Commit Graph

8776 Commits

Author SHA1 Message Date
Chandler Carruth f82b0e2d29 Teach InstCombine to nuke a common alloca pattern -- an alloca which has
GEPs, bit casts, and stores reaching it but no other instructions. These
often show up during the iterative processing of the inliner, SROA, and
DCE. Once we hit this point, we can completely remove the alloca. These
were actually showing up in the final, fully optimized code in a bunch
of inliner tests I've been working on, and notably they show up after
LLVM finishes optimizing away all function calls involved in
hash_combine(a, b).

llvm-svn: 154285
2012-04-08 14:36:56 +00:00
Hongbin Zheng 5758f495da Refactor: Use positive field names in VectorizeConfig.
llvm-svn: 154249
2012-04-07 03:56:23 +00:00
Chandler Carruth 49da93396e Sink the collection of return instructions until after *all*
simplification has been performed. This is a bit less efficient
(requires another ilist walk of the basic blocks) but shouldn't matter
in practice. More importantly, it's just too much work to keep track of
all the various ways the return instructions can be mutated while
simplifying them. This fixes yet another crasher, reported by Daniel
Dunbar.

llvm-svn: 154179
2012-04-06 17:21:31 +00:00
Duncan Sands d12b18f820 Make GVN's propagateEquality non-recursive. No intended functionality change.
The modifications are a lot more trivial than they appear to be in the diff!

llvm-svn: 154174
2012-04-06 15:31:09 +00:00
Chandler Carruth e41f6f4189 Sink the return instruction collection until after we're done deleting
dead code, including dead return instructions in some cases. Otherwise,
we end up having a bogus poniter to a return instruction that blows up
much further down the road.

It turns out that this pattern is both simpler to code, easier to update
in the face of enhancements to the inliner cleanup, and likely cheaper
given that it won't add dead instructions to the list.

Thanks to John Regehr's numerous test cases for teasing this out.

llvm-svn: 154157
2012-04-06 01:11:52 +00:00
Dan Gohman cc64bbca81 Fix accidentally inverted logic from r152803, and make the
testcase slightly less trivial. This fixes rdar://11171718.

llvm-svn: 154118
2012-04-05 20:27:21 +00:00
Hongbin Zheng 31d33b8318 BBVectorize: Add the const modifier to the VectorizeConfig because we won't
modify it.

llvm-svn: 154098
2012-04-05 16:07:49 +00:00
Hongbin Zheng d6825173d3 Introduce the VectorizeConfig class, with which we can control the behavior
of the BBVectorizePass without using command line option. As pointed out
  by Hal, we can ask the TargetLoweringInfo for the architecture specific
  VectorizeConfig to perform vectorizing with architecture specific
  information.

llvm-svn: 154096
2012-04-05 15:46:55 +00:00
Hongbin Zheng 6edbc39bd7 Add the function "vectorizeBasicBlock" which allow users vectorize a
BasicBlock in other passes, e.g. we can call vectorizeBasicBlock in the
 loop unroll pass right after the loop is unrolled.

llvm-svn: 154089
2012-04-05 08:05:16 +00:00
Jakob Stoklund Olesen f2390e8303 Pass the right sign to TLI->isLegalICmpImmediate.
LSR can fold three addressing modes into its ICmpZero node:

  ICmpZero BaseReg + Offset      => ICmp BaseReg, -Offset
  ICmpZero -1*ScaleReg + Offset  => ICmp ScaleReg, Offset
  ICmpZero BaseReg + -1*ScaleReg => ICmp BaseReg, ScaleReg

The first two cases are only used if TLI->isLegalICmpImmediate() likes
the offset.

Make sure the right Offset sign is passed to this method in the second
case. The ARM version is not symmetric.

