Add a custom DAG combine and ISD opcode for detecting patterns like
(uint_to_fp (extract_subvector ...))
before the extract_subvector is expanded to ensure that they will ultimately
lower to f64x2.convert_low_i32x4_{s,u} instructions. Since these instructions
are no longer prototypes and can now be produced via standard IR, this commit
also removes the target intrinsics and builtins that had been used to prototype
the instructions.
Differential Revision: https://reviews.llvm.org/D100425
Consider the following set of files:
a.cc:
#include "a.h"
a.h:
#ifndef A_H
#define A_H
#include "b.h"
#include "c.h" // This gets "skipped".
#endif
b.h:
#ifndef B_H
#define B_H
#include "c.h"
#endif
c.h:
#ifndef C_H
#define C_H
void c();
#endif
And the output of the -H option:
$ clang -c -H a.cc
. ./a.h
.. ./b.h
... ./c.h
Note that the include of c.h in a.h is not shown in the output (GCC does the
same). This is because of the include guard optimization: clang knows c.h is
covered by an include guard which is already defined, so when it sees the
include in a.h, it skips it. The same would have happened if #pragma once were
used instead of include guards.
However, a.h *does* include c.h, and it may be useful to show that in the -H
output. This patch adds a flag for doing that.
Differential revision: https://reviews.llvm.org/D100480
The `CompilerInvocationBase` class factors out members of `CompilerInvocation` that need special handling (initialization or copy constructor), so that `CompilerInvocation` can be implemented as a simple value object.
Currently, the `AnalyzerOpts` member of `CompilerInvocation` violates that setup. This patch extracts the member to `CompilerInvocationBase` and handles it in the copy constructor the same way other it handles other members.
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D99568
This change splits '-Wtautological-unsigned-zero-compare' by reporting
char-expressions-interpreted-as-unsigned under a separate diagnostic
'-Wtautological-unsigned-char-zero-compare'. This is beneficial for
projects that want to enable '-Wtautological-unsigned-zero-compare' but at
the same time want to keep code portable for platforms with char being
signed or unsigned, such as Chromium.
Differential Revision: https://reviews.llvm.org/D99808
The previous implementation was insufficient for checking statement
attribute mutual exclusion because attributed statements do not collect
their attributes one-at-a-time in the same way that declarations do. So
the design that was attempting to check for mutual exclusion as each
attribute was processed would not ever catch a mutual exclusion in a
statement. This was missed due to insufficient test coverage, which has
now been added for the [[likely]] and [[unlikely]] attributes.
The new approach is to check all of attributes that are to be applied
to the attributed statement in a group. This required generating
another DiagnoseMutualExclusions() function into AttrParsedAttrImpl.inc.
Overflows are never fun.
In most cases (in most of the code), they are rare,
because usually you e.g. don't have as many elements.
However, it's exceptionally easy to fall into this pitfail
in code that deals with images, because, assuming 4-channel 32-bit FP data,
you need *just* ~269 megapixel image to case an overflow
when computing at least the total byte count.
In [[ https://github.com/darktable-org/darktable | darktable ]], there is a *long*, painful history of dealing with such bugs:
* https://github.com/darktable-org/darktable/pull/7740
* https://github.com/darktable-org/darktable/pull/7419
* eea1989f2c
* 70626dd95b
* https://github.com/darktable-org/darktable/pull/670
* 38c69fb1b2
and yet they clearly keep resurfacing still.
It would be immensely helpful to have a diagnostic for those patterns,
which is what this change proposes.
Currently, i only diagnose the most obvious case, where multiplication
is directly widened with no other expressions inbetween,
(i.e. `long r = (int)a * (int)b` but not even e.g. `long r = ((int)a * (int)b)`)
however that might be worth relaxing later.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D93822
These proposals make the same changes to both C++ and C and remove a
restriction on standard attributes appearing multiple times in the same
attribute list.
We could warn on the duplicate attributes, but do not. This is for
consistency as we do not warn on attributes duplicated within the
attribute specifier sequence. If we want to warn on duplicated
standard attributes, we should do so both for both situations:
[[foo, foo]] and [[foo]][[foo]].
Summary: Remove dispatchCast, evalCastFromNonLoc and evalCastFromLoc functions since their functionality has been moved to common evalCast function. Use evalCast instead.
Post-clean up patch for https://reviews.llvm.org/D96090 patch. The patch shall not change any behavior.
Differential Revision: https://reviews.llvm.org/D97277
Summary: Move logic from CastRetrievedVal to evalCast and replace CastRetrievedVal with evalCast. Also move guts from SimpleSValBuilder::dispatchCast inside evalCast.
evalCast intends to substitute dispatchCast, evalCastFromNonLoc and evalCastFromLoc in the future. OriginalTy provides additional information for casting, which is useful for some cases and useless for others. If `OriginalTy.isNull()` is true, then cast performs based on CastTy only. Now evalCast operates in two ways. It retains all previous behavior and take over dispatchCast behavior. dispatchCast, evalCastFromNonLoc and evalCastFromLoc is considered as buggy since it doesn't take into account OriginalTy of the SVal and should be improved.
From this patch use evalCast instead of dispatchCast, evalCastFromNonLoc and evalCastFromLoc functions. dispatchCast redirects to evalCast.
This patch shall not change any behavior.
Differential Revision: https://reviews.llvm.org/D96090
The existing Windows Itanium patches for dllimport/export
behaviour w.r.t vtables/rtti can't be adopted for PS4 due to
backwards compatibility reasons (see comments on
https://reviews.llvm.org/D90299).
This commit adds our PS4 scheme for this to Clang.
Differential Revision: https://reviews.llvm.org/D93203
This patch changes the builtin prototype to use 'b' (boolean) instead
of the default integer element type. That fixes the dup/dupq intrinsics
when compiling with C++.
This patch also fixes one of the defines for __ARM_FEATURE_SVE2_BITPERM.
Reviewed By: kmclaughlin
Differential Revision: https://reviews.llvm.org/D100294
clang Tooling, and more specifically Refactoring/Rename, have support
code to extract source locations given a Unified Symbol Resolution set.
This support code is used by clang-rename and other tools that might not
be in the tree.
Currently field designated initializer are not supported.
So, renaming S::a to S::b in this code:
S s = { .a = 10 };
will not extract the field designated initializer for a (the 'a' after the
dot).
This patch adds support for field designated initialized to
RecursiveSymbolVisitor and RenameLocFinder that is used in
createRenameAtomicChanges.
Differential Revision: https://reviews.llvm.org/D100310
This patch removes all uses of `std::iterator`, which was deprecated in C++17.
While this isn't currently an issue while compiling LLVM, it's useful for those using LLVM as a library.
For some reason there're a few places that were seemingly able to use `std` functions unqualified, which no longer works after this patch. I've updated those places, but I'm not really sure why it worked in the first place.
Reviewed By: MaskRay
Differential Revision: https://reviews.llvm.org/D67586
This patch fixes an issue with the SVE prefetch and qinc/qdec intrinsics
that take an `enum` argument, but where the builtin prototype encodes
these as `int`. Some code in SemaDecl found the mismatch and chose
to forget about the builtin altogether, which meant that any future
code using that builtin would fail. The code that forgets about the
builtin was actually obsolete after D77491 and should have been removed.
This patch now removes that code.
This patch also fixes another issue with the SVE prefetch intrinsic
when built with C++, where the builtin didn't accept the correct
pointer type, which should be `const void *`.
