Commit Graph

75298 Commits

Author SHA1 Message Date
Chandler Carruth 75c11b88af [PM] Cleanup a const_cast and other machinery left over in this code
from before I removed thet non-const use of the function.

The unused variable that held the const_cast was already kindly removed
by Michael.

llvm-svn: 225143
2015-01-04 23:13:57 +00:00
Hal Finkel 241ba79f95 [PowerPC] Materialize i64 constants using rotation
Materializing full 64-bit constants on PPC64 can be expensive, requiring up to
5 instructions depending on the locations of the non-zero bits. Sometimes
materializing a rotated constant, and then applying the inverse rotation, requires
fewer instructions than the direct method. If so, do that instead.

In r225132, I added support for forming constants using bit inversion. In
effect, this reverts that commit and replaces it with rotation support. The bit
inversion is useful for turning constants that are mostly ones into ones that
are mostly zeros (thus enabling a more-efficient shift-based materialization),
but the same effect can be obtained by using negative constants and a rotate,
and that is at least as efficient, if not more.

llvm-svn: 225135
2015-01-04 15:43:55 +00:00
Michael Kuperstein 58c3f6cc31 Fix unused variable warning for non-asserts builds. NFC.
llvm-svn: 225133
2015-01-04 13:35:44 +00:00
Hal Finkel ca6375fb75 [PowerPC] Materialize i64 constants using bit inversion
Materializing full 64-bit constants on PPC64 can be expensive, requiring up to
5 instructions depending on the locations of the non-zero bits. Sometimes
materializing the bit-reversed constant, and then flipping the bits, requires
fewer instructions than the direct method. If so, do that instead.

llvm-svn: 225132
2015-01-04 12:35:03 +00:00
Chandler Carruth 66b3130cda [PM] Split the AssumptionTracker immutable pass into two separate APIs:
a cache of assumptions for a single function, and an immutable pass that
manages those caches.

The motivation for this change is two fold. Immutable analyses are
really hacks around the current pass manager design and don't exist in
the new design. This is usually OK, but it requires that the core logic
of an immutable pass be reasonably partitioned off from the pass logic.
This change does precisely that. As a consequence it also paves the way
for the *many* utility functions that deal in the assumptions to live in
both pass manager worlds by creating an separate non-pass object with
its own independent API that they all rely on. Now, the only bits of the
system that deal with the actual pass mechanics are those that actually
need to deal with the pass mechanics.

Once this separation is made, several simplifications become pretty
obvious in the assumption cache itself. Rather than using a set and
callback value handles, it can just be a vector of weak value handles.
The callers can easily skip the handles that are null, and eventually we
can wrap all of this up behind a filter iterator.

For now, this adds boiler plate to the various passes, but this kind of
boiler plate will end up making it possible to port these passes to the
new pass manager, and so it will end up factored away pretty reasonably.

llvm-svn: 225131
2015-01-04 12:03:27 +00:00
David Majnemer 087dc8b831 InstCombine: match can find ConstantExprs, don't assume we have a Value
We assumed the output of a match was a Value, this would cause us to
assert because we would fail a cast<>.  Instead, use a helper in the
Operator family to hide the distinction between Value and Constant.

This fixes PR22087.

llvm-svn: 225127
2015-01-04 07:36:02 +00:00
David Majnemer 6ee8d17bc6 ValueTracking: ComputeNumSignBits should tolerate misshapen phi nodes
PHI nodes can have zero operands in the middle of a transform.  It is
expected that utilities in Analysis don't freak out when this happens.

Note that it is considered invalid to allow these misshapen phi nodes to
make it to another pass.

This fixes PR22086.

llvm-svn: 225126
2015-01-04 07:06:53 +00:00
Lang Hames 12b12e800b [APFloat][ADT] Fix sign handling logic for FMA results that truncate to zero.
This patch adds a check for underflow when truncating results back to lower
precision at the end of an FMA. The additional sign handling logic in
APFloat::fusedMultiplyAdd should only be performed when the result of the
addition step of the FMA (in full precision) is exactly zero, not when the
result underflows to zero.

