These arguments were redundant, and other parts of D77598 did rely on
the presence/absence of template parameters to imply whether types
should be included for the argument (like
clang::printTemplateArgumentList) so do that here too.
Looks like the work of {D113393} requires manual clang-formatting intervention.
Removal of the space between `auto` and `{}`
Reviewed By: HazardyKnusperkeks, Quuxplusone
Differential Revision: https://reviews.llvm.org/D113826
This implements the following changes:
* AutoType retains sugared deduced-as-type.
* Template argument deduction machinery analyses the sugared type all the way
down. It would previously lose the sugar on first recursion.
* Undeduced AutoType will be properly canonicalized, including the constraint
template arguments.
* Remove the decltype node created from the decltype(auto) deduction.
As a result, we start seeing sugared types in a lot more test cases,
including some which showed very unfriendly `type-parameter-*-*` types.
Signed-off-by: Matheus Izvekov <mizvekov@gmail.com>
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D110216
category is empty
Currently, if we create a category in ObjC that is empty, we still emit
runtime metadata for that category. This is a scenario that could
commonly be run into when using __attribute__((objc_direct_members)),
which elides the need for much of the category metadata. This is
slightly wasteful and can be easily skipped by checking the category
metadata contents during CodeGen.
rdar://66177182
Differential Revision: https://reviews.llvm.org/D113455
* The format_arg attribute tells the compiler that the attributed function
returns a format string that is compatible with a format string that is being
passed as a specific argument.
* Several NSString methods return copies of their input, so they would ideally
have the format_arg attribute. A previous differential (D112670) added
support for instancetype methods having the format_arg attribute when used
in the context of NSString method declarations.
* D112670 failed to account that instancetype can be sugared in certain narrow
(but critical) scenarios, like by using nullability specifiers. This patch
resolves this problem.
Differential Revision: https://reviews.llvm.org/D113636
Reviewed By: ahatanak
Radar-Id: rdar://85278860
Instead of pretending that function pointer type aliases or variables
are functions, and thereby losing the information that they are type
aliases or variables, respectively, we use the existence of a return
type in the DeclInfo to signify a "function-like" object.
That seems pretty natural, since it's also the return type (or parameter
list) from the DeclInfo that we compare the documentation with.
Addresses a concern voiced in D111264#3115104.
Reviewed By: gribozavr2
Differential Revision: https://reviews.llvm.org/D113691
Then we don't have to look into the declaration again. Also it's only
natural to collect this information alongside parameters and return
type, as it's also just a parameter in some sense.
Reviewed By: gribozavr2
Differential Revision: https://reviews.llvm.org/D113690
Change the error message to use ignorelist, and changed some variable and function
names in related code and test.
Reviewed By: thakis
Differential Revision: https://reviews.llvm.org/D113189
We no longer need a reference to RangedConstraintManager, we call top
level `State->assume` functions.
Differential Revision: https://reviews.llvm.org/D113261
D103314 introduced symbol simplification when a new constant constraint is
added. Currently, we simplify existing equivalence classes by iterating over
all existing members of them and trying to simplify each member symbol with
simplifySVal.
At the end of such a simplification round we may end up introducing a
new constant constraint. Example:
```
if (a + b + c != d)
return;
if (c + b != 0)
return;
// Simplification starts here.
if (b != 0)
return;
```
The `c == 0` constraint is the result of the first simplification iteration.
However, we could do another round of simplification to reach the conclusion
that `a == d`. Generally, we could do as many new iterations until we reach a
fixpoint.
We can reach to a fixpoint by recursively calling `State->assume` on the
newly simplified symbol. By calling `State->assume` we re-ignite the
whole assume machinery (along e.g with adjustment handling).
Why should we do this? By reaching a fixpoint in simplification we are capable
of discovering infeasible states at the moment of the introduction of the
**first** constant constraint.
Let's modify the previous example just a bit, and consider what happens without
the fixpoint iteration.
```
if (a + b + c != d)
return;
if (c + b != 0)
return;
// Adding a new constraint.
if (a == d)
return;
// This brings in a contradiction.
if (b != 0)
return;
clang_analyzer_warnIfReached(); // This produces a warning.
