Adds a `selected_frame` property to `SBThread`. The setter accepts either a frame index (like `SetSelectedFrame`), or a frame object.
Updates a few tests to make use of the new `selected_frame`. While doing so I noticed some of the usage could be cleaned up, so I did that too.
Anonymous namespaces are supposed to be optional when looking up types.
This was not working in combination with -gsimple-template-names,
because the way it was constructing the complete (with template args)
name scope (i.e., by generating thescope as a string and then reparsing
it) did not preserve the information about the scope kinds.
Essentially what the code wants here is to call `GetTypeLookupContext`
(that's the function used to get the context in the "regular" code
path), but to embelish each name with the template arguments (if they
don't have them already). This PR implements exactly that by adding an
argument to control which kind of names are we interested in. This
should also make the lookup faster as it avoids parsing of the long
string, but I haven't attempted to benchmark that.
I believe this function can also be used in some other places where
we're manually appending template names, but I'm leaving that for
another patch.
The problem here manifests as follows:
1. We are stopped in main.o, so the first `ParseTypeFromDWARF` on
`FooImpl<char>` gets called on `main.o`'s SymbolFile. This adds a
mapping from *declaration die* -> `TypeSP` into `main.o`'s
`GetDIEToType` map.
2. We then `CompleteType(FooImpl<char>)`. Depending on the order of
entries in the debug-map, this might call `CompleteType` on `lib.o`'s
SymbolFile. In which case, `GetDIEToType().lookup(decl_die)` will return
a `nullptr`. This is already a bit iffy because some of the surrounding
code assumes we don't call `CompleteTypeFromDWARF` with a `nullptr`
`Type*`. E.g., `CompleteEnumType` blindly dereferences it (though enums
will never encounter this because their definition is fetched in
ParseEnum, unlike for structures).
3. While in `CompleteTypeFromDWARF`, we call `ParseTypeFromDWARF` again.
This will parse the member function `FooImpl::Create` and its return
type which is a typedef to `FooImpl*`. But now we're inside `lib.o`'s
SymbolFile, so we call it on the definition DIE. In step (2) we just
inserted a `nullptr` into `GetDIEToType` for the definition DIE, so we
trivially return a `nullptr` from `ParseTypeFromDWARF`. Instead of
reporting back this parse failure to the user LLDB trucks on and marks
`FooImpl::Ref` to be `void*`.
This test-case will trigger an assert in `TypeSystemClang::VerifyDecl`
even if we just `frame var` (but only in debug-builds). In release
builds where this function is a no-op, we'll create an incorrect Clang
AST node for the `Ref` typedef.
The proposed fix here is to share the `GetDIEToType` map between
SymbolFiles if a debug-map exists.
**Alternatives considered**
* Check the `GetDIEToType` map of the `SymbolFile` that the declaration
DIE belongs to. The assumption here being that if we called
`ParseTypeFromDWARF` on a declaration, the `GetDIEToType` map that the
result was inserted into was the one on that DIE's SymbolFile. This was
the first version of this patch, but that felt like a weaker version
sharing the map. It complicates the code in `CompleteType` and is less
consistent with the other bookkeeping structures we already share
between SymbolFiles
* Return from `SymbolFileDWARF::CompleteType` if there is no type in the
current `GetDIEToType`. Then `SymbolFileDWARFDebugMap::CompleteType`
could continue to the next `SymbolFile` which does own the type. But
that didn't quite work because we remove the
`GetForwardCompilerTypeToDie` entry in `SymbolFile::CompleteType`, which
`SymbolFileDWARFDebugMap::CompleteType` relies upon for iterating
The `llvm-gcc` front-end has been EOL'd at least since 2011 (based on
some `git` archeology). And Clang/LLVM has been removing references to
it ever since.
This patch removes the remaining references to it from LLDB. One benefit
of this is that it will allow us to remove the code checking for
`DW_AT_decl_file_attributes_are_invalid` and
`Supports_DW_AT_APPLE_objc_complete_type`.
First, `SRE_Pattern` does not exist on newer Python's, use
`type(re.compile(''))` like other Python extensions do. The dynamic type
is because some earlier versions of Python 3 do not have `re.Pattern`.
Second, `SBModule` has a `file` property, not a `path` property.
I ran into this while look at a different bug (patch coming soon). This
function has only two callers. The first is SBTypeStaticField::GetName
(which doesn't care about templates), and the other is
CompilerDecl::GetCompilerContext (in the TypeQuery constructor), which
does want template arguments.