Unit tests for this case and related signed zero FMA results are included.

Fixes <rdar://problem/18925551>.

llvm-svn: 225123
2015-01-04 01:20:55 +00:00
Saleem Abdulrasool 67f729933f ARM: permit tail calls to weak externals on COFF
Weak externals are resolved statically, so we can actually generate the tail
call on PE/COFF targets without breaking the requirements.  It is questionable
whether we want to propagate the current behaviour for MachO as the requirements
are part of the ARM ELF specifications, and it seems that prior to the SVN
r215890, we would have tail'ed the call.  For now, be conservative and only
permit it on PE/COFF where the call will always be fully resolved.

llvm-svn: 225119
2015-01-03 21:35:00 +00:00
Hal Finkel 5772566ed6 [PowerPC/BlockPlacement] Allow target to provide a per-loop alignment preference
The existing code provided for specifying a global loop alignment preference.
However, the preferred loop alignment might depend on the loop itself. For
recent POWER cores, loops between 5 and 8 instructions should have 32-byte
alignment (while the others are better with 16-byte alignment) so that the
entire loop will fit in one i-cache line.

To support this, getPrefLoopAlignment has been made virtual, and can be
provided with an optional MachineLoop* so the target can inspect the loop
before answering the query. The default behavior, as before, is to return the
value set with setPrefLoopAlignment. MachineBlockPlacement now queries the
target for each loop instead of only once per function. There should be no
functional change for other targets.

llvm-svn: 225117
2015-01-03 17:58:24 +00:00
Hal Finkel d73bfba7eb [PowerPC] Use 16-byte alignment for modern cores for functions/loops
Most modern PowerPC cores prefer that functions and loops start on
16-byte-aligned boundaries (*), so instruct block placement, etc. to make this
happen. The branch selector has also been adjusted so account for the extra
nops that might now be inserted before loop headers.

(*) Some cores actually prefer other alignments for small loops, but that will
    be addressed in a follow-up commit.

llvm-svn: 225115
2015-01-03 14:58:25 +00:00
Craig Topper 589ceee7f4 Minor cleanup to all the switches after MatchInstructionImpl in all the AsmParsers.
Make sure they all have llvm_unreachable on the default path out of the switch. Remove unnecessary "default: break". Remove a 'return' after unreachable. Fix some indentation.

llvm-svn: 225114
2015-01-03 08:16:34 +00:00
David Majnemer 8df46c9289 ValueTracking: Make computeKnownBits for Arguments a little more clear
We would sometimes leave the out-param APInts untouched while going
through computeKnownBits.  While I don't know of a way to trigger a bug
involving this in practice, it goes against the overall design of
computeKnownBits.

Found via code inspection.

llvm-svn: 225109
2015-01-03 02:33:25 +00:00
Hal Finkel 4edc66b8de [PowerPC] Add support for the CMPB instruction
Newer POWER cores, and the A2, support the cmpb instruction. This instruction
compares its operands, treating each of the 8 bytes in the GPRs separately,
returning a 'mask' result of 0 (for false) or -1 (for true) in each byte.

Code generation support is added, in the form of a PPCISelDAGToDAG
DAG-preprocessing routine, that recognizes patterns close to what the
instruction computes (either exactly, or related by a constant masking
operation), and generates the cmpb instruction (along with any necessary
constant masking operation). This can be expanded if use cases arise.

