llvm::EmbedBitcodeInModule needs (what used to be called) EmbedMarker
set, in order to emit .llvmcmd. EmbedMarker is really about embedding the
command line, so renamed the parameter accordingly, too.
This was not caught at test because the check-prefix was incorrect, but
FileCheck does not report that when multiple prefixes are provided. A
separate patch will address that.
Differential Revision: https://reviews.llvm.org/D90278
Since Wasm comdat sections work similarly to ELF, we can use that mechanism
to eliminate duplicate dwarf type information in the same way.
Differential Revision: https://reviews.llvm.org/D88603
We used to only emit static const data members in CodeView as
S_CONSTANTS when they were used; this patch makes it so they are always emitted.
This changes CodeViewDebug.cpp to find the static const members from the
class debug info instead of creating DIGlobalVariables in the IR
whenever a static const data member is used.
Bug: https://bugs.llvm.org/show_bug.cgi?id=47580
Differential Revision: https://reviews.llvm.org/D89072
This reverts commit 504615353f.
Checks to make sure that stdlib's (std::)free is being appropriately
used. Presently checks for the following misuses:
- free(&stack_object)
- free(stack_array)
Differential Revision: https://reviews.llvm.org/D89988
We collect the source location of a trailing return type in the parser,
improving the location for regular functions and providing a location
for lambdas, where previously there was none.
Fixes PR47732.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D90129
classes into the enclosing block scope.
We weren't properly detecting whether the name would be injected into a
block scope in the case where it was lexically declared in a local
class.
Split `FileEntry` and `FileEntryRef` out into a new file
`clang/Basic/FileEntry.h`. This allows current users of a
forward-declared `FileEntry` to transition to `FileEntryRef` without
adding more includers of `FileManager.h`.
Also split `UniqueID` out to llvm/Support/FileSystem/UniqueID.h, so
`FileEntry.h` doesn't need to include all of `FileSystem.h` for just
that type.
Differential Revision: https://reviews.llvm.org/D89761
Previously we added support for target nowait, but target data nowait
has not been supported yet. In this patch, target data nowait will also be
wrapped into a task.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D90099
Make the virtual method Toolchain::GetDefaultStackProtectorLevel()
return an explict enum value rather than an integral constant. This
makes the code subjectively easier to read, and should help prevent bugs
that may (or may never) arise from changing the enum values. Previously,
these were just kept in sync via a comment, which is brittle. The trade
off is including a additional header in a few new places. It is not
necessary, but in my opinion helps the readability.
Split off from https://reviews.llvm.org/D90194 to help cut down on lines
changed in code review.
Reviewed By: phosek
Differential Revision: https://reviews.llvm.org/D90271
Define the __vector_pair and __vector_quad types that are used to manipulate
the new accumulator registers introduced by MMA on PowerPC. Because these two
types are specific to PowerPC, they are defined in a separate new file so it
will be easier to add other PowerPC specific types if we need to in the future.
Differential Revision: https://reviews.llvm.org/D81508
This patch modifies the Clang AVR toolchain so that it always passes
the '-Tdata=0x800100' to the linker for ATmega328 devices. This matches
AVR-GCC behaviour, and also corresponds to the address of the start of
the data section in data space according to the ATmega328 datasheet.
Without this, clang does not produce a valid ATmega328 binary.
When targeting all non-ATmega328 chips, a warning will be emitted due to
the fact that proper handling for the chips data section address is
not yet implemented.
I've held off adding other microcontrollers for now, mostly because the
AVR toolchain logic is smeared across LLVM core TableGen files, and two Clang
libraries. The 'family detection' logic is also only implemented for
ATmega328 at the moment, for similar reasons.
In the future, I aim to write an RFC to llvm-dev to find a better way
for LLVM to expose target-specific details such as these to compiler
frontends.
Differential Revision: https://reviews.llvm.org/D86629
As proposed in https://github.com/WebAssembly/simd/pull/376. This commit
implements new builtin functions and intrinsics for these instructions, but does
not yet add them to wasm_simd128.h because they have not yet been merged to the
proposal. These are the first instructions with opcodes greater than 0xff, so
this commit updates the MC layer and disassembler to handle that correctly.
Differential Revision: https://reviews.llvm.org/D90253
[libomptarget][nvptx] Undef, weak shared variables
Shared variables on nvptx, and LDS on amdgcn, are uninitialized at
the start of kernel execution. Therefore create the variables with
undef instead of zeros, motivated in part by the amdgcn back end
rejecting LDS+initializer.
Common is zero initialized, which seems incompatible with shared. Thus
change them to weak, following the direction of
https://reviews.llvm.org/rG7b3eabdcd215
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D90248
This gives us slightly nicer syntax (foreach) for idioms currently expressed
as a loop, and the option to use range algorithms where it makes sense
(e.g. llvm::all_of et al encapsulate the needed flow control in a useful way).
It's also a building block for iteration over filtered views (e.g. iterate over
all Stmt children, with the right type):
for (const Statement &S : filter<Statement>(N.children()))
...
I realize the recent direction has been mostly towards strongly-typed
node-specific facilities, but I think it's important we have convenient
generic facilities too.
Differential Revision: https://reviews.llvm.org/D90023
CUDA buildbots complained about a redefinition when I landed D89971.
This is odd and I fail to understand where in the CUDA headers the other
definition is supposed to be. For now, given that CUDA doesn't need the
overload (AFAIKT), we simply restrict it to the OpenMP mode.
Summary:
Propagate driver commandline remarks options to linker when LTO is enabled.
This gives novice user a convenient way to collect and filter remarks throughout
a typical toolchain invocation with sample profile and LTO using single switch
from the clang driver.
A typical use of this option from clang command-line:
* Using -Rpass* options to print remarks to screen:
clang -fuse-ld=lld -flto=thin -fprofile-sample-use=foo_sample.txt
-Rpass=inline -Rpass-missed=inline -Rpass-analysis=inline
-fdiagnostics-show-hotness -fdiagnostics-hotness-threshold=100 -o foo foo.cpp
Remarks will be dumped to screen from both pre-lto and lto
compilation.
* Using serialized remarks options
clang -fuse-ld=lld -flto=thin -fprofile-sample-use=foo_sample.txt
-fsave-optimization-record
-fdiagnostics-show-hotness -fdiagnostics-hotness-threshold=100 -o foo foo.cpp
This will produce multiple yaml files containing optimization remarks:
1. foo.opt.yaml : remarks from pre-lto
2. foo.opt.ld.yaml.thin.1.yaml: remark during lto
Differential Revision: https://reviews.llvm.org/D85810
Since Wasm comdat sections work similarly to ELF, we can use that mechanism
to eliminate duplicate dwarf type information in the same way.
Differential Revision: https://reviews.llvm.org/D88603
Reported by Colleen Bertoni <bertoni@anl.gov> after running the OvO test
suite: https://github.com/TApplencourt/OvO/
The template overload is still hidden behind an ifdef for OpenMP. In the
future we probably want to remove the ifdef but that requires further
testing.
Reviewed By: JonChesterfield, tra
Differential Revision: https://reviews.llvm.org/D89971
Summary:
This patch adds support for passing in the original delcaration name in the
source file to the libomptarget runtime. This will allow the runtime to provide
more intelligent debugging messages. This patch takes the original expression
parsed from the OpenMP map / update clause and provides a textual
representation if it was explicitly mapped, otherwise it takes the name of the
variable declaration as a fallback. The information in passed to the runtime in
a global array of strings that matches the existing ident_t source location
strings using ";name;filename;column;row;;". See
clang/test/OpenMP/target_map_names.cpp for an example of the generated output
for a given map clause.
Reviewers: jdoervert
Differential Revision: https://reviews.llvm.org/D89802
These logically belong together since it's a base commit plus
followup fixes to less common build configurations.
The patches are:
Revert "CfgInterface: rename interface() to getInterface()"
This reverts commit a74fc48158.
Revert "Wrap CfgTraitsFor in namespace llvm to please GCC 5"
This reverts commit f2a06875b6.
Revert "Try to make GCC5 happy about the CfgTraits thing"
This reverts commit 03a5f7ce12.
Revert "Introduce CfgTraits abstraction"
This reverts commit c0cdd22c72.
Shrink `FileEntryRef` to the size of a pointer, by having it directly
reference the `StringMapEntry` the same way that `DirectoryEntryRef`
does. This makes `FileEntryRef::FileEntryRef` private as a side effect
(`FileManager` is a friend!).
There are two helper types added within `FileEntryRef`:
- `FileEntryRef::MapValue` is the type stored in
`FileManager::SeenFileEntries`. It's a replacement for
`SeenFileEntryOrRedirect`, where the second pointer type has been
changed from `StringRef*` to `MapEntry*` (see next bullet).
- `FileEntryRef::MapEntry` is the instantiation of `StringMapEntry<>`
where `MapValue` is stored. This is what `FileEntryRef` has a pointer
to, in order to grab the name in addition to the value.
Differential Revision: https://reviews.llvm.org/D89488
This is an initial attempt to start using Syntax Trees in clangd while improving state of folding ranges feature and experimenting with Syntax Tree capabilities.
Reviewed By: sammccall
Differential Revision: https://reviews.llvm.org/D88553
We've already dereferenced the pointer and no other getClassInterface() calls appear to bother with such a check.