Reviewed By: tambre
Differential Revision: https://reviews.llvm.org/D100046
The .rgba vector component accessors are supported in OpenCL C 3.0.
Previously, the diagnostic would check `OpenCLVersion` for version 2.2
(value 220) and report those accessors are an OpenCL 2.2 feature.
However, there is no "OpenCL C version 2.2", so change the check and
diagnostic text to 3.0 only.
A spurious `OpenCLVersion` argument was passed into the diagnostic;
remove that.
Differential Revision: https://reviews.llvm.org/D99969
1. Redefine vpopc and vfirst IR intrinsic so it could adapt on
clang tablegen generator which always appends a type for vl
in IntrinsicType of clang codegen.
2. Remove `c` type transformer and add `u` and `l` for unsigned long
and long type.
Authored-by: Roger Ferrer Ibanez <rofirrim@gmail.com>
Co-Authored-by: Zakk Chen <zakk.chen@sifive.com>
Reviewed By: craig.topper
Differential Revision: https://reviews.llvm.org/D100120
Support the following instructions.
1. Mask load and store
2. Vector Strided Instructions
3. Vector Indexed Store Instructions
Authored-by: Roger Ferrer Ibanez <rofirrim@gmail.com>
Co-Authored-by: Zakk Chen <zakk.chen@sifive.com>
Reviewed By: craig.topper
Differential Revision: https://reviews.llvm.org/D99965
Fixes bug http://bugs.llvm.org/show_bug.cgi?id=49000.
This patch allows Clang-Tidy checks to do
diag(X->getLocation(), "text") << Y->getSourceRange();
and get the highlight of `Y` as expected:
warning: text [blah-blah]
xxx(something)
^ ~~~~~~~~~
Reviewed-By: aaron.ballman, njames93
Differential Revision: http://reviews.llvm.org/D98635
This implements C-style type conversions for matrix types, as specified
in clang/docs/MatrixTypes.rst.
Fixes PR47141.
Reviewed By: fhahn
Differential Revision: https://reviews.llvm.org/D99037
I have been trying to statically find and analyze all calls to heap
allocation functions to determine how many of them use sizes known at
compile time vs only at runtime. While doing so I saw that quite a few
projects use replaceable function pointers for heap allocation and noticed
that clang was not able to annotate functions pointers with alloc_size.
I have changed the Sema checks to allow alloc_size on all function pointers
and typedefs for function pointers now and added checks that these
attributes are propagated to the LLVM IR correctly.
With this patch we can also compute __builtin_object_size() for calls to
allocation function pointers with the alloc_size attribute.
Reviewed By: aaron.ballman, erik.pilkington
Differential Revision: https://reviews.llvm.org/D55212
Required for capturing base specifier in matchers:
`cxxRecordDecl(hasDirectBase(cxxBaseSpecifier().bind("base")))`
Reviewed By: steveire, aaron.ballman
Differential Revision: https://reviews.llvm.org/D69218
The backend can't handle this and will throw a fatal error from
type legalization. It's easy enough to fix that for this intrinsic
by just splitting the IR intrinsic since it works on individual bytes.
There will be other intrinsics in the future that would be harder
to support through splitting, for example grev, gorc, and shfl. Those
would require a compare and a select be inserted to check the MSB of
their control input.
This patch adds support for preventing this in the frontend with
a nice diagnostic.
Reviewed By: frasercrmck
Differential Revision: https://reviews.llvm.org/D99984
This patch adds two debugging options in the new Flang driver
(flang-new):
*fdebug-unparse-no-sema
*fdebug-dump-parse-tree-no-sema
Each of these options combines two options from the "throwaway" driver
(left: f18, right: flang-new):
* `-fdebug-uparse -fdebug-no-semantics` --> `-fdebug-unparse-no-sema`
* `-fdebug-dump-parse-tree -fdebug-no-semantics` -->
`-fdebug-dump-parse-tree-no-sema`
There are no plans to implement `-fdebug-no-semantics` in the new
driver. Such option would be too powerful. Also, it would only make
sense when combined with specific frontend actions (`-fdebug-unparse`
and `-fdebug-dump-parse-tree`). Instead, this patch adds 2 specialised
options listed above. Each of these is implemented through a dedicated
FrontendAction (also added).
The new frontend actions are implemented in terms of a new abstract base
action: `PrescanAndSemaAction`. This new base class was required so that
we can have finer control over what steps within the frontend are
executed:
* `PrescanAction`: run the _prescanner_
* `PrescanAndSemaAction`: run the _prescanner_ and the _parser_ (new
in this patch)
* `PrescanAndSemaAction`: run the _prescanner_, _parser_ and run the
_semantic checks_
This patch introduces `PrescanAndParseAction::BeginSourceFileAction`.
Apart from the semantic checks removed at the end, it is similar to
`PrescanAndSemaAction::BeginSourceFileAction`.
Differential Revision: https://reviews.llvm.org/D99645
We don't need to instantiate single multiclasses inside of
other multiclasses. We can use inheritance and save writing 'defm ""'.
Reviewed By: khchen
Differential Revision: https://reviews.llvm.org/D100074
This patch adds support for the `-cpp` and `-nocpp` flags. The
implemented semantics match f18 (i.e. the "throwaway" driver), but are
different to gfortran. In Flang the preprocessor is always run. Instead,
`-cpp/-nocpp` are used to control whether predefined and command-line
preprocessor macro definitions are enabled or not. In practice this is
sufficient to model gfortran`s `-cpp/-nocpp`.
In the absence of `-cpp/-nocpp`, the driver will use the extension of
the input file to decide whether to include the standard macro
predefinitions. gfortran's documentation [1] was used to decide which
file extension to use for this.
The logic mentioned above was added in FrontendAction::BeginSourceFile.
That's relatively late in the driver set-up, but this roughly where the
name of the input file becomes available. The logic for deciding between
fixed and free form works in a similar way and was also moved to
FrontendAction::BeginSourceFile for consistency (and to reduce
code-duplication).
The `-cpp/-nocpp` flags are respected also when the input is read from
stdin. This is different to:
* gfortran (behaves as if `-cpp` was used)
* f18 (behaves as if `-nocpp` was used)
Starting with this patch, file extensions are significant and some test
files had to be renamed to reflect that. Where possible, preprocessor
tests were updated so that they can be shared between `f18` and
`flang-new`. This was implemented on top of adding new test for
`-cpp/-nocpp`.
[1] https://gcc.gnu.org/onlinedocs/gcc/Overall-Options.html
Reviewed By: kiranchandramohan
Differential Revision: https://reviews.llvm.org/D99292
omp_is_initial_device() is marked as a built-in function in the current
compiler, and user code guarded by this call may be optimized away,
resulting in undesired behavior in some cases. This patch provides a
possible fix for such cases by defining the routine as a variant
function and removing it from builtin list.
Differential Revision: https://reviews.llvm.org/D99447
Recently atomicrmw started to support fadd/fsub:
https://reviews.llvm.org/D53965
However clang atomic builtins fetch add/sub still does not support
emitting atomicrmw fadd/fsub.
This patch adds that.
Reviewed by: John McCall, Artem Belevich, Matt Arsenault, JF Bastien,
James Y Knight, Louis Dionne, Olivier Giroux
Differential Revision: https://reviews.llvm.org/D71726
The major change here is to index macro occurrences in more places than
before, specifically
* In non-expansion references such as `#if`, `#ifdef`, etc.
* When the macro is a reference to a builtin macro such as __LINE__.
* When using the preprocessor state instead of callbacks, we now include
all definition locations and undefinitions instead of just the latest
one (which may also have had the wrong location previously).
