Commit Graph

2157 Commits

Author SHA1 Message Date
Roman Gareev
23df27682a Map the new load to the base pointer of the invariant load hoisted load
Map the new load to the base pointer of the invariant load hoisted load
to be able to find the alias information for it.

Reviewed-by: Tobias Grosser <tobias@grosser.es>

Differential Revision: https://reviews.llvm.org/D30605

llvm-svn: 298507
2017-03-22 13:57:53 +00:00
Siddharth Bhat
44b6cb4e63 [DependenceInfo] change name Write to MustWrite to remove ambiguity [NFC]
"Write" is an overloaded term. In collectInfo() till buildFlow(), it is
used to mean "must writes". However, within the memory based analysis,
it is used to mean "both may and must writes". Renaming the Write
variable helps clarify this difference.

Reviewers: grosser

Tags: #polly

Differential Revision: https://reviews.llvm.org/D31181

llvm-svn: 298361
2017-03-21 11:54:08 +00:00
Tobias Grosser
29eaa16b7e Update isl to isl-0.18-395-g77701b3
This is a normal maintenance update.

llvm-svn: 298352
2017-03-21 09:12:11 +00:00
Tobias Grosser
b28f86e9e6 [CodeGen] Remove need for all parameters to be in scop context for load hoisting.
When not adding constraints on parameters using -polly-ignore-parameter-bounds,
the context may not necessarily list all parameter dimensions. To support code
generation in this situation, we now always iterate over the actual parameter
list, rather than relying on the context to list all parameter dimensions.

llvm-svn: 298197
2017-03-18 23:12:49 +00:00
Tobias Grosser
1be726a40d [IslExprBuilder] Print accessed memory locations with RuntimeDebugBuilder
After this change, enabling -polly-codegen-add-debug-printing in combination
with -polly-codegen-generate-expressions allows us to instrument the compiled
binaries to not only print the values stored and loaded to a given memory
access, but also to print the accessed location with array name and
per-dimension offset:

  MemRef_A[3][2]
  Store to  6299784: 5.000000
  MemRef_A[3][3]
  Load from 6299788: 0.000000
  MemRef_A[3][3]
  Store to  6299788: 6.000000

This can be very helpful for debugging.

llvm-svn: 298194
2017-03-18 20:54:43 +00:00
Tobias Grosser
7693b116a1 [OpenMP] Do not emit lifetime markers for context
In commit r219005 lifetime markers have been introduced to mark the lifetime of
the OpenMP context data structure. However, their use seems incorrect and
recently caused a miscompile in ASC_Sequoia/CrystalMk after r298053 which was
not at all related to r298053. r298053 only caused a change in the loop order,
as this change resulted in a different isl internal representation which caused
the scheduler to derive a different schedule. This change then caused the IR to
change, which apparently created a pattern in which LLVM exploites the lifetime
markers. It seems we are using the OpenMP context outside of the lifetime
markers. Even though CrystalMk could probably be fixed by expanding the scope of
the lifetime markers, it is not clear what happens in case the OpenMP function
call is in a loop which will cause a sequence of starting and ending lifetimes.
As it is unlikely that the lifetime markers give any performance benefit, we
just drop them to remove complexity.

llvm-svn: 298192
2017-03-18 20:10:07 +00:00
Siddharth Bhat
3e4a7d38ab [ScheduleOptimiser] fix typos in top comment [NFC]
coice -> choice
Transations -> Transactions

llvm-svn: 298095
2017-03-17 14:52:19 +00:00
Michael Kruse
89b1f94e64 Revert "Remove references to AssumptionCache. NFC."
The AssumptionCache removal of r289756 has been reverted in
r290086/r290087. A different solution has been implemented in r291671
which keeps the AssumptionCache. We can therefore use it again in Polly.

This reverts r289791.

llvm-svn: 298089
2017-03-17 13:56:53 +00:00
Siddharth Bhat
4fe11cf95f [DependenceInfo] Remove idempotent union: must-writes with may-writes [NFC]
Since may-writes are always a superset of the must-writes, there is no
point in taking a union of one with the other.

llvm-svn: 298085
2017-03-17 13:26:10 +00:00
Michael Kruse
9b91c62e3a [ScopInfo/PruneUnprofitable] Move default profitability check.
In the previous default ScopInfo applied the profitability heuristic for
scalar accesses (-polly-unprofitable-scalar-accs=true) and the
-polly-prune-unprofitable was disabled by default
(-polly-enable-prune-unprofitable=false) as that pruning was already done.

