This reverts commit 9775824b265e574fc541e975d64d3e270243b59d due to a
failing unit test.
Please check and correct the unit test and commit again.
llvm-svn: 252449
Scalar reloads in the generated entering block were not recognized as
dominating the subregions locks when there were multiple entering
nodes. This resulted in values defined in there not being copied.
As a fix, we unconditionally add the BBMap of the generated entering
node to the generated entry. This fixes part of llvm.org/PR25439.
llvm-svn: 252445
If a SCoP contains error blocks we cannot use the domain constraints
to simplify the assumptions as the domain is already influenced by the
assumptions we took. Before this patch we did that and some assumptions
became self-fulfilling as they were implied by the domain constraints.
llvm-svn: 252424
Even if a scalar and memory access have the same base pointer, we cannot use
one SAI object as the type but also the number of dimensions are wrong. For
the attached test case this caused a crash in the invariant load hoisting,
though it could cause various other problems too.
This fixes bug 25428 and a execution time bug in MallocBench/cfrac.
Reported-by: Jeremy Huddleston Sequoia <jeremyhu@apple.com>
llvm-svn: 252422
When we bail out early we make the partially build new code path
practically dead, though it was not unreachable. To remove dominance
problems we now make it not only dead but also prevent the control
flow to join with the original code path, thus allow to use original
values after the SCoP without any PHI nodes.
This fixes bug 25447.
llvm-svn: 252420
The bail out in r252412 left the code generation without verifying the (so
far) generated IR. This will change now and ensure we always run the
verifier.
Suggested-by: Tobias Grosser <tobias@grosser.es>
llvm-svn: 252419
While the program cannot cause a dependence cycle between invariant
loads, additional constraints (e.g., to ensure finite loops) can
introduce them. It is hard to detect them in the SCoP description,
thus we will only check for them at code generation time. If such a
recursion is detected we will bail out the code generation and place a
"false" runtime check to guarantee the original code is used.
This fixes bug 25443.
llvm-svn: 252412
After loop versioning, a dominance check of a non-affine subregion's
exit node causes the dominance check to always fail on any block in the
subregion if it shares the same exit block with the scop. The
subregion's exit block has become polly_merge_new_and_old, which also
receives the control flow of the generated code. This would cause that
any value for implicit stores is assumed to be not from the scop.
We check dominance with the generated exit node instead.
This fixes llvm.org/PR25438
llvm-svn: 252375
Remove all the implicit ilist iterator conversions from polly, in
preparation for making them illegal in ADT. There was one oddity I came
across: at line 95 of lib/CodeGen/LoopGenerators.cpp, there was a
post-increment `Builder.GetInsertPoint()++`.
Since it was a no-op, I removed it, but I admit I wonder if it might be
a bug (both before and after this change)? Perhaps it should be a
pre-increment?
llvm-svn: 252357
We were adding all generated values in non-affine subregions to be used
for the subregions generated exit block. The thought was that only
values that are dominating the original exit block can be used there.
But it is possible for synthesizable values to be expanded in any
block. If the same values is also used for implicit writes, it would
try to reuse already synthesized values even if not dominating the exit
block.
The fix is to only add values to the list of values usable in the exit
block only if it is dominating the exit block. This fixes
llvm.org/PR25412.
llvm-svn: 252301
Before this commit memory reference identifiers have only been unique per
basic block, but not per (non-affine) ScopStmt. This commit now uses the
MemoryAccess base pointer to uniquely identify each Memory access.
llvm-svn: 252200
For generating scalar writes of non-affine subregions, all except phi
writes are generated in the exit block. The phi writes are generated in
the incoming block for which we errornously used the same BBMap. This
can conflict if a value for one block is synthesized, and then reused
for another block which is not dominated by the first block. This is
fixed by using block-specific BBMaps for phi writes.
llvm-svn: 252172
An incoming value from a block the is not inside the scop is an
external use, even if the phi is inside the scop. A previous fix in
r251208 did not apply if the phi is inside a non-affine subregion. We
move the check for this phi case before the non-affine subregion check.
llvm-svn: 252157
To simplify and correct the preloading of a base pointer origin, e.g.,
the base pointer for the current indirect invariant load, we now just
check if there is an invariant access class that involves the base
pointer of the current class.
llvm-svn: 251962
We do not need to model read-only statements in the SCoP as they will
not cause any side effects that are visible to the outside anyway.
Removing them should safe us time and might even simplify the ASTs we
generate.
Differential Revision: http://reviews.llvm.org/D14272
llvm-svn: 251948
If a base pointer of a preloaded value has a base pointer origin, thus it is
an indirect invariant load, we have to make sure the base pointer origin is
preloaded first.
llvm-svn: 251946
ScalarEvolution doesn't allow the operands of an AddRec to be variant in the
loop of the AddRec. When we rewrite parameter SCEVs it might seem like the
new SCEV violates this property and ScalarEvolution will trigger an
assertion. To avoid this we move the start part out of an AddRec when we
rewrite it, thus avoid the operands to be possibly variant completely.
llvm-svn: 251945
If a base pointer load is preloaded, we have change the base pointer of
the derived SAI. However, as the derived SAI relationship is is
coarse grained, we need to check if we actually preloaded the base
pointer or a different element of the base pointer SAI array.
llvm-svn: 251881
In some cases different memory accesses access the very same array using a
different multi-dimensional array layout where the same dimensions have
different sizes. Instead of asserting when encountering this issue, we
gracefully bail out for this scop.