* When indexing an existing module file (.pcm), we now include module
macros, and we no longer report unrelated preprocessor macros during
indexing the module, which could have caused duplication.
Additionally, we now correctly obey the system symbol filter for macros,
so by default in system headers only definition/undefinition occurrences
are reported, but it can be configured to report references as well if
desired.
Extends FileIndexRecord to support occurrences of macros. Since the
design of this type is to keep a single list of entities organized by
source location, we incorporate macros into the existing DeclOccurrence
struct.
Differential Revision: https://reviews.llvm.org/D99758
Programmers would like to be able to test direct methods by calling them from a
different linkage unit or mocking them, both of which are impossible. This
patch adds a flag that effectively disables the attribute, which will fix this
when enabled in testable builds. rdar://71190891
Differential revision: https://reviews.llvm.org/D95845
1. Rename RVVBinBuiltin to RVVOutputOp1Builtin because it is not related
to the number of operand.
2. Add RVV Integer instuctions which use RVVOutputOp1Builtin.
Reviewed By: craig.topper
Authored-by: Roger Ferrer Ibanez <rofirrim@gmail.com>
Co-Authored-by: Zakk Chen <zakk.chen@sifive.com>
Differential Revision: https://reviews.llvm.org/D99524
The '-plugin-arg' command-line arguments are not being generated in deterministic order.
This patch changes the storage from `std::unordered_map` to `std::map` to enforce ordering.
Reviewed By: dexonsmith
Differential Revision: https://reviews.llvm.org/D99879
This changes our approach to processing statement attributes to be more
similar to how we process declaration attributes. Namely,
ActOnAttributedStmt() now calls ProcessStmtAttributes() instead of
vice-versa, and there is now an interface split between building an
attributed statement where you already have a list of semantic
attributes and building an attributed statement with attributes from
the parser.
This should make it easier to support statement attributes that are
dependent on a template. In that case, you would add a
TransformFooAttr() function in TreeTransform.h to perform the semantic
checking (morally similar to how Sema::InstantiateAttrs() already works
for declaration attributes) when transforming the semantic attribute at
instantiation time.
as requested in https://bugs.llvm.org/show_bug.cgi?id=49553, submitting the proposed changes to just ignore the -flto= options which are recognized by GCC ("auto" and "jobserver").
GCC supports -flto=<auto|jobserver|<N> to select the parallelity for LTO builds. LLVM also has -flto-jobs=<N>, which only seems to have a meaning when used with -flto=thin?
The attached patch just ignores the values "auto" and "jobserver". that doesn't change anything in functionality. Another option would be to map these values to either "thin" or "full", maybe in presence of the -ffat-lto-objects option?
-flto=<n> could also be translated to -flto-jobs=<N>.
Reviewed By: tejohnson
Differential Revision: https://reviews.llvm.org/D99501
Set the source ranges for parsed GNU-style attributes in
ParseGNUAttributes(), the same way that ParseCXX11Attributes() does it.
Differential Revision: https://reviews.llvm.org/D75844
Currently, when one or more attributes are mutually exclusive, the
developer adding the attribute has to manually emit diagnostics. In
practice, this is highly error prone, especially for declaration
attributes, because such checking is not trivial. Redeclarations
require you to write a "merge" function to diagnose mutually exclusive
attributes and most attributes get this wrong.
This patch introduces a table-generated way to specify that a group of
two or more attributes are mutually exclusive:
def : MutualExclusions<[Attr1, Attr2, Attr3]>;
This works for both statement and declaration attributes (but not type
attributes) and the checking is done either from the common attribute
diagnostic checking code or from within mergeDeclAttribute() when
merging redeclarations.
Head files are included in a separate patch in case the name needs to be changed.
RV32 / 64:
clmul
clmulh
clmulr
Differential Revision: https://reviews.llvm.org/D99711
Forgot to amend the Author.
Original commit message:
Header files are included in a separate patch in case the name needs to be changed.
RV32 / 64:
orc.b
Differential Revision: https://reviews.llvm.org/D99320
Implementation for RISC-V Zbr extension intrinsic.
Header files are included in separate patch in case the name needs to be changed
RV32 / 64:
crc32b
crc32h
crc32w
crc32cb
crc32ch
crc32cw
RV64 Only:
crc32d
crc32cd
Reviewed By: craig.topper
Differential Revision: https://reviews.llvm.org/D99009
As of MSVC 19.28 (2019 Update 8), integral conversion is no longer preferred over floating-to-integral, and so MSVC is more standard conformant and will generate a compiler error on ambiguous call.
Cf. https://godbolt.org/z/E8xsdqKsb.
Initially found during the review of D99641.
Reviewed By: rnk
Differential Revision: https://reviews.llvm.org/D99663
Set the source ranges for parsed GNU-style attributes in
ParseGNUAttributes(), the same way that ParseCXX11Attributes() does it.
Differential Revision: https://reviews.llvm.org/D75844
Based on this debugger type, for now, we plan to:
1: use inline string by default for XCOFF DWARF
2: generate no column info for debug line table.
Reviewed By: aprantl
Differential Revision: https://reviews.llvm.org/D99400
This helper method is useful even outside of Gnu toolchains, so move
it to ToolChain so it can be reused in other toolchains such as Fuchsia.
Differential Revision: https://reviews.llvm.org/D88452
Removes the prototype builtin and intrinsic for i64x2.eq and implements that
instruction as well as the other i64x2 comparison instructions in the final SIMD
spec. Unsigned comparisons were not included in the final spec, so they still
need to be scalarized via a custom lowering.
Differential Revision: https://reviews.llvm.org/D99623
... instantiations
They are currently not being diagnosed because ProhibitAttributes() does
not handle attribute lists with an invalid source range. But once it
does, we need to allow GNU attributes in this place.
Additionally, start optionally diagnosing empty attr lists in
ProhibitCXX11Attributes(), since ProhibitAttribute() does it.
Differential Revision: https://reviews.llvm.org/D97362
See PR45088.
Compound requirement type constraints were using decltype(E) instead of
decltype((E)), as per `[expr.prim.req]p1.3.3`.
Since neither instantiation nor type dependence should matter for
the constraints, this uses an approach where a `decltype` type is not built,
and just the canonical type of the expression after template instantiation
is used on the requirement.
Signed-off-by: Matheus Izvekov <mizvekov@gmail.com>
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D98160
Ensure that the cl_khr_3d_image_writes pragma is enabled by making
cl_khr_3d_image_writes an optional core feature in CL 3.0 in addition
to being an available extension in 1.0 onwards and a core feature in
CL 2.0.
https://reviews.llvm.org/D99425
Signed-off-by: Kevin Petit <kevin.petit@arm.com>
On z/OS there is a hard limitation on on the maximum requestable alignment in aligned attribute for static variables. We need to truncate values greater than that.
Reviewed By: abhina.sreeskantharajan
Differential Revision: https://reviews.llvm.org/D98864
RVV intrinsics has new overloading rule, please see
82aac7dad4
Changed:
1. Rename `generic` to `overloaded` because the new rule is not using C11 generic.
2. Change HasGeneric to HasNoMaskedOverloaded because all masked operations
support overloading api.
3. Add more overloaded tests due to overloading rule changed.
Differential Revision: https://reviews.llvm.org/D99189
The contents of the string returned by getenv() is not guaranteed across calls to getenv(). The code to handle the CC_PRINT etc env vars calls getenv() and saves the results in just a char *. The string returned by getenv() needs to be copied and saved. Switching the type of the strings from char * to std::string will do this and manage the alloated memory.
