This patch fixes libstdc++ data formatter for reference/pointer to std::string.
The failure testcases are added which succeed with the patch.
Differential Revision: https://reviews.llvm.org/D150313
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
This patch allows users to evaluate expressions using
`expr -l c++20`. Currently DWARF keeps the CU's at
`DW_AT_language` at `DW_LANG_C_plus_plus_14` even
when compiling with `-std=c++20`. So even in "C++20
programs" expression evaluation will by default be
performed in `C++11` mode for now.
Enabling `C++14` has been previously attempted at
https://reviews.llvm.org/D80308
There are some remaining issues around evaluating C++20
expressions. Mainly, lack of support for C++20 AST nodes in
`clang::ASTImporter`. But these can be addressed in follow-up
patches.
All of these functions take a ConstString for the type_name,
but this isn't really needed for two reasons:
1.) This parameter is always constructed from a static c-string
constant.
2.) They are passed along to to `AddTypeSummary` as a StringRef anyway.
Differential Revision: https://reviews.llvm.org/D148050
Move responsibility of providing the instance variable name (`this`, `self`) from
`TypeSystem` to `Language`.
`Language` the natural place for this, but also has downstream benefits. Some languages
have multiple `TypeSystem` implementations (ex Swift), and by placing this logic in the
`Language`, redundancy is avoided.
This change relies on the tests from D145348 and D146320.
Differential Revision: https://reviews.llvm.org/D146548
With this patch member-function pointers are formatted using
`CXXFunctionPointerSummaryProvider`.
This turns,
```
(lldb) v pointer_to_member_func
(void (Foo::*)()) ::pointer_to_member_func = 0x00000000000000000000000100003f94
```
into
```
(lldb) v pointer_to_member_func
(void (Foo::*)()) ::pointer_to_member_func = 0x00000000000000000000000100003f94 (a.out`Foo::member_func() at main.cpp:3)
```
Differential Revision: https://reviews.llvm.org/D145242
With this patch member-function pointers are formatted using
`CXXFunctionPointerSummaryProvider`.
This turns,
```
(lldb) v pointer_to_member_func
(void (Foo::*)()) ::pointer_to_member_func = 0x00000000000000000000000100003f94
```
into
```
(lldb) v pointer_to_member_func
(void (Foo::*)()) ::pointer_to_member_func = 0x00000000000000000000000100003f94 (a.out`Foo::member_func() at main.cpp:3)
```
Differential Revision: https://reviews.llvm.org/D145242
The pretty printer for `std::coroutine_handle` was running into
> Assertion failed: (target_ctx != source_ctx && "Can't import into itself")
from ClangASTImporter.h, line 270.
This commit fixes the issue by removing the `CopyType` call from the
pretty printer. While this call was necessary in the past, it seems to
be no longer required, at least all test cases are still passing. Maybe
something changed in the meantime around the handling of `TypesystemClang`
instances. I don't quite understand why `CopyType` was necessary earlier.
I am not sure how to add a regression test for this, though. It seems
the issue is already triggered by the exising `TestCoroutineHandle.py`,
but API tests seem to ignore all violations of `lldbassert` and still
report the test as "passed", even if assertions were triggered
Differential Revision: https://reviews.llvm.org/D143127
So far, the pretty printer for `std::coroutine_handle` internally
dereferenced the contained frame pointer displayed the `promise`
as a sub-value. As noticed in https://reviews.llvm.org/D132624
by @labath, this can lead to an endless loop in lldb during printing
if the coroutine frame pointers form a cycle.
This commit breaks the cycle by exposing the `promise` as a pointer
type instead of a value type. The depth to which the `frame variable`
and the `expression` commands dereference those pointers can be
controlled using the `--ptr-depth` argument.