This changes switches the defaults to -polly-unprofitable-scalar-accs=true
-polly-enable-prune-unprofitable=false such that the scalar access
heuristic check is done by the pass. This allows passes between ScopInfo
and PruneUnprofitable to optimize away scalar accesses.

Without enabling such intermediate passes, there is no change in
behaviour of profitability checks in a PassManagerBuilder built
pass chain, but it allows us to cover this configuration with the
buildbots.

Suggested-by: Tobias Grosser <tobias@grosser.es>
llvm-svn: 298081
2017-03-17 13:10:05 +00:00
Michael Kruse
f3091bf4cf [PruneUnprofitable] Add -polly-prune-unprofitable pass.
ScopInfo's normal profitability heuristic considers SCoPs where all
statements have scalar writes as not profitably optimizable and
invalidate the SCoP in that case. However, -polly-delicm and
-polly-simplify may be able to remove some of the scalar writes such
that the flag -polly-unprofitable-scalar-accs=false allows disabling
that part of the heuristic.

In cases where DeLICM (or other passes after ScopInfo) are not
successful in removing scalar writes, the SCoP is still not profitably
optimizable. The schedule optimizer would again try computing another
schedule, resulting in slower compilation.

The -polly-prune-unprofitable pass applies the profitability heuristic
again before the schedule optimizer Polly can still bail out even with
-polly-unprofitable-scalar-accs=false.

Differential Revision: https://reviews.llvm.org/D31033

llvm-svn: 298080
2017-03-17 13:09:52 +00:00
Tobias Grosser
5842dee251 [ScopInfo] Add option to not add parameter bounds to context [NFC]
For experiments it is sometimes helpful to provide parameter bound information
to polly and to not use these parameter bounds for simplification.
Add a new option "-polly-ignore-parameter-bounds" which does precisely this.

llvm-svn: 298077
2017-03-17 13:00:53 +00:00
Siddharth Bhat
db5dd14cbb [DependenceInfo] Replace use of deprecated isl_dim_n_out [NFC]
Change isl_dim_n_out to isl_map_dim(*, isl_dim_out)

llvm-svn: 298075
2017-03-17 12:59:01 +00:00
Siddharth Bhat
65f3d5201e [DependenceInfo] Track may-writes and build flow information in
Dependences::calculateDependences.

This ensures that we handle may-writes correctly when building
dependence information. Also add a test case checking correctness of
may-write information. Not handling it before was an oversight.

Differential Revision: https://reviews.llvm.org/D31075

llvm-svn: 298074
2017-03-17 12:31:28 +00:00
Tobias Grosser
8a6e605e96 [ScopInfo] Do not take inbounds assumptions [NFC]
For experiments it is sometimes helpful to not take any inbounds assumptions.
Add a new option "-polly-ignore-inbounds" which does precisely this.

llvm-svn: 298073
2017-03-17 12:26:58 +00:00
Tobias Grosser
b58ed8d3cd [ScopInfo] Do not try to eliminate parameter dimensions that do not exist
In subsequent changes we will make Polly a little bit more lazy in adding
parameter dimensions to different sets. As a result, not all parameters will
always be part of the parameter space. This change ensures that we do not use
the '-1' returned when a parameter dimension cannot be found, but instead
just do not try to eliminate the anyhow non-existing dimension.

llvm-svn: 298054
2017-03-17 09:02:53 +00:00
Tobias Grosser
941cb7d979 [ScopInfo] Do not expand getDomains() to full parameter space.
Since several years, isl can perform most operations on sets with differing
parameter spaces, by expanding the parameter space on demand relying using
named isl ids to distinguish different parameter dimensions.

