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Catch2/tests/SelfTest/IntrospectiveTests/PartTracker.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_test_case_tracker.hpp>
#include <catch2/internal/catch_path_filter.hpp>
using namespace Catch;
namespace {
Catch::TestCaseTracking::NameAndLocationRef makeNAL( StringRef name ) {
return Catch::TestCaseTracking::NameAndLocationRef( name, Catch::SourceLineInfo("",0) );
}
}
TEST_CASE( "Tracker" ) {
TrackerContext ctx;
ITracker& root = ctx.startRun();
std::vector<PathFilter> dummyFilters;
root.setFilters( &dummyFilters, false );
ctx.startCycle();
ITracker& testCase = SectionTracker::acquire( ctx, makeNAL( "Testcase" ) );
REQUIRE( testCase.isOpen() );
ITracker& s1 = SectionTracker::acquire( ctx, makeNAL( "S1" ) );
REQUIRE( s1.isOpen() );
SECTION( "successfully close one section" ) {
s1.close();
REQUIRE( s1.isSuccessfullyCompleted() );
REQUIRE( testCase.isComplete() == false );
testCase.close();
REQUIRE( ctx.completedCycle() );
REQUIRE( testCase.isSuccessfullyCompleted() );
}
SECTION( "fail one section" ) {
s1.fail();
REQUIRE( s1.isComplete() );
REQUIRE( s1.isSuccessfullyCompleted() == false );
REQUIRE( testCase.isComplete() == false );
testCase.close();
REQUIRE( ctx.completedCycle() );
REQUIRE( testCase.isSuccessfullyCompleted() == false );
SECTION( "re-enter after failed section" ) {
ctx.startCycle();
ITracker& testCase2 = SectionTracker::acquire( ctx, makeNAL( "Testcase" ) );
REQUIRE( testCase2.isOpen() );
ITracker& s1b = SectionTracker::acquire( ctx, makeNAL( "S1" ) );
REQUIRE( s1b.isOpen() == false );
testCase2.close();
REQUIRE( ctx.completedCycle() );
REQUIRE( testCase.isComplete() );
REQUIRE( testCase.isSuccessfullyCompleted() );
}
SECTION( "re-enter after failed section and find next section" ) {
ctx.startCycle();
ITracker& testCase2 = SectionTracker::acquire( ctx, makeNAL( "Testcase" ) );
REQUIRE( testCase2.isOpen() );
ITracker& s1b = SectionTracker::acquire( ctx, makeNAL( "S1" ) );
REQUIRE( s1b.isOpen() == false );
ITracker& s2 = SectionTracker::acquire( ctx, makeNAL( "S2" ) );
REQUIRE( s2.isOpen() );
s2.close();
REQUIRE( ctx.completedCycle() );
testCase2.close();
REQUIRE( testCase.isComplete() );
REQUIRE( testCase.isSuccessfullyCompleted() );
}
}
SECTION( "successfully close one section, then find another" ) {
s1.close();
ITracker& s2 = SectionTracker::acquire( ctx, makeNAL( "S2" ) );
REQUIRE( s2.isOpen() == false );
testCase.close();
REQUIRE( testCase.isComplete() == false );
SECTION( "Re-enter - skips S1 and enters S2" ) {
ctx.startCycle();
ITracker& testCase2 = SectionTracker::acquire( ctx, makeNAL( "Testcase" ) );
REQUIRE( testCase2.isOpen() );
ITracker& s1b = SectionTracker::acquire( ctx, makeNAL( "S1" ) );
REQUIRE( s1b.isOpen() == false );
ITracker& s2b = SectionTracker::acquire( ctx, makeNAL( "S2" ) );
REQUIRE( s2b.isOpen() );
REQUIRE( ctx.completedCycle() == false );
SECTION ("Successfully close S2") {
s2b.close();
REQUIRE( ctx.completedCycle() );
REQUIRE( s2b.isSuccessfullyCompleted() );
REQUIRE( testCase2.isComplete() == false );
testCase2.close();
REQUIRE( testCase2.isSuccessfullyCompleted() );
}
SECTION ("fail S2") {
s2b.fail();
