64x4) noexcept;
template<> uint lzcnt(const u64x2) noexcept;
template<> uint lzcnt(const u32x16) noexcept;
template<> uint lzcnt(const u32x8) noexcept;
template<> uint lzcnt(const u32x4) noexcept;
template<> uint lzcnt(const u16x32) noexcept;
template<> uint lzcnt(const u16x16) noexcept;
template<> uint lzcnt(const u16x8) noexcept;
template<> uint lzcnt(const u8x64) noexcept;
template<> uint lzcnt(const u8x32) noexcept;
template<> uint lzcnt(const u8x16) noexcept;
}
/// Convenience template. Unfortunately this drops to scalar until specific
/// targets and specializations are created. The behavior can differ among
/// platforms; we make use of lzcnt if available otherwise we account for bsr.
template<class T>
[[gnu::always_inline]]
inline uint
ircd::simd::_lzcnt(const T a)
noexcept
{
uint ret(0);
for(uint i(0); i < lanes<T>(); ++i)
{
const auto mask
{
boolmask(uint(ret == sizeof_lane<T>() * 8 * i))
};
if constexpr(sizeof_lane<T>() <= sizeof(u8))
ret += mask & __builtin_clz((uint(a[i]) << 24) | 0x00ffffff);
else if constexpr(sizeof_lane<T>() <= sizeof(u16))
ret += mask & __builtin_clz((uint(__builtin_bswap16(a[i])) << 16) | 0x0000ffffU);
else if constexpr(sizeof_lane<T>() <= sizeof(u32))
ret += mask &
(
(boolmask(uint(a[i] != 0)) & __builtin_clz(__builtin_bswap32(a[i])))
| (boolmask(uint(a[i] == 0)) & 32U)
);
else if constexpr(sizeof_lane<T>() <= sizeof(u64))
ret += mask &
(
(boolmask(uint(a[i] != 0)) & __builtin_clzl(__builtin_bswap64(a[i])))
| (boolmask(uint(a[i] == 0)) & 64U)
);
}
return ret;
}
template<>
inline uint
ircd::simd::lzcnt(const u512x1 a)
noexcept
{
return _lzcnt(u64x8(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u256x1 a)
noexcept
{
return _lzcnt(u64x4(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u128x1 a)
noexcept
{
return _lzcnt(u64x2(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u64x8 a)
noexcept
{
return _lzcnt(u64x8(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u64x4 a)
noexcept
{
return _lzcnt(u64x4(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u64x2 a)
noexcept
{
return _lzcnt(u64x2(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u32x16 a)
noexcept
{
return _lzcnt(u64x8(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u32x8 a)
noexcept
{
return _lzcnt(u64x4(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u32x4 a)
noexcept
{
return _lzcnt(u64x2(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u16x32 a)
noexcept
{
return _lzcnt(u64x8(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u16x16 a)
noexcept
{
return _lzcnt(u64x4(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u16x8 a)
noexcept
{
return _lzcnt(u64x2(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u8x64 a)
noexcept
{
return _lzcnt(u64x8(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u8x32 a)
noexcept
{
return _lzcnt(u64x4(a));
}
template<>
inline uint
ircd::simd::lzcnt(const u8x16 a)
noexcept
{
return _lzcnt(u64x2(a));
}