This patch adds the builtin type __SVCount_t to Clang, which is an opaque
scalable type defined in the SME2 C and C++ Language Extensions.
The type maps to the `target("aarch64.svcount")` LLVM IR type.
Reviewed By: paulwalker-arm
Differential Revision: https://reviews.llvm.org/D136864
definition correctly
Close https://github.com/llvm/llvm-project/issues/61067
Previously we will only handle the defaulted member functions as
discardable ODR. But we need to handle defaulted friend function in this
way too. Otherwise we may run into the problems the above issue report
mentions.
Close https://github.com/llvm/llvm-project/issues/60890.
For the following example:
```
export module a;
export template<typename T>
struct a {
friend void aa(a) requires(true) {
}
};
```
```
export module b;
import a;
struct b {
a<int> m;
};
```
```
export module c;
import a;
struct c {
void f() const {
aa(a<int>());
}
};
```
```
import a;
import b;
import c;
void d() {
aa(a<int>());
}
```
The current clang will reject this incorrectly. The reason is that the
require clause will be replaced with the evaluated version
(efae3174f0/clang/lib/Sema/SemaConcept.cpp (L664-L665)).
In module 'b', the friend function is instantiated but not used so the
require clause of the friend function is `(true)`. However, in module
'c', the friend function is used so the require clause is `true`. So
deserializer classify these two function to two different functions
instead of one. Then here is the bug report.
The proposed solution is to try to compare the trailing require clause
of the primary template when performing ODR checking.
Reviewed By: erichkeane
Differential Revision: https://reviews.llvm.org/D144626
Close https://github.com/llvm/llvm-project/issues/60890.
For the following example:
```
export module a;
export template<typename T>
struct a {
friend void aa(a) requires(true) {
}
};
```
```
export module b;
import a;
struct b {
a<int> m;
};
```
```
export module c;
import a;
struct c {
void f() const {
aa(a<int>());
}
};
```
```
import a;
import b;
import c;
void d() {
aa(a<int>());
}
```
The current clang will reject this incorrectly. The reason is that the
require clause will be replaced with the evaluated version
(efae3174f0/clang/lib/Sema/SemaConcept.cpp (L664-L665)).
In module 'b', the friend function is instantiated but not used so the
require clause of the friend function is `(true)`. However, in module
'c', the friend function is used so the require clause is `true`. So
deserializer classify these two function to two different functions
instead of one. Then here is the bug report.
The proposed solution is to try to compare the trailing require clause
of the primary template when performing ODR checking.
Reviewed By: erichkeane
Differential Revision: https://reviews.llvm.org/D144626
These 2 spots are protecting calls to SVE specific functions. If RISC-V
sizeless types end up in there we trigger assertions.
Use the more specific isSVESizelessBuiltinType() to avoid letting
RISC-V vectors through.
Reviewed By: asb, c-rhodes
Differential Revision: https://reviews.llvm.org/D144772
[temp.friend]p9 says
> Such a constrained friend function or function template declaration does
not declare the same function or function template as a declaration in
any other scope.
But the friend declaration in the same scope shouldn't fall into this
catagory. Although the logic is handled in 'FriendsDifferByConstraints',
the compiler may haven't merged the lexcial declcontext in time.
Also the code removed is not covered by test too.
Let's handle the logic in sema as we've done now.
ASTContext::getRawCommentForDeclNoCacheImpl in this case, extracts the text between
the comment and declaration to make sure if there are no other declarations or preprocessor
directives between comment or declarations.
While using Text.find_first_of or Text.find_last_of is functionally the same,
using Text.find_last_of terminates fast in the presence of such.
Especially in generated code with sparse comments, it takes longer
to bailout when there is code in-between. Searching from last
(with find_last_of) bails out faster.
This shows up in perf profiles with clangd in some auto-generated code.
ASTContext::getRawCommentForDeclNoCacheImpl showing as much as 18.2% in this
case. With find_last_of, this drops to 2.8%.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D141950
Avoids warnings in -asserts builds.
ASTContext.cpp:4098:1: error: non-void function does not return a value in all control paths [-Werror,-Wreturn-type]
}
^
This patch introduces a new type __externref_t that denotes a WebAssembly opaque
reference type. It also implements builtin __builtin_wasm_ref_null_extern(),
that returns a null value of __externref_t. This lays the ground work
for further builtins and reference types.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D122215
Close https://github.com/llvm/llvm-project/issues/60693.