This function was (normally) returning the name without template args.
Since this code is only used when looking up a type in another shared
library, the odds of running into this bug are relatively low, but I add
a test to demonstrate the scenario and the fix for it nonetheless.
Amazingly (and scarily), this test actually passes without this change
in the default configuration -- and only fails with
-gsimple-template-names. The reason for that is that in the
non-simplified case we create a regular CXXRecordDecl whose name is
"bar<int>" (instead of a template record "foo" with an argument of
"int"). When evaluating the expression, we are somehow able to replace
this with a proper template specialization decl.
In particular, this allows `bt -u`.
Note that this passthrough behavior has precedent in `_regexp-break`,
where `b (-.*)` is expanded to `breakpoint set %1`.
The existing XFAIL was being ignored because of the `expectedFailureDarwin`
causing failures on the matrix macOS bot:
```
======================================================================
FAIL: test_inline_static_members_dwarf5_dsym (TestConstStaticIntegralMember.TestCase)
----------------------------------------------------------------------
Traceback (most recent call last):
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/packages/Python/lldbsuite/test/lldbtest.py", line 1769, in test_method
return attrvalue(self)
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 151, in test_inline_static_members_dwarf5
self.check_inline_static_members("-gdwarf-5")
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 129, in check_inline_static_members
self.check_global_var("A::int_val", "const int", "1")
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 118, in check_global_var
self.assertGreaterEqual(len(var_list), 1)
AssertionError: 0 not greater than or equal to 1
Config=x86_64-/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/clang_1501_build/bin/clang
======================================================================
FAIL: test_shadowed_static_inline_members_dwarf5_dsym (TestConstStaticIntegralMember.TestCase)
----------------------------------------------------------------------
Traceback (most recent call last):
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/packages/Python/lldbsuite/test/lldbtest.py", line 1769, in test_method
return attrvalue(self)
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 205, in test_shadowed_static_inline_members_dwarf5
self.check_shadowed_static_inline_members("-gdwarf-5")
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 192, in check_shadowed_static_inline_members
self.check_global_var("ns::Foo::mem", "const int", "10")
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 118, in check_global_var
self.assertGreaterEqual(len(var_list), 1)
AssertionError: 0 not greater than or equal to 1
Config=x86_64-/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/clang_1501_build/bin/clang
----------------------------------------------------------------------
```
The `compiler` parameter is not supported in the `expectedFailureDarwin`
decorator.
Change the decorator to `expectedFailureAll`, which is fine because
this only affects the `dsym` variant (which is only a macOS variant).
Follow-up to https://github.com/llvm/llvm-project/pull/111859. Prior
to this PR we would never run these tests with DWARFv5 on older Clang
versions (since default wasn't DWARFv5 on macOS until recently). The
patch explicitly started running some of these tests with DWARFv5.
These were failing on the macOS matrix bot (with Clang-15/Clang-17).
```
======================================================================
FAIL: test_inline_static_members_dwarf5_dsym (TestConstStaticIntegralMember.TestCase)
----------------------------------------------------------------------
Traceback (most recent call last):
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/packages/Python/lldbsuite/test/lldbtest.py", line 1769, in test_method
return attrvalue(self)
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 150, in test_inline_static_members_dwarf5
self.check_inline_static_members("-gdwarf-5")
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 129, in check_inline_static_members
self.check_global_var("A::int_val", "const int", "1")
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake-matrix/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 118, in check_global_var
self.assertGreaterEqual(len(var_list), 1)
AssertionError: 0 not greater than or equal to 1
```
https://github.com/llvm/llvm-project/pull/111859 fixed these tests for
DWARFv4 on Linux by adjusting the manual index. As part of the change we
unXFAILed these tests for DWARFv4 on all platforms. However, the manual
index isn't used on macOS so they're still broken. This patch reverts
the XFAIL on Darwin for DWARFv4.
