As for 128-bit floating points on PowerPC, compiler should have three
machine modes:
- IFmode, always IBM extended double
- KFmode, always IEEE 754R 128-bit floating point
- TFmode, matches the semantics for long double
This commit adds support for IF mode with its complex variant, IC mode.
Reviewed By: rjmccall
Differential Revision: https://reviews.llvm.org/D109950
The SSE4 header (smmintrin.h) should include SSSE3 (tmmintrin.h) instead
of SSE2 (emmintrin.h).
Reviewed By: jsji
Differential Revision: https://reviews.llvm.org/D111482
Without this, the combination of `-ast-dump=json` and `-ast-dump-filter FILTER` produces invalid JSON: the first line is a string that says `Dumping $SOME_DECL_NAME: `.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D108441
NOTE: some files are being removed from those files that are clang-formatted
which means some lack of formatting is slipping through the net on reviews
C++20 and later allow you to pass no argument for the ... parameter in
a variadic macro, whereas earlier language modes and C disallow it.
We no longer diagnose in C++20 and later modes. This fixes PR51609.
Some of the first supported version field were incorrectly attributed to a later branch.
It wasn't possible to correctly determine the "introduced version" with my naive implementation
using git blame alone, (especially if the type had been changed from a bool -> enum)
I saw more things attributed to clang-format 13 than I remembered and reviewed
those options to determine their introduced version.
Reviewed By: HazardyKnusperkeks
Differential Revision: https://reviews.llvm.org/D110803
CodeGenFunction::InitTempAlloca() inits the static alloca within the
entry block which may *not* necessarily be correct always.
For example, the current instruction insertion point (pointed by the
instruction builder) could be a program point which is hit multiple
times during the program execution, and it is expected that the static
alloca is initialized every time the program point is hit.
Hence remove CodeGenFunction::InitTempAlloca(), and initialize the
static alloca where the instruction insertion point is at the moment.
This patch, as a starting attempt, removes the calls to
CodeGenFunction::InitTempAlloca() which do not have any side effect on
the lit tests.
Reviewed By: rjmccall
Differential Revision: https://reviews.llvm.org/D111293
In this case, we know statically that we're destroying the most-derived
class, so the vptr must already point to the current class and never
needs to be updated.
fae0dfa implemented the new __ibm128 type, this patch enables its
complex form.
Reviewed By: rjmccall
Differential Revision: https://reviews.llvm.org/D109948
Currently, there're multiple float types that can be represented by
__attribute__((mode(xx))). It's parsed, and then a corresponding type is
created if available.
This refactor moves the enum for mode into a global enum class visible
to ASTContext.
Reviewed By: aaron.ballman, erichkeane
Differential Revision: https://reviews.llvm.org/D111391
This patch adds support for the
`__kmpc_get_hardware_num_threads_in_block` function that returns the
number of threads. This was missing in the new runtime and was used by
the AMDGPU plugin which prevented it from using the new runtime. This
patchs also unified the interface for getting the thread numbers in the
frontend.
Originally authored by jdoerfert.
Reviewed By: JonChesterfield
Differential Revision: https://reviews.llvm.org/D111475
There are functions where we do not want function instrumentation which is why we have `__attribute__((no_instrument_function))`. Extending this functionality to disable instrumentation for Objective-C methods as well. Objective C methods like `+load` run premain and having instrumentation on them causes runtime errors depending on the implementation of `__cyg_profile_func_enter` etc. functions
Reviewed By: rjmccall, aaron.ballman
Differential Revision: https://reviews.llvm.org/D111286
This moves the registry higher in the LLVM library dependency stack.
Every client of the target registry needs to link against MC anyway to
actually use the target, so we might as well move this out of Support.
This allows us to ensure that Support doesn't have includes from MC/*.
Differential Revision: https://reviews.llvm.org/D111454
Unfortunately I've not found a way to exercise this code that doesn't
crash elsewhere yet, due to unrelated bugs in how Sema incorrectly
instantiates lambdas in function template signatures.
Distinct lambda expressions are always considered non-equivalent, so two
token-for-token identical function declarations whose signatures involve
lambda-expressions declare distinct functions.
This patch updates the vec_extract builtins to take a signed int as the second
parameter, as defined by the Power Vector Intrinsics Programming Reference.
This patch is NFC and all existing tests pass.
Differential Revision: https://reviews.llvm.org/D110935
__builtin_assume_aligned's second parameter is size_t, which may be 32 bits.
We can't pass 2^32 when that happens. Update tests accordingly.
Example broken bot due to D111250:
https://lab.llvm.org/buildbot/#/builders/171/builds/4531
It may be possible to avoid relying on accessing many individual class pages,
by instead scanning the class index page at
https://clang.llvm.org/doxygen/classes.html. This updates the script to do so,
and includes updates to `LibASTMatchersReference.html` generated by the
modified script.
Reviewed By: aaron.ballman, sammccall
Differential Revision: https://reviews.llvm.org/D111332
Previously if you passed an absolute path to clang, where only part of
the path to the file was remapped, it would result in the file's DIFile
being stored with a duplicate path, for example:
```
!DIFile(filename: "./ios/Sources/bar.c", directory: "./ios/Sources")
```
This change handles absolute paths, specifically in the case they are
remapped to something relative, and uses the dirname for the directory,
and basename for the filename.
This also adds a test verifying this behavior for more standard uses as
well.
Differential Revision: https://reviews.llvm.org/D111352
If we only delete lines that are outer block statements (if, while, etc),
clang-format-diff.py can't format the statements inside the block statements.
An example to repro:
1. Delete the if statment at line 118 in llvm/lib/CodeGen/Analysis.cpp.
2. Run `git diff -U0 --no-color HEAD^ | clang/tools/clang-format/clang-format-diff.py -i -p1`
It fails to format the statement after if.
