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404 lines
14 KiB
C++
404 lines
14 KiB
C++
#include <catch2/catch_approx.hpp>
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#include <catch2/catch_test_macros.hpp>
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#include <catch2/generators/catch_generator_exception.hpp>
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#include <catch2/generators/catch_generators_adapters.hpp>
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#include <catch2/generators/catch_generators_random.hpp>
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#include <catch2/generators/catch_generators_range.hpp>
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// Tests of generator implementation details
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TEST_CASE("Generators internals", "[generators][internals]") {
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using namespace Catch::Generators;
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SECTION("Single value") {
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auto gen = value(123);
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REQUIRE(gen.get() == 123);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Preset values") {
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auto gen = values({ 1, 3, 5 });
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REQUIRE(gen.get() == 1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 3);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 5);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Generator combinator") {
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auto gen = makeGenerators(1, 5, values({ 2, 4 }), 0);
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REQUIRE(gen.get() == 1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 5);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 4);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 0);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Explicitly typed generator sequence") {
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auto gen = makeGenerators(as<std::string>{}, "aa", "bb", "cc");
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// This just checks that the type is std::string:
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REQUIRE(gen.get().size() == 2);
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// Iterate over the generator
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REQUIRE(gen.get() == "aa");
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REQUIRE(gen.next());
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REQUIRE(gen.get() == "bb");
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REQUIRE(gen.next());
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REQUIRE(gen.get() == "cc");
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Filter generator") {
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// Normal usage
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SECTION("Simple filtering") {
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auto gen = filter([](int i) { return i != 2; }, values({ 2, 1, 2, 3, 2, 2 }));
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REQUIRE(gen.get() == 1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 3);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Filter out multiple elements at the start and end") {
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auto gen = filter([](int i) { return i != 2; }, values({ 2, 2, 1, 3, 2, 2 }));
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REQUIRE(gen.get() == 1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 3);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Throws on construction if it can't get initial element") {
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REQUIRE_THROWS_AS(filter([](int) { return false; }, value(1)), Catch::GeneratorException);
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REQUIRE_THROWS_AS(
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filter([](int) { return false; }, values({ 1, 2, 3 })),
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Catch::GeneratorException);
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}
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}
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SECTION("Take generator") {
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SECTION("Take less") {
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auto gen = take(2, values({ 1, 2, 3 }));
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REQUIRE(gen.get() == 1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Take more") {
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auto gen = take(2, value(1));
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REQUIRE(gen.get() == 1);
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REQUIRE_FALSE(gen.next());
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}
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}
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SECTION("Map with explicit return type") {
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auto gen = map<double>([] (int i) {return 2.0 * i; }, values({ 1, 2, 3 }));
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REQUIRE(gen.get() == 2.0);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 4.0);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 6.0);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Map with deduced return type") {
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auto gen = map([] (int i) {return 2.0 * i; }, values({ 1, 2, 3 }));
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REQUIRE(gen.get() == 2.0);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 4.0);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 6.0);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Repeat") {
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SECTION("Singular repeat") {
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auto gen = repeat(1, value(3));
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REQUIRE(gen.get() == 3);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Actual repeat") {
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auto gen = repeat(2, values({ 1, 2, 3 }));
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REQUIRE(gen.get() == 1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 3);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 3);
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REQUIRE_FALSE(gen.next());
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}
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}
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SECTION("Range") {
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SECTION("Positive auto step") {
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SECTION("Integer") {
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auto gen = range(-2, 2);
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REQUIRE(gen.get() == -2);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 0);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 1);
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REQUIRE_FALSE(gen.next());
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}
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}
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SECTION("Negative auto step") {
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SECTION("Integer") {
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auto gen = range(2, -2);
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REQUIRE(gen.get() == 2);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 0);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -1);
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REQUIRE_FALSE(gen.next());
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}
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}
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SECTION("Positive manual step") {
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SECTION("Integer") {
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SECTION("Exact") {
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auto gen = range(-7, 5, 3);
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REQUIRE(gen.get() == -7);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -4);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Slightly over end") {
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auto gen = range(-7, 4, 3);
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REQUIRE(gen.get() == -7);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -4);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Slightly under end") {
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auto gen = range(-7, 6, 3);
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REQUIRE(gen.get() == -7);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -4);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 5);
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REQUIRE_FALSE(gen.next());
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}
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}
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SECTION("Floating Point") {
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using Catch::Approx;
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SECTION("Exact") {
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const auto rangeStart = -1.;
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const auto rangeEnd = 1.;
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const auto step = .1;
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auto gen = range(rangeStart, rangeEnd, step);
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auto expected = rangeStart;
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while( (rangeEnd - expected) > step ) {
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INFO( "Current expected value is " << expected );
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REQUIRE(gen.get() == Approx(expected));
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REQUIRE(gen.next());
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expected += step;
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}
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REQUIRE(gen.get() == Approx( rangeEnd ) );
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Slightly over end") {
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const auto rangeStart = -1.;
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const auto rangeEnd = 1.;
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const auto step = .3;
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auto gen = range(rangeStart, rangeEnd, step);
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auto expected = rangeStart;
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while( (rangeEnd - expected) > step ) {
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INFO( "Current expected value is " << expected );
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REQUIRE(gen.get() == Approx(expected));
