This patch adds support for debug_loclists.dwo section in llvm and llvm-dwarfdump.
Also Fixes PR43622, PR43623.
Reviewers: dblaikie, probinson, labath, aprantl, jini.susan.george
https://reviews.llvm.org/D69462
I chatted with Reid offline, and we agreed that having a workaround here
would be appropriate until PR43879 is resolved.
The given transformation Works On My Machine(TM), and should hopefully
hold more broadly, but my fingers are crossed nonetheless. :)
This saves 2.4% of CPU time compiling opt, according to
ClangBuildAnalyzer. These helpers being inlined in the header was
triggering the instantiation of concat_iterator in every TU using
Module.h (~1118 TUs): https://reviews.llvm.org/P8171$35
**** Templates that took longest to instantiate:
76187 ms: llvm::AnalysisManager<llvm::Function>::getResult<llvm::TargetLibrary... (396 times, avg 192 ms)
73609 ms: llvm::AnalysisManager<llvm::Function>::getResultImpl (420 times, avg 175 ms)
49657 ms: llvm::detail::concat_range<llvm::GlobalValue, llvm::iterator_range<l... (1118 times, avg 44 ms)
49376 ms: llvm::detail::concat_range<const llvm::GlobalValue, llvm::iterator_r... (1118 times, avg 44 ms)
48167 ms: llvm::iterator_range<llvm::concat_iterator<llvm::GlobalValue, llvm::... (1118 times, avg 43 ms)
48125 ms: llvm::iterator_range<llvm::concat_iterator<const llvm::GlobalValue, ... (1118 times, avg 43 ms)
48061 ms: llvm::concat_iterator<llvm::GlobalValue, llvm::ilist_iterator<llvm::... (1118 times, avg 42 ms)
48014 ms: llvm::concat_iterator<const llvm::GlobalValue, llvm::ilist_iterator<... (1118 times, avg 42 ms)
...
I haven't measured, but I don't think these helpers are performance
critical. The iterator advance call can still be inlined, which is what
matters for performance.
Remove global_(objects|values)_(begin|end), since they were dead and
would have to be out of line anyway.
Fix the confusing naming of `CompilerInstance::ModuleManager`. This is
actually an instance of `ASTReader`, which contains an instance of
`ModuleManager`. I have to assume there was a point in the past where
they were just one class, but it's been pretty confusing for a while. I
think it's time to fix it.
The new name is `TheASTReader`; the annoying `The` prefix is so that we
don't shadow the `ASTReader` class. I tried out `ASTRdr` but that
seemed less clear, and this choice matches `ThePCHContainerOperations`
just a couple of declarations below.
Also rename `CompilerInstance::getModuleManager` and
`CompilerInstance::createModuleManager` to `*ASTReader`, making some
cases of `getModuleManager().getModuleManager()` a little more clear.
https://reviews.llvm.org/D70583
Refactor the logic on CompilerInstance::loadModule and a couple of
surrounding methods in order to clarify what's going on.
- Rename ModuleLoader::loadModuleFromSource to compileModuleFromSource
and fix its documentation, since it never loads a module. It just
creates/compiles one.
- Rename one of the overloads of compileModuleImpl to compileModule,
making it more obvious which one calls the other.
- Rename compileAndLoadModule to compileModuleAndReadAST. This
clarifies the relationship between this helper and its caller,
CompilerInstance::loadModule (the old name implied the opposite
relationship). It also (correctly) indicates that more needs to be
done to load the module than this function is responsible for.
- Split findOrCompileModuleAndReadAST out of loadModule. Besides
reducing nesting for this code thanks to early returns and the like,
this refactor clarifies the logic in loadModule, particularly around
calls to ModuleMap::cacheModuleLoad and
ModuleMap::getCachedModuleLoad. findOrCompileModuleAndReadAST also
breaks early if the initial ReadAST call returns Missing or OutOfDate,
allowing the last ditch call to compileModuleAndReadAST to come at the
end of the function body.
- Additionally split out selectModuleSource, clarifying the logic
due to early returns.
- Add ModuleLoadResult::isNormal and OtherUncachedFailure, so that
loadModule knows whether to cache the result.
OtherUncachedFailure was added to keep this patch NFC, but there's
a chance that these cases were uncached by accident, through
copy/paste/modify failures. These should be audited as a
follow-up (maybe we can eliminate this case).
- Do *not* lift the setting of `ModuleLoadFailed = true` to
loadModule because there isn't a clear pattern for when it's set.
This should be reconsidered in a follow-up, in case it would be
correct to set `ModuleLoadFailed` whenever no module is returned
and the result is either Normal or OtherUncachedFailure.
- Add some header documentation where it was missing, and fix it where
it was wrong.