llvm-svn: 225106
2015-01-03 01:16:37 +00:00
Kostya Serebryany d421db05bb [asan] simplify the tracing code, make it use the same guard variables as coverage
llvm-svn: 225103
2015-01-03 00:54:43 +00:00
Craig Topper ae8e1b3831 [X86] Disassembler support for move to/from %rax with a 32-bit memory offset is REX.W and AdSize prefix are both present.
llvm-svn: 225099
2015-01-03 00:00:20 +00:00
Craig Topper 017b830564 [X86] Use 32-bit sign extended immediate for 64-bit LOCK_ArithBinOp with sign extended immediate.
llvm-svn: 225098
2015-01-03 00:00:14 +00:00
Chandler Carruth ce08983110 [PM] Fix some formatting where clang-format has improved recently.
llvm-svn: 225092
2015-01-02 22:51:44 +00:00
Andrea Di Biagio 6477847ef4 Improved comments. No functional change intended.
llvm-svn: 225080
2015-01-02 10:47:46 +00:00
Craig Topper 4e5ab81a12 [X86] Bring some better consistency to the naming of the move to/from %al/ax/eax/rax with memory offset.
llvm-svn: 225078
2015-01-02 07:36:23 +00:00
David Majnemer c8a576b5c0 InstCombine: Detect when llvm.umul.with.overflow always overflows
We know overflow always occurs if both ~LHSKnownZero * ~RHSKnownZero
and LHSKnownOne * RHSKnownOne overflow.

llvm-svn: 225077
2015-01-02 07:29:47 +00:00
David Majnemer 491331aca8 Analysis: Reformulate WillNotOverflowUnsignedMul for reusability
WillNotOverflowUnsignedMul's smarts will live in ValueTracking as
computeOverflowForUnsignedMul.  It now returns a tri-state result:
never overflows, always overflows and sometimes overflows.

llvm-svn: 225076
2015-01-02 07:29:43 +00:00
Craig Topper 055845f5cb [X86] Make the instructions that use AdSize16/32/64 co-exist together without using mode predicates.
This is necessary to allow the disassembler to be able to handle AdSize32 instructions in 64-bit mode when address size prefix is used.

Eventually we should probably also support 'addr32' and 'addr16' in the assembler to override the address size on some of these instructions. But for now we'll just use special operand types that will lookup the current mode size to select the right instruction.

llvm-svn: 225075
2015-01-02 07:02:25 +00:00
Chandler Carruth 24ac830d7c [SROA] Teach SROA to be more aggressive in splitting now that we have
a pre-splitting pass over loads and stores.

Historically, splitting could cause enough problems that I hamstrung the
entire process with a requirement that splittable integer loads and
stores must cover the entire alloca. All smaller loads and stores were
unsplittable to prevent chaos from ensuing. With the new pre-splitting
logic that does load/store pair splitting I introduced in r225061, we
can now very nicely handle arbitrarily splittable loads and stores. In
order to fully benefit from these smarts, we need to mark all of the
integer loads and stores as splittable.

However, we don't actually want to rewrite partitions with all integer
loads and stores marked as splittable. This will fail to extract scalar
integers from aggregates, which is kind of the point of SROA. =] In
order to resolve this, what we really want to do is only do
pre-splitting on the alloca slices with integer loads and stores fully
splittable. This allows us to uncover all non-integer uses of the alloca
that would benefit from a split in an integer load or store (and where
introducing the split is safe because it is just memory transfer from
a load to a store). Once done, we make all the non-whole-alloca integer
loads and stores unsplittable just as they have historically been,
repartition and rewrite.

The result is that when there are integer loads and stores anywhere
within an alloca (such as from a memcpy of a sub-object of a larger
object), we can split them up if there are non-integer components to the
aggregate hiding beneath. I've added the challenging test cases to
demonstrate how this is able to promote to scalars even a case where we
have even *partially* overlapping loads and stores.

This restores the single-store behavior for small arrays of i8s which is
really nice. I've restored both the little endian testing and big endian
testing for these exactly as they were prior to r225061. It also forced
me to be more aggressive in an alignment test to actually defeat SROA.
=] Without the added volatiles there, we actually split up the weird i16
loads and produce nice double allocas with better alignment.

This also uncovered a number of bugs where we failed to handle
splittable load and store slices which didn't have a begininng offset of
zero. Those fixes are included, and without them the existing test cases
explode in glorious fireworks. =]

I've kept support for leaving whole-alloca integer loads and stores as
splittable even for the purpose of rewriting, but I think that's likely
no longer needed. With the new pre-splitting, we might be able to remove
all the splitting support for loads and stores from the rewriter. Not
doing that in this patch to try to isolate any performance regressions
that causes in an easy to find and revert chunk.

llvm-svn: 225074
2015-01-02 03:55:54 +00:00
Chandler Carruth 5986b541d4 [SROA] Make the computation of adjusted pointers not leak GEP
instructions.