Reported as "Snippet 6" in https://www.viva64.com/en/b/0771/
After D86959 the code `#define lambda [](const decltype(x) &ptr) {}`
was formatted as `#define lambda [](const decltype(x) & ptr) {}` due to
now parsing the '&' token as a BinaryOperator. The problem was caused by
the condition `Line.InPPDirective && (!Left->Previous || !Left->Previous->is(tok::identifier))) {`
being matched and therefore not performing the checks for "previous token
is one of decltype/_Atomic/etc.". This patch moves those checks after the
existing if/else chain to ensure the left-parent token classification is
always run after checking whether the contents of the parens is an
expression or not.
This change also introduces a new TokenAnnotatorTest that checks the
token kind and Role of Tokens after analyzing them. This is used to check
for TT_PointerOrReference, in addition to indirectly testing this based
on the resulting formatting.
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D88956
This patch removes the necessity to access the SourceLocation internal
representation in several places that use FoldingSet objects.
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D69844
Copy/move break invariants (move could be fixed).
Node/Tree should have no public constructors, they're abstract.
Destructor is private to enforce arena allocation.
(Making the constructor of all subclasses private doesn't seem worthwhile)
Differential Revision: https://reviews.llvm.org/D90163
In current implementation, if it requires an outer task, the mapper array will be privatized no matter whether it has mapper. In fact, when there is no mapper, the mapper array only contains number of nullptr. In the libomptarget, the use of mapper array is `if (mappers_array && mappers_array[i])`, which means we can directly set mapper array to nullptr if there is no mapper. This can avoid unnecessary data copy.
In this patch, the data privatization will not be emitted if the mapper array is nullptr. When it comes to the emit of task body, the nullptr will be used directly.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D90101
CallInst::updateProfWeight() creates branch_weights with i64 instead of i32.
To be more consistent everywhere and remove lots of casts from uint64_t
to uint32_t, use i64 for branch_weights.
Reviewed By: davidxl
Differential Revision: https://reviews.llvm.org/D88609
The implementation of target nowait just wraps the target region into a task. The essential four parameters (base ptr, ptr, size, mapper) are taken as firstprivate such that they will be copied to the private location. When there is no user-defined mapper, the mapper variable will be nullptr. However, it will be still copied to the corresponding place. Therefore, a memcpy will be generated and the source pointer will be nullptr, causing a segmentation fault. The root cause is when calling `emitOffloadingArraysArgument`, the last argument `Options` has a field about whether it requires a task. It only takes depend clause into account. In this patch, the nowait clause is also included.
There're two things that will be done in another patches:
1. target data nowait has not been supported yet. D90099 added the support.
2. When there is no mapper, the mapper array can be nullptr no matter whether it requires outer task or not. It can avoid an unnecessary data copy. This is an optimization that is covered in D90101.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D89844
Summary:
Makes linking the sanitizers follow the same logic as the rest of the
driver with respect to the static linking strategy for the C++ standard
library.
Subscribers: mcrosier, cfe-commits
Tags: #clang
Differential Revision: https://reviews.llvm.org/D80488
Instead of putting a fake `SLocEntry` at `LoadedSLocEntryTable[Index]`
when it fails to load in `SourceManager::loadSLocEntry`, allocate a fake
one. Unless someone is sniffing the address of the returned `SLocEntry`
(doubtful), this won't be a functionality change. Note that
`SLocEntryLoaded[Index]` wasn't being set to `true` either before or
after this change so no accessor is every going to look at
`LoadedSLocEntryTable[Index]`.
As a side effect, drop the `mutable` from `LoadedSLocEntryTable`.
Differential Revision: https://reviews.llvm.org/D89748
We used to only emit static const data members in CodeView as
S_CONSTANTS when they were used; this patch makes it so they are always emitted.
I changed CodeViewDebug.cpp to find the static const members from the
class debug info instead of creating DIGlobalVariables in the IR
whenever a static const data member is used.
Bug: https://bugs.llvm.org/show_bug.cgi?id=47580
Differential Revision: https://reviews.llvm.org/D89072
Prepend the module name hash with a fixed string ".__uniq." which helps tools
that consume sampled profiles and attribute it to functions to understand
that this symbol belongs to a unique internal linkage type symbol.
Symbols with suffixes can result from various optimizations in the compiler.
Function Multiversioning, function splitting, parameter constant propogation,
unique internal linkage names.
External tools like sampled profile aggregators combine profiles from multiple
runs of a binary. They use various heuristics with symbols that have suffixes
to try and attribute the profile to the right function instance. For instance
multi-versioned symbols like foo.avx, foo.sse4.2, etc even though different
should be attributed to the same source function if a single function is
versioned, using attribute target_clones (supported in GCC but yet to land in
LLVM). Similarly, functions that are split (split part having a .cold suffix)
could have profiles for both the original and split symbols but would be
aggregated and attributed to the original function that was split.
Unique internal linkage functions however have different source instances and
the aggregator must not put them together but attribute it to the appropriate
function instance. To be sure that we are dealing with a symbol of a unique
internal linkage function, we would like to prepend the hash with a known
string ".__uniq." which these tools can check to understand the suffix type.
Differential Revision: https://reviews.llvm.org/D89617
This is a long-delayed follow-up to
5e5b85098d.
`TempMDNode` includes a bunch of machinery for RAUW, and should only be
used when necessary. RAUW wasn't being used in any of these cases... it
was just a placeholder for a self-reference.
Where the real node was using `MDNode::getDistinct`, just replace the
temporary argument with `nullptr`.
Where the real node was using `MDNode::get`, the `replaceOperandWith`
call was "promoting" the node to a distinct one implicitly due to
self-reference detection in `MDNode::handleChangedOperand`. The
`TempMDNode` was serving a purpose by delaying uniquing, but it's way
simpler to just call `MDNode::getDistinct` in the first place.
Note that using a self-reference at all in these places is a hold-over
from before `distinct` metadata existed. It was an old trick to create
distinct nodes. It would be intrusive to change, including bitcode
upgrades, etc., and it's harmless so I'm not sure there's much value in
removing it from existing schemas. After this commit it still has a tiny
memory cost (in the extra metadata operand) but no more overhead in
construction.
Differential Revision: https://reviews.llvm.org/D90079
4dc5573acc added `FileEntryRef` in order to
help enable sharing of a `FileManager` between `CompilerInstance`s.
It also added a `StringRef` with the filename on `FileInfo`. This
doubled `sizeof(FileInfo)`, bloating `sizeof(SLocEntry)`, of which we
have one for each (loaded and unloaded) file and macro expansion. This
causes a memory regression in modules builds.
Move the filename down into the `ContentCache`, which is a side data
structure for `FileInfo` that does not impact `sizeof(SLocEntry)`. Once
`FileEntryRef` is used for `ContentCache::OrigEntry` this can go away.
Differential Revision: https://reviews.llvm.org/D89580
Radar-Id: rdar://59908826
Update a few APIs to return non-const references instead of pointers,
and remove associated `const_cast`s and non-null assertions.
Differential Revision: https://reviews.llvm.org/D90067
The local variable CmpResult added in that change shadowed the
type CmpResult, which confused an older gcc. Rename the variable
CmpResult to APFloatCmpResult.
Summary: Method of obtaining MemRegion from LocAsInteger/MemRegionVal already exists in SVal::getAsRegion function. Replace repetitive conditions in SVal::getAsLocSymbol with SVal::getAsRegion function.
Differential Revision: https://reviews.llvm.org/D89982
Because of typo-correction, the AST can be transformed, and the transformed
AST is marginally useful for diagnostics purpose, the following
diagnostics usually do harm than good (easily cause confusions).
Given the following code:
```
void abcc();
void test() {
if (abc());
// diagnostic 1 (for the typo-correction): the typo is correct to `abcc()`, so the code is treate as `if (abcc())` in AST perspective;
// diagnostic 2 (for mismatch type): we perform an type-analysis on `if`, discover the type is not match
}
```
The secondary diagnostic "convertable to bool" is likely bogus to users.
The idea is to use RecoveryExpr (clang's dependent mechanism) to preserve the
recovery behavior but suppress all follow-up diagnostics.
Differential Revision: https://reviews.llvm.org/D89946
This allows using annotation in a much more contexts than it currently has.
especially when annotation with template or constexpr.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D88645
For now, we lost the encoding information if we using inline assembly.
The encoding for the inline assembly will keep default even if we add
the vex/evex prefix.
Differential Revision: https://reviews.llvm.org/D90009
The constructor of Project asserts that the contained ValueDecl is not
null, use that in the ThreadSafetyAnalyzer. In the case of LiteralPtr
it's the other way around.
Also dyn_cast<> is sufficient if we know something isn't null.
Instead of just mutex members we also consider mutex globals.
Unsurprisingly they are always in scope. Now the paper [1] says that
> The scope of a class member is assumed to be its enclosing class,
> while the scope of a global variable is the translation unit in
> which it is defined.
But I don't think we should limit this to TUs where a definition is
available - a declaration is enough to acquire the mutex, and if a mutex
is really limited in scope to a translation unit, it should probably be
only declared there.
The previous attempt in 9dcc82f34e was causing false positives because
I wrongly assumed that LiteralPtrs were always globals, which they are
not. This should be fixed now.