Differential Revision: https://reviews.llvm.org/D111273
The following tests are failing due to missing DWARF sections. This patch sets these tests as XFAIL/DISABLED on AIX until a more permanent solution is implemented.
Reviewed By: shchenz
Differential Revision: https://reviews.llvm.org/D111336
non-Darwin ObjC runtimes:
- Use the same logic the Darwin runtime does for inferring that a
receiver is non-null and therefore doesn't require null checks.
Previously we weren't skipping these for non-super dispatch.
- Emit a null check when there's a consumed parameter so that we can
destroy the argument if the call doesn't happen. This mostly
involves extracting some common logic from the Darwin-runtime code.
- Generate a zero aggregate by zeroing the same memory that was used
in the method call instead of zeroing separate memory and then
merging them with a phi. This uses less memory and avoids unnecessary
copies.
- Emit zero initialization, and generate zero values in phis, using
the proper zero-value routines instead of assuming that the zero
value of the result type has a bitwise-zero representation.
An archive containing device code object files can be passed to
clang command line for linking. For each given offload target
it creates a device specific archives which is either passed to llvm-link
if the target is amdgpu, or to clang-nvlink-wrapper if the target is
nvptx. -L/-l flags are used to specify these fat archives on the command
line. E.g.
clang++ -fopenmp -fopenmp-targets=nvptx64 main.cpp -L. -lmylib
It currently doesn't support linking an archive directly, like:
clang++ -fopenmp -fopenmp-targets=nvptx64 main.cpp libmylib.a
Linking with x86 offload also does not work.
Reviewed By: ye-luo
Differential Revision: https://reviews.llvm.org/D105191
As discussed in D109948, pre-computing all complex float types is not
necessary and brings extra overhead. This patch removes these defined
types, and construct them in-place when needed.
Reviewed By: teemperor
Differential Revision: https://reviews.llvm.org/D111387
Original commit message: "
Original commit message: "
Original commit message:"
The current infrastructure in lib/Interpreter has a tool, clang-repl, very
similar to clang-interpreter which also allows incremental compilation.
This patch moves clang-interpreter as a test case and drops it as conditionally
built example as we already have clang-repl in place.
Differential revision: https://reviews.llvm.org/D107049
"
This patch also ignores ppc due to missing weak symbol for __gxx_personality_v0
which may be a feature request for the jit infrastructure. Also, adds a missing
build system dependency to the orc jit.
"
Additionally, this patch defines a custom exception type and thus avoids the
requirement to include header <exception>, making it easier to deploy across
systems without standard location of the c++ headers.
"
This patch also works around PR49692 and finds a way to use llvm::consumeError
in rtti mode.
Differential revision: https://reviews.llvm.org/D107049
At this point it looks like a B extension will never exist. Instead
Zba, Zbb, Zbc, and Zbs are individual extensions being ratified
together as a package. Unknown at this time when or if the other
Zb* extensions will be ratified.
This patch removes references to the B extension. I've updated and
split tests accordingly.
This has been split from D110669 to make review a little easier.
Differential Revision: https://reviews.llvm.org/D111338
This patch adds two flags to be supported for the new runtime. The flags
are `-fopenmp-assume-threads-oversubscription` and
-fopenmp-assume-teams-oversubscription`. These add global values that
can be checked by the work sharing runtime functions to make better
judgements about how to distribute work between the threads.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D111348
When have ObjCInterfaceDecl with the same name in 2 different modules,
hitting the assertion
> Assertion failed: (Index < RL->getFieldCount() && "Ivar is not inside record layout!"),
> function lookupFieldBitOffset, file llvm-project/clang/lib/AST/RecordLayoutBuilder.cpp, line 3434.
on accessing an ivar inside a method. The assertion happens because
ivar belongs to one module while its containing interface belongs to
another module and then we fail to find the ivar inside the containing
interface. We already keep a single ObjCInterfaceDecl definition in
redecleration chain and in this case containing interface was correct.
The issue is with ObjCIvarDecl. IVar decl for IRGen is taken from
ObjCIvarRefExpr that is created in `Sema::BuildIvarRefExpr` using ivar
decl returned from `Sema::LookupIvarInObjCMethod`. And ivar lookup
returns a wrong decl because basically we take the first ObjCIvarDecl
found in `ASTReader::FindExternalVisibleDeclsByName` (called by
`DeclContext::lookup`). And in `ASTReader.Lookups` lookup table for a
wrong module comes first because `ASTReader::finishPendingActions`
processes `PendingUpdateRecords` in reverse order and the first
encountered ObjCIvarDecl will end up the last in `ASTReader.Lookups`.
Fix by merging ObjCIvarDecl from different modules correctly and by
using a canonical one in IRGen.
rdar://82854574
Differential Revision: https://reviews.llvm.org/D110280
Some subprojects like compiler-rt define the `darwin` feature in their
lit config, but clang does not do that, so we need to use the global
`system-darwin` here instead.
Differential Revision: https://reviews.llvm.org/D111267
mingw-g++ does not correctly support the full `std::errc` namespace as
worded in the standard[1]. As such, we cannot reliably use all names
therein. This patch changes the use of
`std::errc::state_not_recoverable`, to use portable error codes from the
`llvm::errc` equivalent.
[1] https://gcc.gnu.org/bugzilla/show_bug.cgi?id=71444
Reviewed by v.g.vassilev
Differential Revision: https://reviews.llvm.org/D111315
Desccribe in cxx_status.html the missing parts of the partially
implemented proposals described in cxx_status.html.
Uses <details> blocks so the information appears collapsed
by default.
This patch updates the vec_popcnt builtins to return vector unsigned,
as defined by the Power Vector Intrinsics Programming Reference.