Example CI failure:
```
FAIL: test_inline_static_members_dwarf4_dsym (TestConstStaticIntegralMember.TestCase)
----------------------------------------------------------------------
Traceback (most recent call last):
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake/llvm-project/lldb/packages/Python/lldbsuite/test/lldbtest.py", line 1769, in test_method
return attrvalue(self)
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 153, in test_inline_static_members_dwarf4
self.check_inline_static_members("-gdwarf-4")
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 129, in check_inline_static_members
self.check_global_var("A::int_val", "const int", "1")
File "/Users/ec2-user/jenkins/workspace/llvm.org/lldb-cmake/llvm-project/lldb/test/API/lang/cpp/const_static_integral_member/TestConstStaticIntegralMember.py", line 118, in check_global_var
self.assertGreaterEqual(len(var_list), 1)
AssertionError: 0 not greater than or equal to 1
```
In DWARF 4 and earlier `static const` members of structs, classes and
unions have an entry tag `DW_TAG_member`, and are also tagged as
`DW_AT_declaration`, but otherwise follow the same rules as
`DW_TAG_variable`.
This reverts commit 25909b811a due to
unresolved questions about the behavior of "frame var" and ValueObject
in the presence of references (see the original patch for discussion).
We had to disable the tests for libc++ <= 15 because the `std::ranges`
functions were not available, yet.
Also, on libc++17 there was still an additional `__fn` struct withing
`ranges::__sort`. The test expectation was updated to use a regular
expression, so we can match both the old and the new name.
See
https://green.lab.llvm.org/job/llvm.org/view/LLDB/job/lldb-cmake-matrix/912/execution/node/107/log/
The tests were using the variable directly to get the dwarf version used
for the test. That's only the overridden value, and won't be set if
we're using the compiler default. I also put a comment by the variable
to make sure people don't make the same mistake in the future.
We have got customer reporting "v &obj" and "p &obj" reporting different
results.
Turns out it only happens for obj that is itself a reference type which
"v &obj" reports the address of the reference itself instead of the
target object the reference points to. This diverged from C++ semantics.
This PR fixes this issue by returning the address of the dereferenced
object if it is reference type.
A new test is added which fails before.
Co-authored-by: jeffreytan81 <jeffreytan@fb.com>
This is a reduced test case from a crash we've observed in the past. The
assertion that this test triggers is:
```
Assertion failed: ((Pos == ImportedDecls.end() || Pos->second == To) && "Try to import an already imported Decl"), function MapImported, file ASTImporter.cpp, line 10494.
```
In a non-asserts build we crash later on in the ASTImporter. The root
cause is, as the assertion above points out, that we erroneously replace
an existing `From->To` decl mapping with a `To` decl that isn't
complete. Then we try to complete it but it has no definition and we
dereference a nullptr.
The reason this happens is basically what's been described in
https://reviews.llvm.org/D67803?id=220956#1676588
The dylib contains a definition of `Service` which is different to the
one in the main executable. When we start dumping the children of the
variable we're printing, we start completing it's members,
`ASTImport`ing fields in the process. When the ASTImporter realizes
there's been a name conflict (i.e., a structural mismatch on the
`Service` type) it would usually report back an error. However, LLDB
uses `ODRHandlingType::Liberal`, which means we create a new decl for
the ODR'd type instead of re-using the previously mapped decl.
Eventually this leads us to crash.
Ideally we'd be using `ODRHandlingType::Conservative` and warn/error,
though LLDB relies on this in some cases (particularly for
distinguishing template specializations, though maybe there's better a
way to deal with those).
We should really warn the user when this happens and not crash. To avoid
the crash we'd need to know to not create a decl for the ODR violation,
and instead re-use the definition we've previously seen. Though I'm not
yet sure that's viable for all of LLDB's use-cases (where ODR violations
might legimiately occur in a program, e.g., with opaque definitions,
etc.).
This is to fix buildbot failure
https://lab.llvm.org/staging/#/builders/195/builds/4255.
The test expects 'libstdc++' or 'libc++' SO module in the module list.
In case when static linking with libc++ is on by default, none of them
may be present.
Thus, USE_SYSTEM_STDLIB is added to ensure the presence of any of them.
---------
Co-authored-by: Vladimir Vereschaka <vvereschaka@accesssoftek.com>
This commit changes the libc++ frame recognizer to hide implementation
details of libc++ more aggressively. The applied heuristic is rather
straightforward: We consider every function name starting with `__` as
an implementation detail.
This works pretty neatly for `std::invoke`, `std::function`,
`std::sort`, `std::map::emplace` and many others. Also, this should
align quite nicely with libc++'s general coding convention of using the
`__` for their implementation details, thereby keeping the future
maintenance effort low.
