mirror of
https://github.com/catchorg/Catch2.git
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d937427f1f
Without SSE2 enabled, x86 targets will use x87 FPU, which breaks the tests checking for reproducible results from our random floating point number generators. The output is still reproducible, at least between binaries targetting x87, but the tests hardcode results for the whole pipeline being done in 32/64bit precision. Closes #2796
606 lines
25 KiB
C++
606 lines
25 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/catch_template_test_macros.hpp>
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#include <catch2/internal/catch_floating_point_helpers.hpp>
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#include <catch2/internal/catch_random_integer_helpers.hpp>
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#include <catch2/internal/catch_random_number_generator.hpp>
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#include <catch2/internal/catch_random_seed_generation.hpp>
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#include <catch2/internal/catch_uniform_floating_point_distribution.hpp>
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#include <catch2/internal/catch_uniform_integer_distribution.hpp>
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#include <catch2/generators/catch_generators.hpp>
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#include <catch2/matchers/catch_matchers_range_equals.hpp>
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#include <random>
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TEST_CASE("Our PCG implementation provides expected results for known seeds", "[rng]") {
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Catch::SimplePcg32 rng;
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SECTION("Default seeded") {
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REQUIRE(rng() == 0xfcdb943b);
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REQUIRE(rng() == 0x6f55b921);
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REQUIRE(rng() == 0x4c17a916);
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REQUIRE(rng() == 0x71eae25f);
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REQUIRE(rng() == 0x6ce7909c);
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}
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SECTION("Specific seed") {
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rng.seed(0xabcd1234);
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REQUIRE(rng() == 0x57c08495);
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REQUIRE(rng() == 0x33c956ac);
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REQUIRE(rng() == 0x2206fd76);
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REQUIRE(rng() == 0x3501a35b);
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REQUIRE(rng() == 0xfdffb30f);
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// Also check repeated output after reseeding
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rng.seed(0xabcd1234);
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REQUIRE(rng() == 0x57c08495);
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REQUIRE(rng() == 0x33c956ac);
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REQUIRE(rng() == 0x2206fd76);
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REQUIRE(rng() == 0x3501a35b);
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REQUIRE(rng() == 0xfdffb30f);
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}
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}
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TEST_CASE("Comparison ops", "[rng]") {
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using Catch::SimplePcg32;
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REQUIRE(SimplePcg32{} == SimplePcg32{});
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REQUIRE(SimplePcg32{ 0 } != SimplePcg32{});
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REQUIRE_FALSE(SimplePcg32{ 1 } == SimplePcg32{ 2 });
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REQUIRE_FALSE(SimplePcg32{ 1 } != SimplePcg32{ 1 });
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}
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TEST_CASE("Random seed generation reports unknown methods", "[rng][seed]") {
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REQUIRE_THROWS(Catch::generateRandomSeed(static_cast<Catch::GenerateFrom>(77)));
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}
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TEST_CASE("Random seed generation accepts known methods", "[rng][seed]") {
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using Catch::GenerateFrom;
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const auto method = GENERATE(
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GenerateFrom::Time,
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GenerateFrom::RandomDevice,
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GenerateFrom::Default
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);
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REQUIRE_NOTHROW(Catch::generateRandomSeed(method));
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}
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TEMPLATE_TEST_CASE("uniform_floating_point_distribution never returns infs from finite range",
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"[rng][distribution][floating-point][approvals]", float, double) {
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std::random_device rd{};
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Catch::SimplePcg32 pcg( rd() );
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Catch::uniform_floating_point_distribution<TestType> dist(
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-std::numeric_limits<TestType>::max(),
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std::numeric_limits<TestType>::max() );
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for (size_t i = 0; i < 10'000; ++i) {
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auto ret = dist( pcg );
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REQUIRE_FALSE( std::isinf( ret ) );
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REQUIRE_FALSE( std::isnan( ret ) );
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}
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}
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TEST_CASE( "fillBitsFrom - shortening and stretching", "[rng][approvals]" ) {
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using Catch::Detail::fillBitsFrom;
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// The seed is not important, but the numbers below have to be repeatable.