<rdar://problem/11184260>

llvm-svn: 154079
2012-04-05 03:10:56 +00:00
Rafael Espindola ba0a6cabb8 Always compute all the bits in ComputeMaskedBits.
This allows us to keep passing reduced masks to SimplifyDemandedBits, but
know about all the bits if SimplifyDemandedBits fails. This allows instcombine
to simplify cases like the one in the included testcase.

llvm-svn: 154011
2012-04-04 12:51:34 +00:00
Hongbin Zheng b21b865fe8 LoopUnrollPass: Use variable "Threshold" instead of "CurrentThreshold" when
reducing unroll count, otherwise the reduced unroll count is not taking
  the "OptimizeForSize" attribute into account.

llvm-svn: 154007
2012-04-04 11:44:08 +00:00
Bill Wendling 932b992888 Add an option to turn off the expensive GVN load PRE part of GVN.
llvm-svn: 153902
2012-04-02 22:16:50 +00:00
Stepan Dyatkovskiy f62ffeca88 Fast fix for PR12343:
http://llvm.org/bugs/show_bug.cgi?id=12343

We have not trivial way for splitting edges that are goes from indirect branch. We can do it with some tricks, but it should be additionally discussed. And it is still dangerous due to difficulty of indirect branches controlling.

Fix forbids this case for unswitching.

llvm-svn: 153879
2012-04-02 17:16:45 +00:00
Chandler Carruth 45ae88f5fc Belatedly address some code review from Chris.
As a side note, I really dislike array_pod_sort... Do we really still
care about any STL implementations that get this so wrong? Does libc++?

llvm-svn: 153834
2012-04-01 10:41:24 +00:00
Chandler Carruth c5bfb3c0f5 Fix a pretty scary bug I introduced into the always inliner with
a single missing character. Somehow, this had gone untested. I've added
tests for returns-twice logic specifically with the always-inliner that
would have caught this, and fixed the bug.

Thanks to Matt for the careful review and spotting this!!! =D

llvm-svn: 153832
2012-04-01 10:21:05 +00:00
Chandler Carruth a88a0faaa3 Give the always-inliner its own custom filter. It shouldn't have to pay
the very high overhead of the complex inline cost analysis when all it
wants to do is detect three patterns which must not be inlined. Comment
the code, clean it up, and leave some hints about possible performance
improvements if this ever shows up on a profile.

Moving this off of the (now more expensive) inline cost analysis is
particularly important because we have to run this inliner even at -O0.

llvm-svn: 153814
2012-03-31 13:17:18 +00:00
Chandler Carruth edd2826f3e Remove a bunch of empty, dead, and no-op methods from all of these
interfaces. These methods were used in the old inline cost system where
there was a persistent cache that had to be updated, invalidated, and
cleared. We're now doing more direct computations that don't require
this intricate dance. Even if we resume some level of caching, it would
almost certainly have a simpler and more narrow interface than this.

llvm-svn: 153813
2012-03-31 12:48:08 +00:00
Chandler Carruth 0539c071ea Initial commit for the rewrite of the inline cost analysis to operate
on a per-callsite walk of the called function's instructions, in
breadth-first order over the potentially reachable set of basic blocks.

This is a major shift in how inline cost analysis works to improve the
accuracy and rationality of inlining decisions. A brief outline of the
algorithm this moves to:

- Build a simplification mapping based on the callsite arguments to the
  function arguments.
- Push the entry block onto a worklist of potentially-live basic blocks.
- Pop the first block off of the *front* of the worklist (for
  breadth-first ordering) and walk its instructions using a custom
  InstVisitor.
- For each instruction's operands, re-map them based on the
  simplification mappings available for the given callsite.
- Compute any simplification possible of the instruction after
  re-mapping, and store that back int othe simplification mapping.
- Compute any bonuses, costs, or other impacts of the instruction on the
  cost metric.
- When the terminator is reached, replace any conditional value in the
  terminator with any simplifications from the mapping we have, and add
  any successors which are not proven to be dead from these
  simplifications to the worklist.
- Pop the next block off of the front of the worklist, and repeat.
- As soon as the cost of inlining exceeds the threshold for the
  callsite, stop analyzing the function in order to bound cost.