By not always expanding to full dimensionality the set remain smaller and can
likely be operated on faster. This change by itself did not yet result in
measurable performance benefits, but it is a step into the right direction
needed to ensure that subsequent changes indeed can work with lower-dimensional
sets and these sets do not get blown up by accident when later intersected with
the domain context.

llvm-svn: 298053
2017-03-17 09:02:50 +00:00
Tobias Grosser
f4fe34bfb8 Update to isl-0.18-387-g3fa6191
This is a normal / regular maintenance update.

llvm-svn: 297999
2017-03-16 21:33:20 +00:00
Siddharth Bhat
65c4026992 Set Dependences::RED to be non-null once Dependences::calculateDependences()
occurs, even if there is no actual reduction. This ensures correctness
with isl operations.

llvm-svn: 297981
2017-03-16 20:06:49 +00:00
Michael Kruse
5545407fa4 [ScopInfo] Introduce ScopStmt::getSurroundingLoop(). NFC.
Introduce ScopStmt::getSurroundingLoop() to replace getFirstNonBoxedLoopFor.

getSurroundingLoop() returns the precomputed surrounding/first non-boxed
loop. Except in ScopDetection, the list of boxed loops is only used to
get the surrounding loop. getFirstNonBoxedLoopFor also requires LoopInfo
at every use which is not necessarily available everywhere where we may
want to use it.

Differential Revision: https://reviews.llvm.org/D30985

llvm-svn: 297899
2017-03-15 22:16:43 +00:00
Tobias Grosser
d614b3e6bd Preserve the isl-noexceptions.h C++ bindings when updating isl
The bindings currently need to be generated manually, as they are not yet
part of the official isl distribution. Hence, we keep them across updates
assuming they only need to be updated when new functions or functionality
should be exposed.

llvm-svn: 297710
2017-03-14 07:46:28 +00:00
Tobias Grosser
9c19a0e16a Add back header file that was accidentally dropped in previous update
llvm-svn: 297709
2017-03-14 07:39:05 +00:00
Tobias Grosser
593ebdfbd1 Update to isl-0.18-369-g5e613c6
This is a regular maintenance update.

llvm-svn: 297708
2017-03-14 07:33:26 +00:00
Tobias Grosser
c9d4cb2f42 [ScheduleOptimizer] Allow tiling after fusion
In ScheduleOptimizer::isTileableBand(), allow the case in which
the band node's child is an isl_schedule_sequence_node and its
grandchildren isl_schedule_leaf_nodes. This case can arise when
two or more statements are fused by the isl scheduler.

The tile_after_fusion.ll test has two statements in separate
loop nests and checks whether they are tiled after being fused
when polly-opt-fusion equals "max".

Reviewers: grosser

Subscribers: gareevroman, pollydev

Tags: #polly

Contributed-by: Theodoros Theodoridis <theodort@student.ethz.ch>

Differential Revision: https://reviews.llvm.org/D30815

llvm-svn: 297587
2017-03-12 19:02:31 +00:00
Tobias Grosser
de244eb450 Possible error in doc comment
If a SCoP is most probably sequential, then it's better to run it on a CPU.
Hence, there's no point in running it on a GPU.

Reviewers: grosser

Subscribers: nemanjai

Tags: #polly

Contributed-by: Singapuram Sanjay <singapuram.sanjay@gmail.com>

Differential Revision: https://reviews.llvm.org/D30864

llvm-svn: 297578
2017-03-12 08:19:01 +00:00
Tobias Grosser
b2347dc241 [isl++] Add missing /* implicit */ marker
llvm-svn: 297577
2017-03-12 08:17:50 +00:00
Tobias Grosser
5ac963743f [isl++] Add last set of missing isl:: prefixes to increase consistency [NFC]
llvm-svn: 297558
2017-03-11 07:58:12 +00:00
Tobias Grosser
d67d368e12 [isl++] Add namespace prefixes to isl::ctx and isl::stat
These were missed in r297478. We add them for consistency.

llvm-svn: 297520
2017-03-10 22:10:19 +00:00
Tobias Grosser
30a06dce68 [isl++] Drop warning about experimental status
As most discussions about these bindings have concluded and only the final
patch review on the isl mailing list is missing, we drop the experimental
warning tag to match the patchset we will submit to isl, which is expected to
not change notably any more.

llvm-svn: 297519
2017-03-10 22:10:15 +00:00
Tobias Grosser
9839774e5d [isl++] Do not use enum prefix
Instead of declaring a function as:

  inline val plain_get_val_if_fixed(enum dim type, unsigned int pos) const;

we use:

  inline isl::val plain_get_val_if_fixed(isl::dim type, unsigned int pos) const;

The first argument caused the following compile time error on windows:

  "error C3431: 'dim': a scoped enumeration cannot be redeclared as an
  unscoped enumeration"

In some cases it is sufficient to just drop the 'enum' prefix, but for example
for isl::set the 'enum class dim' type collides with the function name
isl::set::dim and can consequently not be referenced. To avoid such kind of
ambiguities in the future we add the isl:: prefix consistently to all types
used.