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// They should also exhibit the same general pattern of being prefixes
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Catch::SimplePcg32 pcg( 0xaabb'ccdd );
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SECTION( "Shorten to 8 bits" ) {
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// We cast the result to avoid dealing with char-like type in uint8_t
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auto shortened = static_cast<uint32_t>( fillBitsFrom<uint8_t>( pcg ) );
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REQUIRE( shortened == 0xcc );
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}
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SECTION( "Shorten to 16 bits" ) {
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auto shortened = fillBitsFrom<uint16_t>( pcg );
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REQUIRE( shortened == 0xccbe );
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}
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SECTION( "Keep at 32 bits" ) {
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auto n = fillBitsFrom<uint32_t>( pcg );
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REQUIRE( n == 0xccbe'5f04 );
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}
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SECTION( "Stretch to 64 bits" ) {
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auto stretched = fillBitsFrom<uint64_t>( pcg );
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REQUIRE( stretched == 0xccbe'5f04'a424'a486 );
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}
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}
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TEST_CASE("uniform_integer_distribution can return the bounds", "[rng][distribution]") {
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Catch::uniform_integer_distribution<int32_t> dist( -10, 10 );
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REQUIRE( dist.a() == -10 );
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REQUIRE( dist.b() == 10 );
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}
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namespace {
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template <typename T>
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static void CheckReturnValue(Catch::uniform_integer_distribution<T>& dist,
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Catch::SimplePcg32& rng,
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T target) {
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REQUIRE( dist.a() == dist.b() );
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for (int i = 0; i < 1'000; ++i) {
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REQUIRE( dist( rng ) == target );
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}
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}
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}
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TEMPLATE_TEST_CASE( "uniform_integer_distribution can handle unit ranges",
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"[rng][distribution][approvals]",
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unsigned char,
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signed char,
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char,
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uint8_t,
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int8_t,
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uint16_t,
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int16_t,
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uint32_t,
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int32_t,
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uint64_t,
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int64_t ) {
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// We want random seed to sample different parts of the rng state,
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// the output is predetermined anyway
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std::random_device rd;
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auto seed = rd();
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CAPTURE( seed );
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Catch::SimplePcg32 pcg( seed );
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// We check unitary ranges of 3 different values, min for type, max for type,
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// some value inbetween just to make sure
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SECTION("lowest value") {
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constexpr auto lowest = std::numeric_limits<TestType>::min();
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Catch::uniform_integer_distribution<TestType> dist( lowest, lowest );
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CheckReturnValue( dist, pcg, lowest );
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}
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SECTION( "highest value" ) {
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constexpr auto highest = std::numeric_limits<TestType>::max();
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Catch::uniform_integer_distribution<TestType> dist( highest, highest );
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CheckReturnValue( dist, pcg, highest );
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}
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SECTION( "some value" ) {
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constexpr auto some = TestType( 42 );
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Catch::uniform_integer_distribution<TestType> dist( some, some );
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CheckReturnValue( dist, pcg, some );
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}
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}
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// Bool needs its own test because it doesn't have a valid "third" value
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TEST_CASE( "uniform_integer_distribution can handle boolean unit ranges",
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"[rng][distribution][approvals]" ) {
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// We want random seed to sample different parts of the rng state,
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// the output is predetermined anyway
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std::random_device rd;
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auto seed = rd();
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CAPTURE( seed );
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Catch::SimplePcg32 pcg( seed );
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// We check unitary ranges of 3 different values, min for type, max for
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// type, some value inbetween just to make sure
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SECTION( "lowest value" ) {
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Catch::uniform_integer_distribution<bool> dist( false, false );
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CheckReturnValue( dist, pcg, false );
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}
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SECTION( "highest value" ) {
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Catch::uniform_integer_distribution<bool> dist( true, true );
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CheckReturnValue( dist, pcg, true );
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}
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}
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TEMPLATE_TEST_CASE( "uniform_integer_distribution can handle full width ranges",
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"[rng][distribution][approvals]",
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unsigned char,
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signed char,
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char,
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uint8_t,
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int8_t,
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uint16_t,
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int16_t,
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uint32_t,
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int32_t,
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uint64_t,
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int64_t ) {
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// We want random seed to sample different parts of the rng state,
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// the output is predetermined anyway
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std::random_device rd;
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auto seed = rd();
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CAPTURE( seed );
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Catch::SimplePcg32 pcg( seed );
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constexpr auto lowest = std::numeric_limits<TestType>::min();
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constexpr auto highest = std::numeric_limits<TestType>::max();
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Catch::uniform_integer_distribution<TestType> dist( lowest, highest );
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STATIC_REQUIRE( std::is_same<TestType, decltype( dist( pcg ) )>::value );
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// We need to do bit operations on the results, so we will have to
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// cast them to unsigned type.
