This should improve the time it takes to run the test suite a bit. Right
now there are only a handful of headers in the modulemap because we're
missing a lot of includes in the tests. New headers should be added
there from the start, and we should fill up the modulemap over time
until it contains all the test support headers.
An LLVM 19-aligned libc++ was released with macOS 15.4 (and corresponding OSes),
and LLVM-20 aligned with macOS 26.0. This patch adds availability markup to
reflect that.
This patch contains several changes to `deallocate_size.pass.cpp`:
1. `static_cast`-ing some parameters to `size_t` to avoid narrowing.
2. Changing the type of loop variable `i` to `unsigned int` avoid
signedness mismatch with the constructor parameter.
3. Separately counting allocations and deallocations in variables
`allocated_` and `deallocated_`, and changing their type to `uint64_t`.
4. Avoiding `assert`-ing count of allocations when a `basic_string` is
allocated, just `assert`-ing after destruction instead.
Define `_LIBCPP_HAS_C8RTOMB_MBRTOC8` to `1` if compiling with clang.
Some tests involving functionality from `uchar.h`/`cuchar` fail when the
platform or the supporting C library does not provide support for the
corresponding features. These have been xfailed.
This patch will enable the adoption of newer picolibc versions.
Verify that the operation passed to resize_and_overwrite returns an
integer-like type, matching the behavior of other standard library
implementations like GCC's libstdc++
Fixes#160577
We've built up quite a few links directly to github within the code
base. We should instead use `llvm.org/PR<issue-number>` to link to bugs,
since that is resilient to the bug tracker changing in the future. This
is especially relevant for tests linking to bugs, since they will
probably be there for decades to come. A nice side effect is that these
links are significantly shorter than the GH links, making them much less
of an eyesore.
This patch also replaces a few links that linked to the old bugzilla
instance on llvm.org.
Currently, when the string shrink into the SSO buffer, the `__rep_.__s`
member isn't activated before the `traits_type::copy` call
yet, so internal `__builtin_memmove` call writing to the buffer causes
constant evaluation failure. The existing test coverage seems a bit
defective and doesn't cover this case - `shrink_to_fit` is called on the
copy of string after erasure, not the original string object.
This PR reorders the `__set_short_size` call, which starts the lifetime
of the SSO buffer, before the copy operation. Test coverage is achieved
by calling `shrink_to_fit` on the original erased string.
charN_t represent code units of different UTF encodings. Therefore the
values of 2 different charN_t objects do not represent the same
characters.
In order to avoid comparing apples and oranges, we add new warnings to
warn on:
- Implicit conversions
- Comparisons
- Other cases involving arithmetic conversions
We only produce the warning if we cannot establish the comparison would
be safe through constant evaluation.
The new `-Wimplicit-unicode-conversion` warning is enabled by default.
Note that this PR intentionally doesn;t touches char/wchar_t, but it
would be worth considering also warning on extending the new warnings to
these types (in a follow up)
Additionally most arithmetic operations on charN_t don't really make
sense (ie what does it mean to addition code units), so we could add
warnings for that.
Fixes#138526
There are currently lots of `_LIBCPP_HAS_ASAN` and
`__libcpp_is_constant_evaluated()` checks which aren't needed, since it
is centrally checked inside `__debug_utils/sanitizers.h`.
Requirements on character-like types are updated unconditionally,
because `basic_string` does requires the default-constructibility. It
might be possible to make `basic_string_view` support classes with
non-public trivial default constructor, but this doesn't seem sensible.
libcxxabi's `ItaniumDemangle.h` is also updated to avoid deprecated
features.
In 0547e573c555, I introduced backdeployment testing on macOS using
Github-provided builders. This was done by basically building libc++ on
a slightly older macOS (like macOS 13) and then running against the
system library on that machine. However, that created a dependency that
libc++ must keep working on macOS 13, which doesn't support the
latest-released Xcode.
This patch solves that problem by moving the deployment testing to a
newer version of macOS which supports the latest-released version of
Xcode.
Sadly, that also reduces the backdeployment coverage we have since we're
not actually testing on older OSes, but is necessary to satisfy the
documented libc++ support policy. In the future, we could improve the
situation by providing a Lit configuration that allows compiling (but
not running) all the tests, building the tests on a supported macOS, and
then shipping those tests on an older backdeployment target in order to
run them against the system library. Since that requires significant
engineering, this isn't done at this time.