// The path is already infeasible...
if (c == 0) // ...but we realize that only when we evaluate `c == 0`.
return;
```
What happens currently, without the fixpoint iteration? As the inline comments
suggest, without the fixpoint iteration we are doomed to realize that we are on
an infeasible path only after we are already walking on that. With fixpoint
iteration we can detect that before stepping on that. With fixpoint iteration,
the `clang_analyzer_warnIfReached` does not warn in the above example b/c
during the evaluation of `b == 0` we realize the contradiction. The engine and
the checkers do rely on that either `assume(Cond)` or `assume(!Cond)` should be
feasible. This is in fact assured by the so called expensive checks
(LLVM_ENABLE_EXPENSIVE_CHECKS). The StdLibraryFuncionsChecker is notably one of
the checkers that has a very similar assertion.
Before this patch, we simply added the simplified symbol to the equivalence
class. In this patch, after we have added the simplified symbol, we remove the
old (more complex) symbol from the members of the equivalence class
(`ClassMembers`). Removing the old symbol is beneficial because during the next
iteration of the simplification we don't have to consider again the old symbol.
Contrary to how we handle `ClassMembers`, we don't remove the old Sym->Class
relation from the `ClassMap`. This is important for two reasons: The
constraints of the old symbol can still be found via it's equivalence class
that it used to be the member of (1). We can spare one removal and thus one
additional tree in the forest of `ClassMap` (2).
Performance and complexity: Let us assume that in a State we have N non-trivial
equivalence classes and that all constraints and disequality info is related to
non-trivial classes. In the worst case, we can simplify only one symbol of one
class in each iteration. The number of symbols in one class cannot grow b/c we
replace the old symbol with the simplified one. Also, the number of the
equivalence classes can decrease only, b/c the algorithm does a merge operation
optionally. We need N iterations in this case to reach the fixpoint. Thus, the
steps needed to be done in the worst case is proportional to `N*N`. Empirical
results (attached) show that there is some hardly noticeable run-time and peak
memory discrepancy compared to the baseline. In my opinion, these differences
could be the result of measurement error.
This worst case scenario can be extended to that cases when we have trivial
classes in the constraints and in the disequality map are transforming to such
a State where there are only non-trivial classes, b/c the algorithm does merge
operations. A merge operation on two trivial classes results in one non-trivial
class.
Differential Revision: https://reviews.llvm.org/D106823
This implements the following changes:
* AutoType retains sugared deduced-as-type.
* Template argument deduction machinery analyses the sugared type all the way
down. It would previously lose the sugar on first recursion.
* Undeduced AutoType will be properly canonicalized, including the constraint
template arguments.
* Remove the decltype node created from the decltype(auto) deduction.
As a result, we start seeing sugared types in a lot more test cases,
including some which showed very unfriendly `type-parameter-*-*` types.
Signed-off-by: Matheus Izvekov <mizvekov@gmail.com>
Reviewed By: rsmith
Differential Revision: https://reviews.llvm.org/D110216
The driver uses class SanitizerArgs to store parsed sanitizer arguments. It keeps a cached
SanitizerArgs object in ToolChain and uses it for different jobs. This does not work if
the sanitizer options are different for different jobs, which could happen when an
offloading toolchain translates the options for different jobs.
To fix this, SanitizerArgs should be created by using the actual arguments passed
to jobs instead of the original arguments passed to the driver, since the toolchain
may change the original arguments. And the sanitizer arguments should be diagnose
once.
This patch also fixes HIP toolchain for handling -fgpu-sanitize: a warning is emitted
for GPU's not supporting sanitizer and skipped. This is for backward compatibility
with existing -fsanitize options. -fgpu-sanitize is also turned on by default.
Reviewed by: Artem Belevich, Evgenii Stepanov
Differential Revision: https://reviews.llvm.org/D111443
As discussed here: https://lwn.net/Articles/691932/
GCC6.0 adds target_clones multiversioning. This functionality is
an odd cross between the cpu_dispatch and 'target' MV, but is compatible
with neither.