This patch is NFC and all existing tests pass.
Differential Revision: https://reviews.llvm.org/D110934
The code of `ASTImporter::Import(const Attr *)` was repetitive,
it is now simplified. (There is still room for improvement but
probably only after big changes.)
Reviewed By: martong, steakhal
Differential Revision: https://reviews.llvm.org/D110810
An archive containing device code object files can be passed to
clang command line for linking. For each given offload target
it creates a device specific archives which is either passed to llvm-link
if the target is amdgpu, or to clang-nvlink-wrapper if the target is
nvptx. -L/-l flags are used to specify these fat archives on the command
line. E.g.
clang++ -fopenmp -fopenmp-targets=nvptx64 main.cpp -L. -lmylib
It currently doesn't support linking an archive directly, like:
clang++ -fopenmp -fopenmp-targets=nvptx64 main.cpp libmylib.a
Linking with x86 offload also does not work.
Reviewed By: ye-luo
Differential Revision: https://reviews.llvm.org/D105191
To better reflect the meaning of the now-disambiguated {GlobalValue,
GlobalAlias}::getBaseObject after breaking off GlobalIFunc::getResolverFunction
(D109792), the function is renamed to getAliaseeObject.
This reverts c7f16ab3e3 / r109694 - which
suggested this was done to improve consistency with the gdb test suite.
Possible that at the time GCC did not canonicalize integer types, and so
matching types was important for cross-compiler validity, or that it was
only a case of over-constrained test cases that printed out/tested the
exact names of integer types.
In any case neither issue seems to exist today based on my limited
testing - both gdb and lldb canonicalize integer types (in a way that
happens to match Clang's preferred naming, incidentally) and so never
print the original text name produced in the DWARF by GCC or Clang.
This canonicalization appears to be in `integer_types_same_name_p` for
GDB and in `TypeSystemClang::GetBasicTypeEnumeration` for lldb.
(I tested this with one translation unit defining 3 variables - `long`,
`long (*)()`, and `int (*)()`, and another translation unit that had
main, and a function that took `long (*)()` as a parameter - then
compiled them with mismatched compilers (either GCC+Clang, or
Clang+(Clang with this patch applied)) and no matter the combination,
despite the debug info for one CU naming the type "long int" and the
other naming it "long", both debuggers printed out the name as "long"
and were able to correctly perform overload resolution and pass the
`long int (*)()` variable to the `long (*)()` function parameter)
Did find one hiccup, identified by the lldb test suite - that CodeView
was relying on these names to map them to builtin types in that format.
So added some handling for that in LLVM. (these could be split out into
separate patches, but seems small enough to not warrant it - will do
that if there ends up needing any reverti/revisiting)
Differential Revision: https://reviews.llvm.org/D110455
The patch implements header-only support for testure lookups.
The patch has been tested on a source file with all possible combinations of
argument types supported by CUDA headers, compiled and verified that the
generated instructions and their parameters match the code generated by NVCC.
Unfortunately, compiling texture code requires CUDA headers and can't be tested
in clang itself. The test will need to be added to the test-suite later.
While generated code compiles and seems to match NVCC, I do not have any code
that uses textures that I could test correctness of the implementation. Hence
the experimental status.
Differential Revision: https://reviews.llvm.org/D110089
declaration.
Names starting with an underscore are reserved at the global scope, so
cannot be used as the name of an extern "C" symbol in any scope because
such usages conflict with a name at global scope.
Also do not warn on `#define _foo` or `#undef _foo`.
Only global scope names starting with _[a-z] are reserved, not the use
of such an identifier in any other context.
adjustMemberOfForLambdaCaptures.
The problem is happening when user passes lambda function with reference
type in the map clause.
The natural of the problem when processing generateInfoForCapture,
the BasePointer is generated with new load for a lambda variable with
reference type. It is not expected in adjustMemberOfForLambdaCaptures.
One way to fix this is to skipping call to generateInfoForCapture for
map(to:lambda). The map info will be generated later in the call to
generateDefaultMapInfo samiler as firsprivate clase.
This to fix https://bugs.llvm.org/show_bug.cgi?id=52071
Differential Revision:https://reviews.llvm.org/D111115
This is to save memory for Clang compiles.
Measuring building PassBuilder.cpp under /usr/bin/time, max rss goes from 0.93GB to 0.7GB.
This does not turn it by default yet.
I've turned on the option locally and run it over a good amount of files without any issues.
For more background, see
https://lists.llvm.org/pipermail/cfe-dev/2021-September/068930.html.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D111105
Currently the max alignment representable is 1GB, see D108661.
Setting the align of an object to 4GB is desirable in some cases to make sure the lower 32 bits are clear which can be used for some optimizations, e.g. https://crbug.com/1016945.
This uses an extra bit in instructions that carry an alignment. We can store 15 bits of "free" information, and with this change some instructions (e.g. AtomicCmpXchgInst) use 14 bits.
We can increase the max alignment representable above 4GB (up to 2^62) since we're only using 33 of the 64 values, but I've just limited it to 4GB for now.
The one place we have to update the bitcode format is for the alloca instruction. It stores its alignment into 5 bits of a 32 bit bitfield. I've added another field which is 8 bits and should be future proof for a while. For backward compatibility, we check if the old field has a value and use that, otherwise use the new field.
Updating clang's max allowed alignment will come in a future patch.
Reviewed By: hans
Differential Revision: https://reviews.llvm.org/D110451
Currently the max alignment representable is 1GB, see D108661.
Setting the align of an object to 4GB is desirable in some cases to make sure the lower 32 bits are clear which can be used for some optimizations, e.g. https://crbug.com/1016945.
This uses an extra bit in instructions that carry an alignment. We can store 15 bits of "free" information, and with this change some instructions (e.g. AtomicCmpXchgInst) use 14 bits.