[1] https://static.googleusercontent.com/media/research.google.com/en/us/pubs/archive/42958.pdf
Fixes PR46354.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D84604
This patch introduces the dependencies required to read and manage input files
provided by the command line option. It also adds the infrastructure to create
and write to output files. The output is sent to either stdout or a file
(specified with the `-o` flag).
Separately, in order to be able to test the code for file I/O, it adds
infrastructure to create frontend actions. As a basic testable example, it adds
the `InputOutputTest` FrontendAction. The sole purpose of this action is to
read a file from the command line and print it either to stdout or the output
file. This action is run by using the `-test-io` flag also introduced in this
patch (available for `flang-new` and `flang-new -fc1`). With this patch:
```
flang-new -test-io input-file.f90
```
will read input-file.f90 and print it in the output file.
The `InputOutputTest` frontend action has been introduced primarily to
facilitate testing. It is hidden from users (i.e. it's only displayed with
`--help-hidden`). Currently Clang doesn’t have an equivalent action.
`-test-io` is used to trigger the InputOutputTest action in the Flang frontend
driver. This patch makes sure that “flang-new” forwards it to “flang-new -fc1"
by creating a preprocessor job. However, in Flang.cpp, `-test-io` is passed to
“flang-new -fc1” without `-E`. This way we make sure that the preprocessor is
_not_ run in the frontend driver. This is the desired behaviour: `-test-io`
should only read the input file and print it to the output stream.
co-authored-by: Andrzej Warzynski <andrzej.warzynski@arm.com>
Differential Revision: https://reviews.llvm.org/D87989
Simplify `HeaderSearch::LookupFile`. Instead of deconstructing a
`FileEntryRef` into a name and `FileEntry` and then rebuilding it later,
use it as is. This helps to unblock making the constructor of
`FileEntryRef` private to `FileManager`.
Differential Revision:
lambda-expression's captures.
The built-in structured binding rules for classes require that all
fields can be accessed by name, and the fields introduced for lambda
captures are unnamed, so decomposing a capturing lambda is ill-formed.
Use `LineOffsetMapping:get` directly and remove/inline the helper
`ComputeLineNumbers`, simplifying the callers.
Differential Revision: https://reviews.llvm.org/D89922
It's currently ambiguous in IR whether the source language explicitly
did not want a stack a stack protector (in C, via function attribute
no_stack_protector) or doesn't care for any given function.
It's common for code that manipulates the stack via inline assembly or
that has to set up its own stack canary (such as the Linux kernel) would
like to avoid stack protectors in certain functions. In this case, we've
been bitten by numerous bugs where a callee with a stack protector is
inlined into an __attribute__((__no_stack_protector__)) caller, which
generally breaks the caller's assumptions about not having a stack
protector. LTO exacerbates the issue.
While developers can avoid this by putting all no_stack_protector
functions in one translation unit together and compiling those with
-fno-stack-protector, it's generally not very ergonomic or as
ergonomic as a function attribute, and still doesn't work for LTO. See also:
https://lore.kernel.org/linux-pm/20200915172658.1432732-1-rkir@google.com/https://lore.kernel.org/lkml/20200918201436.2932360-30-samitolvanen@google.com/T/#u
Typically, when inlining a callee into a caller, the caller will be
upgraded in its level of stack protection (see adjustCallerSSPLevel()).
By adding an explicit attribute in the IR when the function attribute is
used in the source language, we can now identify such cases and prevent
inlining. Block inlining when the callee and caller differ in the case that one
contains `nossp` when the other has `ssp`, `sspstrong`, or `sspreq`.
Fixes pr/47479.
Reviewed By: void
Differential Revision: https://reviews.llvm.org/D87956
On AIX, to support vector types, which should always be 16 bytes aligned,
we set alloca to return 16 bytes aligned memory space.
Differential Revision: https://reviews.llvm.org/D89910
Avoid some noisy `const_cast`s by making `ContentCache::SourceLineCache`
and `SourceManager::LastLineNoContentCache` both mutable.
Differential Revision: https://reviews.llvm.org/D89914
If CUDA version can not be determined based on version.txt file, attempt to find
CUDA_VERSION macro in cuda.h.
This is a follow-up to D89752,
Differntial Revision: https://reviews.llvm.org/D89832
CUDA-11.1 does not carry version.txt which causes clang to assume that it's
CUDA-7.0, which used to be the only CUDA version w/o version.txt.
In order to tell CUDA-7.0 apart from the new versions, clang now probes for the
presence of libdevice.10.bc which is not present in the old CUDA versions.
This should keep Clang working for CUDA-11.1.
PR47332: https://bugs.llvm.org/show_bug.cgi?id=47332
Differential Revision: https://reviews.llvm.org/D89752
Put the guts of `ComputeLineNumbers` into `LineOffsetMapping::get` and
`LineOffsetMapping::LineOffsetMapping`. As a drive-by, store the number
of lines directly in the bump-ptr-allocated array.
Differential Revision: https://reviews.llvm.org/D89913
It turns out that `FileInfo` *always* has a ContentCache. Clarify that
in the code:
- Update the private version of `SourceManager::createFileID` to take a
`ContentCache&` instead of `ContentCache*`, and rename it to
`createFileIDImpl` for clarity.
- Change `FileInfo::getContentCache` to return a reference.
Differential Revision: https://reviews.llvm.org/D89554
This change adds another export, `using TemplateArgumentMatcher = internal::Matcher<TemplateArgument>;`, to the collection of exports that put instantiations of the `clang::ast_matchers::internal::Matcher` into the `clang::ast_matchers` namespace. This makes it possible to define custom TemplateArgument matchers without reaching into the `internal` namespace.
Reviewed By: klimek
Differential Revision: https://reviews.llvm.org/D89920
`SourceManager::getFileEntryRefForID`'s remaining callers just want the
filename component, which is coming from the `FileInfo`. Replace the API
with `getNonBuiltinFilenameForID`, which also removes another use of
`FileEntryRef::FileEntryRef` outside of `FileManager`.
Both callers are collecting file dependencies, and one of them relied on
this API to filter out built-ins (as exposed by
clang/test/ClangScanDeps/modules-full.cpp). It seems nice to continue
providing that service.
Differential Revision: https://reviews.llvm.org/D89508
`SourceManager::isMainFile` does not use the filename, so it doesn't
need the full `FileEntryRef`; in fact, it's misleading to take the name
because that makes it look relevant. Simplify the API, and in the
process remove some calls to `FileEntryRef::FileEntryRef` in the unit
tests (which were blocking making that private to `SourceManager`).
Differential Revision: https://reviews.llvm.org/D89507
Add helpers `getSLocEntryOrNull`, which handles the `Invalid` logic
around `getSLocEntry`, and `getSLocEntryForFile`, which also checks for
`SLocEntry::isFile`, and use them to reduce repeated code.
Differential Revision: https://reviews.llvm.org/D89503
This functionality is commonly needed in clang tidy checks (based on
transformer) that only print warnings, without suggesting any edits. The no-op
edit allows the user to associate a diagnostic message with a source location.
Differential Revision: https://reviews.llvm.org/D89961
Some early errors during the ASTUnit creation were not transferred to the `FailedParseDiagnostic` so when the code in `LoadFromCommandLine` swaps its content with the content of `StoredDiagnostics` they cannot be retrieved by the user in any way.
Reviewed By: andrewrk, dblaikie
Differential Revision: https://reviews.llvm.org/D78658
1. Emit error for -G driver option on AIX
2. Adjust cmake file to use -Wl,-G instead of -G
On AIX, legacy XL compiler uses -G to produce a shared object enabled
for use with the run-time linker, which has different meanings from what
it is used for in Clang. And in Clang, other targets do not have -G map
to another functionality in their legacy compiler. So this error is more
important when we are on AIX.
Differential Revision: https://reviews.llvm.org/D89897
Replace `ContentCache::getRawBuffer` with `getBufferDataIfLoaded` and
`getBufferIfLoaded`, excising another accessor for the underlying
`MemoryBuffer*` in favour of `StringRef` and `MemoryBufferRef`.
Differential Revision: https://reviews.llvm.org/D89445
Many non-language extensions are defined but also unused. This patch
removes them with their tests as they do not require compiler support.
The cl_khr_select_fprounding_mode extension is also removed because it
has been deprecated since OpenCL 1.1 and Clang doesn't have any specific
support for it.
The cl_khr_context_abort extension is only referred to in "The OpenCL
Specification", version 1.2 and 2.0, in Table 4.3, but no specification
is provided in "The OpenCL Extension Specification" for these versions.
Because it is both unused in Clang and lacks specification, this
extension is removed.
The following extensions are platform extensions that bring new OpenCL
APIs but do not impact the kernel language nor require compiler support.
They are therefore removed.
- cl_khr_gl_sharing, introduced in OpenCL 1.0
- cl_khr_icd, introduced in OpenCL 1.2
- cl_khr_gl_event, introduced in OpenCL 1.1
Note: this extension adds a new API to create cl_event but it also
specifies that these can only be used by clEnqueueAcquireGLObjects.
Hence, they cannot be used on the device side and the extension does
not impact the kernel language.
- cl_khr_d3d10_sharing, introduced in OpenCL 1.1
- cl_khr_d3d11_sharing, introduced in OpenCL 1.2
- cl_khr_dx9_media_sharing, introduced in OpenCL 1.2
- cl_khr_image2d_from_buffer, introduced in OpenCL 1.2
- cl_khr_initialize_memory, introduced in OpenCL 1.2
- cl_khr_gl_depth_images, introduced in OpenCL 1.2
Note: this extension is related to cl_khr_depth_images but only the
latter adds new features to the kernel language.