I noticed this when working on dialing up how aggressively we can
pre-split loads and stores. My test case wasn't passing because dead
GEPs into the allocas persisted when they were built by this routine.
This isn't terribly harmful, we still rewrote and promoted the alloca
and I can't conceive of how to cause this to happen in a case where we
will keep the exact same alloca but rewrite and promote the uses of it.
If that ever happened, we'd get an assert out of mem2reg.

So I don't have a direct test case yet, but the subsequent commit's test
case wouldn't pass without this. There are other problems fixed by this
patch that I spotted purely by inspection such as the fact that
getAdjustedPtr could have actually deleted dead base pointers. I don't
know how to get a base pointer to go into getAdjustedPtr today, so
I think this bug could never have manifested (and I certainly can't
write a test case for it) but, it wasn't the intent of the code. The
code really just wanted to GC the new instructions built. That can be
done more directly by comparing with the base pointer which is the only
non-new instruction that this code can return.

llvm-svn: 225073
2015-01-02 02:47:38 +00:00
Chandler Carruth 29c22fae46 [SROA] Fix the loop exit placement to be prior to indexing the splits
array. This prevents it from walking out of bounds on the splits array.

Bug found with the existing tests by ASan and by the MSVC debug build.

llvm-svn: 225069
2015-01-02 00:10:22 +00:00
Chandler Carruth c39eaa5041 [SROA] Fix two total think-os in r225061 that should have been caught on
a +asserts bootstrap, but my bootstrap had asserts off. Oops.

Anyways, in some places it is reasonable to cast (as a sanity check) the
pointer operand to a load or store to an instruction within SROA --
namely when the pointer operand is expected to be derived from an
alloca, and thus always an instruction. However, the pre-splitting code
also deals with loads and stores to non-alloca pointers and there we
need to just use the Value*. Nothing about the code relied on the
instruction cast, it was only there essentially as an invariant
assertion. Remove the two that don't actually hold.

This should fix the proximate issue in PR22080, but I'm also doing an
asserts bootstrap myself to see if there are other issues lurking.

I'll craft a reduced test case in a moment, but I wanted to get the tree
healthy as quickly as possible.

llvm-svn: 225068
2015-01-01 23:26:16 +00:00
Hal Finkel ddf8d7d155 [PowerPC] use UINT64_C instead of ul
Attempting to fix PR22078 (building on 32-bit systems) by replacing my careless
use of 1ul to be a uint64_t constant with UINT64_C(1).

llvm-svn: 225066
2015-01-01 19:33:59 +00:00
Chandler Carruth 6044c0bc78 [SROA] Switch to using a more direct debug logging technique in one part
of my new load and store splitting, and fix a bug where it logged
a totally irrelevant slice rather than the actual slice in question.

The logging here previously worked because we used to place new slices
onto the back of the core sequence, but that caused other problems.
I updated the actual code to store new slices in their own vector but
didn't update the logging. There isn't a good way to reuse the logging
any more, and frankly it wasn't needed. We can directly log this bit
more easily.

llvm-svn: 225063
2015-01-01 12:56:47 +00:00
Chandler Carruth 994cde8869 [SROA] Fix formatting with clang-format which I managed to fail to do
prior to committing r225061. Sorry for that.

llvm-svn: 225062
2015-01-01 12:01:03 +00:00
Chandler Carruth 0715cba02d [SROA] Teach SROA how to much more intelligently handle split loads and
stores.