This attribute allows you to list all options, then emits a separately
optimized version of each function per-option (similar to the
cpu_specific attribute). It automatically generates a resolver, just
like the other two.
The mangling however, is... ODD to say the least. The mangling format
is:
<normal_mangling>.<option string>.<option ordinal>.
Differential Revision:https://reviews.llvm.org/D51650
If the feature is on the command line we should honor it for all
functions. I don't think we could reliably target a single function
for a less capable processor than what the rest of the program is
compiled for.
Fixes PR52407.
Reviewed By: erichkeane
Differential Revision: https://reviews.llvm.org/D113647
Currently any API level>=16 uses default PIE.
If API level<16 is too old to be supported, we can clean up some code.
Reviewed By: danalbert
Differential Revision: https://reviews.llvm.org/D113370
Per C++17 [except.spec], 'throw()' has become equivalent to
'noexcept', and should therefore call std::terminate, not
std::unexpected.
Differential Revision: https://reviews.llvm.org/D113517
this patch - https://reviews.llvm.org/D110337 changes the way how hostcall
hidden argument is emitted for printf, but the sanitized kernels also use
hostcall buffer to report a error for invalid memory access, which is not
handled by the above patch and it leads to vdi runtime error:
Device::callbackQueue aborting with error : HSA_STATUS_ERROR_MEMORY_FAULT:
Agent attempted to access an inaccessible address. code: 0x2b
Patch by: Praveen Velliengiri
Reviewed by: Yaxun Liu, Matt Arsenault
Differential Revision: https://reviews.llvm.org/D112820
Two identical instantiations of a template function can be emitted by two TU's
with linkonce_odr linkage without causing duplicate symbols in linker. MSVC
also requires these symbols be in comdat sections. Linux does not require
the symbols in comdat sections to be merged by linker but by default
clang puts them in comdat sections.
If a template kernel is instantiated identically in two TU's. MSVC requires
that them to be in comdat sections, otherwise MSVC linker will diagnose them as
duplicate symbols. However, currently clang does not put instantiated template
kernels in comdat sections, which causes link error for MSVC.
This patch allows putting instantiated template kernels into comdat sections.
Reviewed by: Artem Belevich, Reid Kleckner
Differential Revision: https://reviews.llvm.org/D112492
Fuchsia already supports the more compact relocation format.
Make it the default.
Reviewed By: phosek
Differential Revision: https://reviews.llvm.org/D113136
This reverts commit 48bb5f4cbe.
Several breakages, including ARM (fixed later, but not sufficient) and
MSan (to be diagnosed later).
Differential Revision: https://reviews.llvm.org/D113599
Before this commit, on code like:
struct S { ... };
S arr[10000000];
while checking if arr is constexpr, clang would reserve memory for
arr before running constructor for S. If S turned out to not have a
valid constexpr c-tor, clang would still try to initialize each element
(and, in case the c-tor was trivial, even skipping the constexpr step
limit), only to discard that whole APValue later, since the first
element generated a diagnostic.
With this change, we start by allocating just 1 element in the array to
try out the c-tor and take an early exit if any diagnostics are
generated, avoiding possibly large memory allocation and a lot of work
initializing to-be-discarded APValues.
Fixes 51712 and 51843.
In the future we may want to be smarter about large possibly-constexrp
arrays and maybe make the allocation lazy.
Differential Revision: https://reviews.llvm.org/D113120
After the changes introduced by D106799 it is possible to tag
outlined function with both AlwaysInline and NoInline attributes using
-fno-inline command line options.
This issue is similiar to D107649.
Differential Revision: https://reviews.llvm.org/D112645
The call to getTypeSizeInChars() is replaced with
getTypeSizeInCharsIfKnown(), which does not crash on forward declared
structs. This only affects printing.
Differential Revision: https://reviews.llvm.org/D113570
Extension of D112504. Lower amdgpu printf to `__llvm_omp_vprintf`
which takes the same const char*, void* arguments as cuda vprintf and also
passes the size of the void* alloca which will be needed by a non-stub
implementation of `__llvm_omp_vprintf` for amdgpu.
