mirror of
https://github.com/matrix-construct/construct
synced 2024-11-30 02:32:43 +01:00
221 lines
5.8 KiB
C++
221 lines
5.8 KiB
C++
// The Construct
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//
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// Copyright (C) The Construct Developers, Authors & Contributors
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// Copyright (C) 2016-2020 Jason Volk <jason@zemos.net>
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//
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// Permission to use, copy, modify, and/or distribute this software for any
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// purpose with or without fee is hereby granted, provided that the above
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// copyright notice and this permission notice is present in all copies. The
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// full license for this software is available in the LICENSE file.
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#pragma once
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#define HAVE_IRCD_SIMD_STREAM_H
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namespace ircd::simd
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{
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/// Transform block_t by pseudo-reference. The closure has an opportunity
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/// to modify the block while it is being streamed from the source to the
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/// destination. The mask indicates which elements of the block are valid
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/// if the input is smaller than the block size. This function returns
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/// a pair of integers which advance the output and input positions of the
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/// streams for the next iteration.
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template<class block_t>
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using transform_prototype = u64x2 (block_t &, block_t mask);
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template<class block_t_u,
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class block_t,
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class lambda>
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u64x2 stream(const char *, const u64x2, lambda&&) noexcept;
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template<class block_t_u,
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class block_t,
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class lambda>
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u64x2 stream(char *, const char *, const u64x2, lambda&&) noexcept;
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}
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/// Streaming transform
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///
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/// This template performs the loop boiler-plate for the developer who can
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/// simply supply a conforming closure. Characteristics:
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///
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/// * byte-aligned (unaligned): the input and output buffers do not have to
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/// be aligned and can be any size.
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///
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/// * full-duplex: the operation involves both input and output and there are
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/// separate pointers for progress across the input and output buffers which
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/// are incremented independently.
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///
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/// * variable-stride: progress for each iteration of the loop across the input
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/// and output buffers is not fixed; the transform function may advance either
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/// pointer zero to sizeof(block_t) bytes each iteration. Due to these
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/// characteristics, unaligned bytes may be redundantly loaded or stored and
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/// non-temporal features are not used to optimize the operation.
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///
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/// u64x2 counter lanes = { output_length, input_length }; The argument `max`
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/// gives the buffer size in that format. The return value is the consumed
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/// bytes (final counter value) in that format.
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///
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template<class block_t_u,
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class block_t,
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class lambda>
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inline ircd::u64x2
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ircd::simd::stream(char *const __restrict__ out,
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const char *const __restrict__ in,
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const u64x2 max,
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lambda&& closure)
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noexcept
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{
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u64x2 count
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{
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0, // output pos
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0, // input pos
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};
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// primary broadband loop
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while(count[1] + sizeof(block_t) <= max[1] && count[0] + sizeof(block_t) <= max[0])
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{
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static const auto mask
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{
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~block_t{0}
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};
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const auto di
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{
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reinterpret_cast<block_t_u *>(out + count[0])
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};
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const auto si
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{
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reinterpret_cast<const block_t_u *>(in + count[1])
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};
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block_t block
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(
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*si
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);
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const auto consume
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{
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closure(block, mask)
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};
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*di = block;
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count += consume;
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}
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// trailing narrowband loop
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while(count[1] < max[1])
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{
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block_t block {0}, mask {0};
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for(size_t i(0); count[1] + i < max[1] && i < sizeof(block_t); ++i)
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{
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block[i] = in[count[1] + i];
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mask[i] = 0xff;
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}
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const auto consume
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{
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closure(block, mask)
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};
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for(size_t i(0); i < consume[0] && count[0] + i < max[0]; ++i)
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out[count[0] + i] = block[i];
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count += consume;
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}
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return u64x2
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{
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std::min(count[0], max[0]),
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std::min(count[1], max[1]),
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};
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}
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/// Streaming consumer
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///
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/// This template performs the loop boiler-plate for the developer who can
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/// simply supply a conforming closure. Characteristics:
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///
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/// * byte-aligned (unaligned): the input buffer does not have to be aligned
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/// and can be any size.
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///
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/// * variable-stride: progress for each iteration of the loop across the input
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/// and buffer is not fixed; the transform function may advance the pointer
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/// one to sizeof(block_t) bytes each iteration. Due to these characteristics,
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/// unaligned bytes may be redundantly loaded and non-temporal features are
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/// not used to optimize the operation.
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///
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/// u64x2 counter lanes = { available_to_user, input_length }; The argument
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/// `max` gives the buffer size in that format. The return value is the
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/// consumed bytes (final counter value) in that format. The first lane is
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/// available to the user; its initial value is max[0] (also unused); it is
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/// then accumulated with the first lane of the closure's return value; its
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/// final value is returned in [0] of the return value.
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///
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/// Note that the closure must advance the stream one or more bytes each
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/// iteration; a zero value is available for loop control: the loop will
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/// break without another iteration.
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///
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template<class block_t_u,
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class block_t,
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class lambda>
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inline ircd::u64x2
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ircd::simd::stream(const char *const __restrict__ in,
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const u64x2 max,
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lambda&& closure)
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noexcept
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{
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u64x2 count
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{
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max[0], // preserved for caller
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0, // input pos
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};
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u64x2 consume
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{
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0,
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-1UL // non-zero to start loop
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};
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// primary broadband loop
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while(consume[1] && count[1] + sizeof(block_t) <= max[1])
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{
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static const auto mask
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{
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~block_t{0}
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};
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const auto si
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{
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reinterpret_cast<const block_t_u *>(in + count[1])
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};
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const block_t block
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(
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*si
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);
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consume = closure(block, mask);
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count += consume;
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}
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// trailing narrowband loop
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while(consume[1] && count[1] < max[1])
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{
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block_t block {0}, mask {0};
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for(size_t i(0); count[1] + i < max[1] && i < sizeof(block_t); ++i)
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{
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block[i] = in[count[1] + i];
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mask[i] = 0xff;
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}
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consume = closure(block, mask);
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count += consume;
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}
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return u64x2
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{
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count[0],
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std::min(count[1], max[1])
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};
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}
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