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d99eb8bec8
Now we use intrinsics when possible, and fallback to optimized implementation in portable C++. The difference is about 4x when we can use intrinsics and about 2x when we cannot. This should speed up our Lemire's algorithm implementation nicely.
225 lines
8.7 KiB
C++
225 lines
8.7 KiB
C++
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// Copyright Catch2 Authors
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// Distributed under the Boost Software License, Version 1.0.
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// (See accompanying file LICENSE.txt or copy at
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// https://www.boost.org/LICENSE_1_0.txt)
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// SPDX-License-Identifier: BSL-1.0
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#include <catch2/catch_test_macros.hpp>
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#include <catch2/internal/catch_random_integer_helpers.hpp>
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#include <random>
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namespace {
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template <typename Int>
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static void
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CommutativeMultCheck( Int a, Int b, Int upper_result, Int lower_result ) {
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using Catch::Detail::extendedMult;
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using Catch::Detail::ExtendedMultResult;
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CHECK( extendedMult( a, b ) ==
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ExtendedMultResult<Int>{ upper_result, lower_result } );
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CHECK( extendedMult( b, a ) ==
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ExtendedMultResult<Int>{ upper_result, lower_result } );
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}
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// Simple (and slow) implmentation of extended multiplication for tests
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constexpr Catch::Detail::ExtendedMultResult<std::uint64_t>
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extendedMultNaive( std::uint64_t lhs, std::uint64_t rhs ) {
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// This is a simple long multiplication, where we split lhs and rhs
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// into two 32-bit "digits", so that we can do ops with carry in 64-bits.
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//
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// 32b 32b 32b 32b
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// lhs L1 L2
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// * rhs R1 R2
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// ------------------------
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// | R2 * L2 |
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// | R2 * L1 |
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// | R1 * L2 |
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// | R1 * L1 |
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// -------------------------
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// | a | b | c | d |
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#define CarryBits( x ) ( x >> 32 )
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#define Digits( x ) ( x & 0xFF'FF'FF'FF )
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auto r2l2 = Digits( rhs ) * Digits( lhs );
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auto r2l1 = Digits( rhs ) * CarryBits( lhs );
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auto r1l2 = CarryBits( rhs ) * Digits( lhs );
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auto r1l1 = CarryBits( rhs ) * CarryBits( lhs );
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// Sum to columns first
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auto d = Digits( r2l2 );
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auto c = CarryBits( r2l2 ) + Digits( r2l1 ) + Digits( r1l2 );
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auto b = CarryBits( r2l1 ) + CarryBits( r1l2 ) + Digits( r1l1 );
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auto a = CarryBits( r1l1 );
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// Propagate carries between columns
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c += CarryBits( d );
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b += CarryBits( c );
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a += CarryBits( b );
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// Remove the used carries
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c = Digits( c );
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b = Digits( b );
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a = Digits( a );
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#undef CarryBits
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#undef Digits
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return {
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a << 32 | b, // upper 64 bits
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c << 32 | d // lower 64 bits
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};
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}
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} // namespace
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TEST_CASE( "extendedMult 64x64", "[Integer][approvals]" ) {
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// a x 0 == 0
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CommutativeMultCheck<uint64_t>( 0x1234'5678'9ABC'DEFF, 0, 0, 0 );
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// bit carried from low half to upper half
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CommutativeMultCheck<uint64_t>( uint64_t( 1 ) << 63, 2, 1, 0 );
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// bits in upper half on one side, bits in lower half on other side
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CommutativeMultCheck<uint64_t>( 0xcdcd'dcdc'0000'0000,
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0x0000'0000'aeae'aeae,
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0x0000'0000'8c6e'5a77,
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0x7391'a588'0000'0000 );
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// Some input numbers without interesting patterns
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CommutativeMultCheck<uint64_t>( 0xaaaa'aaaa'aaaa'aaaa,
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0xbbbb'bbbb'bbbb'bbbb,
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0x7d27'd27d'27d2'7d26,
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0xd82d'82d8'2d82'd82e );
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CommutativeMultCheck<uint64_t>( 0x7d27'd27d'27d2'7d26,
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0xd82d'82d8'2d82'd82e,
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0x69af'd991'8256'b953,
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0x8724'8909'fcb6'8cd4 );
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CommutativeMultCheck<uint64_t>( 0xdead'beef'dead'beef,
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0xfeed'feed'feed'feef,
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0xddbf'680b'2b0c'b558,
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0x7a36'b06f'2ce9'6321 );
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CommutativeMultCheck<uint64_t>( 0xddbf'680b'2b0c'b558,
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0x7a36'b06f'2ce9'6321,
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0x69dc'96c9'294b'fc7f,
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0xd038'39fa'a3dc'6858 );
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CommutativeMultCheck<uint64_t>( 0x61c8'8646'80b5'83eb,
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0x61c8'8646'80b5'83eb,
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0x2559'92d3'8220'8bbe,
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0xdf44'2d22'ce48'59b9 );
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}
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TEST_CASE("extendedMult 64x64 - all implementations", "[integer][approvals]") {
