This uses [teyit](https://pypi.org/project/teyit/) to modernize asserts,
as recommended by the [unittest release
notes](https://docs.python.org/3.12/whatsnew/3.12.html#id3).
For example, `assertTrue(a == b)` is replaced with `assertEqual(a, b)`.
This produces better error messages, e.g. `error: unexpectedly found 1
and 2 to be different` instead of `error: False`.
This formatter
https://github.com/llvm/llvm-project/pull/78609
was originally passing the signed seconds (which can refer to times in
the past) with an unsigned printf formatter, and had tests that expected
to see negative values from the printf which always failed on macOS. I'm
not clear how they ever passed on any platform.
Fix the printf to print seconds as a signed value, and re-enable the
tests.
On macOS, the formatter is printing signed values as
unsigned, it seems, and the tests are expecting correctly
signed values. These tests were added in
https://github.com/llvm/llvm-project/pull/78609
This is a followup of #76983 and adds the libc++ data formatters for
- weekday,
- weekday_indexed,
- weekday_last,
- month_weekday,
- month_weekday_last,
- year_month,
- year_month_day_last
- year_month_weekday, and
- year_month_weekday_last.
This adds a subset of the C++20 calendar data formatters:
- day,
- month,
- year,
- month_day,
- month_day_last, and
- year_month_day.
A followup patch will add the missing calendar data formatters:
- weekday,
- weekday_indexed,
- weekday_last,
- month_weekday,
- month_weekday_last,
- year_month,
- year_month_day_last
- year_month_weekday, and
- year_month_weekday_last.
These tests were failing on the LLDB public matrix build-bots for older
clang versions:
```
clang-7: warning: argument unused during compilation: '-nostdlib++' [-Wunused-command-line-argument]
error: invalid value 'c++20' in '-std=c++20'
note: use 'c++98' or 'c++03' for 'ISO C++ 1998 with amendments' standard
note: use 'gnu++98' or 'gnu++03' for 'ISO C++ 1998 with amendments and GNU extensions' standard
note: use 'c++11' for 'ISO C++ 2011 with amendments' standard
note: use 'gnu++11' for 'ISO C++ 2011 with amendments and GNU extensions' standard
note: use 'c++14' for 'ISO C++ 2014 with amendments' standard
note: use 'gnu++14' for 'ISO C++ 2014 with amendments and GNU extensions' standard
note: use 'c++17' for 'ISO C++ 2017 with amendments' standard
note: use 'gnu++17' for 'ISO C++ 2017 with amendments and GNU extensions' standard
note: use 'c++2a' for 'Working draft for ISO C++ 2020' standard
note: use 'gnu++2a' for 'Working draft for ISO C++ 2020 with GNU extensions' standard
make: *** [main.o] Error 1
```
The test fails because we try to compile it with `-std=c++20` (which is
required for std::chrono::{days,weeks,months,years}) on clang versions
that don't support the `-std=c++20` flag.
We could change the test to conditionally compile the C++20 parts of the
test based on the `-std=` flag and have two versions of the python
tests, one for the C++11 chrono features and one for the C++20 features.
This patch instead just disables the test on older clang versions
(because it's simpler and we don't really lose important coverage).
(motivated by test failures after D157058)
With D157058 the base template for `std::char_traits` was removed from
libc++. Quoting the release notes:
```
The base template for ``std::char_traits`` has been removed. If you are using
``std::char_traits`` with types other than ``char``, ``wchar_t``, ``char8_t``,
``char16_t``, ``char32_t`` or a custom character type for which you
specialized ``std::char_traits``, your code will no longer work.
```
This patch simply removes all such instantiations to make sure the
tests that run against the latest libc++ version pass.
One could try testing the existence of this base template from within
the test source files but this doesn't seem like something we want
support.
Differential Revision: https://reviews.llvm.org/D157636
This is an ongoing series of commits that are reformatting our Python
code. Reformatting is done with `black` (23.1.0).
If you end up having problems merging this commit because you have made
changes to a python file, the best way to handle that is to run `git
checkout --ours <yourfile>` and then reformat it with black.
RFC: https://discourse.llvm.org/t/rfc-document-and-standardize-python-code-style
Differential revision: https://reviews.llvm.org/D151460
The unique_ptr prettyprinter calls `GetValueOfLibCXXCompressedPair`,
which looks for a `__value_` child. However, when the second value in
the compressed pair is not an empty class, there are two `__value_`
children because `__compressed_pair` derives twice from
`__compressed_pair_elem`, one for each member of the pair. And then the
lookup fails because it's ambiguous.
This patch makes the following changes:
- Rename `GetValueOfLibCXXCompressedPair` to
`GetFirstValueOfLibCXXCompressedPair`, and add a similar function to
get the second value. Put both functions in
Plugin/Language/CPlusPlus/LibCxx.cpp because it seems inappropriate to
have libcxx-specific helpers separate from all the libcxx-dependent
code.