The primary goal of this algorithm is to perfectly handle dead code
paths. We do not want any code in trivially dead code paths to impact
inlining decisions. The previous metric was *extremely* flawed here, and
would always subtract the average cost of two successors of
a conditional branch when it was proven to become an unconditional
branch at the callsite. There was no handling of wildly different costs
between the two successors, which would cause inlining when the path
actually taken was too large, and no inlining when the path actually
taken was trivially simple. There was also no handling of the code
*path*, only the immediate successors. These problems vanish completely
now. See the added regression tests for the shiny new features -- we
skip recursive function calls, SROA-killing instructions, and high cost
complex CFG structures when dead at the callsite being analyzed.

Switching to this algorithm required refactoring the inline cost
interface to accept the actual threshold rather than simply returning
a single cost. The resulting interface is pretty bad, and I'm planning
to do lots of interface cleanup after this patch.

Several other refactorings fell out of this, but I've tried to minimize
them for this patch. =/ There is still more cleanup that can be done
here. Please point out anything that you see in review.

I've worked really hard to try to mirror at least the spirit of all of
the previous heuristics in the new model. It's not clear that they are
all correct any more, but I wanted to minimize the change in this single
patch, it's already a bit ridiculous. One heuristic that is *not* yet
mirrored is to allow inlining of functions with a dynamic alloca *if*
the caller has a dynamic alloca. I will add this back, but I think the
most reasonable way requires changes to the inliner itself rather than
just the cost metric, and so I've deferred this for a subsequent patch.
The test case is XFAIL-ed until then.

As mentioned in the review mail, this seems to make Clang run about 1%
to 2% faster in -O0, but makes its binary size grow by just under 4%.
I've looked into the 4% growth, and it can be fixed, but requires
changes to other parts of the inliner.

llvm-svn: 153812
2012-03-31 12:42:41 +00:00
Benjamin Kramer 53dc873342 Internalize: Remove reference of @llvm.noinline, it was replaced with the noinline attribute a long time ago.
llvm-svn: 153806
2012-03-31 11:03:47 +00:00
Hal Finkel 5cad8742cc Correctly vectorize powi.
The powi intrinsic requires special handling because it always takes a single
integer power regardless of the result type. As a result, we can vectorize
only if the powers are equal. Fixes PR12364.

llvm-svn: 153797
2012-03-31 03:38:40 +00:00
Jakob Stoklund Olesen 4e55044ff5 Don't PRE compares.
CodeGenPrepare sinks compare instructions down to their uses to prevent
live flags and predicate registers across basic blocks.

PRE of a compare instruction prevents that, forcing the i1 compare
result into a general purpose register.  That is usually more expensive
than the redundant compare PRE was trying to eliminate in the first
place.

llvm-svn: 153657
2012-03-29 17:22:39 +00:00
Benjamin Kramer aa9e4a5e59 GlobalOpt: If we have an inbounds GEP from a ConstantAggregateZero global that we just determined to be constant, replace all loads from it with a zero value.
llvm-svn: 153576
2012-03-28 14:50:09 +00:00
Chandler Carruth 772c88b887 Switch to WeakVHs in the value mapper, and aggressively prune dead basic
blocks in the function cloner. This removes the last case of trivially
dead code that I've been seeing in the wild getting inlined, analyzed,
re-inlined, optimized, only to be deleted. Nukes a FIXME from the
cleanup tests.

llvm-svn: 153572
2012-03-28 08:38:27 +00:00
Chad Rosier bb2a6da440 Fix 80-column violation.
llvm-svn: 153556
2012-03-28 00:35:33 +00:00
Chandler Carruth b9e35fbc1e Make a seemingly tiny change to the inliner and fix the generated code
size bloat. Unfortunately, I expect this to disable the majority of the
benefit from r152737. I'm hopeful at least that it will fix PR12345. To
explain this requires... quite a bit of backstory I'm afraid.