This removes the amdgpu link error on any printf in a target region in favour
of silently compiling code that doesn't print anything to stdout.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D112680
Real-world use case: The Qt framework's headers have the same name
as the respective class defined in them, and Qt's traditional qmake
build tool uses -I (rather than -isystem) to pull them in.
Reviewed By: sammccall
Differential Revision: https://reviews.llvm.org/D112996
at the start of the entry block, which in turn would aid better code transformation/optimization.
Reviewed By: rnk
Differential Revision: https://reviews.llvm.org/D110257
This patch removes the assumption propagation that was added in D110655
primarily to get assumption informatino on opaque call sites for
optimizations. The analysis done in D111445 allows us to do this more
intelligently in the back-end.
Depends on D111445
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D111463
add tracing for loads and stores.
The primary goal is to have more options for data-flow-guided fuzzing,
i.e. use data flow insights to perform better mutations or more agressive corpus expansion.
But the feature is general puspose, could be used for other things too.
Pipe the flag though clang and clang driver, same as for the other SanitizerCoverage flags.
While at it, change some plain arrays into std::array.
Tests: clang flags test, LLVM IR test, compiler-rt executable test.
Reviewed By: morehouse
Differential Revision: https://reviews.llvm.org/D113447
This splits out the generated headers and conditonalises them upon the
target being enabled.
The motivation here is that the RISCV header alone added 10MB to the
resource directory, which was previously at 10MB, increasing the build
size and time. This header is contributing ~50% of the size of the
resource headers (~10MB).
The ARM generated headers are contributing about ~10% or 1MB.
This could be extended further adding only the static resource headers
for the targets that the LLVM build supports.
The changes to the tests for ARM mirror what the RISCV target already
did and rnk identified as a possible issue.
Testing:
cmake -G Ninja -D LLVM_TARGETS_TO_BUILD=X86 -D LLVM_ENABLE_PROJECTS="clang;lld" ../clang
ninja check-clang
Differential Revision: https://reviews.llvm.org/D112890
Reviewed By: craig.topper
Previously, the Backend_Emit{Nothing,BC,LL} modes did
not run the LLVM verifier since it is usually added via
the TargetMachine::addPassesToEmitFile method according
to the DisableVerify parameter. This is called from
EmitAssemblyHelper::AddEmitPasses, which is only relevant
for BackendAction-s that require CodeGen.
Note:
* In these particular situations the verifier is added
to the optimization pipeline rather than the codegen
pipeline so that it runs prior to the BC/LL emission
pass.
* This change applies to both the old and the new PMs.
* Because the clang tests use -emit-llvm ubiquitously,
this change will enable the verifier for them.
* A small bug is fixed in emitIFuncDefinition so that
the clang/test/CodeGen/ifunc.c test would pass:
the emitIFuncDefinition incorrectly passed the
GlobalDecl of the IFunc itself to the call to
GetOrCreateLLVMFunction for creating the resolver.
Signed-off-by: Itay Bookstein <ibookstein@gmail.com>
Reviewed By: rjmccall
Differential Revision: https://reviews.llvm.org/D113352
We treat them as variables of course, though if they have function
pointer type we treat them as functions, i.e. allow parameter and return
value specifications. Just like VarDecls.
Reviewed By: gribozavr2
Differential Revision: https://reviews.llvm.org/D111266
We were doing this already for type aliases, and it deduplicates the
code looking through aliases and pointers to find a function type. As
a side effect, this finds two warnings that we apparently missed before.
Reviewed By: gribozavr2
Differential Revision: https://reviews.llvm.org/D111264
The coding style of some projects requires to have more control on space
before opening parentheses.
The goal is to add the support of clang-format to more projects.
For example adding a space only for function definitions or
declarations.
This revision adds SpaceBeforeParensOptions to configure each option
independently from one another.
Differentiel Revision: https://reviews.llvm.org/D110833
Matheus Izvekov