When there are accesses to an entire alloca with an integer
load or store as well as accesses to small pieces of the alloca, SROA
splits up the large integer accesses. In order to do that, it uses bit
math to merge the small accesses into large integers. While this is
effective, it produces insane IR that can cause significant problems in
the rest of the optimizer:

- It can cause load and store mismatches with GVN on the non-alloca side
  where we end up loading an i64 (or some such) rather than loading
  specific elements that are stored.
- We can't always get rid of the integer bit math, which is why we can't
  always fix the loads and stores to work well with GVN.
- This is especially bad when we have operations that mix poorly with
  integer bit math such as floating point operations.
- It will block things like the vectorizer which might be able to handle
  the scalar stores that underly the aggregate.

At the same time, we can't just directly split up these loads and stores
in all cases. If there is actual integer arithmetic involved on the
values, then using integer bit math is actually the perfect lowering
because we can often combine it heavily with the surrounding math.

The solution this patch provides is to find places where SROA is
partitioning aggregates into small elements, and look for splittable
loads and stores that it can split all the way to some other adjacent
load and store. These are uniformly the cases where failing to split the
loads and stores hurts the optimizer that I have seen, and I've looked
extensively at the code produced both from more and less aggressive
approaches to this problem.

However, it is quite tricky to actually do this in SROA. We may have
loads and stores to the same alloca, or other complex patterns that are
hard to handle. This complexity leads to the somewhat subtle algorithm
implemented here. We have to do this entire process as a separate pass
over the partitioning of the alloca, and split up all of the loads prior
to splitting the stores so that we can handle safely the cases of
overlapping, including partially overlapping, loads and stores to the
same alloca. We also have to reconstitute the post-split slice
configuration so we can avoid iterating again over all the alloca uses
(the slow part of SROA). But we also have to ensure that when we split
up loads and stores to *other* allocas, we *do* re-iterate over them in
SROA to adapt to the more refined partitioning now required.

With this, I actually think we can fix a long-standing TODO in SROA
where I avoided splitting as many loads and stores as probably should be
splittable. This limitation historically mitigated the fallout of all
the bad things mentioned above. Now that we have more intelligent
handling, I plan to remove the FIXME and more aggressively mark integer
loads and stores as splittable. I'll do that in a follow-up patch to
help with bisecting any fallout.

The net result of this change should be more fine-grained and accurate
scalars being formed out of aggregates. At the very least, Clang now
generates perfect code for this high-level test case using
std::complex<float>:

  #include <complex>

  void g1(std::complex<float> &x, float a, float b) {
    x += std::complex<float>(a, b);
  }
  void g2(std::complex<float> &x, float a, float b) {
    x -= std::complex<float>(a, b);
  }

  void foo(const std::complex<float> &x, float a, float b,
           std::complex<float> &x1, std::complex<float> &x2) {
    std::complex<float> l1 = x;
    g1(l1, a, b);
    std::complex<float> l2 = x;
    g2(l2, a, b);
    x1 = l1;
    x2 = l2;
  }

This code isn't just hypothetical either. It was reduced out of the hot
inner loops of essentially every part of the Eigen math library when
using std::complex<float>. Those loops would consistently and
pervasively hop between the floating point unit and the integer unit due
to bit math extraction and insertion of floating point values that were
"stored" in a 64-bit integer register around the loop backedge.

So far, this change has passed a bootstrap and I have done some other
testing and so far, no issues. That doesn't mean there won't be though,
so I'll be prepared to help with any fallout. If you performance swings
in particular, please let me know. I'm very curious what all the impact
of this change will be. Stay tuned for the follow-up to also split more
integer loads and stores.

llvm-svn: 225061
2015-01-01 11:54:38 +00:00
Hal Finkel c58ce4132a [PowerPC] Improve instruction selection bit-permuting operations (64-bit)
This is the second installment of improvements to instruction selection for "bit
permutation" instruction sequences. r224318 added logic for instruction
selection for 32-bit bit permutation sequences, and this adds lowering for
64-bit sequences. The 64-bit sequences are more complicated than the 32-bit
ones because:
  a) the 64-bit versions of the 32-bit rotate-and-mask instructions
     work by replicating the lower 32-bits of the value-to-be-rotated into the
     upper 32 bits -- and integrating this into the cost modeling for the various
     bit group operations is non-trivial
  b) unlike the 32-bit instructions in 32-bit mode, the rotate-and-mask instructions
     cannot, in one instruction, specify the
     mask starting index, the mask ending index, and the rotation factor. Also,
     forming arbitrary 64-bit constants is more complicated than in 32-bit mode
     because the number of instructions necessary is value dependent.

