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Catch2/tests/SelfTest/IntrospectiveTests/Details.tests.cpp
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Martin Hořeňovský 3a0cf7e75f Support filtering on both sections and generators (#3069) 
Not being able to filter generators to specific element has been regularly
causing problems. It was possible to use a dynamic section to run tests
for specific element in a generator, at least if the element had a nice
string representation, but the test case would still run once per element
in the generator.

With this change, it is possible to have the generator return only one
specific element, and do so based on the index, rather than the string
representation of the element. This enables simple debugging of tests
that fail for specific generator element.
2026-02-15 20:27:15 +01:00

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// Copyright Catch2 Authors
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE.txt or copy at
// https://www.boost.org/LICENSE_1_0.txt)
// SPDX-License-Identifier: BSL-1.0
#include <catch2/catch_test_macros.hpp>
#include <catch2/generators/catch_generators.hpp>
#include <catch2/internal/catch_enforce.hpp>
#include <catch2/internal/catch_case_insensitive_comparisons.hpp>
#include <catch2/internal/catch_optional.hpp>
#include <helpers/type_with_lit_0_comparisons.hpp>
#if defined(_MSC_VER)
#pragma warning(push)
#pragma warning(disable:4702) // unreachable code in the macro expansions
#endif
TEST_CASE("Check that our error handling macros throw the right exceptions", "[!throws][internals][approvals]") {
REQUIRE_THROWS_AS(CATCH_INTERNAL_ERROR(""), std::logic_error);
REQUIRE_THROWS_AS(CATCH_ERROR(""), std::domain_error);
REQUIRE_THROWS_AS(CATCH_RUNTIME_ERROR(""), std::runtime_error);
REQUIRE_THROWS_AS([](){CATCH_ENFORCE(false, "");}(), std::domain_error);
REQUIRE_NOTHROW([](){CATCH_ENFORCE(true, "");}());
}
#if defined(_MSC_VER)
#pragma warning(pop) // unreachable code in the macro expansions
#endif
TEST_CASE("CaseInsensitiveLess is case insensitive", "[comparisons][string-case]") {
Catch::Detail::CaseInsensitiveLess lt;
SECTION( "Degenerate cases" ) {
REQUIRE( lt( "", "a" ) );
REQUIRE_FALSE( lt( "a", "a" ) );
REQUIRE_FALSE( lt( "", "" ) );
}
SECTION("Plain comparisons") {
REQUIRE( lt( "a", "b" ) );
REQUIRE( lt( "a", "B" ) );
REQUIRE( lt( "A", "b" ) );
REQUIRE( lt( "A", "B" ) );
}
}
TEST_CASE( "CaseInsensitiveEqualsTo is case insensitive",
"[comparisons][string-case]" ) {
Catch::Detail::CaseInsensitiveEqualTo eq;
SECTION( "Degenerate cases" ) {
REQUIRE( eq( "", "" ) );
REQUIRE_FALSE( eq( "", "a" ) );
}
SECTION( "Plain comparisons" ) {
REQUIRE( eq( "a", "a" ) );
REQUIRE( eq( "a", "A" ) );
REQUIRE( eq( "A", "a" ) );
REQUIRE( eq( "A", "A" ) );
REQUIRE_FALSE( eq( "a", "b" ) );
REQUIRE_FALSE( eq( "a", "B" ) );
}
}
TEST_CASE("Optional comparison ops", "[optional][approvals]") {
using Catch::Optional;
Optional<int> a, b;
SECTION( "Empty optionals are equal" ) {
REQUIRE( a == b );
REQUIRE_FALSE( a != b );
}
SECTION( "Empty and non-empty optionals are never equal" ) {
a = 1;
REQUIRE_FALSE( a == b );
REQUIRE( a != b );
}
SECTION(
"non-empty optionals are equal if the contained elements are equal") {
a = 1;
b = 2;
REQUIRE( a != b );
REQUIRE_FALSE( a == b );
a = 2;
REQUIRE( a == b );
REQUIRE_FALSE( a != b );
}
}
namespace {
struct MoveChecker {
bool has_moved = false;
MoveChecker() = default;
MoveChecker( MoveChecker const& rhs ) = default;
MoveChecker& operator=( MoveChecker const& rhs ) = default;
MoveChecker( MoveChecker&& rhs ) noexcept { rhs.has_moved = true; }
MoveChecker& operator=( MoveChecker&& rhs ) noexcept {
rhs.has_moved = true;
return *this;
}
};
}
TEST_CASE( "Optional supports move ops", "[optional][approvals]" ) {
using Catch::Optional;
MoveChecker a;
Optional<MoveChecker> opt_A( a );
REQUIRE_FALSE( a.has_moved );
REQUIRE_FALSE( opt_A->has_moved );
SECTION( "Move construction from element" ) {