We can increase the max alignment representable above 4GB (up to 2^62) since we're only using 33 of the 64 values, but I've just limited it to 4GB for now.
The one place we have to update the bitcode format is for the alloca instruction. It stores its alignment into 5 bits of a 32 bit bitfield. I've added another field which is 8 bits and should be future proof for a while. For backward compatibility, we check if the old field has a value and use that, otherwise use the new field.
Updating clang's max allowed alignment will come in a future patch.
Reviewed By: hans
Differential Revision: https://reviews.llvm.org/D110451
Clang would reject
#pragma omp for
#pragma omp tile sizes(P)
for (int i = 0; i < 128; ++i) {}
where P is a template parameter, but the loop itself is not
template-dependent. Because P context-dependent, the TransformedStmt
cannot be generated and therefore is nullptr (until the template is
instantiated by TreeTransform). The OMPForDirective would still expect
the a loop is the dependent context and trigger an error.
Fix by introducing a NumGeneratedLoops field to OMPLoopTransformation.
This is used to distinguish the case where no TransformedStmt will be
generated at all (e.g. #pragma omp unroll full) and template
instantiation is needed. In the latter case, delay resolving the
iteration space like when the for-loop itself is template-dependent
until the template instatiation.
A more radical solution would always delay the iteration space analysis
until template instantiation, but would also break many test cases.
Reviewed By: ABataev
Differential Revision: https://reviews.llvm.org/D111124
Currently the max alignment representable is 1GB, see D108661.
Setting the align of an object to 4GB is desirable in some cases to make sure the lower 32 bits are clear which can be used for some optimizations, e.g. https://crbug.com/1016945.
This uses an extra bit in instructions that carry an alignment. We can store 15 bits of "free" information, and with this change some instructions (e.g. AtomicCmpXchgInst) use 14 bits.
We can increase the max alignment representable above 4GB (up to 2^62) since we're only using 33 of the 64 values, but I've just limited it to 4GB for now.
The one place we have to update the bitcode format is for the alloca instruction. It stores its alignment into 5 bits of a 32 bit bitfield. I've added another field which is 8 bits and should be future proof for a while. For backward compatibility, we check if the old field has a value and use that, otherwise use the new field.
Updating clang's max allowed alignment will come in a future patch.
Reviewed By: hans
Differential Revision: https://reviews.llvm.org/D110451
Currently we're limited to 32 bit ints in diagnostics.
With support for 4GB alignments coming soon, we need to report 4GB as the max alignment allowed.
I've tested that this does indeed properly print 2^32.
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D111184
There is an error in the implementation of the logic of reaching the `Unknonw` tristate in CmpOpTable.
```
void cmp_op_table_unknownX2(int x, int y, int z) {
if (x >= y) {
// x >= y [1, 1]
if (x + z < y)
return;
// x + z < y [0, 0]
if (z != 0)
return;
// x < y [0, 0]
clang_analyzer_eval(x > y); // expected-warning{{TRUE}} expected-warning{{FALSE}}
}
}
```
We miss the `FALSE` warning because the false branch is infeasible.
We have to exploit simplification to discover the bug. If we had `x < y`
as the second condition then the analyzer would return the parent state
on the false path and the new constraint would not be part of the State.
But adding `z` to the condition makes both paths feasible.
The root cause of the bug is that we reach the `Unknown` tristate
twice, but in both occasions we reach the same `Op` that is `>=` in the
test case. So, we reached `>=` twice, but we never reached `!=`, thus
querying the `Unknonw2x` column with `getCmpOpStateForUnknownX2` is
wrong.
The solution is to ensure that we reached both **different** `Op`s once.
Differential Revision: https://reviews.llvm.org/D110910
Insert OMPLoopTransformationDirective between OMPLoopBasedDirective and the loop transformations OMPTileDirective and OMPUnrollDirective. This simplifies handling of loop transformations not requiring distinguishing between OMPTileDirective and OMPUnrollDirective anymore.
Reviewed By: ABataev
Differential Revision: https://reviews.llvm.org/D111119
It's true that docs.microsoft.com says:
"""The _ReadBarrier, _WriteBarrier, and _ReadWriteBarrier compiler
intrinsics and the MemoryBarrier macro are all deprecated and should not
be used. For inter-thread communication, use mechanisms such as
atomic_thread_fence and std::atomic<T>, which are defined in the C++
Standard Library. For hardware access, use the /volatile:iso compiler
option together with the volatile keyword."""
And these attributes have been here since these builtins were added in
r192860.
However:
- cl.exe does not warn on them even with /Wall
- none of the replacements are useful for C code
- we don't add __attribute__((__deprecated__())) to any other
declarations in intrin.h
- intrin0.h in the MSVC headers declares _ReadWriteBarrier() (but
without the deprecation attribute), so you get inconsistent
deprecation warnings depending on if you include intrin.h or intrin0.h
The motivation is that compiling sqlite.h with clang-cl produces a
deprecation warning with clang-cl for _ReadWriteBarrier(), but not with
cl.exe.
Differential Revision: https://reviews.llvm.org/D111232
The default wchar type is different on AIX vs. Linux. When this test is run on
AIX, WCHAR_T_TYPE ends up being set to int. This is incorrect as the default
wchar type on AIX is actually unsigned short, and setting the type incorrectly
causes the expected errors to not be found.
This patch sets the type correctly (to unsigned short) for AIX.
Differential Revision: https://reviews.llvm.org/D110428
As described on D111049, we're trying to remove the <string> dependency from error handling and replace uses of report_fatal_error(const std::string&) with the Twine() variant which can be forward declared.
This simple change addresses a special case of structure/pointer
aliasing that produced different symbolvals, leading to false positives
during analysis.