Plus, support for 'late masking' was added: it is sometimes more efficient to
treat the overall value as if it had no mandatory zero bits when planning the
bit-group insertions, and then mask them in at the very end. Unfortunately, as
the structure of the bit groups is different in the two cases, the more
feasible implementation technique was to generate both instruction sequences,
and then pick the shorter one.

And finally, we now generate reasonable code for i64 bswap:

        rldicl 5, 3, 16, 0
        rldicl 4, 3, 8, 0
        rldicl 6, 3, 24, 0
        rldimi 4, 5, 8, 48
        rldicl 5, 3, 32, 0
        rldimi 4, 6, 16, 40
        rldicl 6, 3, 48, 0
        rldimi 4, 5, 24, 32
        rldicl 5, 3, 56, 0
        rldimi 4, 6, 40, 16
        rldimi 4, 5, 48, 8
        rldimi 4, 3, 56, 0

vs. what we used to produce:

        li 4, 255
        rldicl 5, 3, 24, 40
        rldicl 6, 3, 40, 24
        rldicl 7, 3, 56, 8
        sldi 8, 3, 8
        sldi 10, 3, 24
        sldi 12, 3, 40
        rldicl 0, 3, 8, 56
        sldi 9, 4, 32
        sldi 11, 4, 40
        sldi 4, 4, 48
        andi. 5, 5, 65280
        andis. 6, 6, 255
        andis. 7, 7, 65280
        sldi 3, 3, 56
        and 8, 8, 9
        and 4, 12, 4
        and 9, 10, 11
        or 6, 7, 6
        or 5, 5, 0
        or 3, 3, 4
        or 7, 9, 8
        or 4, 6, 5
        or 3, 3, 7
        or 3, 3, 4

which is 12 instructions, instead of 25, and seems optimal (at least in terms
of code size).

llvm-svn: 225056
2015-01-01 02:53:29 +00:00
Sanjay Patel e68f71574f InstCombine: fsub nsz 0, X ==> fsub nsz -0.0, X
Some day the backend may handle instruction-level fast math flags and make
this transform unnecessary, but it's still better practice to use the canonical
representation of fneg when possible (use a -0.0).

This is a partial fix for PR20870 ( http://llvm.org/bugs/show_bug.cgi?id=20870 ).
See also http://reviews.llvm.org/D6723.

Differential Revision: http://reviews.llvm.org/D6731

llvm-svn: 225050
2014-12-31 22:14:05 +00:00
Rafael Espindola 54b435ec3c Add r224985 back with a fix.
The issues was that AArch64 has additional restrictions on when local
relocations can be used. We have to take those into consideration when
deciding to put a L symbol in the symbol table or not.

Original message:

Remove doesSectionRequireSymbols.

In an assembly expression like

bar:
.long L0 + 1

the intended semantics is that bar will contain a pointer one byte past L0.

In sections that are merged by content (strings, 4 byte constants, etc), a
single position in the section doesn't give the linker enough information.
For example, it would not be able to tell a relocation must point to the
end of a string, since that would look just like the start of the next.

The solution used in ELF to use relocation with symbols if there is a non-zero
addend.

In MachO before this patch we would just keep all symbols in some sections.

This would miss some cases (only cstrings on x86_64 were implemented) and was
inefficient since most relocations have an addend of 0 and can be represented
without the symbol.

This patch implements the non-zero addend logic for MachO too.

llvm-svn: 225048
2014-12-31 17:19:34 +00:00
Colin LeMahieu 5691eb5ee7 Reverting 225045 and 225043 and XFAIL multiline.ll on hexagon
llvm-svn: 225047
2014-12-31 17:14:35 +00:00
Colin LeMahieu 79e8ebada2 [Hexagon] Removing assertion to appease buildbot until I can reproduce the problem
llvm-svn: 225045
2014-12-31 16:20:00 +00:00
Rafael Espindola d4da9040de Revert "Remove doesSectionRequireSymbols."
This reverts commit r224985.