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REQUIRE(gen.next());
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expected += step;
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}
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Slightly under end") {
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const auto rangeStart = -1.;
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const auto rangeEnd = .9;
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const auto step = .3;
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auto gen = range(rangeStart, rangeEnd, step);
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auto expected = rangeStart;
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while( (rangeEnd - expected) > step ) {
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INFO( "Current expected value is " << expected );
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REQUIRE(gen.get() == Approx(expected));
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REQUIRE(gen.next());
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expected += step;
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}
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REQUIRE_FALSE(gen.next());
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}
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}
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}
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SECTION("Negative manual step") {
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SECTION("Integer") {
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SECTION("Exact") {
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auto gen = range(5, -7, -3);
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REQUIRE(gen.get() == 5);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -4);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Slightly over end") {
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auto gen = range(5, -6, -3);
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REQUIRE(gen.get() == 5);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -4);
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REQUIRE_FALSE(gen.next());
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}
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SECTION("Slightly under end") {
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auto gen = range(5, -8, -3);
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REQUIRE(gen.get() == 5);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == 2);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -1);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -4);
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REQUIRE(gen.next());
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REQUIRE(gen.get() == -7);
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REQUIRE_FALSE(gen.next());
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}
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}
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}
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}
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}
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// todo: uncopyable type used in a generator
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// idea: uncopyable tag type for a stupid generator
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namespace {
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struct non_copyable {
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non_copyable() = default;
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non_copyable(non_copyable const&) = delete;
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non_copyable& operator=(non_copyable const&) = delete;
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int value = -1;
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};
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// This class shows how to implement a simple generator for Catch tests
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class TestGen : public Catch::Generators::IGenerator<int> {
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int current_number;
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public:
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TestGen(non_copyable const& nc):
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current_number(nc.value) {}
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int const& get() const override;
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bool next() override {
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return false;
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}
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};
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// Avoids -Wweak-vtables
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int const& TestGen::get() const {
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return current_number;
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}
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}
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TEST_CASE("GENERATE capture macros", "[generators][internals][approvals]") {
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auto value = GENERATE(take(10, random(0, 10)));
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non_copyable nc; nc.value = value;
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// neither `GENERATE_COPY` nor plain `GENERATE` would compile here
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auto value2 = GENERATE_REF(Catch::Generators::GeneratorWrapper<int>(Catch::Detail::make_unique<TestGen>(nc)));
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REQUIRE(value == value2);
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}
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TEST_CASE("#1809 - GENERATE_COPY and SingleValueGenerator does not compile", "[generators][compilation][approvals]") {
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// Verify Issue #1809 fix, only needs to compile.
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auto a = GENERATE_COPY(1, 2);
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(void)a;
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auto b = GENERATE_COPY(as<long>{}, 1, 2);
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(void)b;
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int i = 1;
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int j = 2;
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auto c = GENERATE_COPY(i, j);
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(void)c;
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auto d = GENERATE_COPY(as<long>{}, i, j);
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(void)d;
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SUCCEED();
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}
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TEST_CASE("Multiple random generators in one test case output different values", "[generators][internals][approvals]") {
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SECTION("Integer") {
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auto random1 = Catch::Generators::random(0, 1000);
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auto random2 = Catch::Generators::random(0, 1000);
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size_t same = 0;
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for (size_t i = 0; i < 1000; ++i) {
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same += random1.get() == random2.get();
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random1.next(); random2.next();
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}
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// Because the previous low bound failed CI couple of times,
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// we use a very high threshold of 20% before failure is reported.
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REQUIRE(same < 200);
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}
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SECTION("Float") {
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auto random1 = Catch::Generators::random(0., 1000.);
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auto random2 = Catch::Generators::random(0., 1000.);
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size_t same = 0;
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for (size_t i = 0; i < 1000; ++i) {
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same += random1.get() == random2.get();
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random1.next(); random2.next();
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}
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// Because the previous low bound failed CI couple of times,
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// we use a very high threshold of 20% before failure is reported.
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REQUIRE(same < 200);
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}
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}
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TEST_CASE("#2040 - infinite compilation recursion in GENERATE with MSVC", "[generators][compilation][approvals]") {
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int x = 42;
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auto test = GENERATE_COPY(1, x, 2 * x);
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CHECK(test < 100);
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}
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namespace {
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static bool always_true(int) {
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return true;
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}
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static bool is_even(int n) {
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return n % 2 == 0;
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}
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static bool is_multiple_of_3(int n) {
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return n % 3 == 0;
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}
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}
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TEST_CASE("GENERATE handles function (pointers)", "[generators][compilation][approvals]") {
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auto f = GENERATE(always_true, is_even, is_multiple_of_3);
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REQUIRE(f(6));
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}
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TEST_CASE("GENERATE decays arrays", "[generators][compilation][approvals]") {
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auto str = GENERATE("abc", "def", "gh");
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STATIC_REQUIRE(std::is_same<decltype(str), const char*>::value);
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}
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