- Read the second value of the `__ptr_` pair and display a "deleter"
child in the unique_ptr synthetic child provider, when available.
- Add a test case for the non-empty deleter case.
Differential Revision: https://reviews.llvm.org/D148662
(Addresses GH#62153)
The `SBType` APIs to retrieve details about template arguments,
such as `GetTemplateArgumentType` or `GetTemplateArgumentKind`
don't "desugar" LValueReferences/RValueReferences or pointers.
So when we try to format a `std::deque&`, the python call to
`GetTemplateArgumentType` fails to get a type, leading to
an `element_size` of `0` and a division-by-zero python exception
(which gets caught by the summary provider silently). This leads
to the contents of such `std::deque&` to be printed incorrectly.
This patch dereferences the reference/pointer before calling
into the above SBAPIs.
**Testing**
* Add API test
Differential Revision: https://reviews.llvm.org/D148531
With this patch, whenever we emit a `DW_AT_type` for some declaration
and the type is a template class with a `clang::PreferredNameAttr`, we
will emit the typedef that the attribute refers to instead. I.e.,
```
0x123 DW_TAG_variable
DW_AT_name "var"
DW_AT_type (0x123 "basic_string<char>")
0x124 DW_TAG_structure_type
DW_AT_name "basic_string<char>"
```
...becomes
```
0x123 DW_TAG_variable
DW_AT_name "var"
DW_AT_type (0x124 "std::string")
0x124 DW_TAG_structure_type
DW_AT_name "basic_string<char>"
0x125 DW_TAG_typedef
DW_AT_name "std::string"
DW_AT_type (0x124 "basic_string<char>")
```
We do this by returning the preferred name typedef `DIType` when
we create a structure definition. In some cases, e.g., with `-gmodules`,
we don't complete the structure definition immediately but do so later
via `completeClassData`, which overwrites the `TypeCache`. In such cases
we don't actually want to rewrite the cache with the preferred name. We
handle this by returning both the definition and the preferred typedef
from `CreateTypeDefinition` and let the callee decide what to do with
it.
Essentially we set up the types as:
```
TypeCache[Record] => DICompositeType
ReplaceMap[Record] => DIDerivedType(baseType: DICompositeType)
```
For now we keep this behind LLDB tuning.
**Testing**
- Added clang unit-test
- `check-llvm`, `check-clang` pass
- Confirmed that this change correctly repoints
`basic_string` references in some of my test programs.
- Will add follow-up LLDB API tests
Differential Revision: https://reviews.llvm.org/D145803
**Summary**
The compiler version check wouldn't make sense for non-GCC
compilers, so check for the compiler too.
Differential Revision: https://reviews.llvm.org/D143656
Set compiler_versions on these tests, as they fail if tested on lower compiler
versions versions.
Differential Revision: https://reviews.llvm.org/D142513
In API tests, replace use of the `p` alias with the `expression` command.
To avoid conflating tests of the alias with tests of the expression command,
this patch canonicalizes to the use `expression`.
Differential Revision: https://reviews.llvm.org/D141539
This data formatter should print "No Value" if a variant is unset. It does so by checking if `__index` has a value of `-1`, however it does so by interpreting it as a signed int.
By default, `__index` has type `unsigned int`. When `_LIBCPP_ABI_VARIANT_INDEX_TYPE_OPTIMIZATION` is enabled, the type of `__index` is either `unsigned char`, `unsigned short`, or `unsigned int`, depending on how many fields there are -- as small as possible. For example, when `std::variant` has only a few types, the index type is `unsigned char`, and the npos value will be interpreted by LLDB as `255` when it should be `-1`.
This change does not special case the variant optimization; it just reads the type instead of assuming it's `unsigned int`.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D138892
This patch adds a formatter for `std::ranges::ref_view<T>`.
It simply holds a `T*`, so all this formatter does is dereference
this pointer and format it as `T` would be.
**Testing**
* Added API tests
Differential Revision: https://reviews.llvm.org/D138558
The libc++ data formatter for `std::shared_ptr` allows any namespace, but the test asserts that it must be the default `__1` namespace. Relax the regex to allow anything that looks like `__.*` (although we use `__[^:]*` so we don't match arbitrarily long text).
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D129898
The layout is essentially just reversed from the stable std::string layout.
Reviewed By: labath
Differential Revision: https://reviews.llvm.org/D138850
These tests started failing on green dragon after a configuration change that compiles tests using the just-built libcxx. We may need to force the system libcxx here, or change LLDB to import the std module from the just-built libcxx, too.
This patch adds support for formatting `std::map::const_iterator`.
It's just a matter of adding `const_` to the existing regex.
**Testing**
* Added test case to existing API tests
Differential Revision: https://reviews.llvm.org/D129962
This patch adds a formatter for libcxx's `std::unordered_map` iterators.
The implementation follows a similar appraoch to the `std::map` iterator
formatter. I was hesistant about coupling the two into a common
implementation since the libcxx layouts might change for one of the
the containers but not the other.