The reproducer is as simple as this.
```lang=C++
struct s {
int v;
};
void foo(struct s *ps) {
struct s ss = *ps;
clang_analyzer_dump(ss.v); // reg_$1<int Element{SymRegion{reg_$0<struct s *ps>},0 S64b,struct s}.v>
clang_analyzer_dump(ps->v); //reg_$3<int SymRegion{reg_$0<struct s *ps>}.v>
clang_analyzer_eval(ss.v == ps->v); // UNKNOWN
}
```
Acks: Many thanks to @steakhal and @martong for the group debug session.
Reviewed By: steakhal, martong
Differential Revision: https://reviews.llvm.org/D110625
The builtin for vec_orc has support for the following two signatures,
but currently the compiler marks it ambiguous:
vector float vec_orc(vector float, vector float)
vector double vec_orc(vector double, vector double)
This patch implements these two builtins.
Differential revision: https://reviews.llvm.org/D110858
Currently we're limited to 32 bit ints in diagnostics.
With support for 4GB alignments coming soon, we need to report 4GB as the max alignment allowed.
I've tested that this does indeed properly print 2^32.
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D111184
This also removes the need to disable the mandatory inlining phase in
tests.
In a departure from the previous remark, we don't output a 'cost' in
this case, because there's no such thing. We just report that inlining
happened because of the attribute.
Differential Revision: https://reviews.llvm.org/D110891
This patch allows the use of __vector_quad and __vector_pair, PPC MMA builtin
types, on all PowerPC 64-bit compilation units. When these types are
made available the builtins that use them automatically become available
so semantic checking for mma and pair vector memop __builtins is also
expanded to ensure these builtin function call are only allowed on
Power10 and new architectures. All related test cases are updated to
ensure test coverage.
Reviewed By: #powerpc, nemanjai
Differential Revision: https://reviews.llvm.org/D109599
Modify the IfStmt node to suppoort constant evaluated expressions.
Add a new ExpressionEvaluationContext::ImmediateFunctionContext to
keep track of immediate function contexts.
This proved easier/better/probably more efficient than walking the AST
backward as it allows diagnosing nested if consteval statements.
Attributes of "C/C++ Thread safety attributes" section in Attr.td
are added to ASTImporter. The not added attributes from this section
do not need special import handling.
Reviewed By: martong
Differential Revision: https://reviews.llvm.org/D110528
https://commondatastorage.googleapis.com/chromium-browser-clang/llvm-include-analysis.html
Excessive use of the <string> header has a massive impact on compile time; its most commonly included via the ErrorHandling.h header, which has to be included in many key headers, impacting many source files that have no need for std::string.
As an initial step toward removing the <string> include from ErrorHandling.h, this patch proposes to update the fatal_error_handler_t handler to just take a raw const char* instead.
The next step will be to remove the report_fatal_error std::string variant, which will involve a lot of cleanup and better use of Twine/StringRef.
Differential Revision: https://reviews.llvm.org/D111049
We keep a map from function name to source location so we don't have to
do it via looking up a source location from the AST. However, since
function names can be long, we actually use a hash of the function name
as the key.
Additionally, we can't rely on Clang's printing of function names via
the AST, so we just demangle the name instead.
This is necessary to implement
https://lists.llvm.org/pipermail/cfe-dev/2021-September/068930.html.
Reviewed By: dblaikie
Differential Revision: https://reviews.llvm.org/D110665
Per the GCC info page:
If the function is declared 'extern', then this definition of the
function is used only for inlining. In no case is the function
compiled as a standalone function, not even if you take its address
explicitly. Such an address becomes an external reference, as if
you had only declared the function, and had not defined it.
Respect that behavior for inline builtins: keep the original definition, and
generate a copy of the declaration suffixed by '.inline' that's only referenced
in direct call.
This fixes holes in c3717b6858.
Differential Revision: https://reviews.llvm.org/D111009
The builtins: `__compare_and_swaplp`, `__fetch_and_addlp`,
` __fetch_and_andlp`, `__fetch_and_orlp`, `__fetch_and_swaplp` are
64 bit only. This patch ensures the compiler produces an error in 32 bit mode.
Reviewed By: #powerpc, nemanjai
Differential Revision: https://reviews.llvm.org/D110824
This provides better support for `TypeLoc`s to allow `TypeLoc`-related
matchers to feature stricter typing and to avoid relying on the dynamic
casting of `TypeLoc`s in matchers.
Reviewed By: ymandel, tdl-g, sbenza
Differential Revision: https://reviews.llvm.org/D110586
by Raul Penacoba.
The size of kmp_depend_info and the number of dependencies are computed multiplying the iterator sizes, which not right.
Now size is computed as:
itersize1*numclausedeps1 + itersize2*numclausedeps2 + ... + itersizeN*numclausedepsN
where itersizeX is the size of the iterator and numclausedepsX the number of dependencies in that depend clause.
Reviewed By: ABataev
Differential Revision: https://reviews.llvm.org/D111045
This patch fixes the return value of the builtin __builtin_ppc_load2r to
correctly return short instead of int.
Reviewed By: nemanjai, #powerpc
Differential Revision: https://reviews.llvm.org/D110771
Stop using APInt constructors and methods that were soft-deprecated in
D109483. This fixes all the uses I found in clang.
Differential Revision: https://reviews.llvm.org/D110808
This change now generates that list, and the change to clang-format allows
us to run clang-format quickly over these files via the list of files.
clang-format.exe -verbose -n --files=./clang/docs/tools/clang-formatted-files.txt
```
Clang-formating 7926 files
Formatting [1/7925] clang/bindings/python/tests/cindex/INPUTS/header1.h
..