However, this heuristic by itself does not work in 100% of the cases:
E.g., `std::ranges::sort` is not a function, but an object with an
overloaded `operator()`, which means that there is no actual call
`std::ranges::sort` in the call stack. Instead, there is a
`std::ranges::__sort::operator()` call. To make sure that we don't hide
this stack frame, we never hide the frame which represents the entry
point from user code into libc++ code
This patch is a reworking of Pete Lawrence's (@PortalPete) proposal
for better expression evaluator error messages:
https://github.com/llvm/llvm-project/pull/80938
Before:
```
$ lldb -o "expr a+b"
(lldb) expr a+b
error: <user expression 0>:1:1: use of undeclared identifier 'a'
a+b
^
error: <user expression 0>:1:3: use of undeclared identifier 'b'
a+b
^
```
After:
```
(lldb) expr a+b
^ ^
│ ╰─ error: use of undeclared identifier 'b'
╰─ error: use of undeclared identifier 'a'
```
This eliminates the confusing `<user expression 0>:1:3` source
location and avoids echoing the expression to the console again, which
results in a cleaner presentation that makes it easier to grasp what's
going on. You can't see it here, bug the word "error" is now also in
color, if so desired.
Depends on https://github.com/llvm/llvm-project/pull/106442.
This patch is a reworking of Pete Lawrence's (@PortalPete) proposal
for better expression evaluator error messages:
https://github.com/llvm/llvm-project/pull/80938
Before:
```
$ lldb -o "expr a+b"
(lldb) expr a+b
error: <user expression 0>:1:1: use of undeclared identifier 'a'
a+b
^
error: <user expression 0>:1:3: use of undeclared identifier 'b'
a+b
^
```
After:
```
(lldb) expr a+b
^ ^
│ ╰─ error: use of undeclared identifier 'b'
╰─ error: use of undeclared identifier 'a'
```
This eliminates the confusing `<user expression 0>:1:3` source
location and avoids echoing the expression to the console again, which
results in a cleaner presentation that makes it easier to grasp what's
going on. You can't see it here, bug the word "error" is now also in
color, if so desired.
Depends on https://github.com/llvm/llvm-project/pull/106442.
Implement operators `<=` and `>=` to explicitly check the comparison
results to be `cmpLessThan` or `cmpEqual` instead of negating the result
of `operators<`.
Fixes#85947
This patch extends TypeQuery matching to support anonymous namespaces. A
new flag is added to control the behavior. In the "strict" mode, the
query must match the type exactly -- all anonymous namespaces included.
The dynamic type resolver in the itanium abi (the motivating use case
for this) uses this flag, as it queries using the name from the
demangles, which includes anonymous namespaces.
This ensures we don't confuse a type with a same-named type in an
anonymous namespace. However, this does *not* ensure we don't confuse
two types in anonymous namespacs (in different CUs). To resolve this, we
would need to use a completely different lookup algorithm, which
probably also requires a DWARF extension.
In the "lax" mode (the default), the anonymous namespaces in the query
are optional, and this allows one search for the type using the usual
language rules (`::A` matches `::(anonymous namespace)::A`).
This patch also changes the type context computation algorithm in
DWARFDIE, so that it includes anonymous namespace information. This
causes a slight change in behavior: the algorithm previously stopped
computing the context after encountering an anonymous namespace, which
caused the outer namespaces to be ignored. This meant that a type like
`NS::(anonymous namespace)::A` would be (incorrectly) recognized as
`::A`). This can cause code depending on the old behavior to misbehave.
The fix is to specify all the enclosing namespaces in the query, or use
a non-exact match.
With this commit, we also hide the implementation details of
`std::invoke`. To do so, the `LibCXXFrameRecognizer` got a couple more
regular expressions.
The regular expression passed into `AddRecognizer` became problematic,
as it was evaluated on the demangled name. Those names also included
result types for C++ symbols. For `std::__invoke` the return type is a
huge `decltype(...)`, making the regular expresison really hard to
write.
Instead, I added support to `AddRecognizer` for matching on the
demangled names without result type and argument types.
By hiding the implementation details of `invoke`, also the back traces
for `std::function` become even nicer, because `std::function` is using
`__invoke` internally.
Co-authored-by: Adrian Prantl <aprantl@apple.com>
Compilers and language runtimes often use helper functions that are
fundamentally uninteresting when debugging anything but the
compiler/runtime itself. This patch introduces a user-extensible
mechanism that allows for these frames to be hidden from backtraces and
automatically skipped over when navigating the stack with `up` and
`down`.
This does not affect the numbering of frames, so `f <N>` will still
provide access to the hidden frames. The `bt` output will also print a
hint that frames have been hidden.