TL;DR: The change in r152737 actually did The Wrong Thing for
linkonce-odr functions. This change makes it do the right thing. The
benefits we saw were simple luck, not any actual strategy. Benchmark
numbers after a mini-blog-post so that I've written down my thoughts on
why all of this works and doesn't work...

To understand what's going on here, you have to understand how the
"bottom-up" inliner actually works. There are two fundamental modes to
the inliner:

1) Standard fixed-cost bottom-up inlining. This is the mode we usually
   think about. It walks from the bottom of the CFG up to the top,
   looking at callsites, taking information about the callsite and the
   called function and computing th expected cost of inlining into that
   callsite. If the cost is under a fixed threshold, it inlines. It's
   a touch more complicated than that due to all the bonuses, weights,
   etc. Inlining the last callsite to an internal function gets higher
   weighth, etc. But essentially, this is the mode of operation.

2) Deferred bottom-up inlining (a term I just made up). This is the
   interesting mode for this patch an r152737. Initially, this works
   just like mode #1, but once we have the cost of inlining into the
   callsite, we don't just compare it with a fixed threshold. First, we
   check something else. Let's give some names to the entities at this
   point, or we'll end up hopelessly confused. We're considering
   inlining a function 'A' into its callsite within a function 'B'. We
   want to check whether 'B' has any callers, and whether it might be
   inlined into those callers. If so, we also check whether inlining 'A'
   into 'B' would block any of the opportunities for inlining 'B' into
   its callers. We take the sum of the costs of inlining 'B' into its
   callers where that inlining would be blocked by inlining 'A' into
   'B', and if that cost is less than the cost of inlining 'A' into 'B',
   then we skip inlining 'A' into 'B'.

Now, in order for #2 to make sense, we have to have some confidence that
we will actually have the opportunity to inline 'B' into its callers
when cheaper, *and* that we'll be able to revisit the decision and
inline 'A' into 'B' if that ever becomes the correct tradeoff. This
often isn't true for external functions -- we can see very few of their
callers, and we won't be able to re-consider inlining 'A' into 'B' if
'B' is external when we finally see more callers of 'B'. There are two
cases where we believe this to be true for C/C++ code: functions local
to a translation unit, and functions with an inline definition in every
translation unit which uses them. These are represented as internal
linkage and linkonce-odr (resp.) in LLVM. I enabled this logic for
linkonce-odr in r152737.

Unfortunately, when I did that, I also introduced a subtle bug. There
was an implicit assumption that the last caller of the function within
the TU was the last caller of the function in the program. We want to
bonus the last caller of the function in the program by a huge amount
for inlining because inlining that callsite has very little cost.
Unfortunately, the last caller in the TU of a linkonce-odr function is
*not* the last caller in the program, and so we don't want to apply this
bonus. If we do, we can apply it to one callsite *per-TU*. Because of
the way deferred inlining works, when it sees this bonus applied to one
callsite in the TU for 'B', it decides that inlining 'B' is of the
*utmost* importance just so we can get that final bonus. It then
proceeds to essentially force deferred inlining regardless of the actual
cost tradeoff.

The result? PR12345: code bloat, code bloat, code bloat. Another result
is getting *damn* lucky on a few benchmarks, and the over-inlining
exposing critically important optimizations. I would very much like
a list of benchmarks that regress after this change goes in, with
bitcode before and after. This will help me greatly understand what
opportunities the current cost analysis is missing.

Initial benchmark numbers look very good. WebKit files that exhibited
the worst of PR12345 went from growing to shrinking compared to Clang
with r152737 reverted.

- Bootstrapped Clang is 3% smaller with this change.
- Bootstrapped Clang -O0 over a single-source-file of lib/Lex is 4%
  faster with this change.