Differential Revision: https://reviews.llvm.org/D132815
The current interface theoretically could lead to a use-after-free
when a client holds on to the returned pointer. Fix this by returning
a shared_ptr to the scratch typesystem.
rdar://103619233
Differential Revision: https://reviews.llvm.org/D141100
std::optional::value() has undesired exception checking semantics and is
unavailable in older Xcode (see _LIBCPP_AVAILABILITY_BAD_OPTIONAL_ACCESS). The
call sites block std::optional migration.
std::optional::value() has undesired exception checking semantics and is
unavailable in some older Xcode. The call sites block std::optional migration.
This patch mechanically replaces None with std::nullopt where the
compiler would warn if None were deprecated. The intent is to reduce
the amount of manual work required in migrating from Optional to
std::optional.
This is part of an effort to migrate from llvm::Optional to
std::optional:
https://discourse.llvm.org/t/deprecating-llvm-optional-x-hasvalue-getvalue-getvalueor/63716
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
This reverts commit 4346318f5c.
This test case is failing on macOS, reverting until it can be
looked at more closely to unblock the macOS CI bots.
```
File "/Volumes/work/llvm/llvm-project/lldb/test/API/functionalities/data-formatter/data-formatter-stl/generic/coroutine_handle/TestCoroutineHandle.py", line 121, in test_libcpp
self.do_test(USE_LIBCPP)
File "/Volumes/work/llvm/llvm-project/lldb/test/API/functionalities/data-formatter/data-formatter-stl/generic/coroutine_handle/TestCoroutineHandle.py", line 45, in do_test
self.expect_expr("noop_hdl",
File "/Volumes/work/llvm/llvm-project/lldb/packages/Python/lldbsuite/test/lldbtest.py", line 2441, in expect_expr
value_check.check_value(self, eval_result, str(eval_result))
File "/Volumes/work/llvm/llvm-project/lldb/packages/Python/lldbsuite/test/lldbtest.py", line 306, in check_value
test_base.assertEqual(self.expect_summary, val.GetSummary(),
AssertionError: 'noop_coroutine' != 'coro frame = 0x100004058'
- noop_coroutine+ coro frame = 0x100004058 : (std::coroutine_handle<void>) $1 = coro frame = 0x100004058 {
resume = 0x0000000100003344 (a.out`___lldb_unnamed_symbol223)
destroy = 0x0000000100003344 (a.out`___lldb_unnamed_symbol223)
}
Checking SBValue: (std::coroutine_handle<void>) $1 = coro frame = 0x100004058 {
resume = 0x0000000100003344 (a.out`___lldb_unnamed_symbol223)
destroy = 0x0000000100003344 (a.out`___lldb_unnamed_symbol223)
}
```
Those lldb_unnamed_symbols are synthetic names that ObjectFileMachO
adds to the symbol table, most often seen with stripped binaries,
based off of the function start addresses for all the functions -
if a function has no symbol name, lldb adds one of these names.
This change was originally landed via https://reviews.llvm.org/D132624
This reverts commit cd3091a88f.
This change crashes on macOS systems in
formatters::StdlibCoroutineHandleSyntheticFrontEnd when
it fails to create the `ValueObjectSP promise` and calls
a method on it. The failure causes a segfault while running
TestCoroutineHandle.py on the "LLDB Incremental" CI bot,
https://green.lab.llvm.org/green/view/LLDB/job/lldb-cmake/
This change originally landed via https://reviews.llvm.org/D132815
So far, the pretty printer for `std::coroutine_handle` internally
dereferenced the contained frame pointer displayed the `promise`
as a sub-value. As noticed in https://reviews.llvm.org/D132624
by @labath, this can lead to an endless loop in lldb during printing
if the coroutine frame pointers form a cycle.
This commit breaks the cycle by exposing the `promise` as a pointer
type instead of a value type. The depth to which the `frame variable`
and the `expression` commands dereference those pointers can be
controlled using the `--ptr-depth` argument.