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using Catch::Detail::extendedMult;
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using Catch::Detail::extendedMultPortable;
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using Catch::Detail::fillBitsFrom;
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std::random_device rng;
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for (size_t i = 0; i < 100; ++i) {
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auto a = fillBitsFrom<std::uint64_t>( rng );
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auto b = fillBitsFrom<std::uint64_t>( rng );
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CAPTURE( a, b );
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auto naive_ab = extendedMultNaive( a, b );
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REQUIRE( naive_ab == extendedMultNaive( b, a ) );
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REQUIRE( naive_ab == extendedMultPortable( a, b ) );
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REQUIRE( naive_ab == extendedMultPortable( b, a ) );
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REQUIRE( naive_ab == extendedMult( a, b ) );
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REQUIRE( naive_ab == extendedMult( b, a ) );
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}
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}
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TEST_CASE( "SizedUnsignedType helpers", "[integer][approvals]" ) {
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using Catch::Detail::SizedUnsignedType_t;
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using Catch::Detail::DoubleWidthUnsignedType_t;
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STATIC_REQUIRE( sizeof( SizedUnsignedType_t<1> ) == 1 );
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STATIC_REQUIRE( sizeof( SizedUnsignedType_t<2> ) == 2 );
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STATIC_REQUIRE( sizeof( SizedUnsignedType_t<4> ) == 4 );
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STATIC_REQUIRE( sizeof( SizedUnsignedType_t<8> ) == 8 );
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STATIC_REQUIRE( sizeof( DoubleWidthUnsignedType_t<std::uint8_t> ) == 2 );
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STATIC_REQUIRE( std::is_unsigned<DoubleWidthUnsignedType_t<std::uint8_t>>::value );
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STATIC_REQUIRE( sizeof( DoubleWidthUnsignedType_t<std::uint16_t> ) == 4 );
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STATIC_REQUIRE( std::is_unsigned<DoubleWidthUnsignedType_t<std::uint16_t>>::value );
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STATIC_REQUIRE( sizeof( DoubleWidthUnsignedType_t<std::uint32_t> ) == 8 );
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STATIC_REQUIRE( std::is_unsigned<DoubleWidthUnsignedType_t<std::uint32_t>>::value );
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}
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TEST_CASE( "extendedMult 32x32", "[integer][approvals]" ) {
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// a x 0 == 0
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CommutativeMultCheck<uint32_t>( 0x1234'5678, 0, 0, 0 );
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// bit carried from low half to upper half
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CommutativeMultCheck<uint32_t>( uint32_t(1) << 31, 2, 1, 0 );
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// bits in upper half on one side, bits in lower half on other side
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CommutativeMultCheck<uint32_t>( 0xdcdc'0000, 0x0000'aabb, 0x0000'934b, 0x6cb4'0000 );
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// Some input numbers without interesting patterns
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CommutativeMultCheck<uint32_t>(
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0xaaaa'aaaa, 0xbbbb'bbbb, 0x7d27'd27c, 0x2d82'd82e );
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CommutativeMultCheck<uint32_t>(
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0x7d27'd27c, 0x2d82'd82e, 0x163f'f7e8, 0xc5b8'7248 );
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CommutativeMultCheck<uint32_t>(
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0xdead'beef, 0xfeed'feed, 0xddbf'6809, 0x6f8d'e543 );
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CommutativeMultCheck<uint32_t>(
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0xddbf'6809, 0x6f8d'e543, 0x60a0'e71e, 0x751d'475b );
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}
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TEST_CASE( "extendedMult 8x8", "[integer][approvals]" ) {
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// a x 0 == 0
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CommutativeMultCheck<uint8_t>( 0xcd, 0, 0, 0 );
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// bit carried from low half to upper half
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CommutativeMultCheck<uint8_t>( uint8_t( 1 ) << 7, 2, 1, 0 );
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// bits in upper half on one side, bits in lower half on other side
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CommutativeMultCheck<uint8_t>( 0x80, 0x03, 0x01, 0x80 );
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// Some input numbers without interesting patterns
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CommutativeMultCheck<uint8_t>( 0xaa, 0xbb, 0x7c, 0x2e );
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CommutativeMultCheck<uint8_t>( 0x7c, 0x2e, 0x16, 0x48 );
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CommutativeMultCheck<uint8_t>( 0xdc, 0xcd, 0xb0, 0x2c );
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CommutativeMultCheck<uint8_t>( 0xb0, 0x2c, 0x1e, 0x40 );
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}
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TEST_CASE( "negative and positive signed integers keep their order after transposeToNaturalOrder",
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"[integer][approvals]") {
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using Catch::Detail::transposeToNaturalOrder;
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int32_t negative( -1 );
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int32_t positive( 1 );
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uint32_t adjusted_negative =
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transposeToNaturalOrder<int32_t>( static_cast<uint32_t>( negative ) );
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uint32_t adjusted_positive =
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transposeToNaturalOrder<int32_t>( static_cast<uint32_t>( positive ) );
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REQUIRE( adjusted_negative < adjusted_positive );
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REQUIRE( adjusted_positive - adjusted_negative == 2 );
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// Conversion has to be reversible
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REQUIRE( negative == static_cast<int32_t>( transposeToNaturalOrder<int32_t>(
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adjusted_negative ) ) );
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REQUIRE( positive == static_cast<int32_t>( transposeToNaturalOrder<int32_t>(
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adjusted_positive ) ) );
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}
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TEST_CASE( "unsigned integers are unchanged by transposeToNaturalOrder",
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"[integer][approvals]") {
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using Catch::Detail::transposeToNaturalOrder;
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uint32_t max = std::numeric_limits<uint32_t>::max();
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uint32_t zero = 0;
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REQUIRE( max == transposeToNaturalOrder<uint32_t>( max ) );
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REQUIRE( zero == transposeToNaturalOrder<uint32_t>( zero ) );
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}
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