Please let me know about any other performance impact you see. Thanks to
Nico for reporting and urging me to actually fix, Richard Smith, Duncan
Sands, Manuel Klimek, and Benjamin Kramer for talking through the issues
today.

llvm-svn: 153506
2012-03-27 10:48:28 +00:00
Nadav Rotem a8f3562e8f 153465 was incorrect. In this code we wanted to check that the pointer operand is of pointer type (and not vector type).
llvm-svn: 153468
2012-03-26 21:00:53 +00:00
Nadav Rotem e63e59cc44 PR12357: The pointer was used before it was checked.
llvm-svn: 153465
2012-03-26 20:39:18 +00:00
Andrew Trick 14779cc49e LSR ivchain bug fix: corner case with ConstantExpr.
Fixes PR11950.

llvm-svn: 153463
2012-03-26 20:28:37 +00:00
Andrew Trick 356a896394 comment typo
llvm-svn: 153462
2012-03-26 20:28:35 +00:00
Chris Lattner b1e2e1e091 eliminate an unneeded branch, part of PR12357
llvm-svn: 153458
2012-03-26 19:13:57 +00:00
Eric Christopher 2b40fdf3ae Tidy.
llvm-svn: 153456
2012-03-26 19:09:40 +00:00
Eric Christopher f16bee8682 Tidy.
llvm-svn: 153455
2012-03-26 19:09:38 +00:00
Andrew Trick e51feea79c LSR cleanup: potential bug caught by PVS-Studio.
Thanks Andrey.

llvm-svn: 153451
2012-03-26 18:03:16 +00:00
Kostya Serebryany 6f8a776041 [tsan] treat vtable pointer updates in a special way (requires tbaa); fix a bug (forgot to return true after instrumenting); make sure the tsan tests are run
llvm-svn: 153448
2012-03-26 17:35:03 +00:00
Craig Topper 6e80c28017 Prune some includes and forward declarations.
llvm-svn: 153429
2012-03-26 06:58:25 +00:00
Chandler Carruth ef82cf5b1e Teach the function cloner (and thus the inliner) to simplify PHINodes
aggressively. There are lots of dire warnings about this being expensive
that seem to predate switching to the TrackingVH-based value remapper
that is automatically updated on RAUW. This makes it easy to not just
prune single-entry PHIs, but to fully simplify PHIs, and to recursively
simplify the newly inlined code to propagate PHINode simplifications.

This introduces a bit of a thorny problem though. We may end up
simplifying a branch condition to a constant when we fold PHINodes, and
we would like to nuke any dead blocks resulting from this so that time
isn't wasted continually analyzing them, but this isn't easy. Deleting
basic blocks *after* they are fully cloned and mapped into the new
function currently requires manually updating the value map. The last
piece of the simplification-during-inlining puzzle will require either
switching to WeakVH mappings or some other piece of refactoring. I've
left a FIXME in the testcase about this.

llvm-svn: 153410
2012-03-25 10:34:54 +00:00
Chandler Carruth 2121199241 Move the instruction simplification of callsite arguments in the inliner
to instead rely on much more generic and powerful instruction
simplification in the function cloner (and thus inliner).

This teaches the pruning function cloner to use instsimplify rather than
just the constant folder to fold values during cloning. This can
simplify a large number of things that constant folding alone cannot
begin to touch. For example, it will realize that 'or' and 'and'
instructions with certain constant operands actually become constants
regardless of what their other operand is. It also can thread back
through the caller to perform simplifications that are only possible by
looking up a few levels. In particular, GEPs and pointer testing tend to
fold much more heavily with this change.

This should (in some cases) have a positive impact on compile times with
optimizations on because the inliner itself will simply avoid cloning
a great deal of code. It already attempted to prune proven-dead code,
but now it will be use the stronger simplifications to prove more code
dead.

llvm-svn: 153403
2012-03-25 04:03:40 +00:00
Chandler Carruth 0c72e3f469 Add an asserting ValueHandle to the block simplification code which will
fire if anything ever invalidates the assumption of a terminator
instruction being unchanged throughout the routine.

I've convinced myself that the current definition of simplification
precludes such a transformation, so I think getting some asserts
coverage that we don't violate this agreement is sufficient to make this
code safe for the foreseeable future.

