There are two bugs here. The first is that MSVC and clang-cl
emit their bss section under the name '.data' instead of '.bss'
but with the size and file offset set to 0. ObjectFilePECOFF
didn't handle this, and would only recognize a section as bss
if it was actually called '.bss'. The effect of this is that
if we tried to print the value of a variable that lived in BSS
we would fail.
The second bug is that ValueObjectVariable was only returning
the forward type, which is insufficient to print the value of an
enum. So we bump this up to the layout type.
Differential Revision: https://reviews.llvm.org/D54241
llvm-svn: 346430
In order to accurately put a type into the correct location in the AST
we construct from debug info, we need to be able to determine what
DeclContext (namespace, global, nested class, etc) that it goes into.
PDB doesn't contain this mapping. It does, however, contain the reverse
mapping. That is, for a given class type T, you can determine all
classes Q1, Q2, ..., Qn that are nested inside of T. We need to know,
for a given class type Q, what type T is it nested inside of.
This patch builds this map as a pre-processing step when we first
load the PDB by scanning every type. Initial tests show that while
this can be slow in debug builds of LLDB, it is quite fast in release
builds (less than 2 seconds for a ~1GB PDB, and it only needs to happen
once).
Furthermore, having this pre-processing step in place allows us to
repurpose it for building up other kinds of indexing to it down the
line. For the time being, this gives us very accurate reconstruction
of the DeclContext hierarchy.
Differential Revision: https://reviews.llvm.org/D54216
llvm-svn: 346429
Summary:
Reuse the "referenced by" note diagnostic code that we already use for
undefined symbols. In my case, it turned this:
lld-link: error: relocation against symbol in discarded section: .text
lld-link: error: relocation against symbol in discarded section: .text
...
Into this:
lld-link: error: relocation against symbol in discarded section: .text
>>> referenced by libANGLE.lib(CompilerGL.obj):(.SCOVP$M)
>>> referenced by libANGLE.lib(CompilerGL.obj):(.SCOVP$M)
...
lld-link: error: relocation against symbol in discarded section: .text
>>> referenced by obj/third_party/angle/libGLESv2/entry_points_egl_ext.obj:(.SCOVP$M)
>>> referenced by obj/third_party/angle/libGLESv2/entry_points_egl_ext.obj:(.SCOVP$M)
...
I think the new output is more useful.
Reviewers: ruiu, pcc
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D54240
llvm-svn: 346427
As noted by Andrea Di Biagio in https://bugs.llvm.org/show_bug.cgi?id=39465
both the loads and stores occupy both the store and load queues.
This is clearly wrong.
llvm-svn: 346425
Summary:
When the 3rd argument to these intrinsics is zero, lowering them
to shift instructions produces poison values, since we end up with
shift amounts equal to the number of bits in the shifted value. This
means we can only lower these intrinsics if we can prove that the
3rd argument is not zero.
Reviewers: arsenm
Reviewed By: arsenm
Subscribers: bnieuwenhuizen, jvesely, wdng, nhaehnle, llvm-commits
Differential Revision: https://reviews.llvm.org/D53739
llvm-svn: 346422
This eliminates the outlining penalty for llvm.trap/unreachable, because
callers no longer have to emit cleanup/ret instructions after calling an
outlined `noreturn` function.
rdar://45523626
llvm-svn: 346421
Summary:
Currently `sanitizer_malloc_introspection_t` just adds a version field
which is used to version the allocator ABI. The current allocator ABI
version is returned by the new `GetMallocZoneAllocatorEnumerationVersion()` function.
The motivation behind this change is to allow external processes to
determine the allocator ABI of a sanitized process.
rdar://problem/45284065
Reviewers: kubamracek, george.karpenkov, vitalybuka
Subscribers: #sanitizers, llvm-commits
Differential Revision: https://reviews.llvm.org/D54045
llvm-svn: 346420
This fixes PR39261.
FetchStage is a misnomer. It causes confusion with the frontend fetch stage,
which we don't currently simulate. I decided to rename it into EntryStage
mainly because this is meant to be a "source" stage for all pipelines.
Differential Revision: https://reviews.llvm.org/D54268
llvm-svn: 346419
Summary:
Clang's hierarchy is CompilerInstance -> DiagnosticsEngine -> DiagnosticConsumer.
(Ownership is optional/shared, but this structure is fairly clear).
Currently ClangTidyDiagnosticConsumer *owns* the DiagnosticsEngine:
- this inverts the hierarchy, which is confusing
- this means ClangTidyDiagnosticConsumer() mutates the passed-in context, which
is both surprising and limits flexibility
- it's not possible to use a different DiagnosticsEngine with ClangTidy
This means a little bit more code in the places ClangTidy is used standalone,
but more flexibility in using ClangTidy with other diagnostics configurations.