This should have no functionality change.
https://reviews.llvm.org/D70556
`run_clang_tidy` takes a regular expression to match against
compile_commands.json entries. If we pass "%t/test.cpp" and "%t" expands
to anything that includes chars that a regex treats specially, like '+',
this test starts failing.
When the Dwarf Version metadata was initially added (r184276) there was
no support for Module::Max - though the comment suggested that was the
desired behavior. The original behavior was Module::Warn which would
warn and then pick whichever version came first - which is pretty
arbitrary/luck-based if the consumer has some need for one version or
the other.
Now that the functionality's been added (r303590) this change updates
the implementation to match the desired goal.
The general logic here is - if you compile /some/ of your program with a
more recent DWARF version, you must have a consumer that can handle it,
so might as well use it for /everything/.
The only place where this might fall down is if you have a need to use
an old tool (supporting only the older DWARF version) for some subset of
your program. In which case now it'll all be the higher version. That
seems pretty narrow (& the inverse could happen too - you specifically
/need/ the higher DWARF version for some extra expressivity, etc, in
some part of the program)
This actually has no impact on the build, because TypeLoc.h includes
Attr.h. However, DeclCXX.h has no need of it, so go ahead and remove it.
The final step in this patch series is to split Attr.h and Attrs.h.
This avoids the need to include Attr.h in DeclCXX.h for a four-value
enum. Removing the include will be done separately, since it is large
and risky change.
When parsing bitstream remarks, allow external remark files to be
empty, which means there are no remarks to be parsed.
In the same way, dsymutil should not produce a remark file.
The in_call_stack Python script makes it possible to modify the last
breakpoint to only stop if a given function is present in the call
stack. It will check both the symbol name and the function name (coming
from the debug info, in case the binary is stripped).
To use this, you have to:
1. Import the script into lldb.
(lldb) command script import in_call_stack.py
2. Set a breakpoint and use the in_call_stack alias.
(lldb) b foo
(lldb) in_call_stack bar
Note that this alias operates on the last set breakpoint. You can re-run
the in_call_stack command to modify the condition.
In the GNU toolchain, `-static-libgcc` implies that the unwindlib will
be linked statically. However, when `--unwindlib=libunwind`, this flag is
ignored, and a bare `-lunwind` is added to the linker args. Unfortunately,
this means that if both `libunwind.so`, and `libunwind.a` are present
in the library path, `libunwind.so` will be chosen in all cases where
`-static` is not set.
This change makes `-static-libgcc` affect the `-l` flag produced by
`--unwindlib=libunwind`. After this patch, providing
`-static-libgcc --unwindlib=libunwind` will cause the driver to explicitly
emit `-l:libunwind.a` to statically link libunwind. For all other cases
it will emit `-l:libunwind.so` matching current behavior with a more
explicit link line.
https://reviews.llvm.org/D70416
For lldb and dsymutil, the command guide is essentially a copy of its
help output generated by libOption. Making sure the two stay in sync is
tedious and error prone. Given that we already generate the help from a
tablegen file, we might as well generate the RST as well.
This adds a tablegen backend for generating Sphinx/RST command guides
from the tablegen file.
Differential revision: https://reviews.llvm.org/D70610
This header fragment is useful on its own for any consumer that wants
to use custom instruction profile runtime with the LLVM instrumentation.
The concrete use case is in Fuchsia's kernel where we want to use
instruction profile instrumentation, but we cannot use the compiler-rt
runtime because it's not designed for use in the kernel environment.
This change allows installing this header as part of compiler-rt.
Differential Revision: https://reviews.llvm.org/D64532
Summary:
GCC 9 added -Wdeprecated-copy (as part of -Wextra). This diagnostic is already implemented in Clang too, just hidden under -Wdeprecated (not on by default).
This patch adds -Wdeprecated-copy and makes it compatible with GCC 9+.
This diagnostic is heavily tested in deprecated.cpp, so I added simple tests just to check we warn when new flag/-Wextra is enabled.
Reviewers: rsmith, dblaikie
Reviewed By: dblaikie
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D70342
moved before another instruction.
Summary:Added an API to check if an instruction can be safely moved
before another instruction. In future PRs, we will like to add support
of moving instructions between blocks that are not control flow
equivalent, and add other APIs to enhance usability, e.g. moving basic
blocks, moving list of instructions...
Loop Fusion will be its first user. When there is intervening code in
between two loops, fusion is currently unable to fuse them. Loop Fusion
can use this utility to check if the intervening code can be safely
moved before or after the two loops, and move them, then it can
successfully fuse them.
Reviewer:kbarton,jdoerfert,Meinersbur,bmahjour,etiotto
Reviewed By:bmahjour
Subscribers:mgorny,hiraditya,llvm-commits
Tag:LLVM
Differential Revision:https://reviews.llvm.org/D70049
Summary:
* The Python header generator has been removed.
* Docs giving a highlevel overview of the header gen scheme have been
added.