Reported-by: Michael Kruse <llvm@meinersbur.de>
llvm-svn: 297478
2017-03-10 17:01:30 +00:00
Michael Kruse
0446d81e2d [Simplify] Add -polly-simplify pass.
This new pass removes unnecessary accesses and writes. It currently
supports 2 simplifications, but more are planned.

It removes write accesses that write a loaded value back to the location
it was loaded from. It is a typical artifact from DeLICM. Removing it
will get rid of bogus dependencies later in dependency analysis.

It also removes statements without side-effects. ScopInfo already
removes these, but the removal of unnecessary writes can result in
more side-effect free statements.

Differential Revision: https://reviews.llvm.org/D30820

llvm-svn: 297473
2017-03-10 16:05:24 +00:00
Tobias Grosser
3e618c33fe [DeadCodeElimination] Translate to C++ bindings
This pass is a small and self-contained example of a piece of code that was
written with the isl C interface. The diff of this change nicely shows how the
C++ bindings can improve the readability of the code by avoiding the long C
function names and by avoiding any need for memory management.

As you will see, no calls to isl_*_copy or isl_*_free are needed anymore.
Instead the C++ interface takes care of automatically managing the objects.
This may introduce internally additional copies, but due to the isl reference
counting, such copies are expected to be cheap. For performance critical
operations, we will later exploit move semantics to eliminate unnecessary
copies that have shown to be costly.

Below we give a set of examples that shows the benefit of the C++ interface vs.
the pure C interface.

Check properties
----------------

Before:

  if (isl_aff_is_zero(aff) ||  isl_aff_is_one(aff))
    return true;

After:

  if (Aff.is_zero() || Aff.is_one())
    return true;

Type conversion
---------------

Before:

  isl_union_pw_multi_aff *UPMA = isl_union_pw_multi_aff_from_union_map(umap);

After:

  isl::union_pw_multi_aff UPMA = UMap;

Type construction
-----------------

Before:

  auto *Empty = isl_union_map_empty(space);

After:

  auto Empty = isl::union_map::empty(Space);

Operations
----------

Before:

  set = isl_union_set_intersect(set, set2);

After:

  Set = Set.intersect(Set2);

The use of isl::boolean in return types also adds an increases the robustness
of Polly, as on conversion to true or false, we verify that no isl_bool_error
has been returned and assert in case an error was returned. Before this change
we would have just ignored the error and proceeded with (some) exection path.

Tags: #polly

Reviewed By: Meinersbur

Differential Revision: https://reviews.llvm.org/D30619

llvm-svn: 297466
2017-03-10 15:05:38 +00:00
Tobias Grosser
51ebda8c9d [FlattenAlgo] Translate to C++ bindings
Translate the full algorithm to use the new isl C++ bindings

This is a large piece of code that has been written with the Polly IslPtr<>
memory management tool, which only performed memory management, but did not
provide a method interface. As such the code was littered with calls to
give(), copy(), keep(), and take(). The diff of this change should give a
good example how the new method interface simplifies the code by removing the
need for switching between managed types and C functions all the time
and consequently also the need to use the long C function names.

These are a couple of examples comparing the old IslPtr memory management
interface with the complete method interface.