Optional<MoveChecker> opt_B( CATCH_MOVE( a ) );
REQUIRE( a.has_moved );
}
SECTION( "Move assignment from element" ) {
opt_A = CATCH_MOVE( a );
REQUIRE( a.has_moved );
}
SECTION( "Move construction from optional" ) {
Optional<MoveChecker> opt_B( CATCH_MOVE( opt_A ) );
REQUIRE( opt_A->has_moved ); // NOLINT(clang-analyzer-cplusplus.Move)
}
SECTION( "Move assignment from optional" ) {
Optional<MoveChecker> opt_B( opt_A );
REQUIRE_FALSE( opt_A->has_moved );
opt_B = CATCH_MOVE( opt_A );
REQUIRE( opt_A->has_moved ); // NOLINT(clang-analyzer-cplusplus.Move)
}
}
TEST_CASE( "Decomposer checks that the argument is 0 when handling "
"only-0-comparable types",
"[decomposition][approvals]" ) {
TypeWithLit0Comparisons t{};
CATCH_INTERNAL_START_WARNINGS_SUPPRESSION
CATCH_INTERNAL_SUPPRESS_PARENTHESES_WARNINGS
REQUIRE_THROWS( Catch::Decomposer{} <= t == 42 );
REQUIRE_THROWS( Catch::Decomposer{} <= 42 == t );
REQUIRE_NOTHROW( Catch::Decomposer{} <= t == 0 );
REQUIRE_NOTHROW( Catch::Decomposer{} <= 0 == t );
REQUIRE_THROWS( Catch::Decomposer{} <= t != 42 );
REQUIRE_THROWS( Catch::Decomposer{} <= 42 != t );
REQUIRE_NOTHROW( Catch::Decomposer{} <= t != 0 );
REQUIRE_NOTHROW( Catch::Decomposer{} <= 0 != t );
REQUIRE_THROWS( Catch::Decomposer{} <= t < 42 );
REQUIRE_THROWS( Catch::Decomposer{} <= 42 < t );
REQUIRE_NOTHROW( Catch::Decomposer{} <= t < 0 );
REQUIRE_NOTHROW( Catch::Decomposer{} <= 0 < t );
REQUIRE_THROWS( Catch::Decomposer{} <= t <= 42 );
REQUIRE_THROWS( Catch::Decomposer{} <= 42 <= t );
REQUIRE_NOTHROW( Catch::Decomposer{} <= t <= 0 );
REQUIRE_NOTHROW( Catch::Decomposer{} <= 0 <= t );
REQUIRE_THROWS( Catch::Decomposer{} <= t > 42 );
REQUIRE_THROWS( Catch::Decomposer{} <= 42 > t );
REQUIRE_NOTHROW( Catch::Decomposer{} <= t > 0 );
REQUIRE_NOTHROW( Catch::Decomposer{} <= 0 > t );
REQUIRE_THROWS( Catch::Decomposer{} <= t >= 42 );
REQUIRE_THROWS( Catch::Decomposer{} <= 42 >= t );
REQUIRE_NOTHROW( Catch::Decomposer{} <= t >= 0 );
REQUIRE_NOTHROW( Catch::Decomposer{} <= 0 >= t );
CATCH_INTERNAL_STOP_WARNINGS_SUPPRESSION
}
TEST_CASE( "foo", "[approvals][path-filters]" ) {
SECTION( "A" ) {
SECTION( "B1" ) { REQUIRE( true ); }
SECTION( "B2" ) { REQUIRE( true ); }
SECTION( "B3" ) { REQUIRE( true ); }
}
}
TEST_CASE( "bar", "[approvals][path-filters]" ) {
REQUIRE( true );
SECTION( "A" ) {
SECTION( "B1" ) { REQUIRE( true ); }
SECTION( "B2" ) { REQUIRE( true ); }
SECTION( "B3" ) { REQUIRE( true ); }
}
REQUIRE( true );
}
TEST_CASE( "baz", "[approvals][path-filters]" ) {
SECTION( "A" ) { REQUIRE( true ); }
auto _ = GENERATE( 1, 2, 3 );
(void)_;
SECTION( "B" ) { REQUIRE( true ); }
}
TEST_CASE( "qux", "[approvals][path-filters]" ) {
REQUIRE( true );
SECTION( "A" ) { REQUIRE( true ); }
auto _ = GENERATE( 1, 2, 3 );
(void)_;
SECTION( "B" ) { REQUIRE( true ); }
REQUIRE( true );
}
TEST_CASE( "corge", "[approvals][path-filters]" ) {
REQUIRE( true );
SECTION( "A" ) {
REQUIRE( true );
}
auto i = GENERATE( 1, 2, 3 );
DYNAMIC_SECTION( "i=" << i ) {
REQUIRE( true );
}
REQUIRE( true );
}
TEST_CASE( "grault", "[approvals][path-filters]" ) {
REQUIRE( true );
SECTION( "A" ) {
REQUIRE( true );
}
SECTION("B") {
auto i = GENERATE( 1, 2, 3 );
DYNAMIC_SECTION( "i=" << i ) {
REQUIRE( true );
}
}
REQUIRE( true );
}
TEST_CASE( "garply", "[approvals][path-filters]" ) {
auto i = GENERATE( 1, 10, 100 );
CAPTURE( i );
REQUIRE( true );
}
TEST_CASE( "waldo", "[approvals][path-filters]" ) {
auto i = GENERATE( 1, 10, 100 );
auto j = GENERATE( 2, 20, 200 );
CAPTURE( i, j );
REQUIRE( true );
}
TEST_CASE( "fred", "[approvals][path-filters]" ) {
REQUIRE( true );
SECTION( "A" ) {
auto _ = GENERATE( 0, 1, 2 );
(void)_;
SECTION( "A1" ) { REQUIRE( true ); }
SECTION( "A2" ) { REQUIRE( true ); }
}
SECTION( "B" ) {
auto _ = GENERATE( 0, 1, 2 );
(void)_;
SECTION( "B1" ) { REQUIRE( true ); }
SECTION( "B2" ) { REQUIRE( true ); }
}
}
// More metasyntactic names if needed: plugh, xyzzy, thud
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