Summary: this fixes build error when built with c++14 and no exceptions
Reviewers: rmaprath
Subscribers: weimingz, grandinj, rmaprath, cfe-commits
Differential Revision: http://reviews.llvm.org/D21673
llvm-svn: 273697
Clang emits them in reverse order to conform to the ABI, which requires
left-to-right destruction. As a result, the order doesn't fall out
naturally, and we have to sort things out in the backend.
Fixes PR28213
llvm-svn: 273696
We bailed out while printing codeview for an MSVC compiled
SemaExprCXX.cpp that used this record. The MS reference headers look
incorrect here, which is probably why we had this bug. They use a 32-bit
enum as the field type, but the actual record appears to use one byte
for the cookie kind followed by a flags byte.
llvm-svn: 273691
There are two remaining issues here:
1. No vbptr information
2. Need to mention indirect virtual bases
Getting indirect virtual bases is just a matter of adding an "indirect"
flag, emitting them in the frontend, and ignoring them when appropriate
for DWARF.
All virtual bases use the same artificial vbptr field, so I think the
vbptr offset will be best represented by an implicit __vbptr$ClassName
member similar to our existing __vptr$ member.
llvm-svn: 273688
The interleaved access analysis currently assumes that the inserted run-time
pointer aliasing checks ensure the absence of dependences that would prevent
its instruction reordering. However, this is not the case.
Issues can arise from how code generation is performed for interleaved groups.
For a load group, all loads in the group are essentially moved to the location
of the first load in program order, and for a store group, all stores in the
group are moved to the location of the last store. For groups having members
involved in a dependence relation with any other instruction in the loop, this
reordering can violate the dependence.
This patch teaches the interleaved access analysis how to avoid breaking such
dependences, and should fix PR27626.
An assumption of the original analysis was that the accesses had been collected
in "program order". The analysis was then simplified by visiting the accesses
bottom-up. However, this ordering was never guaranteed for anything other than
single basic block loops. Thus, this patch also enforces the desired ordering.
Reference: https://llvm.org/bugs/show_bug.cgi?id=27626
Differential Revision: http://reviews.llvm.org/D19984
llvm-svn: 273687
This adds rudimentary support for COFF ARM to the dynamic loader for the
exeuction engine. This can be used by lldb to JIT code into a COFF ARM
environment. This lays the foundation for the loader, though a few of the
relocation types are yet unhandled.
llvm-svn: 273682
Summary:
We can avoid repeating the check `isGuaranteedToExecute` when it's already called once while checking if the alignment can be widened for the load/store being hoisted.
The function is invariant for the same instruction `UI` in `isGuaranteedToExecute(*UI, DT, CurLoop, SafetyInfo);`
Reviewers: hfinkel, eli.friedman
Subscribers: llvm-commits
Differential Revision: http://reviews.llvm.org/D21672
llvm-svn: 273671
smaller than register as argument in variadic functions on
big endian architectures.
Differential Revision: http://reviews.llvm.org/D21611
llvm-svn: 273665
Summary: This change introduces two types, `FixedSizeStorage` and `FixedSizeStorageOwner`, which can be used to provide stack-allocated objects with trailing objects.
Reviewers: rsmith, faisalv, aaron.ballman
Subscribers: llvm-commits, cfe-commits, nwilson
Differential Revision: http://reviews.llvm.org/D19770
llvm-svn: 273664
Previously the next sample script would generate 2 entries in
Config->SymbolVersions with the same version name.
VERSION {
global: c;
};
That happened because parseVersionSymbols() was called twice.
At first for "global:" and since there is no local tag, it was called again.
Patch fixes the issue, testcase was updated to demonstrate.
Differential revision: http://reviews.llvm.org/D21640
llvm-svn: 273663
Patch implements support of zlib style compressed sections.
SHF_COMPRESSED flag is used to recognize that decompression is required.
After that decompression is performed and flag is removed from output.
Differential revision: http://reviews.llvm.org/D20272
llvm-svn: 273661
Un XFAIL a few tests plus a few more I had lying around
in my tree, which seem to all work now but I don't see tests
that quite test the same things.
llvm-svn: 273655
The only real reason to use it is for testing, so replace
it with a command line option instead of a potentially function
dependent feature.
llvm-svn: 273653
Split AMDGPUSubtarget into amdgcn/r600 specific subclasses.
This removes most of the static_casting of the basic codegen
classes everywhere, and tries to restrict the features
visible on the wrong target.
llvm-svn: 273652
Rafael Espindola