Check properties
----------------

Before:

  if (isl_aff_is_zero(Aff.get()) ||  isl_aff_is_one(Aff.get()))
    return true;

After:

  if (Aff.is_zero() || Aff.is_one())
    return true;

Type conversion
---------------

Before:

  isl_union_pw_multi_aff *UPMA =
      give(isl_union_pw_multi_aff_from_union_map(UMap.copy());

After:

  isl::union_pw_multi_aff UPMA = UMap;

Type construction
-----------------

Before:

  auto Empty = give(isl_union_map_empty(Space.copy());

After:

  auto Empty = isl::union_map::empty(Space);

Operations
----------

Before:

  Set = give(isl_union_set_intersect(Set.copy(), Set2.copy());

After:

  Set = Set.intersect(Set2);

Tags: #polly

Reviewed By: Meinersbur

Differential Revision: https://reviews.llvm.org/D30617

llvm-svn: 297463
2017-03-10 14:55:58 +00:00
Tobias Grosser
4c24e57965 Add method interface to isl C++ bindings
The isl C++ binding method interface introduces a thin C++ layer that allows
to call isl methods directly on the memory managed C++ objects. This makes the
relevant methods directly available via code-completion interfaces, allows for
the use of overloading, conversion constructors, and many other nice C++
features that make using isl a lot easier.

The individual features will be highlighted in the subsequent commits.

Tags: #polly

Reviewed By: Meinersbur

Differential Revision: https://reviews.llvm.org/D30616

llvm-svn: 297462
2017-03-10 14:53:00 +00:00
Tobias Grosser
deaef15f52 Introduce isl C++ bindings, Part 1: value_ptr style interface
Over the last couple of months several authors of independent isl C++ bindings
worked together to jointly design an official set of isl C++ bindings which
combines their experience in developing isl C++ bindings. The new bindings have
been designed around a value pointer style interface and remove the need for
explicit pointer managenent and instead use C++ language features to manage isl
objects.

This commit introduces the smart-pointer part of the isl C++ bindings and
replaces the current IslPtr<T> classes, which served the very same purpose, but
had to be manually maintained. Instead, we now rely on automatically generated
classes for each isl object, which provide value_ptr semantics.

An isl object has the following smart pointer interface:

    inline set manage(__isl_take isl_set *ptr);

    class set {
      friend inline set manage(__isl_take isl_set *ptr);
      isl_set *ptr = nullptr;
      inline explicit set(__isl_take isl_set *ptr);

    public:
      inline set();
      inline set(const set &obj);
      inline set &operator=(set obj);
      inline ~set();
      inline __isl_give isl_set *copy() const &;
      inline __isl_give isl_set *copy() && = delete;
      inline __isl_keep isl_set *get() const;
      inline __isl_give isl_set *release();
      inline bool is_null() const;
    }

The interface and behavior of the new value pointer style classes is inspired
by http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2012/n3339.pdf, which
proposes a std::value_ptr, a smart pointer that applies value semantics to its
pointee.

We currently only provide a limited set of public constructors and instead
require provide a global overloaded type constructor method "isl::obj
isl::manage(isl_obj *)", which allows to convert an isl_set* to an isl::set by
calling 'S = isl::manage(s)'. This pattern models the make_unique() constructor
for unique pointers.

The next two functions isl::obj::get() and isl::obj::release() are taken
directly from the std::value_ptr proposal:

S.get() extracts the raw pointer of the object managed by S.
S.release() extracts the raw pointer of the object managed by S and sets the
object in S to null.

We additionally add std::obj::copy(). S.copy() returns a raw pointer refering
to a copy of S, which is a shortcut for "isl::obj(oldobj).release()", a
functionality commonly needed when interacting directly with the isl C
interface where all methods marked with __isl_take require consumable raw
pointers.

S.is_null() checks if S manages a pointer or if the managed object is currently
null. We add this function to provide a more explicit way to check if the
pointer is empty compared to a direct conversion to bool.

This commit also introduces a couple of polly-specific extensions that cover
features currently not handled by the official isl C++ bindings draft, but
which have been provided by IslPtr<T> and are consequently added to avoid code
churn. These extensions include:

	- operator bool() : Conversion from objects to bool
	- construction from nullptr_t
	- get_ctx() method
	- take/keep/give methods, which match the currently used naming
	  convention of IslPtr<T> in Polly. They just forward to
	  (release/get/manage).
	- raw_ostream printers

We expect that these extensions are over time either removed or upstreamed to
the official isl bindings.

We also export a couple of classes that have not yet been exported in isl (e.g.,
isl::space)

As part of the code review, the following two questions were asked:

- Why do we not use a standard smart pointer?

std::value_ptr was a proposal that has not been accepted. It is consequently
not available in the standard library. Even if it would be available, we want
to expand this interface with a complete method interface that is conveniently
available from each managed pointer. The most direct way to achieve this is to
generate a specialiced value style pointer class for each isl object type and
add any additional methods to this class. The relevant changes follow in
subsequent commits.