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using BitType = std::make_unsigned_t<TestType>;
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BitType ORs = 0;
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BitType ANDs = BitType(-1);
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for (int i = 0; i < 100; ++i) {
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auto bits = static_cast<BitType>( dist( pcg ) );
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ORs |= bits;
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ANDs &= bits;
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}
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// Assuming both our RNG and distribution are unbiased, asking for
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// the full range should essentially give us random bit generator.
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// Over long run, OR of all the generated values should have all
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// bits set to 1, while AND should have all bits set to 0.
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// The chance of this test failing for unbiased pipeline is
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// 1 / 2**iters, which for 100 iterations is astronomical.
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REQUIRE( ORs == BitType( -1 ) );
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REQUIRE( ANDs == 0 );
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}
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namespace {
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template <typename T>
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struct uniform_integer_test_params;
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template <>
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struct uniform_integer_test_params<bool> {
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static constexpr bool lowest = false;
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static constexpr bool highest = true;
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// This seems weird, but it is an artifact of the specific seed
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static constexpr bool expected[] = { true,
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true,
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true,
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true,
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true,
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true,
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false,
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true,
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true,
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true,
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true,
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true,
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false,
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true,
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true };
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};
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template <>
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struct uniform_integer_test_params<char> {
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static constexpr char lowest = 32;
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static constexpr char highest = 126;
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static constexpr char expected[] = { 'k',
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'\\',
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'Z',
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'X',
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'`',
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'Q',
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';',
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'o',
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']',
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'T',
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'v',
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'p',
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':',
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'S',
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't' };
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};
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template <>
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struct uniform_integer_test_params<uint8_t> {
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static constexpr uint8_t lowest = 3;
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static constexpr uint8_t highest = 123;
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static constexpr uint8_t expected[] = { 'c',
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'P',
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'M',
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'J',
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'U',
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'A',
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'%',
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'h',
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'Q',
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'F',
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'q',
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'i',
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'$',
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'E',
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'o' };
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};
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template <>
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struct uniform_integer_test_params<int8_t> {
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static constexpr int8_t lowest = -27;
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static constexpr int8_t highest = 73;
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static constexpr int8_t expected[] = { '5',
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'%',
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'#',
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' ',
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'*',
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25,
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2,
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'9',
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'&',
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29,
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'A',
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':',
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1,
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28,
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'?' };
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};
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template <>
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struct uniform_integer_test_params<uint16_t> {
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static constexpr uint16_t lowest = 123;
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static constexpr uint16_t highest = 33333;
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static constexpr uint16_t expected[] = { 26684,
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21417,
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20658,
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19791,
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22896,
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17433,
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9806,
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27948,
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21767,
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18588,
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30556,
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28244,
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9439,
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18293,
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29949 };
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};
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template <>
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struct uniform_integer_test_params<int16_t> {
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static constexpr int16_t lowest = -17222;
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static constexpr int16_t highest = 17222;
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static constexpr int16_t expected[] = { 10326,
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4863,
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4076,
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3177,
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6397,
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731,
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-7179,