In this issue, we can find that the importer will try to generate the
template specialization again in the importer, which is not good and
wastes time. This patch tries to address the problem.
Currently default simd alignment is defined by Clang specific TargetInfo class.
This class cannot be reused for LLVM Flang. That's why default simd alignment
calculation has been moved to OMPIRBuilder which is common for Flang and Clang.
Previous attempt: https://reviews.llvm.org/D138496 was wrong because
the default alignment depended on the number of built LLVM targets.
If we wanted to calculate the default alignment for PPC and we hadn't specified
PPC LLVM target to build, then we would get 0 as the alignment because
OMPIRBuilder couldn't create PPCTargetMachine object and it returned 0 as
the default value.
If PPC LLVM target had been built earlier, then OMPIRBuilder could have created
PPCTargetMachine object and it would have returned 128.
Differential Revision: https://reviews.llvm.org/D141910
Reviewed By: jdoerfert
This patch introduces a new type __externref_t that denotes a WebAssembly opaque
reference type. It also implements builtin __builtin_wasm_ref_null_extern(),
that returns a null value of __externref_t. This lays the ground work
for further builtins and reference types.
Differential Revision: https://reviews.llvm.org/D122215
**Summary**
This patch adds a `IsDefaulted` field to `clang::TemplateArgument`.
To prevent memory footprint increase we still 1 bit from `ArgKind`.
**Changes**
1. `getIsDefaulted`/`setIsDefaulted` to allow clients to communicate
an argument's defaulted-ness to the TypePrinter
2. The `TemplateArgument` properties description had to be changed
to make sure we correctly mark the defaulted-ness of arguments
that came from a deserialized AST (caught by the HLSL test-suite)
3. The `TemplateArgument` constructors now accept a `IsDefaulted`
parameter to simplify construction from the tablegen description.
Though if people don't want to clutter the constructors we can
instead call `setIsDefaulted` from tablegen
4. When `clang::Sema` checks the template arguments against template
parameters we now call `setIsDefaulted`. This makes sure that
whenever a specialization decl gets constructed, the defaulted-ness
of the associated `TemplateArgument`s has already been deduced.
This preserves the immutability of `TemplateArgumentList`s
**Background**
In LLDB we construct ASTs from debug-info and hand it to clang
to perform actions such as printing/formatting a typenames.
Some debug formats, specifically DWARF, may only encode information
about class template instantiations, losing the structure of the generic
class definition. However, the `clang::TypePrinter` needs a properly
constructed `ClassTemplateDecl` with generic default argument decls
to be able to deduce whether a `ClassTemplateSpecializationDecl` was
instantiatiated with `TemplateArgument`s that correspond to the
defaults. LLDB does know whether a particular template argument was
defaulted, but can't currently tell clang about it.
This patch allows LLDB to set the defaulted-ness of a `TemplateArgument`
and thus benefit more from `clang::TypePrinter`.
See discussion in https://reviews.llvm.org/D140423
**Testing**
* Added unit-test
* LLDB/clang/llvm test-suite passes
Differential Revision: https://reviews.llvm.org/D141826
Currently default simd alignment is defined by Clang specific TargetInfo class.
This class cannot be reused for LLVM Flang. That's why default simd alignment
calculation has been moved to OMPIRBuilder which is common for Flang and Clang.
Previous attempt: https://reviews.llvm.org/D138496 was wrong because
the default alignment depended on the number of built LLVM targets.
If we wanted to calculate the default alignment for PPC and we hadn't specified
PPC LLVM target to build, then we would get 0 as the alignment because
OMPIRBuilder couldn't create PPCTargetMachine object and it returned 0 as
the default value.
If PPC LLVM target had been built earlier, then OMPIRBuilder could have created
PPCTargetMachine object and it would have returned 128.
Differential Revision: https://reviews.llvm.org/D141910
Reviewed By: jdoerfert
The key part of getRawCommentForDecl() required to find a comment
is determining where to look for it. The location of the decl
itself is usually right, except when macros get involved. The
comment in the macro is stored in RawCommentList at the spelling
location of the decl, not at the place where the decl comes into
being as the macro is instantiated.
getDeclLocForCommentSearch() already contained to branches to try
handle comments inside macros, and we are able to replace them
and handle more cases as well, by returning the spelling location
of the decl's begin location. That is:
SourceMgr.getSpellingLoc(D->getBeginLoc())
Reviewed By: gribozavr2
Differential Revision: https://reviews.llvm.org/D142560
This patch uses existing deferred diagnostics framework to emit error
for unsupported type __bf16 in device code. Error is not emitted in
host code.