Formatting [7925/7925] utils/bazel/llvm-project-overlay/llvm/include/llvm/Config/config.h
```
This is needed because putting all those files on the command line is too
long, and invoking 7900+ clang-formats is much slower (too slow to be honest)
Using this method it takes on 7.5 minutes (on my machine) to run
`clang-format -n` over all of the files (7925), this should result in us
testing any change quickly and easily.
We should be able to use rerunning this list to ensure that we don't regress
clang-format over a large code base, but also use it to ensure none of the
previous files which were 100% clang-formatted remain so.
(which the LLVM premerge checks should be enforcing)
Reviewed By: HazardyKnusperkeks
Differential Revision: https://reviews.llvm.org/D111000
Currently constructor initializer lists sometimes format incorrectly
when there is a preprocessor directive in the middle of the list.
This patch fixes the issue when parsing the initilizer list by
ignoring the preprocessor directive when checking if a block is
part of an initializer list.
rdar://82554274
Reviewed By: MyDeveloperDay, HazardyKnusperkeks
Differential Revision: https://reviews.llvm.org/D109951
Improve the clarity and guidance of the warning when using code modifying option in clang-format see {D69764}
Reviewed By: HazardyKnusperkeks, curdeius
Differential Revision: https://reviews.llvm.org/D110801
It replaces the usage of readPlist,writePlist functions with load,dump
in plistlib package.
This fixes deprecation issues when analyzer reports are being generated
outside of docker.
Patch by Manas!
Reviewed By: steakhal
Differential Revision: https://reviews.llvm.org/D107312
Looks like exceptions are off-by-default with the PS4 triple.
Since adding -fexceptions defeats the purpose of the test change
in 8dfbe9b0a, pass an explicit triple instead.
These builtins produce inefficient code for CPU's prior to Power8
due to vcmpequd being unavailable. The predicate forms can actually
leverage the available vcmpequw along with xxlxor to produce a better
sequence.
The signatures for the PowerPC builtins lharx and
lbarx are incorrect, and causes issues when used in a function
that requires the return of the builtin to be promoted.
This patch fixes these signatures.
Differential revision: https://reviews.llvm.org/D110273
This consists of 3 compressed instructions, c.not, c.neg, and c.zext.w.
I believe these have been picked up by the Zce effort using different
encodings. I don't think it makes sense to keep them in bitmanip. It
will eventually cause a conflict if/when Zce is implemented in llvm.
Differential Revision: https://reviews.llvm.org/D110871
A followup to D110201.
For example, we'd set OptimizationRemarkMissed's Regex to '.*' when
encountering -Rpass. Normally this doesn't actually affect remarks we
emit because in clang::ProcessWarningOptions() we'll separately look at
all -R arguments and turn on/off corresponding diagnostic groups.
However, this is reproducible with -round-trip-args.
Reviewed By: JamesNagurne
Differential Revision: https://reviews.llvm.org/D110673
When clang crashes, it writes a standalone source file and shell script
to reproduce the crash.
The Driver used to set `Mode = CPPMode` in generateCompilationDiagnostics()
to force preprocessing mode. This has the side effect of making
IsCLMode() return false, which in turn meant Clang::AddClangCLArgs()
didn't get called when creating the standalone source file, which meant
the stand-alone file was preprocessed with the gcc driver's defaults
In particular, exceptions default to on with the gcc driver, but to
off with the cl driver. The .sh script did use the original command
line, so in the reproducer for a clang-cl crash, the standalone source
file could contain exception-using code after preprocessing that the
compiler invocation in the shell script would then complain about.
This patch removes the `Mode = CPPMode;` line and instead additionally
checks for `CCGenDiagnostics` in most places that check `CCCIsCPP().
This also matches the strategy Clang::ConstructJob() uses to add
-frewrite-includes for creating the standalone source file for a crash
report.
Fixes PR52007.
Differential Revision: https://reviews.llvm.org/D110783
Call Driver::getFinalPhase() instead of duplicating it.
https://reviews.llvm.org/D65993 added the duplication, then
02e35832c3 maded it more obviously a copy of getFinalPhase().
The only difference is that getCompilationPhases() used to use
LastPhase / IfsMerge where getFinalPhase() used Link. Adapt
getFinalPhase() to return IfsMerge when needed.
No intentional behavior change.
Differential Revision: https://reviews.llvm.org/D110770
When a user specifies an out-of-range index for vec_insert, we
just produce IR that has undefined behaviour even though the
documentation states that modulo arithmetic is used. This patch
just truncates the value to a valid index.
This patch aims to address the comment of a previous review:
https://reviews.llvm.org/D109237#inline-1040678
The original problem was the following:
`T` is substituted by `clang::Type`
Expected<T *> import(T *From) {
auto ToOrErr = Importer.Import(From);
// ^^^^^^^^^^^^^^^^^^^^^
if (!ToOrErr)
return ToOrErr.takeError();
return cast_or_null<T>(*ToOrErr);
// ^^^^^^^^^^^^^^^^^^^^^^^^^
}
`Importer.Import()` operates on `const Type *`, thus returns `const Type *`.
Later, at the return statement, we will try to construct an `Expected<Type*>`
from a `const Type *`, which failed with a miserable error message.
In all other cases `importer.Import()` results in a non-const version,
so everything works out just fine, but for `clang::type`s, we should
really return a const version.
So, in case of `T` is a subclass of `clang::Type`, it will return a
`Exprected<const T*>` instead.
Reviewed By: martong
Differential Revision: https://reviews.llvm.org/D109269
Try to address Windows flakes from d87bdc272b
by adding "|| true" as suggested in D110276 so the whole test doesn't
fail when Windows thinks it can't remove the binary.