- cl_khr_spir, introduced in OpenCL 1.2
- cl_khr_egl_event, introduced in OpenCL 1.2
Note: this extension adds a new API to create cl_event but it also
specifies that these can only be used by clEnqueueAcquire* API
functions. Hence, they cannot be used on the device side and the
extension does not impact the kernel language.
- cl_khr_egl_image, introduced in OpenCL 1.2
- cl_khr_terminate_context, introduced in OpenCL 1.2
The minimum required OpenCL version used in OpenCLExtensions.def for
these extensions is not always correct. Removing these address that
issue.
Reviewed By: Anastasia
Differential Revision: https://reviews.llvm.org/D89372
The __ocml_*_rte_f32 and __ocml_*_rte_f64 functions are not
available if OCML_BASIC_ROUNDED_OPERATIONS is not defined.
Reviewed By: b-sumner, yaxunl
Fixes: SWDEV-257235
Differential Revision: https://reviews.llvm.org/D89966
This requires that we track enough information to determine the original
type of the parameter in a substituted non-type template parameter, to
distinguish the reference-to-class case from the class case.
The changes made in D88594 caused the test OpenMP/driver.c to fail on a 32-bit host becuase it was offloading to a 64-bit architecture by default. The offloading test was moved to a new file and a feature was added to the lit config to check for a 64-bit host.
Reviewed By: daltenty
Differential Revision: https://reviews.llvm.org/D89904
non-type template parameters.
Create a unique TemplateParamObjectDecl instance for each such value,
representing the globally unique template parameter object to which the
template parameter refers.
No IR generation support yet; that will follow in a separate patch.
Changes:
- initializer expressions of constexpr variable are now wraped in a ConstantExpr. this is mainly used for testing purposes. the old caching system has not yet been removed.
- Add all the missing Serialization and Importing for APValue.
- Improve dumping of APValue when ASTContext isn't available.
- Cleanup leftover from last patch.
- Add Tests for Import and serialization.
Differential Revision: https://reviews.llvm.org/D63640
LLVM assumes that when it creates a call to a C library function it
can use the C calling convention. On ARM the effective calling
convention is determined from the target triple, however using
-mfloat-abi=hard on ARM means that calls to (and definitions of) C
library functions use the arm_aapcs_vfpcc calling convention which can
result in a mismatch.
Fix this by incorporating -mfloat-abi into the target triple, similar
to how -mbig-endian and -march/-mcpu are. This only works for EABI
targets and not Android or iOS, but there the float abi is fixed so
instead give an error.
Fixes PR45524
Differential Revision: https://reviews.llvm.org/D89573
assembly operands."
Earlyclobbers are now excepted from this change (original commit: c78da03).
Review: Ulrich Weigand, Nick Desaulniers
Differential Revision: https://reviews.llvm.org/D87279
This changes `ContentCache::Buffer` to use
`std::unique_ptr<MemoryBuffer>` instead of the `PointerIntPair`. It
drops the (mostly unused) `DoNotFree` bit, instead creating a (new)
non-owning `MemoryBuffer` instance when passed a `MemoryBufferRef`.
Differential Revision: https://reviews.llvm.org/D67030
Comparing 32-bit `ptrdiff_t` against 32-bit `unsigned` results in
`-Wsign-compare` warnings for both GCC and Clang.
The warning for the cases in question appear to identify an issue
where the `ptrdiff_t` value would be mutated via conversion to an
unsigned type.
The warning is resolved by using the usual arithmetic conversions to
safely preserve the value of the `unsigned` operand while trying to
convert to a signed type. Host platforms where `unsigned` has the same
width as `unsigned long long` will need to make a different change, but
using an explicit cast has disadvantages that can be avoided for now.
Reviewed By: dantrushin
Differential Revision: https://reviews.llvm.org/D89612
when instantiating the enclosing class.
We'll build new lambda closure types if and when we instantiate the
default member initializer, and instantiating the closure type by itself
can go wrong in cases where we fully-instantiate nested classes (in
explicit instantiations of the enclosing class and when the enclosing
class is a local class) -- we will instantiate the 'operator()' as a
regular function rather than as a lambda call operator, so it doesn't
get to use its captures, has the wrong 'this' type, etc.
Permitting non-standards-driven "do the best you can" constant-folding
of array bounds is permitted solely as a GNU compatibility feature. We
should not be doing it in any language mode that is attempting to be
conforming.
From https://reviews.llvm.org/D20090 it appears the intent here was to
permit `__constant int` globals to be used in array bounds, but the
change in that patch only added half of the functionality necessary to
support that in the constant evaluator. This patch adds the other half
of the functionality and turns off constant folding for array bounds in
OpenCL.
I couldn't find any spec justification for accepting the kinds of cases
that D20090 accepts, so a reference to where in the OpenCL specification
this is permitted would be useful.
Note that this change also affects the code generation in one test:
because after 'const int n = 0' we now treat 'n' as a constant
expression with value 0, it's now a null pointer, so '(local int *)n'
forms a null pointer rather than a zero pointer.
Reviewed By: Anastasia
Differential Revision: https://reviews.llvm.org/D89520
With -fbasicblock-sections=, let the front-end handle the case where the file
doesnt exist. The driver only checks if the option syntax is right.
Differential Revision: https://reviews.llvm.org/D89500
Move a flag out of the `MemoryBuffer*` to unblock changing it to a
`unique_ptr`. There are plenty of bits available in the bitfield below.
Differential Revision: https://reviews.llvm.org/D89431
Inline `Source::getBufferPointer` into its only remaining caller,
`getBufferOrNone`. No functionality change.
Differential Revision: https://reviews.llvm.org/D89430
Replace `SourceManager::getMemoryBufferForFile`, which returned a
dereferenceable `MemoryBuffer*` and had a `bool*Invalid` out parameter,
with `getMemoryBufferForFileOrNone` (returning
`Optional<MemoryBufferRef>`) and `getMemoryBufferForFileOrFake`
(returning `MemoryBufferRef`).
Differential Revision: https://reviews.llvm.org/D89429
In D86000 we added a new sanitizer to the integer group
without adding it to the trapping group. This broke usage of
-fsanitize=integer -fsanitize-trap=integer or -fsanitize=integer
-fsanitize-minimal-runtime.
I think we can reasonably expect any new integer sanitizers to be
compatible with trapping and the minimal runtime, so add them to the
trapping group automatically.
Also add a test to ensure that any future additions of sanitizers
to the integer group will most likely result in test failures which
would lead to updates to the minimal runtime if necessary. For this
particular sanitizer no updates are required because it uses the
existing shift_out_of_bounds callback function.
Differential Revision: https://reviews.llvm.org/D89766
Add a test demonstrating `getFileRef`'s behaviour, which isn't obvious
from code inspection when it's handling a redirected file.
Differential Revision: https://reviews.llvm.org/D89469
In order to drop the final callers to `SourceManager::getBuffer`, change
`FrontendInputFile` to use `Optional<MemoryBufferRef>`. Also updated
the "unowned" version of `SourceManager::createFileID` to take a
`MemoryBufferRef` (it now calls `MemoryBuffer::getMemBuffer`, which
creates a `MemoryBuffer` that does not own the buffer data).
Differential Revision: https://reviews.llvm.org/D89427
The patch adjusts the existing `llvm::DenseMap<unsigned, T>` and
`llvm::DenseSet<unsigned>` objects that store source locations, so
that they use `SourceLocation` directly instead of `unsigned`.
This patch relies on the `DenseMapInfo` trait added in D89719.
It also replaces the construction of `SourceLocation` objects from
the constants -1 and -2 with calls to the trait's methods `getEmptyKey`
and `getTombstoneKey` where appropriate.