Differential Revision: https://reviews.llvm.org/D98554
Zero length bitfield alignment is not respected if they are leading members on z/OS target.
Reviewed By: abhina.sreeskantharajan
Differential Revision: https://reviews.llvm.org/D98890
Add builtin function __builtin_get_device_side_mangled_name
to get device side manged name for functions and global
variables, which can be used to get symbol address of kernels
or variables by mangled name in dynamically loaded
bundled code objects at run time.
Reviewed by: Artem Belevich
Differential Revision: https://reviews.llvm.org/D99301
`expandedTokens(SourceRange)` used to do a binary search to get the
expanded tokens belonging to a source range. Each binary search uses
`isBeforeInTranslationUnit` to order two source locations. This is
inherently very slow.
By profiling clangd we found out that users like clangd::SelectionTree
spend 95% of time in `isBeforeInTranslationUnit`. Also it is worth
noting that users of `expandedTokens(SourceRange)` majorly use ranges
provided by AST to query this funciton. The ranges provided by AST are
token ranges (starting at the beginning of a token and ending at the
beginning of another token).
Therefore we can avoid the binary search in majority of the cases by
maintaining an index of ExpandedToken by their SourceLocations. We still
do binary search for ranges which are not token ranges but such
instances are quite low.
Performance:
`~/build/bin/clangd --check=clang/lib/Serialization/ASTReader.cpp`
Before: Took 2:10s to complete.
Now: Took 1:13s to complete.
Differential Revision: https://reviews.llvm.org/D99086
In order to test the preservation of the original Debug Info metadata
in your projects, a front end option could be very useful, since users
usually report that a concrete entity (e.g. variable x, or function fn2())
is missing debug info. The [0] is an example of running the utility
on GDB Project.
This depends on: D82546 and D82545.
Differential Revision: https://reviews.llvm.org/D82547
Summary: Add -fno-split-stack and rename CC1 option from `-split-stacks`
to `-fsplit-stack`.
Test Plan: check-all
Differential Revision: https://reviews.llvm.org/D99245
```
Warn when a function pointer is cast to an incompatible function
pointer. In a cast involving function types with a variable argument
list only the types of initial arguments that are provided are
considered. Any parameter of pointer-type matches any other
pointer-type. Any benign differences in integral types are ignored, like
int vs. long on ILP32 targets. Likewise type qualifiers are ignored. The
function type void (*) (void) is special and matches everything, which
can be used to suppress this warning. In a cast involving pointer to
member types this warning warns whenever the type cast is changing the
pointer to member type. This warning is enabled by -Wextra.
```
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D97831
Create fix-it hints to fix the order of constructors.
To make this a lot simpler, I've grouped all the warnings for each out of order initializer into 1.
This is necessary as fixing one initializer would often interfere with other initializers.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D98745
Add an option to tell the compiler that it can use privileged instructions.
This patch only adds the option. Backend implementation will be added in a
future patch.
Reviewed By: lei, amyk
Differential Revision: https://reviews.llvm.org/D99193
Files compiled with C++ for OpenCL mode can now have a distinct
file extension - clcpp, then clang driver picks the compilation
mode automatically (-x clcpp) without the use of -cl-std=clc++.
Differential Revision: https://reviews.llvm.org/D96771
This patch documents how `ModuleDepCollector{,PP}` work and what their members store. Also renames somewhat vague `MainDeps` to `FileDeps` and `Deps` to `ModularDeps`.
Depends on D98943.
Reviewed By: Bigcheese
Differential Revision: https://reviews.llvm.org/D98950
This patch extracts the `ModuleName` and `ContextHash` members of `ClangModuleDep`, `FullDependencies` and `ModuleDeps` into a single struct `ModuleID`. This makes it easier to understand how the full dependency graph works.
Reviewed By: Bigcheese, dexonsmith
Differential Revision: https://reviews.llvm.org/D98943
In order to have the same option on power PC LLVM and power PC gcc
the option will be changed from -mrop-protection to -mrop-protect.
The feature will be off by default and turned on when the option is used.
Reviewed By: lei, amyk
Differential Revision: https://reviews.llvm.org/D99185
There are a number of functions in altivec.h that use
vector __int128 which isn't supported on AIX. Those functions
need to be guarded for targets that don't support the type.
Furthermore, the functions that produce quadword instructions
without using the type need a builtin. This patch adds the
macro guards to altivec.h using the __SIZEOF_INT128__ which
is only defined on targets that support the __int128 type.
Support Complex type transformer to define more complexity legal type.
Overall our downstream implementation there are only four instructions need to
use complex type transformer, it's not a common case.
I still feel using a string for prototypes is simple and clear.
Reviewed By: craig.topper
Differential Revision: https://reviews.llvm.org/D98848
* List inferred lists of imports in `#pragma clang __debug module_map`.
* Add `#pragma clang __debug modules {all,visible,building}` to dump
lists of known / visible module names or the building modules stack.
There is no functional change here (hence no new tests). The only change
is to replace a couple uintptr_t members with llvm::PointerIntPair<> to
clean up the code, making it more readable and less error prone.
This cleanup highlighted that the old code was effectively casting away
const. This is fixed by changing some function signatures.
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D98889
There was only an `Import` function for `QualType` but not for `Type`.
For correct import of some AST nodes where not `QualType` is used
an import of `Type *` is needed. (It is the case with
`FieldDecl::getCapturedVLAType`.)
Reviewed By: shafik, teemperor, martong
Differential Revision: https://reviews.llvm.org/D98951
Implement the TreeTransform for AsTypeExpr. Split `BuildAsTypeExpr`
out of `ActOnAsTypeExpr`, such that we can call the Build method from
the TreeTransform.
Fixes PR47979.
Differential Revision: https://reviews.llvm.org/D98855
`-module-dir` is a Flang specific option and should not be visible in
Clang. This patch adds `FlangOnlyOption` flag to its definition. This
way Clang will know that it should reject it and skip it when generating
output for `clang -help`.
The definition of `-module-dir` is moved next to other Flang options.
As `-J` is an alias for `-module-dir`, it has to be moved as well (the
alias cannot be defined before the original option). As `gfortran` mode
is effectively no longer supported (*), `-J` is claimed as Flang only
option.
This is a follow-up of a post-commit review for
https://reviews.llvm.org/D95448.
* https://reviews.llvm.org/rG6a75496836ea14bcfd2f4b59d35a1cad4ac58cee
Differential Revision: https://reviews.llvm.org/D99018
ImmutableSet doesn't seem like the perfect fit for the RangeSet
data structure. It is good for saving memory in a persistent
setting, but not for the case when the population of the container
is tiny. This commit replaces RangeSet implementation and
redesigns the most common operations to be more efficient.
Differential Revision: https://reviews.llvm.org/D86465
Summary: Try to enable the support for C++20 coroutine keywords for AST
Matchers.
Reviewers: sammccall, njames93, aaron.ballman
Differential Revision: https://reviews.llvm.org/D96316
This patch adds a new command line option to clang which outputs the directory containing clangs runtime libraries to stdout.
The primary use case for this command line flag is for build systems using clang-cl. Build systems when using clang-cl invoke the linker, that is either link or lld-link in this case, directly instead of invoking the compiler for the linking process as is common with the other drivers. This leads to issues when runtime libraries of clang, such as sanitizers or profiling, have to be linked in as the compiler cannot communicate the link directory to the linker.