There is a special situation with templates in local classes,
as can be seen in this example with generic lambdas in function scope:
```
template<class T1> void foo() {
(void)[]<class T2>() {
struct S {
void bar() { (void)[]<class T3>(T2) {}; }
};
};
};
template void foo<int>();
```
As a consequence of the resolution of DR1484, bar is instantiated during the
substitution of foo, and in this context we would substitute the lambda within
it with it's own parameters "injected" (turned into arguments).
This can't be properly dealt with for at least a couple of reasons:
* The 'TemplateTypeParm' type itself can only deal with canonical replacement
types, which the injected arguments are not.
* If T3 were constrained in the example above, our (non-conforming) eager
substitution of type constraints would just leave that parameter dangling.
Instead of substituting with injected parameters, this patch just leaves those
inner levels unreplaced.
Since injected arguments appear to be unused within the users of
`getTemplateInstantiationArgs`, this patch just removes that support there and
leaves a couple of asserts in place.
Signed-off-by: Matheus Izvekov <mizvekov@gmail.com>
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D110727
This patch adds OpenMP assumption attributes to call sites in applicable
regions. Currently this applies the caller's assumption attributes to
any calls contained within it. So, if a call occurs inside an OpenMP
assumes region to a function outside that region, we will assume that
call respects the assumptions. This is primarily useful for inline
assembly calls used heavily in the OpenMP GPU device runtime, which
allows us to then make judgements about what the ASM will do.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D110655
This patch makes sure that the builtins __builtin_ppc_load8r and
__ builtin_ppc_store8r are only available for Power 7 and up.
Currently the builtins seem to produce incorrect code if used for
Power 6 or before.
Reviewed By: nemanjai, #powerpc
Differential Revision: https://reviews.llvm.org/D110653
{x86_64,aarch64}-unknown-fuchsia and {x86_64,aarch64}-fuchsia should
behave identically as targets, update the test to make sure that's the
case.
Differential Revision: https://reviews.llvm.org/D110687
clang-cl maps /wdNNNN to -Wno-flags for a few warnings that map
cleanly from cl.exe concepts to clang concepts.
This patch adds support for the same numbers to
`#pragma warning(disable : NNNN)`. It also lets
`#pragma warning(push)` and `#pragma warning(pop)` have an effect,
since these are used together with `warning(disable)`.
The optional numeric argument to `warning(push)` is ignored,
as are the other non-`disable` `pragma warning()` arguments.
(Supporting `error` would be easy, but we also don't support
`/we`, and those should probably be added together.)
The motivating example is that a bunch of code (including in LLVM)
uses this idiom to locally disable warnings about calls to deprecated
functions in Windows-only code, and 4996 maps nicely to
-Wno-deprecated-declarations:
#pragma warning(push)
#pragma warning(disable: 4996)
f();
#pragma warning(pop)
Implementation-wise:
- Move `/wd` flag handling from Options.td to actual Driver-level code
- Extract the function mapping cl.exe IDs to warning groups to the
new file clang/lib/Basic/CLWarnings.cpp
- Create a diag::Group enum so that CLWarnings.cpp can refer to
existing groups by ID (and give DllexportExplicitInstantiationDecl
a named group), and add a function to map a diag::Group to the
spelling of it's associated commandline flag
- Call that new function from PragmaWarningHandler
Differential Revision: https://reviews.llvm.org/D110668
This patch is in a series of patches to provide builtins for compatibility with
the XL compiler. This patch implements the software divide builtin as
wrappers for a floating point divide. XL provided these builtins because it
didn't produce software estimates by default at `-Ofast`. When compiled
with `-Ofast` these builtins will produce the software estimate for divide.
Reviewed By: #powerpc, nemanjai
Differential Revision: https://reviews.llvm.org/D106959
Group them together with the vload_half and vstore_half decls for
simplicity.
Reviewed By: svenvh
Differential Revision: https://reviews.llvm.org/D110636
With xlc and xlC pragma align(packed) will pack bitfields the same way
as pragma align(bit_packed). xlclang, xlclang++ and clang will
pack bitfields the same way as pragma pack(1). Issue a warning when
source code using pragma align(packed) is used to alert the user it
may not be compatable with xlc/xlC.
Differential Revision: https://reviews.llvm.org/D107506
The instruction has similar semantics to vbpermq but for doublewords.
It was added in Power9 and the ABI documents the builtin.
Differential revision: https://reviews.llvm.org/D107899
Since XLC only ever shipped on PowerPC AIX and Linux, it is not reasonable to
provide the compatibility macros on any target other than those two. This patch
restricts those macros to AIX/Linux.
Differential revision: https://reviews.llvm.org/D110213
With -fpreserve-vec3-type enabled, a cast was not created when
converting from a non-vec3 type to a vec3 type, even though a
conversion to vec3 was performed. This resulted in creation of
invalid store instructions.
Differential Revision: https://reviews.llvm.org/D108470
On AIX, we relied on LTO to merge the csects for profiling data/counter
sections.
AIX binder now get the namedcsect support to support the merging,
so now we can enable PGO without LTO with the new binder.
Reviewed By: Whitney
Differential Revision: https://reviews.llvm.org/D110671
We generate symbols like `profc`/`profd` for each function, and put them into csects.
When there are weak functions, we generate weak symbols for the functions as well,
with ELF (and some others), linker (binder) will discard and only keep one copy of the weak symbols.
However, on AIX, the current binder can NOT discard the weak symbols if we put all of them into the same csect,
as binder can NOT discard a subset of a csect.
This creates a unique challenge for using those symbols to calculate some relative offsets.
This patch changed the linkage of `profc`/`profd` symbols to be private, so that all the profc/profd for each weak symbol will be *local* to objects, and all kept in the csect, so we won't have problem. Although only one of the counters will be used, all the pointer in the profd is correct.
The downside is that we won't be able to discard the duplicated counters and profile data,
but those can not be discarded even if we keep the weak linkage,
due to the binder limitation of not discarding a subsect of the csect either .