This fixes llvm.org/PR25252
llvm-svn: 251791
We remove -polly-detect-unprofitable and -polly-no-early-exit. Both have been
superseeded by -polly-process-unprofitable and were only kept as aliases for
our buildbots to continue to work. As all buildbots have been moved to the new
options, we can now remove the old ones for good.
llvm-svn: 251787
These maps are only needed during the construction of a single region statement.
Clearing them is important, as we otherwise get an assert in case some of the
referenced values are erased before the RegionGenerator is deleted.
llvm-svn: 251341
Volatile or atomic memory accesses are currently not supported. Neither did
we think about any special handling needed nor do we support the unknown
instructions the alias set tracker turns them into sometimes. Before this
patch, us not supporting unkown instructions in an alias set caused the
following assertion failures:
Assertion `AG.size() > 1 && "Alias groups should contain at least two accesses"'
failed
llvm-svn: 251234
When verifying if a scop is still valid we rerun all analysis, but did not
update DetectionContextMap. This change ensures that information, e.g. about
non-affine regions, is correctly updated
llvm-svn: 251227
the size expression.
We previously only checked if the size expression is 'undef', but allowed size
expressions of the form 'undef * undef' by accident. After this change we now
require size expressions to be affine which implies no 'undef' appears anywhere
in the expression.
llvm-svn: 251225
of the Region are external.
During code generation we split off the parts of the PHI nodes in the entry
block, which have incoming blocks that are not part of the region. As these
split-off PHI nodes then are external uses, we consequently also need to model
these uses in ScopInfo.
llvm-svn: 251208
Such PHI nodes can not only appear in the ExitBlock of the Scop, but indeed
any scalar PHI node above the scop and used in the scop is modeled as scalar
read access.
llvm-svn: 251198
This change adds code to directly code-generate multi-exit PHI nodes, instead
of trying to reuse the EscapeMap infrastructure for this. Using escape maps
adds a level of indirection that is hard to understand and - more importantly -
breaks in certain cases.
Specifically, the original code relied on simplifyRegion() to split the original
PHI node in two PHI nodes, one merging the values coming from within the scop
and a second that merges the first PHI node with the values that come from
outside the scop. To generate code the first PHI node is then just handled like
any other in-scop value that is used somewhere outside the scop. This fails for
the case where all values from inside the scop are identical, as the first PHI
node is in such cases automatically simplified and eliminated by LLVM right at
construction. As a result, there is no instruction that can be pass to the
EscapeMap handling, which means the references in the second PHI node are not
updated and may still reference values from within the original scop that do not
dominate it.
Our new code iterates directly over all modeled ScopArrayInfo objects that
represent multi-exit PHI nodes and generates code for them without relying on
the EscapeMap infrastructure. Hence, it works also for the case where the first
PHI node is eliminated.
llvm-svn: 251191
We isolate full tiles from partial tiles to be able to, for example, vectorize
loops with parametric lower and/or upper bounds.
If we use -polly-vectorizer=stripmine, we can see execution-time improvements:
correlation from 1m7361s to 0m5720s (-67.05 %), covariance from 1m5561s to
0m5680s (-63.50 %), ary3 from 2m3201s to 1m2361s (-46.72 %), CrystalMk from
8m5565s to 7m4285s (-13.18 %).
The current full/partial tile separation increases compile-time more than
necessary. As a result, we see in compile time regressions, for example, for 3mm
from 0m6320s to 0m9881s (56.34%). Some of this compile time increase is expected
as we generate more IR and consequently more time is spent in the LLVM backends.
However, a first investiagation has shown that a larger portion of compile time
is unnecessarily spent inside Polly's parallelism detection and could be
eliminated by propagating existing knowledge about vector loop parallelism.
Before enabling -polly-vectorizer=stripmine by default, it is necessary to
address this compile-time issue.
Contributed-by: Roman Gareev <gareevroman@gmail.com>
Reviewers: jdoerfert, grosser
Subscribers: grosser, #polly
Differential Revision: http://reviews.llvm.org/D13779
llvm-svn: 250809
New values were always synthesized in the block of the instruction
that needed them. This is incorrect for PHI node whose' value must be
defined in the respective incoming block. This patch temporarily moves
the builder's insert point to the incoming block while synthesizing phi
node arguments.
This fixes PR25241 (http://llvm.org/bugs/show_bug.cgi?id=25241)
llvm-svn: 250693
There are several different kinds of constants that could occur in a
branch condition, however we can only handle the most interesting one
namely constant integers. To this end we have to treat others as
non-affine.
This fixes bug 25244.
llvm-svn: 250669
We build the schedule based on a traversal of the region and accumulate
information for each loop in it. The total schedule is associated with the
loop surrounding the SCoP, though it can happen that there are blocks in the
SCoP which are part of loops that are only partially in the SCoP. Instead of
associating information with them (they are not part of the SCoP and
consequently are not modeled) we have to associate the schedule information
with the surrounding loop if any.
This fixes bug 25240.
llvm-svn: 250668
Accesses that have a relative offset (in bytes) that is not divisible
by the type size (in bytes) will be represented as empty in the SCoP
description. This is on its own not good but it also crashed the
invariant load hoisting. This patch will fix the latter problem while
the former should be addressed too.
This fixes bug 25236.
llvm-svn: 250664
Johannes Doerfert