`std::erase(_if)` for `basic_string` were made `constexpr` in C++20 by
cplusplus/draft@2c1ab9775c as follow-up
changes of P0980R1.
This patch implements the missed changes that were not tracked in a
specific paper.
Without this patch `basic_string` cannot be properly resized to be
`max_size()` elements in size, even if an allocation is successful.
`__grow_by` allocates one less element than required, resulting in an
out-of-bounds access. At the same time, `max_size()` has an off-by-one
error, since there has to be space to store the null terminator, which
is currently ignored.
The current implementation of the `shrink_to_fit()` function of
`basic_string` swaps to the newly allocated buffer when the new buffer
has the same capacity as the existing one. While this is not incorrect,
it is truly unnecessary to swap to an equally-sized buffer. With equal
capacity, we should keep using the existing buffer and simply deallocate
the new one, avoiding the extra work of copying elements.
The desired behavior was documented in the following comment within the
function:
61ad08792a/libcxx/include/string (L3560-L3566)
However, the existing implementation did not exactly conform to this
guideline, which is a QoI matter.
This PR modifies the `shrink_to_fit()` function to ensure that the
buffer is only swapped when the new allocation is strictly smaller than
the existing one. When the capacities are equal, the new buffer will be
discarded without copying the elements. This is achieved by including
the `==` check in the above conditional logic.
The capacity is now passed correctly and a test for this path is added.
Since we changed the implementation of `reserve(size_type)` to only ever
extend,
it doesn't make a ton of sense anymore to have `__shrink_or_extend`,
since the code
paths of `reserve` and `shrink_to_fit` are now almost completely
separate.
This patch splits up `__shrink_or_extend` so that the individual parts
are in `reserve`
and `shrink_to_fit` depending on where they are needed.
This reverts commit 59f57be94f38758616b1339b293b43af845571af.
By calling `std::move` for related functions when the iterator is
possibly input-only. Also slightly changes the conditions of branch for
contiguous iterators to avoid error.
Fixes#116502
These functions weren't added until API 26 (Android 8.0), but libc++ is
supported for API 21 and up.
These APIs are undeclared as of r.android.com/3216959.
This patch implements the forwarding to frozen C++03 headers as
discussed in
https://discourse.llvm.org/t/rfc-freezing-c-03-headers-in-libc. In the
RFC, we initially proposed selecting the right headers from the Clang
driver, however consensus seemed to steer towards handling this in the
library itself. This patch implements that direction.
At a high level, the changes basically amount to making each public
header look like this:
```
// inside <vector>
#ifdef _LIBCPP_CXX03_LANG
# include <__cxx03/vector>
#else
// normal <vector> content
#endif
```
In most cases, public headers are simple umbrella headers so there isn't
much code in the #else branch. In other cases, the #else branch contains
the actual implementation of the header.
The increasing_allocator<T> class, originally introduced to test shrink_to_fit()
for std::vector, std::vector<bool>, and std::basic_string, has duplicated
definitions across several test files. Given the potential utility of this
class for capacity-related tests in various sequence containers, this patch
refactors the definition of increasing_allocator<T> into a single, reusable
location.
Summary:
The GPU runs these tests using the files built from the `libc` project.
These will be placed in `include/<triple>` and `lib/<triple>`. We use
the `amdhsa-loader` and `nvptx-loader` tools, which are also provided by
`libc`. These launch a kernel called `_start` which calls `main` so we
can pretend like GPU programs are normal terminal applications.
We force serial exeuction here, because `llvm-lit` runs way too many
processes in parallel, which has a bad habit of making the GPU drivers
hang or run out of resources. This allows the compilation to be run in
parallel while the jobs themselves are serialized via a file lock.
In the future this can likely be refined to accept user specified
architectures, or better handle including the root directory by exposing
that instead of just `include/<triple>/c++/v1/`.
This currently fails ~1% of the tests on AMDGPU and ~3% of the tests on
NVPTX. This will hopefully be reduced further, and later patches can
XFAIL a lot of them once it's down to a reasonable number.
Future support will likely want to allow passing in a custom
architecture instead of simply relying on `-mcpu=native`.
Making it meet the requirements for allocator since C++11. Fixes
#113609.
