380 lines
11 KiB
C
380 lines
11 KiB
C
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#pragma once
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#include <c10/util/Exception.h>
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#include <cstddef>
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#include <functional>
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#include <iomanip>
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#include <ios>
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#include <sstream>
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#include <string>
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#include <tuple>
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#include <type_traits>
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#include <utility>
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#include <vector>
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#include <c10/util/ArrayRef.h>
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#include <c10/util/complex.h>
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namespace c10 {
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// NOTE: hash_combine and SHA1 hashing is based on implementation from Boost
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//
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// Boost Software License - Version 1.0 - August 17th, 2003
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//
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// Permission is hereby granted, free of charge, to any person or organization
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// obtaining a copy of the software and accompanying documentation covered by
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// this license (the "Software") to use, reproduce, display, distribute,
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// execute, and transmit the Software, and to prepare derivative works of the
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// Software, and to permit third-parties to whom the Software is furnished to
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// do so, all subject to the following:
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//
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// The copyright notices in the Software and this entire statement, including
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// the above license grant, this restriction and the following disclaimer,
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// must be included in all copies of the Software, in whole or in part, and
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// all derivative works of the Software, unless such copies or derivative
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// works are solely in the form of machine-executable object code generated by
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// a source language processor.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE, TITLE AND NON-INFRINGEMENT. IN NO EVENT
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// SHALL THE COPYRIGHT HOLDERS OR ANYONE DISTRIBUTING THE SOFTWARE BE LIABLE
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// FOR ANY DAMAGES OR OTHER LIABILITY, WHETHER IN CONTRACT, TORT OR OTHERWISE,
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// ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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// DEALINGS IN THE SOFTWARE.
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inline size_t hash_combine(size_t seed, size_t value) {
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return seed ^ (value + 0x9e3779b9 + (seed << 6u) + (seed >> 2u));
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}
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// Creates the SHA1 hash of a string. A 160-bit hash.
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// Based on the implementation in Boost (see notice above).
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// Note that SHA1 hashes are no longer considered cryptographically
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// secure, but are the standard hash for generating unique ids.
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// Usage:
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// // Let 'code' be a std::string
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// c10::sha1 sha1_hash{code};
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// const auto hash_code = sha1_hash.str();
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// TODO: Compare vs OpenSSL and/or CryptoPP implementations
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struct sha1 {
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typedef unsigned int(digest_type)[5];
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sha1(const std::string& s = "") {
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if (!s.empty()) {
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reset();
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process_bytes(s.c_str(), s.size());
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}
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}
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void reset() {
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h_[0] = 0x67452301;
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h_[1] = 0xEFCDAB89;
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h_[2] = 0x98BADCFE;
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h_[3] = 0x10325476;
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h_[4] = 0xC3D2E1F0;
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block_byte_index_ = 0;
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bit_count_low = 0;
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bit_count_high = 0;
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}
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std::string str() {
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unsigned int digest[5];
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get_digest(digest);
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std::ostringstream buf;
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for (unsigned int i : digest) {
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buf << std::hex << std::setfill('0') << std::setw(8) << i;
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}
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return buf.str();
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}
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private:
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unsigned int left_rotate(unsigned int x, std::size_t n) {
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return (x << n) ^ (x >> (32 - n));
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}
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void process_block_impl() {
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unsigned int w[80];
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for (std::size_t i = 0; i < 16; ++i) {
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w[i] = (block_[i * 4 + 0] << 24);
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w[i] |= (block_[i * 4 + 1] << 16);
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w[i] |= (block_[i * 4 + 2] << 8);
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w[i] |= (block_[i * 4 + 3]);
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}
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for (std::size_t i = 16; i < 80; ++i) {
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w[i] = left_rotate((w[i - 3] ^ w[i - 8] ^ w[i - 14] ^ w[i - 16]), 1);
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}
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unsigned int a = h_[0];
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unsigned int b = h_[1];
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unsigned int c = h_[2];
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unsigned int d = h_[3];
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unsigned int e = h_[4];
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for (std::size_t i = 0; i < 80; ++i) {
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unsigned int f = 0;
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unsigned int k = 0;
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if (i < 20) {
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f = (b & c) | (~b & d);
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k = 0x5A827999;
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} else if (i < 40) {
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f = b ^ c ^ d;
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k = 0x6ED9EBA1;
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} else if (i < 60) {
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f = (b & c) | (b & d) | (c & d);
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k = 0x8F1BBCDC;
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} else {
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f = b ^ c ^ d;
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k = 0xCA62C1D6;
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}
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unsigned temp = left_rotate(a, 5) + f + e + k + w[i];
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e = d;
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d = c;
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c = left_rotate(b, 30);