- Why do we not use templates or macros to avoid code duplication?

It is certainly possible to use templates or macros, but as this code is
auto-generated there is no need to make writing this code more efficient. Also,
most of these classes will be specialized with individual member functions in
subsequent commits, such that there will be little code reuse to exploit. Hence,
we decided to do so at the moment.

These bindings are not yet officially part of isl, but the draft is already very
stable. The smart pointer interface itself did not change since serveral months.
Adding this code to Polly is against our normal policy of only importing
official isl code. In this case however, we make an exception to showcase a
non-trivial use case of these bindings which should increase confidence in these
bindings and will help upstreaming them to isl.

Tags: #polly

Reviewed By: Meinersbur

Differential Revision: https://reviews.llvm.org/D30325

llvm-svn: 297452
2017-03-10 11:41:03 +00:00
Tobias Grosser
e5671e54c0 Update to isl-0.18-356-g0b05d01
This is a regular maintenance update.

llvm-svn: 297449
2017-03-10 09:17:55 +00:00
Michael Kruse
e4292bf086 [Support] Add -polly-dump-module pass.
This pass allows writing the LLVM-IR just before and after the Polly
passes to a file.

Dumping the IR before Polly helps reproducing bugs that occur in code
generated by clang. It is the only reliable way to get the IR that
triggers a bug. The alternative is to emit the IR with

    clang -c -emit-llvm -S -o dump.ll

then pass it through all optimization passes

    opt dump.ll -basicaa -sroa ... -S -o optdump.ll

to then reproduce the error with

    opt optdump.ll -polly-opt-isl -polly-codegen -analyze

However, the IR is not the same. -O3 uses a PassBuilder than creates passes
with different parameters than the default.

Dumping the IR after Polly is useful to compare a miscompilation with
a known-good configuration.

Differential Revision: https://reviews.llvm.org/D30788

llvm-svn: 297415
2017-03-09 22:29:58 +00:00
Tobias Grosser
8bd7f3c0a5 [ScopDetect/Info] Allow unconditional hoisting of loads from dereferenceable ptrs
In case LLVM pointers are annotated with !dereferencable attributes/metadata
or LLVM can look at the allocation from which a pointer is derived, we can know
that dereferencing pointers is safe and can be done unconditionally. We use this
information to proof certain pointers as save to hoist and then hoist them
unconditionally.

llvm-svn: 297375
2017-03-09 11:36:00 +00:00
Michael Kruse
9fb3ab1b19 [DeLICM] Add -polly-delicm-overapproximate-writes option.
One of the current limitations of DeLICM is that it only creates
PHI WRITEs that it knows are read by some PHI. Such writes may not span
all instances of a statement. Polly's code generator currently does not
support MemoryAccesses that are not executed in all instances
('partial accesses') and so has to give up on a possible mapping.

This workaround has once been suggested by Tobias Grosser: Try to
interpolate an arbitrary expansion to all instances. It will be checked
for possible conflicts with the existing Knowledge and can be applied if
the conflict checking result is that no semantics are changed.

Expansion is done by simplifying the mapping by coalescing with the hope
that coalescing will find a polyhedral 'rule' of the relevant map. It is
then 'gist'-ed using the domain of the relevant instances such that the
rule is expanded to the universe and finally intersected with the domain
of all statement instances.

The expansion makes conflicts become more likely, the found rule may
still not encompass all statement instances and the found rule exposes
internals of isl's implementation of coalesce and gist. The latter means
that the result depends on how much effort the implementation invests
into finding a rule which may change between versions of isl. Trivial
implementations of gist and coalesce just return the input arguments.

A patch that makes codegen support partial accesses is in preparation
as well.

Differential Revision: https://reviews.llvm.org/D30763

llvm-svn: 297373
2017-03-09 11:23:22 +00:00
Michael Kruse
935b2a3654 [DeadCodeElim] Put -polly-dce-precise-steps into the Polly category.
llvm-svn: 297318
2017-03-08 23:25:35 +00:00
Michael Kruse
6744efa8d8 [ScopDetection] Only allow SCoP-wide available base pointers.
Simplify ScopDetection::isInvariant(). Essentially deny everything that
is defined within the SCoP and is not load-hoisted.

