rather than require them to have been promoted before being passed in.
Dropping this precondition is better for layer composition (CompileOnDemandLayer
was the only one that placed pre-conditions on the modules that could be added).
It also means that the promoted private symbols do not show up in the target
JITDylib's symbol table. Instead, they are confined to the hidden implementation
dylib that contains the actual definitions.
For the 403.gcc testcase this cut down the public symbol table size from ~15,000
symbols to ~4000, substantially reducing symbol dependence tracking costs.
llvm-svn: 344078
This is the PPC-specific non-controversial part of
https://reviews.llvm.org/D44548 that simply enables this combine for PPC
since PPC has these instructions.
This commit will allow the target-independent portion to be truly target
independent.
llvm-svn: 344077
`SymbolTable` is a singleton class and is a global variable for the
unique instance, so we can always refer the symtab by `Symtab->`.
However, we don't need to use the global varaible from member functions
of SymbolTable class.
llvm-svn: 344075
Summary: This is just a minor cleanup to the allocateOneNode interface. The formals are no-longer used, so I just removed them.
Reviewers: davidxl, void
Reviewed By: davidxl
Subscribers: dberris, llvm-commits
Differential Revision: https://reviews.llvm.org/D52509
llvm-svn: 344073
This may give slightly better opportunities for DAG combine to simplify with the operations before the setcc. It also matches the type the xors will eventually be promoted to anyway so it saves a legalization step.
Almost all of the test changes are because our constant pool entry is now v2i64 instead of v4i32 on 64-bit targets. On 32-bit targets getConstant should be emitting a v4i32 build_vector and a v4i32->v2i64 bitcast.
There are a couple test cases where it appears we now combine a bitwise not with one of these xors which caused a new constant vector to be generated. This prevented a constant pool entry from being shared. But if that's an issue we're concerned about, it seems we need to address it another way that just relying a bitcast to hide it.
This came about from experiments I've been trying with pushing the promotion of and/or/xor to vXi64 later than LegalizeVectorOps where it is today. We run LegalizeVectorOps in a bottom up order. So the and/or/xor are promoted before their users are legalized. The bitcasts added for the promotion act as a barrier to computeKnownBits if we try to use it during vector legalization of a later operation. So by moving the promotion out we can hopefully get better results from computeKnownBits/computeNumSignBits like in LowerTruncate on AVX512. I've also looked at running LegalizeVectorOps in a top down order like LegalizeDAG, but thats showing some other issues.
llvm-svn: 344071
In the case of soft-fp (e.g. fp128 under wasm) the result of
getTypeLegalizationCost() can be an integer type even if the input is
floating point (See LegalizeTypeAction::TypeSoftenFloat).
Before calling isFabsFree() (which asserts if given a non-fp
type) we need to check that that result is fp. This is safe since in
fabs is certainly not free in the soft-fp case.
Fixes PR39168
Differential Revision: https://reviews.llvm.org/D52899
llvm-svn: 344069
We changed an ArrayRef<uint8_t> to an ArrayRef<uint32_t>, but
it needs to be an ArrayRef<support::ulittle32_t>.
We also change ArrayRef<> to FixedStreamArray<>. Technically
an ArrayRef<> will work, but it can cause a copy in the underlying
implementation if the memory is not contiguous, and there's no
reason not to use a FixedStreamArray<>.
Thanks to nemanjai@ and thakis@ for helping me track this down
and confirm the fix.
llvm-svn: 344063
/pdbsourcepath: was added in https://reviews.llvm.org/D48882 to make it
possible to have relative paths in the debug info that clang-cl writes.
lld-link then makes the paths absolute at link time, which debuggers require.
This way, clang-cl's output is independent of the absolute path of the build
directory, which is useful for cacheability in distcc-like systems.
This patch extends /pdbsourcepath: (if passed) to also be used for:
1. The "cwd" stored in the env block in the pdb is /pdbsourcepath: if present
2. The "exe" stored in the env block in the pdb is made absolute relative
to /pdbsourcepath: instead of the cwd
3. The "pdb" stored in the env block in the pdb is made absolute relative
to /pdbsourcepath: instead of the cwd
4. For making absolute paths to .obj files referenced from the pdb
/pdbsourcepath: is now useful in three scenarios (the first one already working
before this change):
1. When building with full debug info, passing the real build dir to
/pdbsourcepath: allows having clang-cl's output to be independent
of the build directory path. This patch effectively doesn't change
behavior for this use case (assuming the cwd is the build dir).
2. When building without compile-time debug info but linking with /debug,
a fake fixed /pdbsourcepath: can be passed to get symbolized stacks
while making the pdb and exe independent of the current build dir.