Differential Revision: https://reviews.llvm.org/D141375
Currently default simd alignment is specified by Clang specific TargetInfo
class. This class cannot be reused for LLVM Flang. If we move the default
alignment field into TargetMachine class then we can create TargetMachine
objects and query them to find SIMD alignment.
Scope of changes:
1) Added information about maximal allowed SIMD alignment to TargetMachine
classes.
2) Removed getSimdDefaultAlign function from Clang TargetInfo class.
3) Refactored createTargetMachine function.
Reviewed By: jsjodin
Differential Revision: https://reviews.llvm.org/D138496
In C mode, if e1 has __attribute__((noreturn)) but e2 doesn't, `(c ? e1 : e2)`
is incorrectly noreturn and Clang codegen produces `unreachable`
which may lead to miscompiles (see [1] `gawk/support/dfa.c`).
This problem has been known since
8c6b56f39d967347f28dd9c93f1cffddf6d7e4cd (2010) or earlier.
Fix this by making the result type noreturn only if both e1 and e2 are
noreturn, matching GCC.
`_Noreturn` and `[[noreturn]]` do not have the aforementioned problem.
Fix https://github.com/llvm/llvm-project/issues/59792 [1]
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D140868
This reverts commit e43924a75145d2f9e722f74b673145c3e62bfd07.
Reason: Patch broke the MSan buildbots. More information is available on
the original phabricator review: https://reviews.llvm.org/D127812
ASTContext was holding onto a pointer to the Clang->LLVM address space map
which is stored inside TargetInfo. Instead of doing this, we can forward to
TargetInfo instead. This change will allow us to eventually remove
getTargetAddressSpace() from ASTContext and only have this information in
TargetInfo.
Reviewed By: rjmccall
Differential Revision: https://reviews.llvm.org/D138316
This change will allow users to call getNullability() without providing an ASTContext.
Reviewed By: gribozavr2
Differential Revision: https://reviews.llvm.org/D140104
They were previously not handled, causing the llvm_unreachable with
"getIntegerRank(): not a built-in integer" message to be hit.
The test case is derived from how we hit it in Chromium
(crbug.com/1396142). I tried to come up with something more direct, but
this is the best I could find.
Differential revision: https://reviews.llvm.org/D139428
This patch mechanically replaces None with std::nullopt where the
compiler would warn if None were deprecated. The intent is to reduce
the amount of manual work required in migrating from Optional to
std::optional.
This is part of an effort to migrate from llvm::Optional to
std::optional:
https://discourse.llvm.org/t/deprecating-llvm-optional-x-hasvalue-getvalue-getvalueor/63716
This value was added to clang/Basic in D111566, but is only used during
codegen, where we can use the LLVM IR DataLayout instead. I noticed this
because the downstream CHERI targets would have to also set this value
for AArch64/RISC-V/MIPS. Instead of duplicating more information between
LLVM IR and Clang, this patch moves getTargetAddressSpace(QualType T) to
CodeGenTypes, where we can consult the DataLayout.
Reviewed By: rjmccall
Differential Revision: https://reviews.llvm.org/D138296
Mixing LLVM and Clang address spaces can result in subtle bugs, and there
is no need for this hook to use the LLVM IR level address spaces.
Most of this change is just replacing zero with LangAS::Default,
but it also allows us to remove a few calls to getTargetAddressSpace().
This also removes a stale comment+workaround in
CGDebugInfo::CreatePointerLikeType(): ASTContext::getTypeSize() does
return the expected size for ReferenceType (and handles address spaces).
Differential Revision: https://reviews.llvm.org/D138295
Adds support for NamespaceDecl to inform if its part of a nested namespace.
This flag only corresponds to the inner namespaces in a nested namespace declaration.
In this example:
namespace <X>::<Y>::<Z> {}
Only <Y> and <Z> will be classified as nested.
This flag isn't meant for assisting in building the AST, more for static analysis and refactorings.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D90568