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b = a;
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a = temp;
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}
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h_[0] += a;
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h_[1] += b;
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h_[2] += c;
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h_[3] += d;
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h_[4] += e;
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}
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void process_byte_impl(unsigned char byte) {
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block_[block_byte_index_++] = byte;
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if (block_byte_index_ == 64) {
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block_byte_index_ = 0;
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process_block_impl();
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}
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}
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void process_byte(unsigned char byte) {
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process_byte_impl(byte);
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// size_t max value = 0xFFFFFFFF
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// if (bit_count_low + 8 >= 0x100000000) { // would overflow
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// if (bit_count_low >= 0x100000000-8) {
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if (bit_count_low < 0xFFFFFFF8) {
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bit_count_low += 8;
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} else {
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bit_count_low = 0;
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if (bit_count_high <= 0xFFFFFFFE) {
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++bit_count_high;
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} else {
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TORCH_CHECK(false, "sha1 too many bytes");
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}
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}
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}
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void process_block(void const* bytes_begin, void const* bytes_end) {
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unsigned char const* begin = static_cast<unsigned char const*>(bytes_begin);
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unsigned char const* end = static_cast<unsigned char const*>(bytes_end);
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for (; begin != end; ++begin) {
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process_byte(*begin);
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}
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}
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void process_bytes(void const* buffer, std::size_t byte_count) {
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unsigned char const* b = static_cast<unsigned char const*>(buffer);
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process_block(b, b + byte_count);
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}
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void get_digest(digest_type& digest) {
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// append the bit '1' to the message
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process_byte_impl(0x80);
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// append k bits '0', where k is the minimum number >= 0
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// such that the resulting message length is congruent to 56 (mod 64)
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// check if there is enough space for padding and bit_count
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if (block_byte_index_ > 56) {
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// finish this block
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while (block_byte_index_ != 0) {
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process_byte_impl(0);
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}
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// one more block
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while (block_byte_index_ < 56) {
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process_byte_impl(0);
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}
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} else {
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while (block_byte_index_ < 56) {
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process_byte_impl(0);
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}
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}
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// append length of message (before pre-processing)
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// as a 64-bit big-endian integer
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process_byte_impl(
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static_cast<unsigned char>((bit_count_high >> 24) & 0xFF));
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process_byte_impl(
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static_cast<unsigned char>((bit_count_high >> 16) & 0xFF));
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process_byte_impl(static_cast<unsigned char>((bit_count_high >> 8) & 0xFF));
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process_byte_impl(static_cast<unsigned char>((bit_count_high) & 0xFF));
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process_byte_impl(static_cast<unsigned char>((bit_count_low >> 24) & 0xFF));
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process_byte_impl(static_cast<unsigned char>((bit_count_low >> 16) & 0xFF));
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process_byte_impl(static_cast<unsigned char>((bit_count_low >> 8) & 0xFF));
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process_byte_impl(static_cast<unsigned char>((bit_count_low) & 0xFF));
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// get final digest
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digest[0] = h_[0];
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digest[1] = h_[1];
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digest[2] = h_[2];
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digest[3] = h_[3];
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digest[4] = h_[4];
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}
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unsigned int h_[5]{};
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unsigned char block_[64]{};
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std::size_t block_byte_index_{};
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std::size_t bit_count_low{};
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std::size_t bit_count_high{};
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};
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constexpr uint64_t twang_mix64(uint64_t key) noexcept {
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key = (~key) + (key << 21); // key *= (1 << 21) - 1; key -= 1;
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key = key ^ (key >> 24);
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key = key + (key << 3) + (key << 8); // key *= 1 + (1 << 3) + (1 << 8)
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key = key ^ (key >> 14);
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key = key + (key << 2) + (key << 4); // key *= 1 + (1 << 2) + (1 << 4)
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key = key ^ (key >> 28);
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key = key + (key << 31); // key *= 1 + (1 << 31)
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return key;
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}
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////////////////////////////////////////////////////////////////////////////////
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// c10::hash implementation
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////////////////////////////////////////////////////////////////////////////////
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namespace _hash_detail {
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// Use template argument deduction to shorten calls to c10::hash
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template <typename T>
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size_t simple_get_hash(const T& o);
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template <typename T, typename V>
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using type_if_not_enum = std::enable_if_t<!std::is_enum_v<T>, V>;
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// Use SFINAE to dispatch to std::hash if possible, cast enum types to int
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// automatically, and fall back to T::hash otherwise. NOTE: C++14 added support
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// for hashing enum types to the standard, and some compilers implement it even
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// when C++14 flags aren't specified. This is why we have to disable this
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// overload if T is an enum type (and use the one below in this case).