Reviewed By: Whitney, MaskRay
Differential Revision: https://reviews.llvm.org/D110422
In looking at the disk space used by a ninja check-all, I found that a
few of the largest files were copies of clang and lld made into temp
directories by a couple of tests. These tests were added in D53021 and
D74811. Clean up these copies after usage.
Differential Revision: https://reviews.llvm.org/D110276
To avoid using the AST when emitting diagnostics, split the "dontcall"
attribute into "dontcall-warn" and "dontcall-error", and also add the
frontend attribute value as the LLVM attribute value. This gives us all
the information to report diagnostics we need from within the IR (aside
from access to the original source).
One downside is we directly use LLVM's demangler rather than using the
existing Clang diagnostic pretty printing of symbols.
Previous revisions didn't properly declare the new dependencies.
Reviewed By: nickdesaulniers
Differential Revision: https://reviews.llvm.org/D110364
Some people downstream are reporting that this test fails. I've been
unable to reproduce, but there is indeed something spooky going on.
Pinning to the new PM suppresses the failure. I'm continuing to
investigate this.
To avoid using the AST when emitting diagnostics, split the "dontcall"
attribute into "dontcall-warn" and "dontcall-error", and also add the
frontend attribute value as the LLVM attribute value. This gives us all
the information to report diagnostics we need from within the IR (aside
from access to the original source).
One downside is we directly use LLVM's demangler rather than using the
existing Clang diagnostic pretty printing of symbols.
Reviewed By: nickdesaulniers
Differential Revision: https://reviews.llvm.org/D110364
(This is a recommit of 3d6f49a569 that should no longer break validation since
bd379915de).
It is a common practice in glibc header to provide an inline redefinition of an
existing function. It is especially the case for fortified function.
Clang currently has an imperfect approach to the problem, using a combination of
trivially recursive function detection and noinline attribute.
Simplify the logic by suffixing these functions by `.inline` during codegen, so
that they are not recognized as builtin by llvm.
After that patch, clang passes all tests from https://github.com/serge-sans-paille/fortify-test-suite
Differential Revision: https://reviews.llvm.org/D109967
This allows clang to work on Linux distributions like Debian where
<CUDA-PATH>/include may be a symlink to /usr/include. We only need
`cuda_wrappers` to be present before the standard C++ library headers.
The CUDA SDK headers themselves do not need to be found that early.
This addresses https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=995122
mentioned in post-commit comments on D108247
Differential Revision: https://reviews.llvm.org/D110596
The -mmcu= option accepts a generic MCU named "msp430", which sets the
CPU to msp430 and disables hardware multiply support.
The current purpose of accepting this value is to allow -mmcu= to be
used as an alias for -mcpu=, however there are some downsides to doing
this. -mmcu= provides additional features that will interfere
with the expected behavior if the user tries to to use it as an alias
for -mcpu=.
-mmcu=msp430 will conflict with -mhwmult=, since the "msp430" MCU is
defined to have no hardware multiply support, so the user will not be
able to set an explicit hardware multiply version.
-mmcu=msp430 will put "-Tmsp430.ld" on the linker command line, however
TI's support files do not provide a linker script with this name and so
the user would have to explicitly create it.
Differential Revision: https://reviews.llvm.org/D108299
(This relands 59337263ab and makes sure comma operator
diagnostics are suppressed in a SFINAE context.)
While at it, add the diagnosis message "left operand of comma operator has no effect" (used by GCC) for comma operator.
This also makes Clang diagnose in the constant evaluation context which aligns with GCC/MSVC behavior. (https://godbolt.org/z/7zxb8Tx96)
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D103938
I am looking at constant-folding changes that could affect these tests, so
check that it emits the expected global value instead of just checking
that it doesn't crash.
Looking at this test I did not see why MinGW was using a different command
line until I looked at the git history. Add a comment explaining what this
RUN line is actually testing. Also add two more RUN lines to show that
indirectly passed member pointers don't inhibit the optimization.
This patch is in a series of patches to provide builtins for
compatability with the XL compiler. This patch adds builtins for compare
exponent and test data class operations on floating point values.
Reviewed By: #powerpc, lei
Differential Revision: https://reviews.llvm.org/D109437
No idea how my local machine missed this, but I saw no warning for it,
it seems to have been lost in some level of translating this back for
upstreaming.
Require it to be always_inline, to more closely match how _FORITFY_SOURCE
behaves.
This avoids generation of `.inline` suffixed functions - these should always be
inlined.
After significant problems in our downstream with the previous
implementation, the SYCL standard has opted to make using macros/etc to
change kernel-naming-lambdas in any way UB (even passively). As a
result, we are able to just emit the itanium mangling.
However, this DOES require a little work in the CXXABI, as the microsoft
and itanium mangler use different numbering schemes for lambdas. This
patch adds a pair of mangling contexts that use the normal 'itanium'
mangling strategy to fill in the "DeviceManglingNumber" used previously
by CUDA.
Differential Revision: https://reviews.llvm.org/D110281
C++17 permits using 'typename' or 'class' for a template template
parameter, but the error message in the parser only refers to 'class'.
This patch, in C++17 or newer modes, adds "or 'template'" to the
diagnostic.
It is a common practice in glibc header to provide an inline redefinition of an
existing function. It is especially the case for fortified function.
Clang currently has an imperfect approach to the problem, using a combination of
trivially recursive function detection and noinline attribute.
Simplify the logic by suffixing these functions by `.inline` during codegen, so
that they are not recognized as builtin by llvm.
After that patch, clang passes all tests from https://github.com/serge-sans-paille/fortify-test-suite
Differential Revision: https://reviews.llvm.org/D109967
Qiu Chaofan