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D69840
To pacify a GCC warning:
[1/1] Building CXX object tools/clang/lib/Analysis/CMakeFiles/obj.clangAnalysis.dir/Dominators.cpp.o
In file included from /work/llvm.monorepo/clang/include/clang/AST/NestedNameSpecifier.h:18:0,
from /work/llvm.monorepo/clang/include/clang/AST/Type.h:21,
from /work/llvm.monorepo/clang/include/clang/AST/DeclarationName.h:16,
from /work/llvm.monorepo/clang/include/clang/AST/DeclBase.h:18,
from /work/llvm.monorepo/clang/include/clang/Analysis/AnalysisDeclContext.h:20,
from /work/llvm.monorepo/clang/include/clang/Analysis/Analyses/Dominators.h:16,
from /work/llvm.monorepo/clang/lib/Analysis/Dominators.cpp:9:
/work/llvm.monorepo/clang/include/clang/Basic/Diagnostic.h:
In copy constructor ‘clang::DiagnosticBuilder::DiagnosticBuilder(const clang::DiagnosticBuilder&)’:
/work/llvm.monorepo/clang/include/clang/Basic/Diagnostic.h:1287:3:
warning: base class ‘class clang::StreamingDiagnostic’ should be explicitly initialized in the copy constructor [-Wextra]
DiagnosticBuilder(const DiagnosticBuilder &D) {
^
In file included from /work/llvm.monorepo/clang/include/clang/AST/Type.h:29:0,
from /work/llvm.monorepo/clang/include/clang/AST/DeclarationName.h:16,
from /work/llvm.monorepo/clang/include/clang/AST/DeclBase.h:18,
from /work/llvm.monorepo/clang/include/clang/Analysis/AnalysisDeclContext.h:20,
from /work/llvm.monorepo/clang/include/clang/Analysis/Analyses/Dominators.h:16,
from /work/llvm.monorepo/clang/lib/Analysis/Dominators.cpp:9:
/work/llvm.monorepo/clang/include/clang/Basic/PartialDiagnostic.h:
In copy constructor ‘clang::PartialDiagnostic::PartialDiagnostic(const clang::PartialDiagnostic&)’:
/work/llvm.monorepo/clang/include/clang/Basic/PartialDiagnostic.h:52:3:
warning: base class ‘class clang::StreamingDiagnostic’ should be explicitly initialized in the copy constructor [-Wextra]
PartialDiagnostic(const PartialDiagnostic &Other) : DiagID(Other.DiagID) {
^
It was failing with:
In file included from /work/llvm.monorepo/clang/lib/Analysis/Dominators.cpp:9:0:
/work/llvm.monorepo/clang/include/clang/Analysis/Analyses/Dominators.h: At global scope:
/work/llvm.monorepo/clang/include/clang/Analysis/Analyses/Dominators.h:111:26:
error: specialization of ‘template<class CfgRelatedTypeT> struct llvm::CfgTraitsFor’ in different namespace [-fpermissive]
template <> struct llvm::CfgTraitsFor<clang::CFGBlock> {
^
In file included from /work/llvm.monorepo/clang/include/clang/Analysis/Analyses/Dominators.h:21:0,
from /work/llvm.monorepo/clang/lib/Analysis/Dominators.cpp:9:
/work/llvm.monorepo/llvm/include/llvm/Support/CfgTraits.h:294:44:
error: from definition of ‘template<class CfgRelatedTypeT> struct llvm::CfgTraitsFor’ [-fpermissive]
template <typename CfgRelatedTypeT> struct CfgTraitsFor;
^
This change creates a `DenseMapInfo` trait specialization for the
SourceLocation class. The empty key, the tombstone key, and the hash
function are identical to `DenseMapInfo<unsigned>`, because we already
have hash maps that use raw the representation of `SourceLocation` as
a key.
The update of existing `DenseMap`s containing raw representation of
`SourceLocation`s will be done in a follow-up patch. As an example
the patch makes use of the new trait in one instance:
clang-tidy/google/UpgradeGoogletestCaseCheck.{h,cpp}
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D89719
Since 9b40ee8eb0, new/delete must be requested explicitly during the
CMake configuration if one wants these definitions to appear in libc++.
Differential Revision: https://reviews.llvm.org/D89793
The CfgTraits abstraction simplfies writing algorithms that are
generic over the type of CFG, and enables writing such algorithms
as regular non-template code that operates on opaque references
to CFG blocks and values.
Implementations of CfgTraits provide operations on the concrete
CFG types, e.g. `IrCfgTraits::BlockRef` is `BasicBlock *`.
CfgInterface is an abstract base class which provides operations
on opaque types CfgBlockRef and CfgValueRef. Those opaque types
encapsulate a `void *`, but the meaning depends on the concrete
CFG type. For example, MachineCfgTraits -- for use with MachineIR
in SSA form -- encodes a Register inside CfgValueRef. Converting
between concrete references and opaque/generic ones is done by
CfgTraits::{fromGeneric,toGeneric}. Convenience methods
CfgTraits::{un}wrap{Iterator,Range} are available as well.
Writing algorithms in terms of CfgInterface adds some overhead
(virtual method calls, plus in same cases it removes the
opportunity to inline iterators), but can be much more convenient
since generic algorithms can be written as non-templates.
This patch adds implementations of CfgTraits for all CFGs on
which dominator trees are calculated, so that the dominator
tree can be ported to this machinery. Only IrCfgTraits (LLVM IR)
and MachineCfgTraits (Machine IR in SSA form) are complete, the
other implementations are limited to the absolute minimum
required to make the upcoming dominator tree changes work.
v5:
- fix MachineCfgTraits::blockdef_iterator and allow it to iterate over
the instructions in a bundle
- use MachineBasicBlock::printName
v6:
- implement predecessors/successors for all CfgTraits implementations
- fix error in unwrapRange
- rename toGeneric/fromGeneric into wrapRef/unwrapRef to have naming
that is consistent with {wrap,unwrap}{Iterator,Range}
- use getVRegDef instead of getUniqueVRegDef
v7:
- std::forward fix in wrapping_iterator
- fix typos
v8:
- cleanup operators on CfgOpaqueType
- address other review comments
Change-Id: Ia75f4f268fded33fca11218a7d578c9aec1f3f4d
Differential Revision: https://reviews.llvm.org/D83088
D70365 allows us to make attributes default. This is a follow up to
actually make nosync, nofree and willreturn default. The approach we
chose, for now, is to opt-in to default attributes to avoid introducing
problems to target specific intrinsics. Intrinsics with default
attributes can be created using `DefaultAttrsIntrinsic` class.
This allows building the clang-format unit tests in only 657 ninja steps
rather than 1257 which allows for much faster incremental builds after a
git pull.
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D89709
This allows removing the clangAST dependency from libclangToolingCore and
therefore allows clang-format to be built without depending on clangAST.
Before 1166 files had to be compiled for clang-format, now only 796.
Reviewed By: bkramer
Differential Revision: https://reviews.llvm.org/D89708
This fixes miscomputation of __builtin_constant_evaluated in the
initializer of a variable that's not usable in constant expressions, but
is readable when constant-folding.
If evaluation of a constant initializer fails, we throw away the
evaluated result instead of keeping it as a non-constant-initializer
value for the variable, because it might not be a correct value.
To avoid regressions for initializers that are foldable but not formally
constant initializers, we now try constant-evaluating some globals in
C++ twice: once to check for a constant initializer (in an mode where
is_constannt_evaluated returns true) and again to determine the runtime
value if the initializer is not a constant initializer.
* Make cc1 and cc1as --compress-debug-sections an alias for --compress-debug-sections=zlib
* Make -gz an alias for -gz=zlib
The new behavior is consistent with GCC when binutils>=2.26 is detected:
-gz is translated to --compress-debug-sections=zlib instead of --compress-debug-sections.
The name is unfortunate because it is similar to the driver option -ftest-coverage.
It turns out aside from one occurrence in a test, this option is not used.
Instead of framing the interface around whether the variable is an ICE
(which is only interesting in C++98), primarily track whether the
initializer is a constant initializer (which is interesting in all C++
language modes).
No functionality change intended.
for which it matters.
This is a step towards separating checking for a constant initializer
(in which std::is_constant_evaluated returns true) and any other
evaluation of a variable initializer (in which it returns false).
Recently commit D78699 (commit 26cfb6e562), fixed clang's behavior with respect
to passing a union type through a register to correctly follow the ABI. However,
this is an ABI breaking change with earlier versions of the clang compiler, so we
should add an -fclang-abi-compat option to address this. Additionally, the PS4 ABI
requires the older behavior, so that is added as well.
This change adds a Ver11 value to the ClangABI enum that when it is set (or the
target is the PS4 triple), we skip the ABI fix introduced in D78699.
Differential Revision: https://reviews.llvm.org/D89747
Update clang/lib/Lex to stop relying on a `MemoryBuffer*`, using the
`MemoryBufferRef` from `getBufferOrNone` since both locations had logic
for checking validity of the buffer. There's potentially a functionality
change, since the logic was wrong (it checked for `nullptr`, which was
never returned by the old API), but if that was reachable the new
behaviour should be better.
Differential Revision: https://reviews.llvm.org/D89402
Update `Lexer` / `Lexer::Lexer` to use `MemoryBufferRef` instead of
`MemoryBuffer*`. Callers that were acquiring a `MemoryBuffer*` via
`SourceManager::getBuffer` were updated, such that if they checked
`Invalid` they use `getBufferOrNone` and otherwise `getBufferOrFake`.
Differential Revision: https://reviews.llvm.org/D89398
Measure amount of high-level or fixed-cost operations performed during
building/loading modules and during header search. High-level operations
like building a module or processing a .pcm file are motivated by
previous issues where clang was re-building modules or re-reading .pcm
files unnecessarily. Fixed-cost operations like `stat` calls are tracked
because clang cannot change how long each operation takes but it can
perform fewer of such operations to improve the compile time.
Also tracking such stats over time can help us detect compile-time
regressions. Added stats are more stable than the actual measured
compilation time, so expect the detected regressions to be less noisy.
On relanding drop stats in MemoryBuffer.cpp as their value is pretty low
but affects a lot of clients and many of those aren't interested in
modules and header search.
rdar://problem/55715134
Reviewed By: aprantl, bruno
Differential Revision: https://reviews.llvm.org/D86895
PartialDiagnostic misses some functions compared to DiagnosticBuilder.
This patch refactors DiagnosticBuilder and PartialDiagnostic, extracts
the common functionality so that the streaming << operators are
shared.
Differential Revision: https://reviews.llvm.org/D84362
Update clang/lib/Format and clang/lib/Rewrite to use a `MemoryBufferRef`
from `getBufferOrFake` instead of `MemoryBuffer*` from `getBuffer`.