For this two work, lld-link needs to be invoked with relative paths for
the lld-link invocation itself (for "exe"), for the pdb output name, the exe
output name (for "pdb"), and the obj input files, and no absolute path
must appear on the link command (for "cmd" in the pdb's env block).
Since no full debug info is present, it doesn't matter that the absolute
path doesn't exist on disk -- we only get symbols in stacks.
3. When building production builds with full debug info that don't have
local changes, and that get source indexed and their pdbs get uploaded
to a symbol server. /pdbsourcepath: again makes the build output independent
of the current directory, and the fixed path passed to /pdbsourcepath: can
be given the source indexing transform so that it gets mapped to a
repository path. This has the same requirements as 2.
This patch also makes it possible to create PDB files containing Windows-style
absolute paths when cross-compiling on a POSIX system.
Differential Revision: https://reviews.llvm.org/D53021
llvm-svn: 344061
Summary:
Extra parentheses around a new expression result in incorrect code
after applying fixes.
Reviewers: hokein
Reviewed By: hokein
Subscribers: xazax.hun, cfe-commits
Differential Revision: https://reviews.llvm.org/D52989
llvm-svn: 344058
ShouldDeleteSpecialMember is called upon inherited constructors.
It calls inferCUDATargetForImplicitSpecialMember.
Normally the special member enum passed to ShouldDeleteSpecialMember
matches the constructor. However this is not true when inherited
constructor is passed, where DefaultConstructor is passed to treat
the inherited constructor as DefaultConstructor. However
inferCUDATargetForImplicitSpecialMember expects the special
member enum argument to match the constructor, which results
in assertion when this expection is not satisfied.
This patch checks whether the constructor is inherited. If true it will
get the real special member enum for the constructor and pass it
to inferCUDATargetForImplicitSpecialMember.
Differential Revision: https://reviews.llvm.org/D51809
llvm-svn: 344057
PR38682 added a test to check for a race condition in std::future.
Part of the fix is part of the dylib, but there is no released version
of mac OS X that ships a dylib containing the fix. Hence, this test can
(and sometimes does) when testing on OS X. This commit marks the test
as unsupported to avoid spurious failures.
llvm-svn: 344053
The "dynamic_cast error 2" error can apparently happen when the same
type (with RTTI) is defined in more than one translation unit, and
those translation units are linked together. This is technically an
ODR violation, but making the error message more obvious is still
helpful.
llvm-svn: 344052
Added support for memory coalescing for better performance for
globalized variables. From now on all the globalized variables are
represented as arrays of 32 elements and each thread accesses these
elements using `tid & 31` as index.
llvm-svn: 344049
As noted in D52747, if we prefer IR to use trunc for bool vectors rather
than and+icmp, we can expose codegen shortcomings as seen here with masked store.
Replace a hard-coded PCMPGT simplification with the more general demanded bits call
to improve things.
Differential Revision: https://reviews.llvm.org/D52964
llvm-svn: 344048
The std::array create multiple StringRef but did not wrap
them in braces. Some compilers warned for that. Adding the
braces is not possible and result in a compilation error.
This commit changes the array to vector which works without warning.
llvm-svn: 344046
For O32 and N32 ABI FDE/CFI encoding should be `DW_EH_PE_sdata4` and only
N64 ABI uses `DW_EH_PE_sdata8`. To cover all cases this patch check code
pointer size and setup a correct FDE/CFI encoding type.
Differential revision: https://reviews.llvm.org/D52876
llvm-svn: 344040
CodePointerSize and CalleeSaveStackSlotSize values are used in DWARF
generation. In case of MIPS it's incorrect to check for Triple::isMIPS64()
only this function returns true for N32 ABI too.
Now we do not have a method to recognize N32 if it's specified by a command
line option and is not a part of a target triple. So we check for
Triple::GNUABIN32 only. It's better than nothing.
Differential revision: https://reviews.llvm.org/D52874
llvm-svn: 344039
There are occasionally instances where AADB rewrites registers in such a way
that a reg-reg copy becomes a self-copy. Such an instruction is obviously
redundant and can be removed. This patch does precisely that.
Note that this will not remove various nop's that we insert (which are
themselves just self-copies). The reason those are left alone is that all of
them have their own opcodes (that just encode to a self-copy).
What prompted this patch is the fact that these self-copies sometimes end up
using registers that make the instruction a priority-setting nop, thereby
having a significant effect on performance.
Differential revision: https://reviews.llvm.org/D52432
llvm-svn: 344036
PTHREAD_STACK_MIN is not available on NetBSD as it's not
clear what the value shall be represented by this constant
on a multiplatform OS.
llvm-svn: 344034
Jake Ehrlich