Using this flag, build systems would be capable of getting the directory containing all of clang's runtime libraries and add it to the linker path.
Differential Revision: https://reviews.llvm.org/D98868
Clang currently automates a fair amount of diagnostic checking for
declaration attributes based on the declarations in Attr.td. It checks
for things like subject appertainment, number of arguments, language
options, etc. This patch uses the same machinery to perform diagnostic
checking on statement attributes.
Updates the names (e.g. widen => extend, saturate => sat) and opcodes of all
SIMD instructions to match the finalized SIMD spec. Deliberately does not change
the public interface in wasm_simd128.h yet; that will require more care.
Depends on D98466.
Differential Revision: https://reviews.llvm.org/D98676
Removes the instruction definitions, intrinsics, and builtins for qfma/qfms,
signselect, and prefetch instructions, which were not included in the final
WebAssembly SIMD spec.
Depends on D98457.
Differential Revision: https://reviews.llvm.org/D98466
Now that the WebAssembly SIMD specification is finalized and engines are
generally up-to-date, there is no need for a separate target feature for gating
SIMD instructions that engines have not implemented. With this change,
v128.const is now enabled by default with the simd128 target feature.
Differential Revision: https://reviews.llvm.org/D98457
Added basic parsing/sema/serialization support to extend the
existing 'destroy' clause for use with the 'interop' directive.
Differential Revision: https://reviews.llvm.org/D98834
Adds support for `-fget-symbols-sources` in the new Flang driver. All
relevant tests are updated to use the new driver when
`FLANG_BUILD_NEW_DRIVER` is set.
`RUN` lines in tests are updated so `-fsyntax-only`
comes before `-fget-symbols-sources`. That's because:
* both `-fsyntax-only` and `-fget-symbols-sources` are
action flags, and
* the new driver, flang-new, will only consider the right-most
action flag.
In other words, this change is needed so that the tests work with both
`f18` (requires both flags) and `flang-new` (only considers the last
action flag).
Differential Revision: https://reviews.llvm.org/D98191
This patch introduces a very simple inter-procedural analysis
between blocks and enclosing functions.
We always analyze blocks first (analysis is done as part of semantic
analysis that goes side-by-side with the parsing process), and at the
moment of reporting we don't know how that block will be actually
used.
This patch introduces new logic delaying reports of the "never called"
warnings on blocks. If we are not sure that the block will be called
exactly once, we shouldn't warn our users about that. Double calls,
however, don't require such delays. While analyzing the enclosing
function, we can actually decide what we should do with those
warnings.
Additionally, as a side effect, we can be more confident about blocks
in such context and can treat them not as escapes, but as direct
calls.
rdar://74090107
Differential Revision: https://reviews.llvm.org/D98688
This category is generic enough to hold a variety of checkers.
Currently it contains the Dead Stores checker and an alpha unreachable
code checker.
Differential Revision: https://reviews.llvm.org/D98741
Add new field PermuteOperands to mapping different operand order between
C/C++ API and clang builtin.
Reviewed By: craig.topper, rogfer01
Authored-by: Roger Ferrer Ibanez <rofirrim@gmail.com>
Co-Authored-by: Hsiangkai Wang <kai.wang@sifive.com>
Co-Authored-by: Zakk Chen <zakk.chen@sifive.com>
Differential Revision: https://reviews.llvm.org/D98388
The condition variable is in scope in the loop increment, so we need to
emit the jump destination from wthin the scope of the condition
variable.
For GCC compatibility (and compatibility with real-world 'FOR_EACH'
macros), 'continue' is permitted in a statement expression within the
condition of a for loop, though, so there are two cases here:
* If the for loop has no condition variable, we can emit the jump
destination before emitting the condition.
* If the for loop has a condition variable, we must defer emitting the
jump destination until after emitting the variable. We diagnose a
'continue' appearing in the initializer of the condition variable,
because it would jump past the initializer into the scope of that
variable.
Reviewed By: rjmccall
Differential Revision: https://reviews.llvm.org/D98816
Changing matchers to use non-const members and adding r-value overloads of matcher conversions enables move optimisations.
I don't have performance figures but I can say this knocked 120k from the clang-tidy binary(86k was from the .text section) on a Release with assertions build(x86_64-unknown-linux-gnu).
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D98792
Added basic parsing/sema/serialization support for interop directive.
Support for the 'init' clause.
Differential Revision: https://reviews.llvm.org/D98558
SYCL compilations initiated by the driver will spawn off one or more
frontend compilation jobs (one for device and one for host). This patch
reworks the driver options to make upstreaming this from the downstream
SYCL fork easier.
This patch introduces a language option to identify host executions
(SYCLIsHost) and a -cc1 frontend option to enable this mode. -fsycl and
-fno-sycl become driver-only options that are rejected when passed to
-cc1. This is because the frontend and beyond should be looking at
whether the user is doing a device or host compilation specifically.
Because the frontend should only ever be in one mode or the other,
-fsycl-is-device and -fsycl-is-host are mutually exclusive options.
As a follow-up to D95691, add new diagnostic groups named
pre-c++N-compat to replace the old diagnostic groups with the standards
listed out explicitly. The old group names are retained for backwards
compatibility.
Split out some of the instructions predicated on the dot2-insts target
feature into a new dot7-insts, in preparation for subtargets that have
some but not all of these instructions. NFCI.
Differential Revision: https://reviews.llvm.org/D98717
The idiom:
```
DeclContext::lookup_result R = DeclContext::lookup(Name);
for (auto *D : R) {...}
```
is not safe when in the loop body we trigger deserialization from an AST file.
The deserialization can insert new declarations in the StoredDeclsList whose
underlying type is a vector. When the vector decides to reallocate its storage
the pointer we hold becomes invalid.
This patch replaces a SmallVector with an singly-linked list. The current
approach stores a SmallVector<NamedDecl*, 4> which is around 8 pointers.
The linked list is 3, 5, or 7. We do better in terms of memory usage for small
cases (and worse in terms of locality -- the linked list entries won't be near
each other, but will be near their corresponding declarations, and we were going
to fetch those memory pages anyway). For larger cases: the vector uses a
doubling strategy for reallocation, so will generally be between half-full and
full. Let's say it's 75% full on average, so there's N * 4/3 + 4 pointers' worth
of space allocated currently and will be 2N pointers with the linked list. So we
break even when there are N=6 entries and slightly lose in terms of memory usage
after that. We suspect that's still a win on average.
Thanks to @rsmith!
Differential revision: https://reviews.llvm.org/D91524
There is no syntax like {@code ...} in Doxygen, @code is a block command
that ends with @endcode, and generally these are not enclosed in braces.
The correct syntax for inline code snippets is @c <code>.
Reviewed By: aaron.ballman
Differential Revision: https://reviews.llvm.org/D98665
Somewhat surprisingly, signature help is emitted as a side-effect of
computing the expected type of a function argument.
The reason is that both actions require enumerating the possible
function signatures and running partial overload resolution, and doing
this twice would be wasteful and complicated.
Change #1: document this, it's subtle :-)
However, sometimes we need to compute the expected type without having
reached the code completion cursor yet - in particular to allow
completion of designators.
eb4ab3358c did this but introduced a
regression - it emits signature help in the wrong location as a side-effect.
Change #2: only emit signature help if the code completion cursor was reached.
Currently there is PP.isCodeCompletionReached(), but we can't use it
because it's set *after* running code completion.
It'd be nice to set this implicitly when the completion token is lexed,
but ConsumeCodeCompletionToken() makes this complicated.