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11637,
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5226,
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1929,
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14342,
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11944,
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-7560,
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1623,
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13712 };
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};
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template <>
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struct uniform_integer_test_params<uint32_t> {
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static constexpr uint32_t lowest = 17222;
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static constexpr uint32_t highest = 234234;
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static constexpr uint32_t expected[] = { 190784,
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156367,
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151409,
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145743,
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166032,
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130337,
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80501,
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199046,
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158654,
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137883,
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216091,
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200981,
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78099,
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135954,
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212120 };
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};
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template <>
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struct uniform_integer_test_params<int32_t> {
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static constexpr int32_t lowest = -237272;
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static constexpr int32_t highest = 234234;
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static constexpr int32_t expected[] = { 139829,
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65050,
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54278,
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41969,
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86051,
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8494,
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-99785,
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157781,
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70021,
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24890,
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194815,
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161985,
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-105004,
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20699,
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186186 };
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};
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template <>
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struct uniform_integer_test_params<uint64_t> {
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static constexpr uint64_t lowest = 1234;
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static constexpr uint64_t highest = 1234567890;
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static constexpr uint64_t expected[] = { 987382749,
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763380386,
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846572137,
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359990258,
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804599765,
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1131353566,
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346324913,
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1108760730,
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1141693933,
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856999148,
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879390623,
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1149485521,
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900556586,
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952385958,
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807916408 };
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};
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template <>
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struct uniform_integer_test_params<int64_t> {
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static constexpr int64_t lowest = -1234567890;
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static constexpr int64_t highest = 1234567890;
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static constexpr int64_t expected[] = { 740197113,
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292191940,
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458575608,
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-514589122,
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374630781,
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1028139036,
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-541919840,
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982953318,
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1048819790,
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479429651,
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524212647,
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1064402981,
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566544615,
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670203462,
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381264073 };
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};
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// We need these definitions for C++14 and earlier, but
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// GCC will complain about them in newer C++ standards
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#if __cplusplus <= 201402L
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constexpr bool uniform_integer_test_params<bool>::expected[];
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constexpr char uniform_integer_test_params<char>::expected[];
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constexpr uint8_t uniform_integer_test_params<uint8_t>::expected[];
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constexpr int8_t uniform_integer_test_params<int8_t>::expected[];
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constexpr uint16_t uniform_integer_test_params<uint16_t>::expected[];
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constexpr int16_t uniform_integer_test_params<int16_t>::expected[];
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constexpr uint32_t uniform_integer_test_params<uint32_t>::expected[];
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constexpr int32_t uniform_integer_test_params<int32_t>::expected[];
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constexpr uint64_t uniform_integer_test_params<uint64_t>::expected[];
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constexpr int64_t uniform_integer_test_params<int64_t>::expected[];
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#endif
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}
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TEMPLATE_TEST_CASE( "uniform_integer_distribution is reproducible",
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"[rng][distribution][approvals]",
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bool,
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char,
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uint8_t,
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int8_t,
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uint16_t,
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int16_t,
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uint32_t,
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int32_t,
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uint64_t,
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int64_t) {
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Catch::SimplePcg32 pcg( 0xaabb'ccdd );
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constexpr auto lowest = uniform_integer_test_params<TestType>::lowest;
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constexpr auto highest = uniform_integer_test_params<TestType>::highest;
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Catch::uniform_integer_distribution<TestType> dist(lowest, highest);
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constexpr auto iters = 15;
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std::array<TestType, iters> generated;
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for (int i = 0; i < iters; ++i) {