Reviewers: hokein
Subscribers: xazax.hun, cfe-commits
Differential Revision: https://reviews.llvm.org/D54033
llvm-svn: 346418
Summary:
This was disabled way back in 2011, in the dark times before Driver was VFS-aware.
Also, make driver more VFS-aware :-)
This breaks one ClangTidy test (we improved the error message), will fix when
submitting.
Reviewers: ioeric
Subscribers: cfe-commits, alexfh
Differential Revision: https://reviews.llvm.org/D53958
llvm-svn: 346414
Coerced load/stores through memory do not take into account potential
address space differences when it creates its bitcasts.
Patch by David Salinas.
Differential Revision: https://reviews.llvm.org/D53780
llvm-svn: 346413
LC_BUILD_VERSION contains platform information that is useful for LLDB
to match up dSYM bundles with binaries. This patch copies the load
command over into the dSYM.
rdar://problem/44145175
rdar://problem/45883463
Differential Revision: https://reviews.llvm.org/D54233
llvm-svn: 346412
This is patch to add PowerPC target to llvm-exegesis.
The target does just enough to be able to run llvm-exegesis in latency mode for at least some opcodes.
Differential Revision: https://reviews.llvm.org/D54185
llvm-svn: 346411
Summary: Remove the XFAIL for arm since it seems to be ok
Reviewers: marco-c
Reviewed By: marco-c
Subscribers: javed.absar, kristof.beyls, delcypher, chrib, llvm-commits, #sanitizers, sylvestre.ledru
Differential Revision: https://reviews.llvm.org/D54263
llvm-svn: 346409
The base pointer for the lambda mapping must point to the lambda capture
placement and pointer must point to the captured variable itself. Patch
fixes this problem.
llvm-svn: 346408
Summary:
The base pointer for the lambda mapping must point to the lambda capture
placement and pointer must point to the captured variable itself. Patch
fixes this problem.
Reviewers: gtbercea
Subscribers: guansong, openmp-commits, kkwli0, caomhin
Differential Revision: https://reviews.llvm.org/D54260
llvm-svn: 346407
It was discovered in randomized testing that the SystemZ implementation of
shouldCoalesce() could be caused to crash when subreg liveness was
enabled. This was because an undef use of the virtual register was copied
outside current MBB at the point of shouldCoalesce() being called. For more
details, see https://bugs.llvm.org/show_bug.cgi?id=39276.
This patch changes the check for MBB locality from livein/liveout checks to
do checks for all instructions of both intervals being inside MBB. This
avoids the cases with dead defs / undef uses outside MBB, which are not
affecting liveness in/out of MBB.
The original test case included as a reduced .mir test case.
Review: Ulrich Weigand
https://reviews.llvm.org/D54197
llvm-svn: 346406
During review it was noted that while it appears that
the Piledriver can do two [consecutive] loads per cycle,
it can only do one store per cycle. It was suggested
that the sched model incorrectly models that,
but it was opted to fix this afterwards.
These tests show that the two consecutive loads are
modelled correctly, and one consecutive stores is not
modelled incorrectly. Unless i'm missing the point.
https://bugs.llvm.org/show_bug.cgi?id=39465
llvm-svn: 346404
Generalize code in Thumb2InstrInfo::storeRegToStackSlot() and
loadRegToStackSlot() to allow the GPR class or any of its sub-classes
(including hGPR) to be stored/loaded by ARM::t2STRi12/ARM::t2LDRi12.
Differential Revision: https://reviews.llvm.org/D51927
llvm-svn: 346401
The patch has been reverted because it ended up prohibiting propagation
of a constant to exit value. For such values, we should skip all checks
related to hard uses because propagating a constant is always profitable.
Differential Revision: https://reviews.llvm.org/D53691
llvm-svn: 346397
The clang-cl driver disables access to command line options outside of the
"Core" and "CLOption" sets of command line arguments. This filtering makes it
impossible to pass arguments that are interpreted by the clang driver and not
by either 'cc1' (the frontend) or one of the other tools invoked by the driver.
An example driver-level flag is the '-fno-slp-vectorize' flag, which is
processed by the driver in Clang::ConstructJob and used to set the cc1 flag
"-vectorize-slp". There is no negative cc1 flag or -mllvm flag, so it is not
currently possible to disable the SLP vectorizer from the clang-cl driver.