Change #3: call cutOffParsing() *first* when seeing a completion token.
After this, the fact that the Sema::Produce*SignatureHelp() functions
are even more confusing, as they only sometimes do that.
I don't want to rename them in this patch as it's another large
mechanical change, but we should soon.
Change #4: prepare to rename ProduceSignatureHelp() to GuessArgumentType() etc.
Differential Revision: https://reviews.llvm.org/D98488
In BuiltinsRISCV.def, other extension 's intrinsics need to be defined by using macro BUILTIN.
So, it shouldn't undefine macro BUILTIN in the end of declaration for V intrinsics.
Reviewed By: craig.topper
Differential Revision: https://reviews.llvm.org/D98682
This patch implements the __rndr and __rndrrs intrinsics to provide access to the random
number instructions introduced in Armv8.5-A. They are only defined for the AArch64
execution state and are available when __ARM_FEATURE_RNG is defined.
These intrinsics store the random number in their pointer argument and return a status
code if the generation succeeded. The difference between __rndr __rndrrs, is that the latter
intrinsic reseeds the random number generator.
The instructions write the NZCV flags indicating the success of the operation that we can
then read with a CSET.
[1] https://developer.arm.com/docs/101028/latest/data-processing-intrinsics
[2] https://bugs.llvm.org/show_bug.cgi?id=47838
Differential Revision: https://reviews.llvm.org/D98264
Change-Id: I8f92e7bf5b450e5da3e59943b53482edf0df6efc
Forwarding these means that if an r-value reference is passed, the matcher will be moved. However it appears this happens for each mapped node matcher, resulting in use-after-move issues.
Reviewed By: steveire
Differential Revision: https://reviews.llvm.org/D98497
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
The JSON file can also be used to generate bindings for other languages,
such as Python and Javascript:
https://steveire.wordpress.com/2019/04/30/the-future-of-ast-matching
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Also in this version, the platforms/cmake configurations are excluded as
much as possible so that support can be added iteratively. Currently a
break on any platform causes a revert of the entire feature. This way,
the `OR WIN32` can be removed in a future commit and if it breaks the
buildbots, only that commit gets reverted, making the entire process
easier to manage.
Differential Revision: https://reviews.llvm.org/D93164
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
The JSON file can also be used to generate bindings for other languages,
such as Python and Javascript:
https://steveire.wordpress.com/2019/04/30/the-future-of-ast-matching
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Also in this version, the platforms/cmake configurations are excluded as
much as possible so that support can be added iteratively. Currently a
break on any platform causes a revert of the entire feature. This way,
the `OR WIN32` can be removed in a future commit and if it breaks the
buildbots, only that commit gets reverted, making the entire process
easier to manage.
Differential Revision: https://reviews.llvm.org/D93164
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
The JSON file can also be used to generate bindings for other languages,
such as Python and Javascript:
https://steveire.wordpress.com/2019/04/30/the-future-of-ast-matching
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Also in this version, the platforms/cmake configurations are excluded as
much as possible so that support can be added iteratively. Currently a
break on any platform causes a revert of the entire feature. This way,
the `OR WIN32` can be removed in a future commit and if it breaks the
buildbots, only that commit gets reverted, making the entire process
easier to manage.
Differential Revision: https://reviews.llvm.org/D93164
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Differential Revision: https://reviews.llvm.org/D93164
In order to prevent further building issues related to the usage of SmallVector
in other compilation unit, this patch adjusts the llvm.h header as a workaround
instead.
Besides, this patch reverts previous workarounds:
1. Revert "[NFC] Use llvm::SmallVector to workaround XL compiler problem on AIX"
This reverts commit 561fb7f60a.
2.Revert "[clang][cli] Fix build failure in CompilerInvocation"
This reverts commit 8dc70bdcd0.
Differential Revision: https://reviews.llvm.org/D98552
This patch just makes the error message clearer by reinforcing the cause
was a lack of viable **three-way** comparison function for the
**complete object**.
Signed-off-by: Matheus Izvekov <mizvekov@gmail.com>
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D97990
This was motivated by the fact that constructor type homing (debug info
optimization that we want to turn on by default) drops some libc++ types,
so an attribute would allow us to override constructor homing and emit
them anyway. I'm currently looking into the particular libc++ issue, but
even if we do fix that, this issue might come up elsewhere and it might be
nice to have this.
As I've implemented it now, the attribute isn't specific to the
constructor homing optimization and overrides all of the debug info
optimizations.
Open to discussion about naming, specifics on what the attribute should do, etc.
Differential Revision: https://reviews.llvm.org/D97411
WG14 adopted N2626 at the meetings this week. This commit adds support
for using ' as a digit separator in a numeric literal which is
compatible with the C++ feature.
There is no need to check for enabled pragma for core or optional core features,
thus this check is removed
Reviewed By: Anastasia
Differential Revision: https://reviews.llvm.org/D97058
Nested `omp [begin|end] declare variant` inherit the selectors from
surrounding `omp (begin|end) declare variant` constructs. To stop such
propagation the user can add the `disable_selector_propagation` to the
`extension` set in the `implementation` selector.
Reviewed By: tianshilei1992
Differential Revision: https://reviews.llvm.org/D95765
If we have nested declare variant context, it doesn't make sense to
inherit the match extension from the parent. Instead, just skip it.
Reviewed By: JonChesterfield
Differential Revision: https://reviews.llvm.org/D95764
This patch extends the matrix spec to allow matrix-by-scalar division.
Originally support for `/` was left out to avoid ambiguity for the
matrix-matrix version of `/`, which could either be elementwise or
specified as matrix multiplication M1 * (1/M2).
For the matrix-scalar version, no ambiguity exists; `*` is also
an elementwise operation in that case. Matrix-by-scalar division
is commonly supported by systems including Matlab, Mathematica
or NumPy.
Reviewed By: rjmccall
Differential Revision: https://reviews.llvm.org/D97857
Demonstrate how to generate vadd/vfadd intrinsic functions
1. add -gen-riscv-vector-builtins for clang builtins.
2. add -gen-riscv-vector-builtin-codegen for clang codegen.
3. add -gen-riscv-vector-header for riscv_vector.h. It also generates
ifdef directives with extension checking, base on D94403.
4. add -gen-riscv-vector-generic-header for riscv_vector_generic.h.
Generate overloading version Header for generic api.
https://github.com/riscv/rvv-intrinsic-doc/blob/master/rvv-intrinsic-rfc.md#c11-generic-interface
5. update tblgen doc for riscv related options.
riscv_vector.td also defines some unused type transformers for vadd,
because I think it could demonstrate how tranfer type work and we need
them for the whole intrinsic functions implementation in the future.
Authored-by: Roger Ferrer Ibanez <rofirrim@gmail.com>
Co-Authored-by: Zakk Chen <zakk.chen@sifive.com>
Reviewed By: jrtc27, craig.topper, HsiangKai, Jim, Paul-C-Anagnostopoulos
Differential Revision: https://reviews.llvm.org/D95016
Generate a json file containing descriptions of AST classes and their
public accessors which return SourceLocation or SourceRange.
Use the JSON file to generate a C++ API and implementation for accessing
the source locations and method names for accessing them for a given AST
node.
This new API can be used to implement 'srcloc' output in clang-query:
http://ce.steveire.com/z/m_kTIo
In this first version of this feature, only the accessors for Stmt
classes are generated, not Decls, TypeLocs etc. Those can be added
after this change is reviewed, as this change is mostly about
infrastructure of these code generators.