Differential Revision: https://reviews.llvm.org/D132815
With this commit, the `std::coroutine_handle` pretty printer now
recognizes `std::noop_coroutine()` handles. For noop coroutine handles,
we identify use the summary string `noop_coroutine` and we don't print
children
Instead of
```
(std::coroutine_handle<void>) $3 = coro frame = 0x555555559058 {
resume = 0x00005555555564f0 (a.out`std::__1::coroutine_handle<std::__1::noop_coroutine_promise>::__noop_coroutine_frame_ty_::__dummy_resume_destroy_func() at noop_coroutine_handle.h:79)
destroy = 0x00005555555564f0 (a.out`std::__1::coroutine_handle<std::__1::noop_coroutine_promise>::__noop_coroutine_frame_ty_::__dummy_resume_destroy_func() at noop_coroutine_handle.h:79)
}
```
we now print
```
(std::coroutine_handle<void>) $3 = noop_coroutine
```
Differential Revision: https://reviews.llvm.org/D132735
The original commit was missing a `ClangASTImporter::CopyType` call.
Original commit message:
This commit teaches the `std::coroutine_handle` pretty-printer to
devirtualize type-erased promise types. This is particularly useful to
resonstruct call stacks, either of asynchronous control flow or of
recursive invocations of `std::generator`. For the example recently
introduced by https://reviews.llvm.org/D132451, printing the `__promise`
variable now shows
```
(std::__coroutine_traits_sfinae<task, void>::promise_type) __promise = {
continuation = coro frame = 0x555555562430 {
resume = 0x0000555555556310 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555556700 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
promise = {
continuation = coro frame = 0x5555555623e0 {
resume = 0x0000555555557070 (a.out`task detail::chain_fn<2>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555557460 (a.out`task detail::chain_fn<2>() at llvm-nested-example.cpp:66)
promise = {
...
}
}
result = 0
}
}
result = 0
}
```
(shortened to keep the commit message readable) instead of
```
(std::__coroutine_traits_sfinae<task, void>::promise_type) __promise = {
continuation = coro frame = 0x555555562430 {
resume = 0x0000555555556310 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555556700 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
}
result = 0
}
```
Note how the new debug output reveals the complete asynchronous call
stack: our own function resumes `chain_fn<1>` which in turn will resume
`chain_fn<2>` and so on. Thereby this change allows users of lldb to
inspect the logical coroutine call stack without using any custom debug
scripts (although the display is still a bit clumsy. It would be nicer
to also integrate this into lldb's backtrace feature, but I don't know
how to do so)
The devirtualization currently works by introspecting the function
pointed to by the `destroy` pointer. (The `resume` pointer is not worth
much, given that for the final suspend point `resume` is set to a
nullptr. We have to use the `destroy` pointer instead.) We then look
for a `__promise` variable inside the `destroy` function. This
`__promise` variable is synthetically generated by LLVM, and looking at
its type reveals the type-erased promise_type.
This approach only works for clang-generated code, though. While gcc
also adds a `_Coro_promise` variable to the `resume` function, it does
not do so for the `destroy` function. However, we can't use the `resume`
function, as it will be reset to a nullptr at the final suspension
point. For the time being, I am happy with de-virtualization only working
for clang. A follow-up commit will further improve devirtualization and
also expose the variables spilled to the coroutine frame. As part of
this, I will also revisit gcc support.
Differential Revision: https://reviews.llvm.org/D132624
When a process gets restarted TypeSystem objects associated with it
may get deleted, and any CompilerType objects holding on to a
reference to that type system are a use-after-free in waiting. Because
of the SBAPI, we don't have tight control over where CompilerTypes go
and when they are used. This is particularly a problem in the Swift
plugin, where the scratch TypeSystem can be restarted while the
process is still running. The Swift plugin has a lock to prevent
abuse, but where there's a lock there can be bugs.
This patch changes CompilerType to store a std::weak_ptr<TypeSystem>.
Most of the std::weak_ptr<TypeSystem>* uglyness is hidden by
introducing a wrapper class CompilerType::WrappedTypeSystem that has a
dyn_cast_or_null() method. The only sites that need to know about the
weak pointer implementation detail are the ones that deal with
creating TypeSystems.
rdar://101505232
Differential Revision: https://reviews.llvm.org/D136650
Follow up to D117383, fixing the assumption that libc++ always uses `__1` as
its inline namespace name.