No functionality change here, since the call sites weren't checking if
the buffer was valid.
Differential Revision: https://reviews.llvm.org/D89406
The changes made in D88594 caused the test OpenMP/driver.c to fail on a 32-bit host becuase it was offloading to a 64-bit architecture by default. The offloading test was moved to a new file and a feature was added to the lit config to check for a 64-bit host.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D89696
SourceLocation implements `operator<`, so `SourceLocation`-s can be used
as keys in `std::map` directly, there is no need to extract the internal
representation.
Since the `operator<` simply compares the internal representations of
its operands, this patch does not introduce any functional changes.
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D89705
- Extend hip-toolchin-features.hip to also check the lld attributes
are passed correctly.
- Add check for cumode attributes.
Differential Revision: https://reviews.llvm.org/D89636
This broke Chromium's PGO build, it seems because hot-cold-splitting got turned
on unintentionally. See comment on the code review for repro etc.
> This patch adds -f[no-]split-cold-code CC1 options to clang. This allows
> the splitting pass to be toggled on/off. The current method of passing
> `-mllvm -hot-cold-split=true` to clang isn't ideal as it may not compose
> correctly (say, with `-O0` or `-Oz`).
>
> To implement the -fsplit-cold-code option, an attribute is applied to
> functions to indicate that they may be considered for splitting. This
> removes some complexity from the old/new PM pipeline builders, and
> behaves as expected when LTO is enabled.
>
> Co-authored by: Saleem Abdulrasool <compnerd@compnerd.org>
> Differential Revision: https://reviews.llvm.org/D57265
> Reviewed By: Aditya Kumar, Vedant Kumar
> Reviewers: Teresa Johnson, Aditya Kumar, Fedor Sergeev, Philip Pfaffe, Vedant Kumar
This reverts commit 273c299d5d.
Some projects (e.g. FreeBSD) align pointers to the right but expect a
space between the '*' and any pointer qualifiers such as const. To handle
these cases this patch adds a new config option SpaceAroundPointerQualifiers
that can be used to configure whether spaces need to be added before/after
pointer qualifiers.
PointerAlignment = Right
SpaceAroundPointerQualifiers = Default/After:
void *const *x = NULL;
SpaceAroundPointerQualifiers = Before/Both
void * const *x = NULL;
PointerAlignment = Left
SpaceAroundPointerQualifiers = Default/Before:
void* const* x = NULL;
SpaceAroundPointerQualifiers = After/Both
void* const * x = NULL;
PointerAlignment = Middle
SpaceAroundPointerQualifiers = Default/Before/After/Both:
void * const * x = NULL;
Reviewed By: MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D88227
Implementing the likelihood attributes for the iteration statements adds
a new helper function. This function can't be const qualified since
these non-modifying members aren't const qualified.
The semantics associated with `__vector [un]signed long` are neither
consistently specified nor consistently implemented.
The IBM XL compilers on AIX traditionally treated these as deprecated
aliases for the corresponding `__vector int` type in both 32-bit and
64-bit modes. The newer, Clang-based, IBM XL compilers on AIX make usage
of the previously deprecated types an error. This is also consistent
with IBM XL C/C++ for Linux on Power (on little endian distributions).
In line with the above, this patch upgrades (on AIX) the deprecation of
`__vector long` to become removal.
Reviewed By: ZarkoCA
Differential Revision: https://reviews.llvm.org/D89443
This implements the likelihood attribute for the switch statement. Based on the
discussion in D85091 and D86559 it only handles the attribute when placed on
the case labels or the default labels.
It also marks the likelihood attribute as feature complete. There are more QoI
patches in the pipeline.
Differential Revision: https://reviews.llvm.org/D89210
initialization a little smarter.
Look through casts that preserve zero-ness when determining if an
initializer is zero, so that we can handle cases like an {0} initializer
whose corresponding field is a type other than 'int'.
Old GCC used to aggressively fold VLAs to constant-bound arrays at block
scope in GNU mode. That's non-conforming, and more modern versions of
GCC only do this at file scope. Update Clang to do the same.
Also promote the warning for this from off-by-default to on-by-default
in all cases; more recent versions of GCC likewise warn on this by
default.
This is still slightly more permissive than GCC, as pointed out in
PR44406, as we still fold VLAs to constant arrays in structs, but that
seems justifiable given that we don't support VLA-in-struct (and don't
intend to ever support it), but GCC does.
Differential Revision: https://reviews.llvm.org/D89523
ClangFormat does not correctly handle an Objective-C interface declaration
with both lightweight generics and a protocol conformance.
This simple example:
```
@interface Foo : Bar <Baz> <Blech>
@end
```
means `Foo` extends `Bar` (a lightweight generic class whose type
parameter is `Baz`) and also conforms to the protocol `Blech`.
ClangFormat should not apply any changes to the above example, but
instead it currently formats it quite poorly:
```
@interface Foo : Bar <Baz>
<Blech>
@end
```
The bug is that `UnwrappedLineParser` assumes an open-angle bracket
after a base class name is a protocol list, but it can also be a
lightweight generic specification.
This diff fixes the bug by factoring out the logic to parse
lightweight generics so it can apply both to the declared class
as well as the base class.
Test Plan: New tests added. Ran tests with:
% ninja FormatTests && ./tools/clang/unittests/Format/FormatTests
Confirmed tests failed before diff and passed after diff.
Reviewed By: sammccall, MyDeveloperDay
Differential Revision: https://reviews.llvm.org/D89496
This addresses a regression where pretty much all C++ compilations using
-frounding-math now fail, due to rounding being performed in constexpr
function definitions in the standard library.
This follows the "manifestly constant evaluated" approach described in
https://reviews.llvm.org/D87528#2270676 -- evaluations that are required
to succeed at compile time are permitted even in regions with dynamic
rounding modes, as are (unfortunately) the evaluation of the
initializers of local variables of const integral types.
Differential Revision: https://reviews.llvm.org/D89360
`SourceManager::createFileID` asserts that the given `FileEntry` is not
null, so remove the logic that passed in `nullptr`. Since we just added
the file to an in-memory FS via an API that cannot fail, use
`llvm_unreachable` on the error path. Didn't use an `assert` since it
seems cleaner semantically to check the error (and better,
hypothetically, for updating the API to use `Expected` instead of
`ErrorOr`).
I noticed this incidentally while auditing calls to `createFileID`.
This patch makes sure that the instance of TypeSize comparison operator
is done with a fixed type size.
Differential Revision: https://reviews.llvm.org/D89312
After investigation by @asbirlea, the issue that caused the
revert appears to be an issue in the original source, rather
than a problem with the compiler.
This patch enables MemorySSA DSE again.
This reverts commit 915310bf14.
This test was failing in our CI environment, because Jenkins mounts the workspaces into Docker containers using their full path, i.e. /home/jenkins/workspaces/llvm-build.
We've seen permission denied errors because /home/jenkins is mounted with root permissions and the default cache directory under Linux is $HOME/.cache.
The fix is to explicitly provide the -fmodules-cache-path, which the other tests already seem to provide.
Reviewed By: akyrtzi
Differential Revision: https://reviews.llvm.org/D89453
- The goal of this patch is improve option compatible with RISCV-V GCC,
-mcpu support on GCC side will sent patch in next few days.
- -mtune only affect the pipeline model and non-arch/extension related
target feature, e.g. instruction fusion; in td file it called
TuneFeatures, which is introduced by X86 back-end[1].
- -mtune accept all valid option for -mcpu and extra alias processor
option, e.g. `generic`, `rocket` and `sifive-7-series`, the purpose is
option compatible with RISCV-V GCC.
- Processor alias for -mtune will resolve according the current target arch,
rv32 or rv64, e.g. `rocket` will resolve to `rocket-rv32` or `rocket-rv64`.
- Interaction between -mcpu and -mtune:
* -mtune has higher priority than -mcpu for pipeline model and
TuneFeatures.
[1] https://reviews.llvm.org/D85165
Reviewed By: luismarques
Differential Revision: https://reviews.llvm.org/D89025
folding to not constant folding.
Constant folding of ICEs is done as a GCC compatibility measure, but new
code was picking it up, presumably by accident, due to the bad default.
While here, also switch the flag from a bool to an enum to make it more
obvious what it means at call sites. This highlighted a couple of places
where our behavior is different between C++11 and C++14 due to switching
from checking for an ICE to checking for a converted constant
expression (where there is no 'fold' codepath).
This patch adds -f[no-]split-cold-code CC1 options to clang. This allows
the splitting pass to be toggled on/off. The current method of passing
`-mllvm -hot-cold-split=true` to clang isn't ideal as it may not compose
correctly (say, with `-O0` or `-Oz`).
To implement the -fsplit-cold-code option, an attribute is applied to
functions to indicate that they may be considered for splitting. This
removes some complexity from the old/new PM pipeline builders, and
behaves as expected when LTO is enabled.
Co-authored by: Saleem Abdulrasool <compnerd@compnerd.org>
Differential Revision: https://reviews.llvm.org/D57265
Reviewed By: Aditya Kumar, Vedant Kumar
Reviewers: Teresa Johnson, Aditya Kumar, Fedor Sergeev, Philip Pfaffe, Vedant Kumar
rL131311 added `asm()` support for builtin functions, but `asm()` for builtins with
specialized emitting (e.g. memcpy, various math functions) still do not work.