This change introduces the "/clang:" argument that is available when the
driver mode is set to CL compatibility. This option works similarly to the
"-Xclang" option, except that the option values are processed by the clang
driver rather than by 'cc1'. An example usage is:
clang-cl /clang:-fno-slp-vectorize /O2 test.c
Another example shows how "/clang:" can be used to pass a flag where there is
a conflict between a clang-cl compat option and an overlapping clang driver
option:
clang-cl /MD /clang:-MD /clang:-MF /clang:test_dep_file.dep test.c
In the previous example, the unprefixed /MD selects the DLL version of the msvc
CRT, while the prefixed -MD flag and the -MF flags are used to create a make
dependency file for included headers.
One note about flag ordering: the /clang: flags are concatenated to the end of
the argument list, so in cases where the last flag wins, the /clang: flags
will be chosen regardless of their order relative to other flags on the driver
command line.
Patch by Neeraj K. Singh!
Differential revision: https://reviews.llvm.org/D53457
llvm-svn: 346393
LSR reassociates constants as unfolded offsets when the constants fit as
immediate add operands, which currently prevents such constants from being
combined later with loop invariant registers.
This patch modifies GenerateCombinations() to generate a second formula which
includes the unfolded offset in the combined loop-invariant register.
This commit fixes a bug in the original patch (committed at r345114, reverted
at r345123).
Differential Revision: https://reviews.llvm.org/D51861
llvm-svn: 346390
We have a lot of various bugs that are caused by misuse of SCEV (in particular in LV),
all of them can simply be described as "we ask SCEV to prove some fact on invalid IR".
Some of examples of those are PR36311, PR37221, PR39160.
The problem is that these failues manifest differently (what we saw was failure of various
asserts across SCEV, but there can also be miscompiles). This patch adds an assert into two
SCEV methods that strongly rely on correctness of the IR and are involved in known failues.
This will at least allow us to have a clear indication of what was wrong in this case.
This patch also fixes a unit test with incorrect IR that fails this verification.
Differential Revision: https://reviews.llvm.org/D52930
Reviewed By: fhahn
llvm-svn: 346389
Summary: This instruction is useful for inspecting extractvalue/insertvalue in IR. Unlike most other operations, indices cannot be inspected using the generic Value.Opcode() function so a specialized function needs to be added.
Reviewers: whitequark, pcc
Reviewed By: whitequark
Subscribers: llvm-commits
Differential Revision: https://reviews.llvm.org/D53883
llvm-svn: 346388
Summary:
The OCaml manual states:
> Local variables of type value must be declared with one of the
> CAMLlocal macros. [...] These macros must be used at the beginning
> of the function, not in a nested block.
This patch moves several instances of CAMLlocal macros from nested
blocks to the function beginning.
Reviewers: whitequark
Reviewed By: whitequark
Subscribers: CodaFi, llvm-commits
Differential Revision: https://reviews.llvm.org/D53841
llvm-svn: 346387
Summary:
MergeFunctions currently tries to process strong functions before
weak functions, because weak functions can simply call strong
functions, while a strong/weak function cannot call a weak function
(a backing strong function is needed).
This patch additionally tries to process external functions before
local functions, because we definitely have to keep the external
function, but may be able to drop the local one (and definitely
can if it is also unnamed_addr).
Unfortunately, this exposes an existing bug in the implementation:
The FnTree and FNodesInTree structures can currently go out of
sync in the case where two weak functions are merged, because the
function in FnTree/FNodesInTree is RAUWed. This leaves it behind in
FnTree (this is intended, as it is the strong backing function which
should be used for further merges), while it is replaced in
FNodesInTree (this is not intended).
This is fixed by switching FNodesInTree from using a ValueMap to
using a DenseMap of AssertingVH.
This exposes another minor issue: Currently FNodesInTree is not
cleared after MergeFunctions finishes running. Currently, this is
potentially dangerous (e.g. if something else wants to RAUW a function
with a non-function), but at the very least it is unnecessary/inefficient.
After the change to use AssertingVH it becomes more problematic,
because there are certainly passes that remove functions.
This issue is fixed by clearing FNodesInTree at the end of the pass.
Reviewers: jfb, whitequark
Reviewed By: whitequark
Subscribers: rkruppe, llvm-commits
Differential Revision: https://reviews.llvm.org/D53271
llvm-svn: 346386
Summary:
For unnamed_addr functions we RAUW instead of only replacing direct callers. However, functions in which replacements were performed currently are not added back to the worklist, resulting in missed merging opportunities.
Fix this by calling removeUsers() prior to RAUW.
Reviewers: jfb, whitequark
Reviewed By: whitequark
Subscribers: rkruppe, llvm-commits
Differential Revision: https://reviews.llvm.org/D53262
llvm-svn: 346385
Turns out knowing more than just the base address might be useful -
specifically a future change to respect a DICompileUnit flag for the use
of base address specifiers in DWARF < 5.
llvm-svn: 346380