Reviewed By: rupprecht
Differential Revision: https://reviews.llvm.org/D133259
This commit teaches the `std::coroutine_handle` pretty-printer to
devirtualize type-erased promise types. This is particularly useful to
resonstruct call stacks, either of asynchronous control flow or of
recursive invocations of `std::generator`. For the example recently
introduced by https://reviews.llvm.org/D132451, printing the `__promise`
variable now shows
```
(std::__coroutine_traits_sfinae<task, void>::promise_type) __promise = {
continuation = coro frame = 0x555555562430 {
resume = 0x0000555555556310 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555556700 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
promise = {
continuation = coro frame = 0x5555555623e0 {
resume = 0x0000555555557070 (a.out`task detail::chain_fn<2>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555557460 (a.out`task detail::chain_fn<2>() at llvm-nested-example.cpp:66)
promise = {
...
}
}
result = 0
}
}
result = 0
}
```
(shortened to keep the commit message readable) instead of
```
(std::__coroutine_traits_sfinae<task, void>::promise_type) __promise = {
continuation = coro frame = 0x555555562430 {
resume = 0x0000555555556310 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
destroy = 0x0000555555556700 (a.out`task detail::chain_fn<1>() at llvm-nested-example.cpp:66)
}
result = 0
}
```
Note how the new debug output reveals the complete asynchronous call
stack: our own function resumes `chain_fn<1>` which in turn will resume
`chain_fn<2>` and so on. Thereby this change allows users of lldb to
inspect the logical coroutine call stack without using any custom debug
scripts (although the display is still a bit clumsy. It would be nicer
to also integrate this into lldb's backtrace feature, but I don't know
how to do so)
The devirtualization currently works by introspecting the function
pointed to by the `destroy` pointer. (The `resume` pointer is not worth
much, given that for the final suspend point `resume` is set to a
nullptr. We have to use the `destroy` pointer instead.) We then look
for a `__promise` variable inside the `destroy` function. This
`__promise` variable is synthetically generated by LLVM, and looking at
its type reveals the type-erased promise_type.
This approach only works for clang-generated code, though. While gcc
also adds a `_Coro_promise` variable to the `resume` function, it does
not do so for the `destroy` function. However, we can't use the `resume`
function, as it will be reset to a nullptr at the final suspension
point. For the time being, I am happy with de-virtualization only working
for clang. A follow-up commit will further improve devirtualization and
also expose the variables spilled to the coroutine frame. As part of
this, I will also revisit gcc support.
Differential Revision: https://reviews.llvm.org/D132624
This patch implements the `GetFunctionDisplayName` API which gets
used by the frame-formatting code to decide how to print a
function name.
Currently this API trivially returns `false`, so we try to parse
the demangled function base-name by hand. We try find the closing
parenthesis by doing a forward scan through the demangled name. However,
for arguments that contain parenthesis (e.g., function pointers)
this would leave garbage in the frame function name.
By re-using the `CPlusPlusLanguage` parser for this we offload the
need to parse function names to a component that knows how to do this
already.
We leave the existing parsing code in `FormatEntity` since it's used
in cases where a language-plugin is not available (and is not
necessarily C++ specific).
**Example**
For following function:
```
int foo(std::function<int(void)> const& func) { return 1; }
```
Before patch:
```
frame #0: 0x000000010000151c a.out`foo(func= Function = bar() )> const&) at sample.cpp:11:49
```
After patch:
```
frame #0: 0x000000010000151c a.out`foo(func= Function = bar() ) at sample.cpp:11:49
```
**Testing**
* Added shell test
This patch adds a way to extract the return type out
of the `CPlusPlusNameParser`. This will be useful
for cases where we want a function's basename *and* the
return type but not the function arguments; this is
currently not possible (the parser either gives us the
full name or just the basename). Since the parser knows
how to handle return types already we should just expose
this to users that need it.