Differential Revision: https://reviews.llvm.org/D93164
This patch adds `-fdebug-dump-parsing-log` in the new driver. This option is
semantically identical to `-fdebug-instrumented-parse` in `f18` (the
former is added as an alias in `f18`).
As dumping the parsing log makes only sense for instrumented parses, we
set Fortran::parser::Options::instrumentedParse to `True` when
`-fdebug-dump-parsing-log` is used. This is consistent with `f18`.
To facilitate tweaking the configuration of the frontend based on the
action being requested, `setUpFrontendBasedOnAction` is introduced in
CompilerInvocation.cpp.
Differential Revision: https://reviews.llvm.org/D97457
It's available both in CodeGenOptions and in LangOptions, and LangOptions
implementation is slightly better as it uses a StringRef instead of a char
pointer, so use it.
Differential Revision: https://reviews.llvm.org/D98175
The only time we would consider allowing this is inside a call to
std::allocator<T>::deallocate, whose contract does not permit deletion
of null pointers.
These functions were local to SemaDeclAttr.cpp, but these functions are
useful in general (for instance, for statement or type attribute
processing). This refactoring is in advance of beginning to tablegen
diagnostic checks for statement attributes the way we already do for
declaration attributes.
There is one functional change in here as a drive-by. The
external_source_symbol attribute had one of its diagnostic checks
inside of an assert, which was corrected.
SUMMARY:
n the patch https://reviews.llvm.org/D87451 "add new option -mignore-xcoff-visibility"
we did as "The option -mignore-xcoff-visibility has no effect on visibility attribute when compile with -emit-llvm option to generated LLVM IR."
in these patch we let -mignore-xcoff-visibility effect on generating IR too. the new feature only work on AIX OS
Reviewer: Jason Liu,
Differential Revision: https://reviews.llvm.org/D89986
This patch implements the conditional select operator for
ext_vector_types in C++. It does so by using the same semantics as for
C.
D71463 added support for the conditional select operator for VectorType
in C++. Unfortunately the semantics between ext_vector_type in C are
different to VectorType in C++. Select for ext_vector_type is based on
the MSB of the condition vector, whereas for VectorType it is `!= 0`.
This unfortunately means that the behavior is inconsistent between
ExtVectorType and VectorType, but I think using the C semantics for
ExtVectorType in C++ as well should be less surprising for users.
Reviewed By: erichkeane, aaron.ballman
Differential Revision: https://reviews.llvm.org/D98055
See https://bugs.llvm.org/show_bug.cgi?id=42154.
GCC's __attribute__((align)) can reduce the alignment of a type when applied to
a typedef. However, functions which take a pointer or reference to the
original type are compiled assuming the original alignment. Therefore when any
such function is passed an object of the new, less-aligned type, an alignment
fault can occur. In particular, this applies to the constructor, which is
defined for the original type and called for the less-aligned object.
This change adds a warning whenever an pointer or reference to an object is
passed to a function that was defined for a more-aligned type.
The calls to ASTContext::getTypeAlignInChars seem change the order in which
record layouts are evaluated, which caused changes to the output of
-fdump-record-layouts. As such some tests needed to be updated:
* Use CHECK-LABEL rather than counting the number of "Dumping AST Record
Layout" headers.
* Check for end of line in labels, so that struct B1 doesn't match struct B
etc.
* Add --strict-whitespace, since the whitespace shows meaningful structure.
* The order in which record layouts are printed has changed in some cases.
* clang-format for regions changed
Differential Revision: https://reviews.llvm.org/D97187
This is the first patch supporting M68k in Clang
- Register M68k as a target
- Target specific CodeGen support
- Target specific attribute support
Authors: myhsu, m4yers, glaubitz
Differential Revision: https://reviews.llvm.org/D88393
From `man ld`:
-why_load Log why each object file in a static library is loaded.
That is, what symbol was needed.
Also called -whyload for compatibility.
`-why_load` is the spelling preferred by the linker and `-whyload` an old
compatibility setting. clang should accept the preferred form, and map both
forms to the preferred form.
Differential Revision: https://reviews.llvm.org/D98156
Spack is a package management tool extensively used by HPC community.
As ROCm packages are built by Spack by HPC community, we need to teach
clang driver to detect ROCm installation built by Spack.
Reviewed by: Artem Belevich
Differential Revision: https://reviews.llvm.org/D97340
Fix duplicate diagnostic for an over-aligned allocation with no matching
function, and add custom diagnostic for the case where the
non-allocating placement new was intended but <new> was not included.
The option -funique-internal-linkage-names was added in D73307 and D78243 as a
LLVM early pass to insert a unique suffix to internal linkage functions and
vars. The unique suffix was the hash of the module path. However, we found
that this can be done more cleanly in clang early and the fixes that need to
be done later can be completely avoided. The fixes in particular are trying
to modify the DW_AT_linkage_name and finding the right place to insert the
pass.
This patch ressurects the original implementation proposed in D73307 which
was reviewed and then ditched in favor of the pass based approach.
Differential Revision: https://reviews.llvm.org/D96109
This amends 25f753c51e.
When applying the child configurations we don't need any diagnostic,
because it was issued when first parsing them. So just drop everything
on the second parse.
Differential Revision: https://reviews.llvm.org/D96760
Clang exposes an interface for extending the PCM/PCH file format: `ModuleFileExtension`.
Clang itself has only a single implementation of the interface: `TestModuleFileExtension` that can be instantiated via the `-ftest-module-file_extension=` command line argument (and is stored in `FrontendOptions::ModuleFileExtensions`).
Clients of the Clang library can extend the PCM/PCH file format by pushing an instance of their extension class to the `FrontendOptions::ModuleFileExtensions` vector.
When generating the `-ftest-module-file_extension=` command line argument from `FrontendOptions`, a downcast is used to distinguish between the Clang's testing extension and other (client) extensions.
This functionality is enabled by LLVM-style RTTI. However, this style of RTTI is hard to extend, as it requires patching Clang (adding new case to the `ModuleFileExtensionKind` enum).
This patch switches to the LLVM RTTI for open class hierarchies, which allows libClang users (e.g. Swift) to create implementations of `ModuleFileExtension` without patching Clang. (Documentation of the feature: https://llvm.org/docs/HowToSetUpLLVMStyleRTTI.html#rtti-for-open-class-hierarchies)
Reviewed By: artemcm
Differential Revision: https://reviews.llvm.org/D97702
This patch fixes failure of the `CodeGen/aix-ignore-xcoff-visibility.cpp` test with command line round-trip.
The absence of '-fvisibility' implies '-mignore-xcoff-visibility'.
The problem is that when '-fvisibility default' is passed to -cc1, it isn't being generated. (This adheres to the principle that generation doesn't produce arguments with default values.)
However, that caused '-mignore-xcoff-visibility' to be implied in the generated command line (without '-fvisibility'), while it wasn't implied in the original command line (with '-fvisibility').
This patch fixes that by always generating '-fvisibility' and explains the situation in comment.
(The '-mginore-xcoff-visibility' option was added in D87451).
Reviewed By: Bigcheese
Differential Revision: https://reviews.llvm.org/D97552
Initial support for using the OpenMPIRBuilder by clang to generate loops using the OpenMPIRBuilder. This initial support is intentionally limited to:
* Only the worksharing-loop directive.
* Recognizes only the nowait clause.
* No loop nests with more than one loop.
* Untested with templates, exceptions.
* Semantic checking left to the existing infrastructure.