Comments to the contrary or other suggestions are of course welcome. =]
The bots are now happy with this code though, so it appears the bug here
has indeed been fixed.

llvm-svn: 153401
2012-03-25 03:29:25 +00:00
Chandler Carruth 17fc6ef234 Don't form a WeakVH around the sentinel node in the instructions BB
list. This is a bad idea. ;] I'm hopeful this is the bug that's showing
up with the MSVC bots, but we'll see.

It is definitely unnecessary. InstSimplify won't do anything to
a terminator instruction, we don't need to even include it in the
iteration range. We can also skip the now dead terminator check,
although I've made it an assert to help document that this is an
important invariant.

I'm still a bit queasy about this because there is an implicit
assumption that the terminator instruction cannot be RAUW'ed by the
simplification code. While that appears to be true at the moment, I see
no guarantee that would ensure it remains true in the future. I'm
looking at the cleanest way to solve that...

llvm-svn: 153399
2012-03-24 23:03:27 +00:00
Chandler Carruth cf1b585f60 Refactor the interface to recursively simplifying instructions to be tad
bit simpler by handling a common case explicitly.

Also, refactor the implementation to use a worklist based walk of the
recursive users, rather than trying to use value handles to detect and
recover from RAUWs during the recursive descent. This fixes a very
subtle bug in the previous implementation where degenerate control flow
structures could cause mutually recursive instructions (PHI nodes) to
collapse in just such a way that From became equal to To after some
amount of recursion. At that point, we hit the inf-loop that the assert
at the top attempted to guard against. This problem is defined away when
not using value handles in this manner. There are lots of comments
claiming that the WeakVH will protect against just this sort of error,
but they're not accurate about the actual implementation of WeakVHs,
which do still track RAUWs.

I don't have any test case for the bug this fixes because it requires
running the recursive simplification on unreachable phi nodes. I've no
way to either run this or easily write an input that triggers it. It was
found when using instruction simplification inside the inliner when
running over the nightly test-suite.

llvm-svn: 153393
2012-03-24 21:11:24 +00:00
Francois Pichet 4b9ab74690 Fix the MSVC build.
llvm-svn: 153366
2012-03-24 01:36:37 +00:00
Andrew Trick 25553ab5fe More IndVarSimplify cleanup.
llvm-svn: 153362
2012-03-24 00:51:17 +00:00
Kostya Serebryany e505a5abe9 add EP_OptimizerLast extension point
llvm-svn: 153353
2012-03-23 23:22:59 +00:00
Dan Gohman e3ed2b0699 Don't convert objc_retainAutoreleasedReturnValue to objc_retain if it
is retaining the return value of an invoke that it immediately follows.

llvm-svn: 153344
2012-03-23 18:09:00 +00:00
Dan Gohman 5c70fadc17 It's not possible to insert code immediately after an invoke in the
same basic block, and it's not safe to insert code in the successor
blocks if the edges are critical edges. Splitting those edges is
possible, but undesirable, especially on the unwind side. Instead,
make the bottom-up code motion to consider invokes to be part of
their successor blocks, rather than part of their parent blocks, so
that it doesn't push code past them and onto the edges. This fixes
PR12307.

llvm-svn: 153343
2012-03-23 17:47:54 +00:00
Duncan Sands a11ef6e4ea When propagating equalities, eg replacing A with B in every basic block
dominated by Root, check that B is available throughout the scope.  This
is obviously true (famous last words?) given the current logic, but the
check may be helpful if more complicated reasoning is added one day.

llvm-svn: 153323
2012-03-23 08:45:52 +00:00
Duncan Sands 8f897dc88b Indentation.
llvm-svn: 153322
2012-03-23 08:29:04 +00:00
Andrew Trick e3502cb204 Remove -enable-lsr-retry in time for 3.1.
llvm-svn: 153287
2012-03-22 22:42:51 +00:00
Andrew Trick d97b83e320 Remove -enable-lsr-nested in time for 3.1.
Tests cases have been removed but attached to open PR12330.

llvm-svn: 153286
2012-03-22 22:42:45 +00:00