REQUIRE( ctx.completedCycle() );
REQUIRE( s2b.isComplete() );
REQUIRE( s2b.isSuccessfullyCompleted() == false );
testCase2.close();
REQUIRE( testCase2.isSuccessfullyCompleted() == false );
// Need a final cycle
ctx.startCycle();
ITracker& testCase3 = SectionTracker::acquire( ctx, makeNAL( "Testcase" ) );
REQUIRE( testCase3.isOpen() );
ITracker& s1c = SectionTracker::acquire( ctx, makeNAL( "S1" ) );
REQUIRE( s1c.isOpen() == false );
ITracker& s2c = SectionTracker::acquire( ctx, makeNAL( "S2" ) );
REQUIRE( s2c.isOpen() == false );
testCase3.close();
REQUIRE( testCase3.isSuccessfullyCompleted() );
}
}
}
SECTION( "open a nested section" ) {
ITracker& s2 = SectionTracker::acquire( ctx, makeNAL( "S2" ) );
REQUIRE( s2.isOpen() );
s2.close();
REQUIRE( s2.isComplete() );
REQUIRE( s1.isComplete() == false );
s1.close();
REQUIRE( s1.isComplete() );
REQUIRE( testCase.isComplete() == false );
testCase.close();
REQUIRE( testCase.isComplete() );
}
}
static bool previouslyRun = false;
static bool previouslyRunNested = false;
TEST_CASE( "#1394", "[.][approvals][tracker]" ) {
// -- Don't re-run after specified section is done
REQUIRE(previouslyRun == false);
SECTION( "RunSection" ) {
previouslyRun = true;
}
SECTION( "SkipSection" ) {
// cause an error if this section is called because it shouldn't be
REQUIRE(1 == 0);
}
}
TEST_CASE( "#1394 nested", "[.][approvals][tracker]" ) {
REQUIRE(previouslyRunNested == false);
SECTION( "NestedRunSection" ) {
SECTION( "s1" ) {
previouslyRunNested = true;
}
}
SECTION( "NestedSkipSection" ) {
// cause an error if this section is called because it shouldn't be
REQUIRE(1 == 0);
}
}
// Selecting a "not last" section inside a test case via -c "section" would
// previously only run the first subsection, instead of running all of them.
// This allows us to check that `"#1670 regression check" -c A` leads to
// 2 successful assertions.
TEST_CASE("#1670 regression check", "[.approvals][tracker]") {
SECTION("A") {
SECTION("1") SUCCEED();
SECTION("2") SUCCEED();
}
SECTION("B") {
SECTION("1") SUCCEED();
SECTION("2") SUCCEED();
}
}
// #1938 required a rework on how generator tracking works, so that `GENERATE`
// supports being sandwiched between two `SECTION`s. The following tests check
// various other scenarios through checking output in approval tests.
TEST_CASE("#1938 - GENERATE after a section", "[.][regression][generators]") {
SECTION("A") {
SUCCEED("A");
}
auto m = GENERATE(1, 2, 3);
SECTION("B") {
REQUIRE(m);
}
}
TEST_CASE("#1938 - flat generate", "[.][regression][generators]") {
auto m = GENERATE(1, 2, 3);
REQUIRE(m);
}
TEST_CASE("#1938 - nested generate", "[.][regression][generators]") {
auto m = GENERATE(1, 2, 3);
auto n = GENERATE(1, 2, 3);
REQUIRE(m);
REQUIRE(n);
}
TEST_CASE("#1938 - mixed sections and generates", "[.][regression][generators]") {
auto i = GENERATE(1, 2);
SECTION("A") {
SUCCEED("A");
}
auto j = GENERATE(3, 4);
SECTION("B") {
SUCCEED("B");
}
auto k = GENERATE(5, 6);
CAPTURE(i, j, k);
SUCCEED();
}
TEST_CASE("#1938 - Section followed by flat generate", "[.][regression][generators]") {
SECTION("A") {
REQUIRE(1);
}
auto m = GENERATE(2, 3);
REQUIRE(m);
}
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