My primary motivation for this feature is to hide thunks in the Swift
programming language, but I'm including an example recognizer for
`std::function::operator()` that I wished for myself many times while
debugging LLDB.
rdar://126629381
Example output. (Yes, my proof-of-concept recognizer could hide even
more frames if we had a method that returned the function name without
the return type or I used something that isn't based off regex, but it's
really only meant as an example).
before:
```
(lldb) thread backtrace --filtered=false
* thread #1, queue = 'com.apple.main-thread', stop reason = breakpoint 1.1
* frame #0: 0x0000000100001f04 a.out`foo(x=1, y=1) at main.cpp:4:10
frame #1: 0x0000000100003a00 a.out`decltype(std::declval<int (*&)(int, int)>()(std::declval<int>(), std::declval<int>())) std::__1::__invoke[abi:se200000]<int (*&)(int, int), int, int>(__f=0x000000016fdff280, __args=0x000000016fdff224, __args=0x000000016fdff220) at invoke.h:149:25
frame #2: 0x000000010000399c a.out`int std::__1::__invoke_void_return_wrapper<int, false>::__call[abi:se200000]<int (*&)(int, int), int, int>(__args=0x000000016fdff280, __args=0x000000016fdff224, __args=0x000000016fdff220) at invoke.h:216:12
frame #3: 0x0000000100003968 a.out`std::__1::__function::__alloc_func<int (*)(int, int), std::__1::allocator<int (*)(int, int)>, int (int, int)>::operator()[abi:se200000](this=0x000000016fdff280, __arg=0x000000016fdff224, __arg=0x000000016fdff220) at function.h:171:12
frame #4: 0x00000001000026bc a.out`std::__1::__function::__func<int (*)(int, int), std::__1::allocator<int (*)(int, int)>, int (int, int)>::operator()(this=0x000000016fdff278, __arg=0x000000016fdff224, __arg=0x000000016fdff220) at function.h:313:10
frame #5: 0x0000000100003c38 a.out`std::__1::__function::__value_func<int (int, int)>::operator()[abi:se200000](this=0x000000016fdff278, __args=0x000000016fdff224, __args=0x000000016fdff220) const at function.h:430:12
frame #6: 0x0000000100002038 a.out`std::__1::function<int (int, int)>::operator()(this= Function = foo(int, int) , __arg=1, __arg=1) const at function.h:989:10
frame #7: 0x0000000100001f64 a.out`main(argc=1, argv=0x000000016fdff4f8) at main.cpp:9:10
frame #8: 0x0000000183cdf154 dyld`start + 2476
(lldb)
```
after
```
(lldb) bt
* thread #1, queue = 'com.apple.main-thread', stop reason = breakpoint 1.1
* frame #0: 0x0000000100001f04 a.out`foo(x=1, y=1) at main.cpp:4:10
frame #1: 0x0000000100003a00 a.out`decltype(std::declval<int (*&)(int, int)>()(std::declval<int>(), std::declval<int>())) std::__1::__invoke[abi:se200000]<int (*&)(int, int), int, int>(__f=0x000000016fdff280, __args=0x000000016fdff224, __args=0x000000016fdff220) at invoke.h:149:25
frame #2: 0x000000010000399c a.out`int std::__1::__invoke_void_return_wrapper<int, false>::__call[abi:se200000]<int (*&)(int, int), int, int>(__args=0x000000016fdff280, __args=0x000000016fdff224, __args=0x000000016fdff220) at invoke.h:216:12
frame #6: 0x0000000100002038 a.out`std::__1::function<int (int, int)>::operator()(this= Function = foo(int, int) , __arg=1, __arg=1) const at function.h:989:10
frame #7: 0x0000000100001f64 a.out`main(argc=1, argv=0x000000016fdff4f8) at main.cpp:9:10
frame #8: 0x0000000183cdf154 dyld`start + 2476
Note: Some frames were hidden by frame recognizers
```
This test causes the assert in clang CodeGen and python crashes with the
error code 0x80000003. See #105019 for more details. Note the similar
test lldb/test/API/lang/c/bitfields/TestBitfields.py is already disabled
on Windows.
This patch allows expressions to reference entities in anonymous
namespaces. Previously this would have resulted in:
```
(lldb) expr foo::FooAnonymousVar
error: <user expression 0>:1:6: no member named 'FooAnonymousVar' in namespace 'foo'
1 | foo::FooAnonymousVar
| ~~~~~^
```
We already allow such lookups through inline namespaces, and for the
purposes of lookup, anonymous namespaces shouldn't behave any different.