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generated[i] = dist( pcg );
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}
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REQUIRE_THAT(generated, Catch::Matchers::RangeEquals(uniform_integer_test_params<TestType>::expected));
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}
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namespace {
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template <typename T>
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struct uniform_fp_test_params;
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template<>
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struct uniform_fp_test_params<float> {
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// These are exactly representable
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static constexpr float lowest = -256.125f;
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static constexpr float highest = 385.125f;
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// These are just round-trip formatted
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static constexpr float expected[] = { 92.56961f,
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-23.170044f,
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310.81833f,
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-53.023132f,
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105.03287f,
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198.77591f,
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-172.72931f,
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51.805176f,
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-241.10156f,
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64.66101f,
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212.12509f,
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-49.24292f,
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-177.1399f,
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245.23679f,
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173.22421f };
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};
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template <>
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struct uniform_fp_test_params<double> {
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// These are exactly representable
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static constexpr double lowest = -234582.9921875;
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static constexpr double highest = 261238.015625;
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// These are just round-trip formatted
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static constexpr double expected[] = { 35031.207052832615,
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203783.3401838024,
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44667.940405848756,
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-170100.5877224467,
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-222966.7418051684,
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127472.72630072923,
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-173510.88209096913,
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97394.16172239158,
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119123.6921592663,
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|
22595.741022785165,
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8988.68409120926,
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136906.86520606978,
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33369.19104222473,
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60912.7615841752,
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-149060.05936760217 };
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};
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|
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// We need these definitions for C++14 and earlier, but
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// GCC will complain about them in newer C++ standards
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#if __cplusplus <= 201402L
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constexpr float uniform_fp_test_params<float>::expected[];
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constexpr double uniform_fp_test_params<double>::expected[];
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#endif
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} // namespace
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// The reproducibility tests assume that operations on `float`/`double`
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// happen in the same precision as the operated-upon type. This is
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// generally true, unless the code is compiled for 32 bit targets without
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// SSE2 enabled, in which case the operations are done in the x87 FPU,
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// which usually implies doing math in 80 bit floats, and then rounding
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// into smaller type when the type is saved into memory. This obviously
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// leads to a different answer, than doing the math in the correct precision.
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#if ( defined( _MSC_VER ) && _M_IX86_FP < 2 ) || \
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( defined( __GNUC__ ) && !defined( __SSE2_MATH__ ) )
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# define CATCH_TEST_CONFIG_DISABLE_FLOAT_REPRODUCIBILITY_TESTS
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#endif
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|
|
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#if !defined( CATCH_TEST_CONFIG_DISABLE_FLOAT_REPRODUCIBILITY_TESTS )
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|
|
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TEMPLATE_TEST_CASE( "uniform_floating_point_distribution is reproducible",
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"[rng][distribution][floating-point][approvals]",
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|
float,
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|
double ) {
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Catch::SimplePcg32 pcg( 0xaabb'aabb );
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|
|
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const auto lowest = uniform_fp_test_params<TestType>::lowest;
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const auto highest = uniform_fp_test_params<TestType>::highest;
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Catch::uniform_floating_point_distribution<TestType> dist( lowest, highest );
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|
|
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constexpr auto iters = 15;
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std::array<TestType, iters> generated;
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for ( int i = 0; i < iters; ++i ) {
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generated[i] = dist( pcg );
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}
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|
|
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REQUIRE_THAT( generated, Catch::Matchers::RangeEquals( uniform_fp_test_params<TestType>::expected ) );
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}
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|
|
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#endif // ^^ float reproducibility tests are enabled
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|
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TEMPLATE_TEST_CASE( "uniform_floating_point_distribution can handle unitary ranges",
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|
"[rng][distribution][floating-point][approvals]",
|
|
float,
|
|
double ) {
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|
std::random_device rd;
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|
auto seed = rd();
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|
CAPTURE( seed );
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|
Catch::SimplePcg32 pcg( seed );
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|
|
|
const auto highest = uniform_fp_test_params<TestType>::highest;
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|
Catch::uniform_floating_point_distribution<TestType> dist( highest,
|
|
highest );
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|
|
|
constexpr auto iters = 20;
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|
for (int i = 0; i < iters; ++i) {
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REQUIRE( Catch::Detail::directCompare( dist( pcg ), highest ) );
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|
}
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|
}
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