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template <typename T>
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auto dispatch_hash(const T& o)
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-> decltype(std::hash<T>()(o), type_if_not_enum<T, size_t>()) {
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return std::hash<T>()(o);
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}
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template <typename T>
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std::enable_if_t<std::is_enum_v<T>, size_t> dispatch_hash(const T& o) {
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using R = std::underlying_type_t<T>;
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return std::hash<R>()(static_cast<R>(o));
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}
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template <typename T>
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auto dispatch_hash(const T& o) -> decltype(T::hash(o), size_t()) {
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return T::hash(o);
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}
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} // namespace _hash_detail
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// Hasher struct
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template <typename T>
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struct hash {
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size_t operator()(const T& o) const {
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return _hash_detail::dispatch_hash(o);
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};
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};
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// Specialization for std::tuple
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template <typename... Types>
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struct hash<std::tuple<Types...>> {
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template <size_t idx, typename... Ts>
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struct tuple_hash {
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size_t operator()(const std::tuple<Ts...>& t) const {
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return hash_combine(
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_hash_detail::simple_get_hash(std::get<idx>(t)),
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tuple_hash<idx - 1, Ts...>()(t));
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}
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};
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template <typename... Ts>
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struct tuple_hash<0, Ts...> {
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size_t operator()(const std::tuple<Ts...>& t) const {
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return _hash_detail::simple_get_hash(std::get<0>(t));
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}
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};
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size_t operator()(const std::tuple<Types...>& t) const {
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return tuple_hash<sizeof...(Types) - 1, Types...>()(t);
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}
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};
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template <typename T1, typename T2>
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struct hash<std::pair<T1, T2>> {
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size_t operator()(const std::pair<T1, T2>& pair) const {
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std::tuple<T1, T2> tuple = std::make_tuple(pair.first, pair.second);
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return _hash_detail::simple_get_hash(tuple);
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}
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};
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template <typename T>
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struct hash<c10::ArrayRef<T>> {
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size_t operator()(c10::ArrayRef<T> v) const {
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size_t seed = 0;
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for (const auto& elem : v) {
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seed = hash_combine(seed, _hash_detail::simple_get_hash(elem));
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}
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return seed;
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}
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};
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// Specialization for std::vector
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template <typename T>
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struct hash<std::vector<T>> {
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size_t operator()(const std::vector<T>& v) const {
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return hash<c10::ArrayRef<T>>()(v);
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}
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};
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namespace _hash_detail {
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template <typename T>
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size_t simple_get_hash(const T& o) {
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return c10::hash<T>()(o);
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}
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} // namespace _hash_detail
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// Use this function to actually hash multiple things in one line.
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// Dispatches to c10::hash, so it can hash containers.
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// Example:
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//
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// static size_t hash(const MyStruct& s) {
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// return get_hash(s.member1, s.member2, s.member3);
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// }
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template <typename... Types>
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size_t get_hash(const Types&... args) {
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return c10::hash<decltype(std::tie(args...))>()(std::tie(args...));
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}
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// Specialization for c10::complex
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template <typename T>
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struct hash<c10::complex<T>> {
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size_t operator()(const c10::complex<T>& c) const {
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return get_hash(c.real(), c.imag());
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}
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};
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} // namespace c10
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