I am investigating why it made an Apple bot unhappy.

llvm-svn: 225044
2014-12-31 16:06:48 +00:00
Colin LeMahieu 94272611ac [Hexagon] Changing an llvm_unreachable to an assertion and returning 0. Relocations aren't implemented yet but we don't need to abort for this in release builds.
llvm-svn: 225043
2014-12-31 15:57:38 +00:00
Craig Topper 99bcab7b85 [X86] Fix disassembly of absolute moves to work correctly in 16 and 32-bit modes with all 4 combinations of OpSize and AdSize prefixes being present or not.
llvm-svn: 225036
2014-12-31 07:07:31 +00:00
Craig Topper 6e518776e3 [x86] Simplify detection of jcxz/jecxz/jrcxz in disassembler.
llvm-svn: 225035
2014-12-31 07:07:11 +00:00
David Majnemer f89dc3edc9 InstCombine: try to transform A-B < 0 into A < B
We are allowed to move the 'B' to the right hand side if we an prove
there is no signed overflow and if the comparison itself is signed.

llvm-svn: 225034
2014-12-31 04:21:41 +00:00
Alexey Samsonov 553185ee4b Revert "merge consecutive stores of extracted vector elements"
This reverts commit r224611. This change causes crashes
in X86 DAG->DAG Instruction Selection.

llvm-svn: 225031
2014-12-31 00:40:28 +00:00
Colin LeMahieu bc405294f0 [Hexagon] Adding accumulating add/sub, doubleword logic-not variants, doubleword bitfield extract, word parity, accumulating multiplies with saturation.
llvm-svn: 225024
2014-12-31 00:08:34 +00:00
Colin LeMahieu 8971e055ae [Hexagon] Adding double-logic on predicate instructions.
llvm-svn: 225018
2014-12-30 23:22:39 +00:00
Colin LeMahieu 65f3e12ed1 [Hexagon] Adding newvalue compare and jumps.
llvm-svn: 225015
2014-12-30 23:04:21 +00:00
Peter Collingbourne 64faca9b84 RTDyldMemoryManager.cpp: Make the reference to __morestack weak.
This fixes the DSO build for now. Eventually we should develop some
other mechanism to make this work correctly with DSOs.

llvm-svn: 225014
2014-12-30 22:52:33 +00:00
David Blaikie aeaa5bf55e DebugInfo: Omit is_stmt from line table entries on the same line.
GCC does this for non-zero discriminators and since GCC doesn't produce
column info, that was the only place it comes up there. For LLVM, since
we can emit discriminators and/or column info, it makes more sense to
invert the condition and just test for changes in line number.

This should resolve at least some of the GDB 7.5 test suite failures
created by recent Clang changes that increase the location fidelity
(which, since Clang defaults to including column info on Linux by
default created a bunch of cases that confused GDB).

In theory we could do this better/differently by grouping actual source
statements together in a similar manner to the way lexical scopes are
handled but given that GDB isn't really in a position to consume that (&
users are probably somewhat used to different lines being different
'statements') this seems the safest and cheapest change. (I'm concerned
that doing this 'right' would bloat the debugloc data even further -
something Duncan's working hard to address)

llvm-svn: 225011
2014-12-30 22:47:13 +00:00
Colin LeMahieu 0cba5f1b43 [Hexagon] Adding postincrement register newvalue stores.
llvm-svn: 225010
2014-12-30 22:34:08 +00:00
Colin LeMahieu 9014890819 [Hexagon] Removing old newvalue store variants. Adding postincrement immediate newvalue stores.
llvm-svn: 225009
2014-12-30 22:28:31 +00:00
Zoran Jovanovic 10646918d1 [mips][microMIPS] Relocate with symbol for micromips symbols
Differential Revision: http://reviews.llvm.org/D6796

llvm-svn: 225008
2014-12-30 22:04:16 +00:00