This patch introduces a new AST node, OMPCanonicalLoop, which becomes parent of any loop that has to adheres to the restrictions as specified by the OpenMP standard. These restrictions allow OMPCanonicalLoop to provide the following additional information that depends on base language semantics:
* The distance function: How many loop iterations there will be before entering the loop nest.
* The loop variable function: Conversion from a logical iteration number to the loop variable.
These allow the OpenMPIRBuilder to act solely using logical iteration numbers without needing to be concerned with iterator semantics between calling the distance function and determining what the value of the loop variable ought to be. Any OpenMP logical should be done by the OpenMPIRBuilder such that it can be reused MLIR OpenMP dialect and thus by flang.
The distance and loop variable function are implemented using lambdas (or more exactly: CapturedStmt because lambda implementation is more interviewed with the parser). It is up to the OpenMPIRBuilder how they are called which depends on what is done with the loop. By default, these are emitted as outlined functions but we might think about emitting them inline as the OpenMPRuntime does.
For compatibility with the current OpenMP implementation, even though not necessary for the OpenMPIRBuilder, OMPCanonicalLoop can still be nested within OMPLoopDirectives' CapturedStmt. Although OMPCanonicalLoop's are not currently generated when the OpenMPIRBuilder is not enabled, these can just be skipped when not using the OpenMPIRBuilder in case we don't want to make the AST dependent on the EnableOMPBuilder setting.
Loop nests with more than one loop require support by the OpenMPIRBuilder (D93268). A simple implementation of non-rectangular loop nests would add another lambda function that returns whether a loop iteration of the rectangular overapproximation is also within its non-rectangular subset.
Reviewed By: jdenny
Differential Revision: https://reviews.llvm.org/D94973
This change adds a new IR noundef attribute, which denotes when a function call argument or return val may never contain uninitialized bits.
In MemorySanitizer, this attribute enables optimizations which decrease instrumented code size by up to 17% (measured with an instrumented build of clang) . I'll introduce the change allowing msan to take advantage of this information in a separate patch.
Differential Revision: https://reviews.llvm.org/D81678
The SwitchStmt::FirstCase member is not initialized when the AST is
built by the ASTStmtReader. See the below code of
ASTStmtReader::VisitSwitchStmt in the case where the for loop does not
have any iterations:
```
// ... more code ...
SwitchCase *PrevSC = nullptr;
for (auto E = Record.size(); Record.getIdx() != E; ) {
SwitchCase *SC = Record.getSwitchCaseWithID(Record.readInt());
if (PrevSC)
PrevSC->setNextSwitchCase(SC);
else
S->setSwitchCaseList(SC); // Sets FirstCase !!!
PrevSC = SC;
}
} // return
```
Later, in ASTNodeImporter::VisitSwitchStmt,
we have a condition that depends on this uninited value:
```
for (SwitchCase *SC = S->getSwitchCaseList(); SC != nullptr;
SC = SC->getNextSwitchCase()) {
// ... more code ...
}
```
This is clearly an UB. This causes non-deterministic crashes when
ClangSA analyzes some code with CTU. See the below report by valgrind
(the whole valgrind output is attached):
```
==31019== Conditional jump or move depends on uninitialised value(s)
==31019== at 0x12ED1983: clang::ASTNodeImporter::VisitSwitchStmt(clang::SwitchStmt*) (ASTImporter.cpp:6195)
==31019== by 0x12F1D509: clang::StmtVisitorBase<std::add_pointer, clang::ASTNodeImporter, llvm::Expected<clang::Stmt*>>::Visit(clang::Stmt*) (StmtNodes.inc:591)
==31019== by 0x12EE4FDF: clang::ASTImporter::Import(clang::Stmt*) (ASTImporter.cpp:8484)
==31019== by 0x12F09498: llvm::Expected<clang::Stmt*> clang::ASTNodeImporter::import<clang::Stmt>(clang::Stmt*) (ASTImporter.cpp:164)
==31019== by 0x12F3A1F5: llvm::Error clang::ASTNodeImporter::ImportArrayChecked<clang::Stmt**, clang::Stmt**>(clang::Stmt**, clang::Stmt**, clang::Stmt**) (ASTImporter.cpp:653)
==31019== by 0x12F13152: llvm::Error clang::ASTNodeImporter::ImportContainerChecked<llvm::iterator_range<clang::Stmt**>, llvm::SmallVector<clang::Stmt*, 8u> >(llvm::iterator_range<clang::Stmt**> const&, llvm::SmallVector<clang::Stmt*, 8u>&) (ASTImporter.cpp:669)
==31019== by 0x12ED099F: clang::ASTNodeImporter::VisitCompoundStmt(clang::CompoundStmt*) (ASTImporter.cpp:6077)
==31019== by 0x12F1CC2D: clang::StmtVisitorBase<std::add_pointer, clang::ASTNodeImporter, llvm::Expected<clang::Stmt*>>::Visit(clang::Stmt*) (StmtNodes.inc:73)
==31019== by 0x12EE4FDF: clang::ASTImporter::Import(clang::Stmt*) (ASTImporter.cpp:8484)
==31019== by 0x12F09498: llvm::Expected<clang::Stmt*> clang::ASTNodeImporter::import<clang::Stmt>(clang::Stmt*) (ASTImporter.cpp:164)
==31019== by 0x12F13275: clang::Stmt* clang::ASTNodeImporter::importChecked<clang::Stmt*>(llvm::Error&, clang::Stmt* const&) (ASTImporter.cpp:197)
==31019== by 0x12ED0CE6: clang::ASTNodeImporter::VisitCaseStmt(clang::CaseStmt*) (ASTImporter.cpp:6098)
```
Differential Revision: https://reviews.llvm.org/D97849
Add support for the following Fortran dialect options:
- -default*
- -flarge-sizes
It also adds two test cases:
# For checking whether `flang-new` is passing options correctly to `flang-new -fc1`.
# For checking if `fdefault-` arguments are processed properly.
Also moves the Dialect related option parsing to a dedicated function
and adds a member `defaultKinds()` to `CompilerInvocation`
Depends on: D96032
Differential Revision: https://reviews.llvm.org/D96344
Use that to print the diagnostic in SemaChecking instead of
listing all of the builtins in a switch.
With the required features, IR generation will also be able
to error on this. Checking this here allows us to have a RISCV
focused error message.
Reviewed By: HsiangKai
Differential Revision: https://reviews.llvm.org/D97826
https://wg21.link/P2173 is making its way through WG21 currently and
has not been formally adopted yet. This feature provides very useful
functionality in that you can specify attributes on the various
function *declarations* generated by a lambda expression, where the
current C++ grammar only allows attributes which apply to the various
function *types* so generated.
This patch implements P2173 on the assumption that it will be adopted
by WG21 with this syntax for C++23.
This commit refactors extension support to allow
specifying whether pragma is needed or not explicitly.
For backward compatibility pragmas are set to required
for all extensions that were added prior to this but
not for OpenCL 3.0 features.
Differential Revision: https://reviews.llvm.org/D97052
Our diagnostics relating to static assertions were a bit confused. For
instance, when in MS compatibility mode in C (where we accept
static_assert even without including <assert.h>), we would fail
to warn the user that they were using the wrong spelling (even in
pedantic mode), we were missing a compatibility warning about using
_Static_assert in earlier standards modes, diagnostics for the optional
message were not reflected in C as they were in C++, etc.
If the mapped structure has data members, which have 'default' mappers,
need to map these members individually using their 'default' mappers.
Differential Revision: https://reviews.llvm.org/D92195