This PR doesn't make it meet the C++03 allocator requirements, because
that would make the type too verbose and libc++ has backported many
C++11 features to the C++03 mode.
Drive-by: Removes the `TEST_CONSTEXPR_CXX14` on `allocate`/`dealocate`
which is never in effect (and causes IFNDR-ness before C++23), since
these functions modify the namespace-scoped variable `allocated_`.
Currently, the library-internal feature test macros are only defined if
the feature is not available, and always have the prefix
`_LIBCPP_HAS_NO_`. This patch changes that, so that they are always
defined and have the prefix `_LIBCPP_HAS_` instead. This changes the
canonical use of these macros to `#if _LIBCPP_HAS_FEATURE`, which means
that using an undefined macro (e.g. due to a missing include) is
diagnosed now. While this is rather unlikely currently, a similar change
in `<__configuration/availability.h>` caught a few bugs. This also
improves readability, since it removes the double-negation of `#ifndef
_LIBCPP_HAS_NO_FEATURE`.
The current patch only touches the macros defined in `<__config>`. If
people are happy with this approach, I'll make a follow-up PR to also
change the macros defined in `<__config_site>`.
This is regression test for #90292.
Allocator used in test is very similar to test_allocator.
However, reproducer requires size_type of the string
to be 64bit, but test_allocator uses 32bit.
32bit size_type makes `sizeof(string::__long)` to be 16,
but the alignment issue fixed with #90292 is only triggered
with default `sizeof(string::__long)` which is 24.
Fixes#92128.
---------
Co-authored-by: Louis Dionne <ldionne.2@gmail.com>
The poisoned_hash_helper header was relying on an implicit forward
declaration of std::hash located in <type_traits>. When we improve the
modularization of the library, that causes issues, in addition to being
a fundamentally non-portable assumption in the test suite.
It turns out that the reason for relying on a forward declaration is to
be able to test that std::hash is *not* provided if we don't include any
header that provides it. But testing that is actually both non-portable
and not really useful.
Indeed, what harm does it make if additional headers provide std::hash
specializations? That would certainly be conforming -- the Standard
never requires an implementation to avoid providing a declaration when a
given header is included, instead it mandates what *must* be provided
for sure. In that spirit, it would be conforming for e.g. `<cstddef>` to
define the hash specializations if that was our desire. I also don't
read https://wg21.link/P0513R0 as going against that statement. Hence,
this patch just removes that test which doesn't carry its weight.
Fixes#56938
This patch hardens the "test iterators" we use to test algorithms by
ensuring that they don't get double-moved. As a result of this
hardening, the tests started reporting multiple failures where we would
double-move iterators, which are being fixed in this patch.
In particular:
- Fixed a double-move in pstl.partition
- Add coverage for begin()/end() in subrange tests
- Fix tests for ranges::ends_with and ranges::contains, which were
incorrectly calling begin() twice on the same subrange containing
non-copyable input iterators.
Fixes#100709
This adds addressof at the required places in [input.output]. Some of
the new tests failed since string used operator& internally. These have
been fixed too.
Note the new fstream tests perform output to a basic_string instead of a
double. Using a double requires num_get specialization
num_get<CharT, istreambuf_iterator<CharT,
char_traits_operator_hijacker<CharT>>
This facet is not present in the locale database so the conversion would
fail due to a missing locale facet. Using basic_string avoids using the
locale.
As a drive-by fixes several bugs in the ofstream.cons tests. These
tested ifstream instead of ofstream with an open mode.
Implements:
- LWG3130 [input.output] needs many addressof
Closes#100246.
This implements the requirements for the container iterator requirements
for array, deque, vector, and `vector<bool>`.
Implements:
- LWG3352 strong_equality isn't a thing
Implements parts of:
- P1614R2 The Mothership has Landed
Fixes: https://github.com/llvm/llvm-project/issues/62486
~~NB: This PR depends on #78876. Ignore the first commit when reviewing,
and don't merge it until #78876 is resolved. When/if #78876 lands, I'll
clean this up.~~
This partially restores parity with the old, since removed debug build.
We now can re-enable a bunch of the disabled tests. Some things of note:
- `bounded_iter`'s converting constructor has never worked. It needs a
friend declaration to access the other `bound_iter` instantiation's
private fields.