Fixes https://github.com/llvm/llvm-project/issues/96963.
In one of my recent PRs I mistakenly had two test-cases with the same
name, preventing one of them to run. Since it's an easy mistake to make
(e.g., copy pasting existing test-cases), I ran following sanity-check
script over `lldb/test/API`, which found couple of tests which were
losing coverage because of this (or in some cases simply had duplicate
tests):
```
import ast
import sys
filename = sys.argv[1]
print(f'Checking {filename}...')
tree = ast.parse(open(filename, 'r').read())
for node in ast.walk(tree):
if not isinstance(node, ast.ClassDef):
continue
func_names = []
for child in ast.iter_child_nodes(node):
if isinstance(child, ast.FunctionDef):
func_names.append(child.name)
seen_func_names = set()
duplicate_func_names = []
for name in func_names:
if name in seen_func_names:
duplicate_func_names.append(name)
else:
seen_func_names.add(name)
if len(duplicate_func_names) != 0:
print(f'Multiple func names found:\n\t{duplicate_func_names}\n\tclass {node.name}\n\tfile: {filename}')
```
This patch fixes these cases.
Adds test that checks whether LLDB correctly infers the
alignment of packed structures. Specifically, the
`InferAlignment` code-path of the `ItaniumRecordLayoutBuilder`
where it assumes that overlapping field offsets imply a
packed structure and thus sets alignment to `1`. See discussion
in https://github.com/llvm/llvm-project/pull/93809.
While here, also added a test-case where we check alignment of
a class whose base has an explicit `DW_AT_alignment
(those don't get transitively propagated in DWARF, but don't seem
like a problem for LLDB).
Lastly, also added an XFAIL-ed tests where the aforementioned
`InferAlignment` kicks in for overlapping fields (but in this
case incorrectly since the structure isn't actually packed).
When PIE is enabled on a platform by default, these tests fail since the
`target variable` command can't read a global string variable value
before running an inferior process.
It fixes the following tests when built with clang on Ubuntu aarch64:
```
commands/target/basic/TestTargetCommand.py
lang/c/global_variables/TestGlobalVariables.py
lang/cpp/char8_t/TestCxxChar8_t.py
```
DWARFDebugInfo only knows how to resolve references in its own file, but
in split dwarf, the index entries will refer to DIEs in the separate
(DWO) file. To resolve the DIERef correctly we'd either need to go
through the SymbolFileDWARF to get the full logic for resolving a
DIERef, or use the fact that ToDIERef already looks up the correct unit
while computing its result.
This patch does the latter.
This bug manifested itself in not being able to find type definitions
for types in namespaces, so I've modified one of our type resolving test
cases to run with debug_names, and added a namespaced class into it (it
originally contained only a top-level class).
This adds a hint to the missing symbols error message to make it easier
to understand what this means to users.
[Reapplies an earlier patch with a test fix.]
Adds a test-case for debugging a program with a
pch chain, that is, the main executable depends
on a pch that itself included another pch.
Currently clang doesn't emit the sekeleton CUs
required for LLDB to track all types on the pch chain. Thus this test is
XFAILed for now.
Layout information for a record gets stored in the `ClangASTImporter`
associated with the `DWARFASTParserClang` that originally parsed the
record. LLDB sometimes moves clang types from one AST to another (in the
reproducer the origin AST was a precompiled-header and the destination
was the AST backing the executable). When clang then asks LLDB to
`layoutRecordType`, it will do so with the help of the
`ClangASTImporter` the type is associated with. If the type's origin is
actually in a different LLDB module (and thus a different
`DWARFASTParserClang` was used to set its layout info), we won't find
the layout info in our local `ClangASTImporter`.
In the reproducer this meant we would drop the alignment info of the
origin type and misread a variable's contents with `frame var` and
`expr`.
There is logic in `ClangASTSource::layoutRecordType` to import an
origin's layout info. This patch re-uses that infrastructure to import
an origin's layout from one `ClangASTImporter` instance to another.
rdar://123274144
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`.
assertEquals is a deprecated alias for assertEqual and has been removed
in Python 3.12. This wasn't an issue previously because we used a
vendored version of the unittest module. Now that we use the built-in
version this gets updated together with the Python version used to run
the test suite.