**Testing**
* Added unit-tests
Differential Revision: https://reviews.llvm.org/D136935
This patch teaches the `CPlusPlusNameParser` to parse the
demangled/prettified [[gnu::abi_tag(...)]] attribute. The demangled format
isn't standardized and the additions to the parser were mainly driven
using Clang (and the limited information on this from the official
Clang docs).
This change is motivated by multiple failures around step-in
behaviour for libcxx APIs (many of which have ABI tags as of recently).
LLDB determines whether the `step-avoid-regexp` matches the current
frame by parsing the scope-qualified name out of the demangled
function symbol. On failure, the `CPlusPlusNameParser` will simply
return the fully demangled name (which can include the return type)
to the caller, which in `FrameMatchesAvoidCriteria` means we will
not correctly decide whether we should stop at a frame or not if
the function has an abi_tag.
Ideally we wouldn't want to rely on the non-standard format
of demangled attributes. Alternatives would be:
1. Use the mangle tree API to do the parsing for us
2. Reconstruct the scope-qualified name from DWARF instead of parsing
the demangled name
(1) isn't feasible without a significant refactor of `lldb_private::Mangled`,
if we want to do this efficiently.
(2) could be feasible in cases where debug-info for a frame is
available. But it does mean we certain operations (such as step-in regexp,
and frame function names) won't work with/won't show ABI tags.
**Testing**
* Un-XFAILed step-in API test
* Added parser unit-tests
Differential Revision: https://reviews.llvm.org/D136306
This patch fixes a regression with setting breakpoints on template
functions by name. E.g.,:
```
$ cat main.cpp
template<typename T>
struct Foo {
template<typename U>
void func() {}
};
int main() {
Foo<int> f;
f.func<double>();
}
(lldb) br se -n func
```
This has regressed since `3339000e0bda696c2e29173d15958c0a4978a143`
where we started using the `CPlusPlusNameParser` for getting the
basename of the function symbol and match it exactly against
the name in the breakpoint command. The parser will include template
parameters in the basename, so the exact match will always fail
**Testing**
* Added API tests
* Added unit-tests
Differential Revision: https://reviews.llvm.org/D135921
The main aim of this patch is to delete the remaining instances of code
reaching into the internals of `TypeCategoryImpl`. I made the following
changes:
- Add some more methods to `TieredFormatterContainer` and
`TypeCategoryImpl` to expose functionality that is implemented in
`FormattersContainer`.
- Add new overloads of `TypeCategoryImpl::AddTypeXXX` to make it easier
to add formatters to categories without reaching into the internal
`FormattersContainer` objects.
- Remove the `GetTypeXXXContainer` and `GetRegexTypeXXXContainer`
accessors from `TypeCategoryImpl` and update all call sites to use the
new methods instead.
Differential Revision: https://reviews.llvm.org/D135399
**Summary**
The primary motivation for this patch is to make sure we handle
the step-in behaviour for functions in the `std` namespace which
have an `auto` return type. Currently the default `step-avoid-regex`
setting is `^std::` but LLDB will still step into template functions
with `auto` return types in the `std` namespace.
**Details**
When we hit a breakpoint and check whether we should stop, we call
into `ThreadPlanStepInRange::FrameMatchesAvoidCriteria`. We then ask
for the frame function name via `SymbolContext::GetFunctionName(Mangled::ePreferDemangledWithoutArguments)`.
This ends up trying to parse the function name using `CPlusPlusLanguage::MethodName::GetBasename` which
parses the raw demangled name string.
`CPlusPlusNameParser::ParseFunctionImpl` calls `ConsumeTypename` to skip
the (in our case auto) return type of the demangled name (according to the
Itanium ABI this is a valid thing to encode into the mangled name). However,
`ConsumeTypename` doesn't strip out a plain `auto` identifier
(it will strip a `decltype(auto) return type though). So we are now left with
a basename that still has the return type in it, thus failing to match the `^std::`
regex.