All `std::unordered_map` iterators are covered with this patch:
1. const/non-const key/value iterators
2. const/non-const bucket iterators
Note that, we currently don't have a formatter for `std::unordered_map`.
This patch doesn't change that, we merely add support for its iterators,
because that's what Xcode users requested. One can still see contents
of `std::unordered_map`, whereas with iterators it's less ergonomic.
**Testing**
* Added API test
Differential Revision: https://reviews.llvm.org/D129364
Checking whether a formatter change does not break some of the supported
string layouts is difficult because it requires tracking down and/or
building different versions and build configurations of the library.
The purpose of this patch is to avoid that by providing an in-tree
simulation of the string class. It is a reduced version of the real
string class, obtained by elimitating all non-trivial code, leaving
just the internal data structures used by the data formatter. Different
versions of the class can be simulated through preprocessor defines.
The test (ab)uses the fact that our formatters kick in for any
double-underscore sub-namespace of `std`, so it avoids colliding with
the real string class by declaring the test class in the std::__lldb
namespace.
I do not consider this to be a replacement for the existing data
formatter tests, as producing this kind of a test is not trivial, and it
is easy to make a mistake in the process. However, it's also not
realistic to expect that every person changing the data formatter will
test it against all versions of the real class, so I think it can be
useful as a first line of defence.
Adding support for new layouts can become particularly unwieldy, but
this complexity will also be reflected in the actual code, so if we find
ourselves needing to support too many variants, we may need to start
dropping support for old ones, or come up with a completely different
strategy.
Differential Revision: https://reviews.llvm.org/D124155
Eliminate boilerplate of having each test manually assign to `mydir` by calling
`compute_mydir` in lldbtest.py.
Differential Revision: https://reviews.llvm.org/D128077
This patch adds a libcxx formatter for std::span. The
implementation is based on the libcxx formatter for
std::vector. The main difference is the fact that
std::span conditionally has a __size member based
on whether it has a static or dynamic extent.
Example output of formatted span:
(std::span<const int, 18446744073709551615>) $0 = size=6 {
[0] = 0
[1] = 1
[2] = 2
[3] = 3
[4] = 4
[5] = 5
}
The second template parameter here is actually std::dynamic_extent,
but the type declaration we get back from the TypeSystemClang is the
actual value (which in this case is (size_t)-1). This is consistent
with diagnostics from clang, which doesn't desugar this value either.
E.g.,:
span.cpp:30:31: error: implicit instantiation of undefined template
'Undefined<std::span<int, 18446744073709551615>>'
Testing:
Added API-tests
Confirmed manually using LLDB cli that printing spans works in various scenarios
Patch by Michael Buch!
Differential Revision: https://reviews.llvm.org/D127481
string points to unaccessible memory.
The formatter tries to get the data field of the std::string, and to
check whether that fails it just checks that the ValueObjectSP
returned is not empty. But we never return empty ValueObjectSP's to
indicate failure, since doing so would lose the Error object that
tells you why fetching the ValueObject failed.
This patch adds a check for ValueObject::GetError().Success().
I also added a test case for this failure, and reworked the test case
a bit (to use run_to_source_breakpoint). I also renamed a couple of
single letter locals which don't follow the lldb coding conventions.
Differential Revision: https://reviews.llvm.org/D108228
When printing a std::string_view, print the referenced string as the
summary. Support string_view, u32string_view, u16string_view and
wstring_view, as we do for std::string and friends.
This is based on the existing fomratter for std::string, and just
extracts the data and length members, pushing them through the existing
string formatter.
In testing this, a "FIXME" was corrected for printing of non-ASCII empty
values. Previously, the "u", 'U" etc. prefixes were not printed for
basic_string<> types that were not char. This is trivial to resolve by
printing the prefix before the "".
Differential revision: https://reviews.llvm.org/D112222
This reverts commit 640beb38e7.
That commit caused performance degradtion in Quicksilver test QS:sGPU and a functional test failure in (rocPRIM rocprim.device_segmented_radix_sort).
Reverting until we have a better solution to s_cselect_b64 codegen cleanup
Change-Id: Ibf8e397df94001f248fba609f072088a46abae08
Reviewed By: kzhuravl
Differential Revision: https://reviews.llvm.org/D115960
Change-Id: Id169459ce4dfffa857d5645a0af50b0063ce1105
This adds the formatters for libstdcpp's deque as a python
implementation. It adds comprehensive tests for the two different
storage strategies deque uses. Besides that, this fixes a couple of bugs
in the libcxx implementation. Finally, both implementation run against
the same tests.
This is a minor improvement on top of Danil Stefaniuc's formatter.
This diff is adding the capping_size determination for the list and forward list, to limit the number of children to be displayed. Also it modifies and unifies tests for libcxx and libstdcpp list data formatter.
Reviewed By: wallace
Differential Revision: https://reviews.llvm.org/D114433