This patch makes these functions work for `asm()` and `#pragma redefine_extname`.
glibc uses `asm()` to redirect internal libc function calls to hidden aliases.
Limitation: such a function is a builtin in clang, but will not be recognized as
a libcall in optimization passes because Clang does not annotate the renamed
function as a libcall. In GCC -O1 or above, `abs` can be optimized out but we can't.
Additionally, we cannot redirect `__builtin_sin` to `real_sin` in the following example:
double sin(double x) asm("real_sin");
double f(double d) { return __builtin_sin(d); }
---
According to @rsmith, the following three statements cannot be simultaneously true:
(1) The frontend function foo has known, builtin semantics X.
(2) The symbol foo has known, builtin semantics X.
(3) It's not correct to lower a call to the frontend function foo to the symbol foo.
People do want (1) (if it is profitable to expand a memcpy, do it).
This also means that people do not want to add -fno-builtin-memcpy.
People do want (3): that is why they use asm("__GI_memcpy") in the first place.
So unfortunately we make a compromise by not refuting (2) (see the limitation above).
For most libcalls, there is a small loss because compilers don't synthesize them.
For the few glibc cares about, it uses `asm("memcpy = __GI_memcpy");` to make
the assembly level redirection.
(Changing function names (e.g. `__memcpy`) is a hit to ergonomics which is not acceptable).
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D88712
This reverts commits 683b308c07 and
8487bfd4e9.
We will go for a more restricted approach that does not give freedom to
everyone to change ABIs on whichever platform.
See the discussion on https://reviews.llvm.org/D85802.
Currently, `after` fails when applied to locations in macro arguments. This
change projects the subrange into a file source range and then applies `after`.
Differential Revision: https://reviews.llvm.org/D89468
Prototype the newly proposed load_lane instructions, as specified in
https://github.com/WebAssembly/simd/pull/350. Since these instructions are not
available to origin trial users on Chrome stable, make them opt-in by only
selecting them from intrinsics rather than normal ISel patterns. Since we only
need rough prototypes to measure performance right now, this commit does not
implement all the load and store patterns that would be necessary to make full
use of the offset immediate. However, the full suite of offset tests is included
to make it easy to track improvements in the future.
Since these are the first instructions to have a memarg immediate as well as an
additional immediate, the disassembler needed some additional hacks to be able
to parse them correctly. Making that code more principled is left as future
work.
Differential Revision: https://reviews.llvm.org/D89366
Using TypeSize::getFixedSize() instead of relying upon the implicit
TypeSize->uint64_cast as the type is always fixed width.
Differential Revision: https://reviews.llvm.org/D89313
Capitalize the profile function of APValue such that it can be used by FoldingSetNodeID
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D88643
Previously we failed to convert 'p' from array/function to pointer type,
and to represent the load of 'p' in the AST. The latter causes problems
for constant evaluation.
Update clang-tools-extra, clang/tools, clang/unittests to migrate from
`SourceManager::getBuffer`, which returns an always dereferenceable
`MemoryBuffer*`, to `getBufferOrNone` or `getBufferOrFake`, both of
which return a `MemoryBufferRef`, depending on whether the call site was
checking for validity of the buffer. No functionality change intended.
Differential Revision: https://reviews.llvm.org/D89416
Update clang/lib/StaticAnalyzer to stop relying on a `MemoryBuffer*`,
using the `MemoryBufferRef` from `getBufferOrNone` or the
`Optional<MemoryBufferRef>` from `getBufferOrFake`, depending on whether
there's logic for checking validity of the buffer. The change to
clang/lib/StaticAnalyzer/Core/IssueHash.cpp is potentially a
functionality change, since the logic was wrong (it checked for
`nullptr`, which was never returned by the old API), but if that was
reachable the new behaviour should be better.
Differential Revision: https://reviews.llvm.org/D89414
Update `clang/lib/CodeGen` to use a `MemoryBufferRef` from
`getBufferOrNone` instead of `MemoryBuffer*` from `getBuffer`. No
functionality change here.
Differential Revision: https://reviews.llvm.org/D89411
Update clang/lib/Frontend to use a `MemoryBufferRef` from
`getBufferOrFake` instead of `MemoryBuffer*` from `getBuffer`, with the
exception of `FrontendInputFile`, which I'm leaving for later.
Differential Revision: https://reviews.llvm.org/D89409
Update clang/lib/Basic to stop relying on a `MemoryBuffer*`, using the
`MemoryBufferRef` from `getBufferOrNone` or `getBufferOrFake` instead of
`getBuffer`.
Differential Revision: https://reviews.llvm.org/D89394
callee in constant evaluation.
We previously made a deep copy of function parameters of class type when
passing them, resulting in the destructor for the parameter applying to
the original argument value, ignoring any modifications made in the
function body. This also meant that the 'this' pointer of the function
parameter could be observed changing between the caller and the callee.
This change completely reimplements how we model function parameters
during constant evaluation. We now model them roughly as if they were
variables living in the caller, albeit with an artificially reduced
scope that covers only the duration of the function call, instead of
modeling them as temporaries in the caller that we partially "reparent"
into the callee at the point of the call. This brings some minor
diagnostic improvements, as well as significantly reduced stack usage
during constant evaluation.
AlignedCharArrayUnion is really only needed to handle the "union" case
when we need memory of suitable size and alignment for multiple types.
SmallVector only needs storage for one type, so use that directly.
The argument passed to the preprocessor macros `NS_SWIFT_NAME(x)` and
`CF_SWIFT_NAME(x)` is stringified before passing to
`__attribute__((swift_name("x")))`.
ClangFormat didn't know about this stringification, so its custom parser
tried to parse the argument(s) passed to the macro as if they were
normal function arguments.
That means ClangFormat currently incorrectly inserts whitespace
between `NS_SWIFT_NAME` arguments with colons and dots, so:
```
extern UIWindow *MainWindow(void) NS_SWIFT_NAME(getter:MyHelper.mainWindow());
```
becomes:
```
extern UIWindow *MainWindow(void) NS_SWIFT_NAME(getter : MyHelper.mainWindow());
```
which clang treats as a parser error:
```
error: 'swift_name' attribute has invalid identifier for context name [-Werror,-Wswift-name-attribute]
```
Thankfully, D82620 recently added the ability to treat specific macros
as "whitespace sensitive", meaning their arguments are implicitly
treated as strings (so whitespace is not added anywhere inside).
This diff adds `NS_SWIFT_NAME` and `CF_SWIFT_NAME` to
`WhitespaceSensitiveMacros` so their arguments are implicitly treated
as whitespace-sensitive.
Test Plan:
New tests added. Ran tests with:
% ninja FormatTests && ./tools/clang/unittests/Format/FormatTests
Reviewed By: sammccall
Differential Revision: https://reviews.llvm.org/D89425
Remove `ContentCache::getBuffer`, which always returned a
dereferenceable `MemoryBuffer*` and had a `bool*Invalid` out parameter,
and replace it with:
- `ContentCache::getBufferOrNone`, which returns
`Optional<MemoryBufferRef>`. This is the new API that consumers should
use. Later it could be renamed to `getBuffer`, but intentionally using
a different name to root out any unexpected callers.
- `ContentCache::getBufferPointer`, which returns `MemoryBuffer*` with
"optional" semantics. This is `private` to avoid growing callers and
`SourceManager` has temporarily been made a `friend` to access it.
Later paches will update the transitive callers to not need a raw
pointer, and eventually this will be deleted.
No functionality change intended here.
Differential Revision: https://reviews.llvm.org/D89348
This implements the flag proposed in RFC http://lists.llvm.org/pipermail/cfe-dev/2020-August/066437.html.
The goal is to add a way to override the default target C++ ABI through
a compiler flag. This makes it easier to test and transition between different
C++ ABIs through compile flags rather than build flags.
In this patch:
- Store `-fc++-abi=` in a LangOpt. This isn't stored in a
CodeGenOpt because there are instances outside of codegen where Clang
needs to know what the ABI is (particularly through
ASTContext::createCXXABI), and we should be able to override the
target default if the flag is provided at that point.
- Expose the existing ABIs in TargetCXXABI as values that can be passed
through this flag.
- Create a .def file for these ABIs to make it easier to check flag
values.
- Add an error for diagnosing bad ABI flag values.
Differential Revision: https://reviews.llvm.org/D85802
clang --target arm-none-eabi --print-libgcc-file-name --rtlib=compiler-rt
used to print `/path/to/lib/clang/version/lib/libclang_rt.builtins-arm.a`
but should print `/path/to/lib/clang/version/lib/baremetal/libclang_rt.builtins-arm.a`.
Similarly, --target armv7m-none-eabi should print libclang_rt.builtins-armv7m.a
This matches the compiler-rt file name used at link time in the
baremetal driver.
Reviewed By: manojgupta
Differential Revision: https://reviews.llvm.org/D89327
Summary:
This patch does the following:
1. Make InitTargetOptionsFromCodeGenFlags() accepts Triple as a
parameter, because some options' default value is triple dependant.