Example frame where the return type is still part of the function name:
```
Process 1234 stopped
* thread #1, stop reason = step in
frame #0: 0x12345678 repro`auto std::test_return_auto<int>() at main.cpp:12:5
9
10 template <class>
11 auto test_return_auto() {
-> 12 return 42;
13 }
```
This is another case where the `CPlusPlusNameParser` breaks us in subtle ways
due to evolving C++ syntax. There are longer-term plans of replacing the hand-rolled
C++ parser with an alternative that uses the mangle tree API to do the parsing for us.
**Testing**
* Added API and unit-tests
* Adding support for ABI tags into the parser is a larger undertaking
which we would rather solve properly by using libcxxabi's mangle tree
parser
Differential Revision: https://reviews.llvm.org/D135413
Change the behavior of the libc++ `unordered_map` synthetic provider to present
children as `std::pair` values, just like `std::map` does.
The synthetic provider for libc++ `std::unordered_map` has returned children
that expose a level of internal structure (over top of the key/value pair). For
example, given an unordered map initialized with `{{1,2}, {3, 4}}`, the output
is:
```
(std::unordered_map<int, int, std::hash<int>, std::equal_to<int>, std::allocator<std::pair<const int, int> > >) map = size=2 {
[0] = {
__cc = (first = 3, second = 4)
}
[1] = {
__cc = (first = 1, second = 2)
}
}
```
It's not ideal/necessary to have the numbered children embdedded in the `__cc`
field.
Note: the numbered children have type
`std::__hash_node<std::__hash_value_type<Key, T>, void *>::__node_value_type`,
and the `__cc` fields have type `std::__hash_value_type<Key, T>::value_type`.
Compare this output to `std::map`:
```
(std::map<int, int, std::less<int>, std::allocator<std::pair<const int, int> > >) map = size=2 {
[0] = (first = 1, second = 2)
[1] = (first = 3, second = 4)
```
Where the numbered children have type `std::pair<const Key, T>`.
This changes the behavior of the synthetic provider for `unordered_map` to also
present children as `pairs`, just like `std::map`.
It appears the synthetic provider implementation for `unordered_map` was meant
to provide this behavior, but was maybe incomplete (see
d22a94377f). It has both an `m_node_type` and an
`m_element_type`, but uses only the former. The latter is exactly the type
needed for the children pairs. With this existing code, it's not much of a
change to make this work.
Differential Revision: https://reviews.llvm.org/D117383
This patch adds a formatter for `std::coroutine_handle`, both for libc++
and libstdc++. For the type-erased `coroutine_handle<>`, it shows the
`resume` and `destroy` function pointers. For a non-type-erased
`coroutine_handle<promise_type>` it also shows the `promise` value.
With this change, executing the `v t` command on the example from
https://clang.llvm.org/docs/DebuggingCoroutines.html now outputs
```
(task) t = {
handle = coro frame = 0x55555555b2a0 {
resume = 0x0000555555555a10 (a.out`coro_task(int, int) at llvm-example.cpp:36)
destroy = 0x0000555555556090 (a.out`coro_task(int, int) at llvm-example.cpp:36)
}
}
```
instead of just
```
(task) t = {
handle = {
__handle_ = 0x55555555b2a0
}
}
```
Note, how the symbols for the `resume` and `destroy` function pointer
reveal which coroutine is stored inside the `std::coroutine_handle`.
A follow-up commit will use this fact to infer the coroutine's promise
type and the representation of its internal coroutine state based on
the `resume` and `destroy` pointers.
The same formatter is used for both libc++ and libstdc++. It would
also work for MSVC's standard library, however it is not registered
for MSVC, given that lldb does not provide pretty printers for other
MSVC types, either.
The formatter is in a newly added `Coroutines.{h,cpp}` file because there
does not seem to be an already existing place where we could share
formatters across libc++ and libstdc++. Also, I expect this code to grow
as we improve debugging experience for coroutines further.
**Testing**
* Added API test
Differential Revision: https://reviews.llvm.org/D132415
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
