Turns out that even in GCC, the expression in `__builtin_cosntant_p`
can end up evaluated and side-effects executed. To allow users to
work around this bug, I added a configuration option to disable its
use in internal macros.
Related to #2925
While isatty() is a POSIX interface and theoretically could be used
more broadly than on Linux and macOS, use a conservative approach and
use it on any platform that uses GNU libc.
In case the warning -Werror=conversion is active with GCC, the warnings
about "conversion from A to B may change value" lead to a compilation
error. This explicitly convert the values to address these warnings.
The main reason for this is to be able to distinguish between
different errors (or "errors") based on the return code. Before
this change, it was impossible to use the exit code to figure out
whether a test binary failed because all tests were skipped or
because exactly 4 assertions have failed.
This meant that using `catch_discover_tests` and telling it to
check for exit code == 4 to determine skipped tests could lead to
false negatives.
Most of these will not matter in practice due to C++14 imposing
significant limitations on what else we can make constexpr, and we cannot
have references outliving the constexpr context either way.
This rework changes two important things
1) the output redirect is deactivated while control is given to the reporters.
This means that combining reporters that write to stdout with capturing
reporters, e.g. `./tests -s -r console -r junit::out=junit.xml`, no
longer leads to the capturing reporter seeing all the output from
the other reporter captured.
Trying this with the `SelfTest` binary would previously lead to JUnit
spending **hours** trying to escape all of ConsoleReporter's output and
write it to the output file. I actually ended up killing the process
after 3 hours, during which the JUnit reporter wrote something like 50 MBs
of output to a file.
2) The redirect object's lifetime is tied to the `RunContext`, instead
of being constructed for every partial test case run separately.
This has no effect on the basic StreamRedirect, but improves the FileRedirect
significantly. Previously, running many tests in single process with this
redirect (e.g. running `SelfTest -r junit`) would cause later tests to
always fail before starting, due to exceeding the limit of temporary files.
For the current `SelfTest` binary, the old implementation would lead to
**295** test failures from not being able to initiate the redirect. The
new implementation completely eliminates them.
----
There is one downside to the new implementation of FileRedirect, specific
to Linux. Running the `SelfTest` binary on Linux causes 3-4 tests to have
no captured stdout/stderr, even though the tests were supposed to be
writing there (there was no output to the actual stdout/stderr either,
the output was just completely lost).
Since this never happen for smaller test case sets, nor does it reproduce
on other platforms, this implementation is still strictly better than
the old one, and thus it can get reasonably merged.
Move `catch_case_sensitive.hpp` from directory
`src/catch2/internal/internal` to be directly under `src/catch2/`.
Header `catch_case_sensitive.hpp` defines `enum CaseSensitive` which is
part of the public API, since it is exposed by the string matcher
contracts.
Fixes issue caught by Clang Tidy misc-include-cleaner check.
This is done by no longer requiring all assertions to be seen
by the JUnit reporter. Since the JUnit reporter never outputs
all assertions, even with `-s`, the only difference from storing
passing assertions in the `CumulativeReporterBase` was some
bookkeeping in deciding which sections are relevant to the output.
Given `TEST_CASE` that just runs many passing assertions, e.g.
```
TEST_CASE( "PERFORMANCE_TEST_CASE", "[.]" ) {
for (size_t i = 0; i < 1000'000'000; ++i) {
REQUIRE( i == i );
}
}
```
the new JUnit reporter will finish in 5:47, using up ~7.7 MB of RAM.
The old JUnit reporter would finish in 0:30, due to bad_alloc
after using up 14.5 GB of RAM (the system has 16 GB total).
If the total number of assertions is lowered to 10M, the old
implementation uses up ~7.1 GB of RAM and finishes in 12 minutes.
The new implementation still needs only ~7.7 MB of RAM, and finishes
in 4 minutes.
There is a slight downside in that the output is slightly different;
the new implementation will include the `TEST_CASE` level section
in output, even if it does not have its own assertion. In other words,
given a `TEST_CASE` like this
```
TEST_CASE( "JsonWriter", "[JSON][JsonWriter]" ) {
std::stringstream stream;
SECTION( "Newly constructed JsonWriter does nothing" ) {
Catch::JsonValueWriter writer{ stream };
REQUIRE( stream.str() == "" );
}
SECTION( "Calling writeObject will create an empty pair of braces" ) {
{ auto writer = Catch::JsonValueWriter{ stream }.writeObject(); }
REQUIRE( stream.str() == "{\n}" );
}
}
```
the new implementation will output 3 `testcase` tags, 2 for the explicit
`SECTION`s with tests, and 1 for the top level section.
However, this can be worked-around if required, and the performance
improvement is such that it is worth changing the current output,
even if it needs to be fixed in the future.
Closes#2897
This PR introduces a new `TEST_CASE` macro called `TEST_CASE_PERSISTENT_FIXTURE`. `TEST_CASE_PERSISTENT_FIXTURE` offers the same functionality as `TEST_CASE_METHOD` except for one difference. The object on which the test method is invoked is only created once for all invocations of the test case. The object is created just after the `testCaseStarting` event is broadcast and the object is destroyed just before the `testCaseEnding` event is broadcast.
The main motivation for this new functionality is to allow `TEST_CASE`s to do expensive setup and teardown once per `TEST_CASE`, without having to resort to abusing event listeners or static function variables with manual initialization.
Implements #1602
---------
Co-authored-by: Martin Hořeňovský <martin.horenovsky@gmail.com>
Technically we should be able to remove moveability as well, but
then we would need a larger surgery. This already improves the
compile times and binary sizes by a surprising amount.
Since the last time, macos-12 has fixed the toolchain's linker
crash bug, so we can update here. macos-13 has a new and exciting
bug when unwinding exceptions in binaries compiled with GCC, so
we cannot update all the way at this time.