- The old debug iterators also checked that callers did not try to
compare iterators from different objects. `bounded_iter` does not
currently do this, so I've left those disabled. However, I think we
probably should add those. See
https://github.com/llvm/llvm-project/issues/78771#issuecomment-1902999181
- The `std::vector` iterators are bounded up to capacity, not size. This
makes for a weaker safety check. This is because the STL promises not to
invalidate iterators when appending up to the capacity. Since we cannot
retroactively update all the iterators on `push_back()`, I've instead
sized it to the capacity. This is not as good, but at least will stop
the iterator from going off the end of the buffer.
There was also no test for this, so I've added one in the `std`
directory.
- `std::string` has two ambiguities to deal with. First, I opted not to
size it against the capacity. https://eel.is/c++draft/string.require#4
says iterators are invalidated on an non-const operation. Second,
whether the iterator can reach the NUL terminator. The previous debug
tests and the special-case in https://eel.is/c++draft/string.access#2
suggest no. If either of these causes widespread problems, I figure we
can revisit.
- `resize_and_overwrite.pass.cpp` assumed `std::string`'s iterator
supported `s.begin().base()`, but I see no promise of this in the
standard. GCC also doesn't support this. I fixed the test to use
`std::to_address`.
- `alignof.compile.pass.cpp`'s pointer isn't enough of a real pointer.
(It needs to satisfy `NullablePointer`, `LegacyRandomAccessIterator`,
and `LegacyContiguousIterator`.) `__bounded_iter` seems to instantiate
enough to notice. I've added a few more bits to satisfy it.
Fixes#78805
This patch removes many annotations that are not relevant anymore since
we don't support or test back-deploying to macOS < 10.13. It also cleans
up raw usage of target triples to identify versions of dylibs shipped on
prior versions of macOS, and uses the target-agnostic Lit features
instead. Finally, it reorders both the Lit backdeployment features and
the corresponding availability macros in the library in a way that makes
more sense, and reformulates the Lit backdeployment features in terms of
when a version of LLVM was introduced instead of encoding the system
versions on which it hasn't been introduced yet. Although one can be
derived from the other, encoding the negative form is extremely
error-prone.
Fixes#80901
We were not making any distinction between e.g. the "Apple-flavored"
libc++ built from trunk and the system-provided standard library on
Apple platforms. For example, any test that would be XFAILed on a
back-deployment target would unexpectedly pass when run on that
deployment target against the tip of trunk Apple-flavored libc++. In
reality, that test would be expected to pass because we're running
against the latest libc++, even if it is Apple-flavored.
To solve this issue, we introduce a new feature that describes whether
the Standard Library in use is the one provided by the system by
default, and that notion is different from the underlying standard
library flavor. We also refactor the existing Lit features to make a
distinction between availability markup and the library we're running
against at runtime, which otherwise limit the flexibility of what we can
express in the test suite. Finally, we refactor some of the
back-deployment versions that were incorrect (such as thinking that LLVM
10 was introduced in macOS 11, when in reality macOS 11 was synced with
LLVM 11).
Fixes#82107
I noticed that these tests had empty `main` functions. Dropping them and
renaming the tests to `MEOW.compile.pass.cpp` will slightly improve test
throughput.
Libc++ has no separate C++98 support, it uses C++03 instead. This
removes some obsolete c++98 markers in the test.
Thanks to @StephanTLavavej for spotting this.
A quick examination suggests that the current code in the codebase does
not lead to incorrect annotations. However, the intention is for the
object after the function to be annotated in a way that only its
contents are unpoisoned and the rest is poisoned. This commit makes it
explicit and avoids potential issues in future.
In addition, I have implemented a few tests for a function that helped
me identify the specific argument value.
Notice: there is no known scenario where old code results in incorrect
annotation.
Unconditionally change std::string's alignment to 8.
This change saves memory by providing the allocator more freedom to
allocate the most
efficient size class by dropping the alignment requirements for
std::string's
pointer from 16 to 8. This changes the output of std::string::max_size,
which makes it ABI breaking.
That said, the discussion concluded that we don't care about this ABI
break. and would like this change enabled universally.
The ABI break isn't one of layout or "class size", but rather the value
of "max_size()" changes, which in turn changes whether `std::bad_alloc`
or `std::length_error` is thrown for large allocations.
This change is the child of PR #68807, which enabled the change behind
an ABI flag.