2. DataSections is turned on by default on AIX for llc.
3. Test cases change accordingly because of the default behaviour change.
4. Clang Driver passes in -fdata-sections by default on AIX.
Reviewed By: MaskRay, DiggerLin
Differential Revision: https://reviews.llvm.org/D88737
During the import of attributes we forgot to set the spelling list
index. This caused a segfault when we wanted to traverse the AST
(e.g. by the dump() method).
Differential Revision: https://reviews.llvm.org/D89318
During the import of FormatAttrs we forgot to import the type (e.g
`__scanf__`) of the attribute. This caused a segfault when we wanted to
traverse the AST (e.g. by the dump() method).
Differential Revision: https://reviews.llvm.org/D89319
Instead of collecting all specializations and doing a post-filterin, we
can just get all targeted specializations from getPartialSpecializationsizations.
Differential Revision: https://reviews.llvm.org/D89220
callee in constant evaluation.
We previously made a deep copy of function parameters of class type when
passing them, resulting in the destructor for the parameter applying to
the original argument value, ignoring any modifications made in the
function body. This also meant that the 'this' pointer of the function
parameter could be observed changing between the caller and the callee.
This change completely reimplements how we model function parameters
during constant evaluation. We now model them roughly as if they were
variables living in the caller, albeit with an artificially reduced
scope that covers only the duration of the function call, instead of
modeling them as temporaries in the caller that we partially "reparent"
into the callee at the point of the call. This brings some minor
diagnostic improvements, as well as significantly reduced stack usage
during constant evaluation.
callee in constant evaluation.
We previously made a deep copy of function parameters of class type when
passing them, resulting in the destructor for the parameter applying to
the original argument value, ignoring any modifications made in the
function body. This also meant that the 'this' pointer of the function
parameter could be observed changing between the caller and the callee.
This change completely reimplements how we model function parameters
during constant evaluation. We now model them roughly as if they were
variables living in the caller, albeit with an artificially reduced
scope that covers only the duration of the function call, instead of
modeling them as temporaries in the caller that we partially "reparent"
into the callee at the point of the call. This brings some minor
diagnostic improvements, as well as significantly reduced stack usage
during constant evaluation.
AIX has different layout dumping format from other itanium ABIs.
And for these two cases, use regex to match AIX format.
Differential Revision: https://reviews.llvm.org/D89064
With this change, we're more or less ready to allow users outside
of the Static Analyzer to take advantage of path diagnostic consumers
for emitting their warnings in different formats.
Differential Revision: https://reviews.llvm.org/D67422
IssueHash is an attempt to introduce stable warning identifiers
that won't change when code around them gets moved around.
Path diagnostic consumers print issue hashes for the emitted diagnostics.
This move will allow us to ultimately move path diagnostic consumers
to libAnalysis.
Differential Revision: https://reviews.llvm.org/D67421
The AnalyzerOptions object contains too much information that's
entirely specific to the Analyzer. It is also being referenced by
path diagnostic consumers to tweak their behavior. In order for path
diagnostic consumers to function separately from the analyzer,
make a smaller options object that only contains relevant options.
Differential Revision: https://reviews.llvm.org/D67420
Change EmitAsmStmt() to
- Not tie physregs with the "+r" constraint, but instead add the hard
register as an input constraint. This makes "+r" and "=r":"r" look the same
in the output.
Background: Macro intensive user code may contain inline assembly
statements with multiple operands constrained to the same physreg. Such a
case (with the operand constraints "+r" : "r") currently triggers the
TwoAddressInstructionPass assertion against any extra use of a tied
register. Furthermore, TwoAddress will insert a COPY to that physreg even
though isel has already done so (for the non-tied use), which may lead to a
second redundant instruction currently. A simple fix for this is to not
emit tied physreg uses in the first place for the "+r" constraint, which is
what this patch does.
- Give an error on multiple outputs to the same physical register.
This should be reported and this is also what GCC does.
Review: Ulrich Weigand, Aaron Ballman, Jennifer Yu, Craig Topper
Differential Revision: https://reviews.llvm.org/D87279
After D88666, which implemented DirectoryWatcher on Windows, we're
seeing test failures on Chromium's Windows bots.
Try raising the timeout in case the test is failing due to high load on
the machine.
Followup to D85191.
This changes getTypeInfoInChars to return a TypeInfoChars
struct instead of a std::pair of CharUnits. This lets the
interface match getTypeInfo more closely.
Reviewed By: efriedma
Differential Revision: https://reviews.llvm.org/D86447
This patch resumes the work of D16586.
According to the AAPCS, volatile bit-fields should
be accessed using containers of the widht of their
declarative type. In such case:
```
struct S1 {
short a : 1;
}
```
should be accessed using load and stores of the width
(sizeof(short)), where now the compiler does only load
the minimum required width (char in this case).
However, as discussed in D16586,
that could overwrite non-volatile bit-fields, which
conflicted with C and C++ object models by creating
data race conditions that are not part of the bit-field,
e.g.
```
struct S2 {
short a;
int b : 16;
}
```
Accessing `S2.b` would also access `S2.a`.
The AAPCS Release 2020Q2
(https://documentation-service.arm.com/static/5efb7fbedbdee951c1ccf186?token=)
section 8.1 Data Types, page 36, "Volatile bit-fields -
preserving number and width of container accesses" has been
updated to avoid conflict with the C++ Memory Model.
Now it reads in the note:
```
This ABI does not place any restrictions on the access widths of bit-fields where the container
overlaps with a non-bit-field member or where the container overlaps with any zero length bit-field
placed between two other bit-fields. This is because the C/C++ memory model defines these as being
separate memory locations, which can be accessed by two threads simultaneously. For this reason,
compilers must be permitted to use a narrower memory access width (including splitting the access into
multiple instructions) to avoid writing to a different memory location. For example, in
struct S { int a:24; char b; }; a write to a must not also write to the location occupied by b, this requires at least two
memory accesses in all current Arm architectures. In the same way, in struct S { int a:24; int:0; int b:8; };,
writes to a or b must not overwrite each other.
```
I've updated the patch D16586 to follow such behavior by verifying that we
only change volatile bit-field access when:
- it won't overlap with any other non-bit-field member
- we only access memory inside the bounds of the record
- avoid overlapping zero-length bit-fields.
Regarding the number of memory accesses, that should be preserved, that will
be implemented by D67399.
Reviewed By: ostannard
Differential Revision: https://reviews.llvm.org/D72932
Emit the equivalent integer reduction intrinsics in IR instead of expanding to shuffle+arithmetic sequences.
The fadd/fmul reductions might be trickier as they assume a similar bisection reduction while the generic intrinsics assume a sequential reduction (intel docs are ambiguous on the correct approach) - I'm not sure if we want to always tag them with reassoc? Anyway, that issue can wait until a separate fp patch along with the fmin/fmax reductions.
Differential Revision: https://reviews.llvm.org/D87604
References to different declarations of the same entity aren't different
values, so shouldn't have different representations.
Recommit of e6393ee813, most recently
reverted in 9a33f027ac due to a bug caused
by ObjCInterfaceDecls not propagating availability attributes along
their redeclaration chains; that bug was fixed in
e2d4174e9c.
chain for ObjCInterfaceDecls.
Only one such declaration can actually have attributes (the definition,
if any), but generally we assume that we can look for InheritedAttrs on
the most recent declaration.
They can get stale at use time because of updates from other recursive
specializations. Instead, rely on the existence of previous declarations to add
the specialization.
Differential Revision: https://reviews.llvm.org/D87853
Some tests start to fail after https://reviews.llvm.org/D89066.
It's because the size of pointers are different on different targets.
Limit the target in the command so there is no confusion.
Also noticed I had typo in the test name.
Adding disable-llvm-passes option to make the test more stable as well.
Differential Revision: https://reviews.llvm.org/D89269
This is a prep patch for changing SourceManager to return
`Optional<MemoryBufferRef>` instead of `MemoryBuffer`. With that change the
address of the MemoryBuffer will be gone, so instead use the start of the
buffer as the key for this map.
No functionality change intended, as it's expected that the pointer identity
matches between the buffers and the buffer data.
Radar-Id: rdar://70139990
Differential Revision: https://reviews.llvm.org/D89136
See PR47804:
TreeTransform uses TransformedLocalDecls as a map of declarations that
have been transformed already. When doing a "TransformDecl", which
happens in the cases of updating a DeclRefExpr's target, the default
implementation simply returns the already transformed declaration.
However, this was not including ParmVarDecls. SO, any use of
TreeTransform that didn't re-implement TransformDecl would NOT properly
update the target of a DeclRefExpr, resulting in odd behavior.
In the case of Typo-recovery, the result was that a lambda that used its
own parameter would cause an error, since it thought that the
ParmVarDecl referenced was a different lambda. Additionally, this caused
a problem in the AST (a declrefexpr into another scope) such that a
future instantiation would cause an assertion.
This patch ensures that the ParmVarDecl transforming process records
into TransformedLocalDecls so that the DeclRefExpr is ALSO updated.
In https://reviews.llvm.org/D87470 I added the change to tighten the lifetime of the expression awaiter.await_suspend().address.
Howver it was incorrect. ExprWithCleanups will call the dtor and end the lifetime for all the temps created in the current full expr.
When this is called on a normal await call, we don't want to do that.
We only want to do this for the call on the final_awaiter, to avoid writing into the frame after the frame is destroyed.
This change fixes it, by checking IsImplicit.
Differential Revision: https://reviews.llvm.org/D89066
Ben Shi