Reviewers: phosek, abrachet
Subscribers: mgorny, MaskRay, tschuett, libc-commits
Tags: #libc-project
Differential Revision: https://reviews.llvm.org/D70197
This fixes an assertion in Sema::CreateBuiltinBinOp that fails when one
of the vector operand's element type is a typedef of __fp16.
rdar://problem/55983556
Summary:
A user may want to use freestanding mode with the standard "main" entry
point. It's not useful to warn about a missing prototype as it's not
typical to have a prototype for "main".
Reviewers: efriedma, aaron.ballman
Reviewed By: aaron.ballman
Subscribers: aaron.ballman, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D70588
If a GCC installation is not detected, then this attempts to
use compiler-rt and the compiler-rt crtbegin/crtend
implementations as a fallback.
Differential Revision: https://reviews.llvm.org/D68407
This header fragment is useful on its own for any consumer that wants
to use custom instruction profile runtime with the LLVM instrumentation.
The concrete use case is in Fuchsia's kernel where we want to use
instruction profile instrumentation, but we cannot use the compiler-rt
runtime because it's not designed for use in the kernel environment.
This change allows installing this header as part of compiler-rt.
Differential Revision: https://reviews.llvm.org/D64532
Split CallEdge into DirectCallEdge and IndirectCallEdge. Teach
DWARFExpression how to evaluate entry values in cases where the current
activation was created by an indirect call.
rdar://57094085
Differential Revision: https://reviews.llvm.org/D70100
Enlarge the size of ExponentType from 16bit integer to 32bit. This is
required to prevent exponent overflow/underflow.
Note that IEEEFloat size and alignment don't change in 64bit or 32bit
compilation targets (and in turn, neither does APFloat).
Fixes PR34851.
Differential Revision: https://reviews.llvm.org/D69771
Summary:
Revert "Rollback of commit "Repress sanitization on User dtor.""
There is no point in keeping an active MSan error in the codebase.
PR24578 tracks the actual UB in LLVM code; this change enables testing
of LLVM with MSAN + -fsanitize-memory-use-after-dtor.
This reverts commit 21c1bc46ae.
Reviewers: vitalybuka
Subscribers: hiraditya, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D70611
Fix incorrect determination of the bigger number out of the two
subtracted, while subnormal numbers are involved.
Fixes PR44010.
Differential Revision: https://reviews.llvm.org/D69772
This affects -gmodules only.
Under normal operation pcm_type is a shallow forward declaration
that gets completed later. This is necessary to support cyclic
data structures. If, however, pcm_type is already complete (for
example, because it was loaded for a different target before),
the definition needs to be imported right away, too.
Type::ResolveClangType() effectively ignores the ResolveState
inside type_sp and only looks at IsDefined(), so it never calls
ClangASTImporter::ASTImporterDelegate::ImportDefinitionTo(),
which does extra work for Objective-C classes. This would result
in only the forward declaration to be visible.
An alternative implementation would be to sink this into Type::ResolveClangType ( 88235812a7/lldb/source/Symbol/Type.cpp (L5809)) though it isn't clear to me how to best do this from a layering perspective.
rdar://problem/52134074
Differential Revision: https://reviews.llvm.org/D70415
This is a correctness fix for the Clang DWARF parser that primarily
matters for swift-lldb's ability to import Clang types that were
reconstructed from DWARF into Swift.
rdar://problem/55025799
Differential Revision: https://reviews.llvm.org/D70580
Summary:
Adds combinators `maybeDeref` and `maybeAddressOf` to provide a uniform way to handle
nodes which may be bound to either a pointer or a value (most often in the
context of member expressions). Such polymorphism is already supported by
`access`; these combinators extend it to more general uses.
Reviewers: gribozavr
Subscribers: cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D70554
Summary:
Vector aggregate is homogeneous aggregate of vectors like `{ <2 x float>, <2 x float> }`.
This patch allows `findBuildAggregate()` to consider vector aggregates as
well as scalar ones. For instance, `{ <2 x float>, <2 x float> }` maps to `<4 x float>`.
Fixes vector part of llvm.org/PR42022
Reviewers: RKSimon
Subscribers: hiraditya, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D70068
Summary:
This follows from the discussion at D70095.
D70095 moves hasOptSize calls into SelectionDAG::shouldOptForSize to allow
querying size optimization conditions together with profile guided size
optimization.
Since it appears that size optimizations for WebAssembly SelectionDAG haven't
been implemented yet and thus ForCodeSize is unused, and it would not make a lot
of sense to call shouldOptForSize here as the necessary profile data like
PSI/BFI aren't available at this point, it seems good and less confusing to
remove this for now and use shouldOptForSize when they are implemented in the
future.
Subscribers: dschuff, sbc100, jgravelle-google, hiraditya, aheejin, sunfish, llvm-commits
Tags: #llvm
Differential Revision: https://reviews.llvm.org/D70567