Optimize concat_vectors of truncated vectors, where the intermediate
type is illegal, to avoid said illegality, e.g.,
(v4i16 (concat_vectors (v2i16 (truncate (v2i64))),
(v2i16 (truncate (v2i64)))))
->
(v4i16 (truncate (v4i32 (concat_vectors (v2i32 (truncate (v2i64))),
(v2i32 (truncate (v2i64)))))))
This isn't really target-specific, and, as such, would best go in the
DAGCombiner. However, ISD::TRUNCATE legality isn't keyed on both input
and result type, so we might generate worse code when we don't know
better. On AArch64 we know it's fine for v2i64->v4i16 and v4i32->v8i8.
rdar://20022387
llvm-svn: 232459
then using the symbols from those anonymous namespaces from outside the
anonymous namespace).
This was "detected" by causing the modules selfhost to fail in some cases.
The corresponding Clang bug was fixed in r232455.
llvm-svn: 232457
Re-commit the test cases added in r232444. These now use
-irce-print-changed-loops and -irce-print-range-checks so they run
correctly on a without asserts build of llvm.
llvm-svn: 232452
Allow unresolved nodes through the `MapMetadata()` if
`RF_NoModuleLevelChanges`, since there's no remapping to do anyway.
This fixes PR22929. I'll add a clang test as a follow-up.
llvm-svn: 232449
I accidentally checked in two tests that used -debug-only -- these fail
on a release LLVM build. Temporarily delete these from the repo to keep
the bots green while I fix this locally.
llvm-svn: 232446
This change to IRCE gets it to recognize "half" range checks. Half
range checks are range checks that only either check if the index is
`slt` some positive integer ("length") or if the index is `sge` `0`.
The range solver does not try to be clever / aggressive about solving
half-range checks -- it transforms "I < L" to "0 <= I < L" and "0 <= I"
to "0 <= I < INT_SMAX". This is safe, but not always optimal.
llvm-svn: 232444
Assert that `MDNode::isResolved()`. While in theory the `Verifier`
should catch this, it doesn't descend into all debug info, and the
`DebugInfoVerifier` doesn't call into the `Verifier`. Besides, this
helps to catch bugs when `-disable-verify=true`.
Note that I haven't come across a place where this fails with clang
today, so no testcase.
llvm-svn: 232442
By default we want our gcov emission to stay 4.2 compatible, which
means we need to continue emit the exit block last by default. We add
an option to emit it before the body for users that need it.
llvm-svn: 232438
This makes the reader check the endianness of the object file its
given and behave appropriately. For the test I dug up a really old
linker and created a ppc-apple-darwin file for llvm-cov to read.
llvm-svn: 232422
We removed @llvm.eh.typeid.for.i32 and replaced it with
@llvm.eh.typeid.for quite some time ago. Fix up some test cases which
never got updated.
llvm-svn: 232421
(turns out I had regressed this when sinking handling of this type down
into GetElementPtrInst::Create - since that asserted before the error
handling was performed)
llvm-svn: 232420
If `Verifier` has already found a failure, don't call
`DebugInfoVerifier`. The latter sometimes crashes in `DebugInfoFinder`
when the former would give a nice message. The only two cases I found
it crashing are explicit verifier tests I've added:
- test/Verifier/llvm.dbg.declare-expression.ll
- test/Verifier/llvm.dbg.value-expression.ll
However, I assume frontends with bugs will create invalid IR as well.
IMO, the `DebugInfoVerifier` should never crash (instead, it should fail
to verify), but subtleties like that will be easier to work out once
it's enabled again.
This is part of PR22777.
llvm-svn: 232418
As part of PR22777, fix testcases that fail the debug info verifier.
The changes fall into the following categories:
- Empty `filename:` fields in `MDFile`s. Compile units and some types
require non-empty filenames. A number of testcases have empty
filenames, probably due to hand-reduction of testcases.
- Not-quite empty arrays: `!{i32 0}`. This used to be equivalent in
the debug info schema to `!{}`. They cause problems for
`!MDSubroutineType`'s `types:` array, since it requires all operands
to be valid types. (Note that `!{null}` is the correct type array
for functions that take no arguments and return `void`.)
- Significantly bitrotted testcases. Nodes got left behind a few
upgrades ago because of missing or invalid tags.
llvm-svn: 232415
Now that we check `MDExpression` during `-verify` (r232299), make
the `DIExpression` wrapper more strict:
- remove redundant checks in `DebugInfoVerifier`,
- overload `get()` to `cast_or_null<MDExpression>` (superseding
`getRaw()`),
- stop checking for null in any accessor, and
- remove `DIExpression::Verify()` entirely in favour of
`MDExpression::isValid()`.
There is still some logic in this class, mostly to do with high-level
iterators; I'll defer cleaning up those until the rest of the wrappers
are similarly strict.
llvm-svn: 232412
Clarify the logic in `DIType::Verify()` by checking `isBasicType()`
earlier, by skipping `else` after `return`s, and by documenting an
otherwise opaque check.
No functionality change.
llvm-svn: 232410
Turns out `visitIntrinsicFunctionCall()` descends into all operands
already, so explicitly descending in `visitDbgIntrinsic()` (part of
r232296) isn't useful.
Updating a testcase that doesn't really need `-verify-debug-info` (since
r231082) as confirmation.
llvm-svn: 232408
r230877 optimized which fields are written out for `CHECK`-ability, but
apparently missed changing some of them to optional in `LLParser`.
Fixes PR22921.
llvm-svn: 232400
are not at the file level.
Previously, the default subtarget created from the target triple was used to
emit inline asm instructions. Compilation would fail in cases where the feature
bits necessary to assemble an inline asm instruction in a function weren't set.
llvm-svn: 232392
Fix justify error for small structures bigger than 32 bits in fixed
arguments for MIPS64 big endian. There was a problem when small structures
are passed as fixed arguments. The structures that are bigger than 32 bits
but smaller than 64 bits were not left justified properly on MIPS64 big
endian. This is fixed by shifting the value to make it left justified when
appropriate.
Patch by Aleksandar Beserminji.
Differential Revision: http://reviews.llvm.org/D8174
llvm-svn: 232382
Summary:
But still handle them the same way since I don't know how they differ on
this target.
No functional change intended.
Reviewers: kparzysz, adasgupt
Reviewed By: kparzysz, adasgupt
Subscribers: colinl, llvm-commits
Differential Revision: http://reviews.llvm.org/D8204
llvm-svn: 232374
Summary:
This is instead of doing this in target independent code and is the last
non-functional change before targets begin to distinguish between
different memory constraints when selecting code for the ISD::INLINEASM
node.
Next, each target will individually move away from the idea that all
memory constraints behave like 'm'.
Subscribers: jholewinski, llvm-commits
Differential Revision: http://reviews.llvm.org/D8173
llvm-svn: 232373