The previous understanding of "invariant" has a few holes:

- Expressions without side-effects with only invariant arguments, but
  are defined withing the SCoP's region with the exception of selects
  and PHIs. These should be part of the index expression derived by
  ScalarEvolution and not of the base pointer.

- Function calls with that are !mayHaveSideEffects() (typically
  functions with "readnone nounwind" attributes). An example is given
  below.

      @C = external global i32
      declare float* @getNextBasePtr(float*) readnone nounwind
      ...
      %ptr = call float* @getNextBasePtr(float* %A, float %B)

  The call might return:

  * %A, so %ptr aliases with it in the SCoP
  * %B, so %ptr aliases with it in the SCoP
  * @C, so %ptr aliases with it in the SCoP
  * a new pointer everytime it is called, such as malloc()
  * a pointer into the allocated block of one of the aforementioned
  * any of the above, at random at each call

  Hence and contrast to a comment in the base_pointer.ll regression
  test, %ptr is not necessarily the same all the time. It might also
  alias with anything and no AliasAnalysis can tell otherwise if the
  definition is external. It is hence not suitable in the role of a
  base pointer.

The practical problem with base pointers defined in SCoP statements is
that it is not available globally in the SCoP. The statement instance
must be executed first before the base pointer can be used. This is no
problem if the base pointer is transferred as a scalar value between
statements. Uses of MemoryAccess::setNewAccessRelation may add a use of
the base pointer anywhere in the array. setNewAccessRelation is used by
JSONImporter, DeLICM and D28518. Indeed, BlockGenerator currently
assumes that base pointers are available globally and generates invalid
code for new access relation (referring to the base pointer of the
original code) if not, even if the base pointer would be available in
the statement.

This could be fixed with some added complexity and restrictions. The
ExprBuilder must lookup the local BBMap and code that call
setNewAccessRelation must check whether the base pointer is available
first.

The code would still be incorrect in the presence of aliasing. There
is the switch -polly-ignore-aliasing to explicitly allow this, but
it is hardly a justification for the additional complexity. It would
still be mostly useless because in most cases either getNextBasePtr()
has external linkage in which case the readnone nounwind attributes
cannot be derived in the translation unit itself, or is defined in the
same translation unit and gets inlined.

Reviewed By: grosser

Differential Revision: https://reviews.llvm.org/D30695

llvm-svn: 297281
2017-03-08 15:14:46 +00:00
Michael Kruse
5a4ec5c42b [ScopDetection] Require LoadInst base pointers to be hoisted.
Only when load-hoisted we can be sure the base pointer is invariant
during the SCoP's execution. Most of the time it would be added to
the required hoists for the alias checks anyway, except with
-polly-ignore-aliasing, -polly-use-runtime-alias-checks=0 or if
AliasAnalysis is already sure it doesn't alias with anything
(for instance if there is no other pointer to alias with).

Two more parts in Polly assume that this load-hoisting took place:
- setNewAccessRelation() which contains an assert which tests this.
- BlockGenerator which would use to the base ptr from the original
  code if not load-hoisted (if the access expression is regenerated)

Differential Revision: https://reviews.llvm.org/D30694

llvm-svn: 297195
2017-03-07 20:28:43 +00:00
Tobias Grosser
a0b85963ba Update isl to isl-0.18-336-g1e193d9
This is a regular maintenance update

llvm-svn: 297169
2017-03-07 17:53:34 +00:00
Tobias Grosser
ce69e7b593 [ScopInfo] Avoid infinite loop during schedule construction
Our current scop modeling enters an infinite loop when trying to model code
that has unreachable instructions (e.g.,
test/ScopInfo/BoundChecks/single-loop.ll), as the number of basic blocks
returned by the LLVM Loop* does not include unreachable basic blocks that
branch off from the core loop body. This arises for example in the following
piece of code:

  for (i = 0; i < N; i++) {
    if (i > 1024)
      abort();            <- this abort might be translated to an
                             unreachable

    A[i] = ...
  }

This patch adds these unreachable basic blocks in our per loop basic block
count to ensure that the schedule construction does not assume a loop has been
processed completely, despite certain unreachable basic blocks still remaining.

The infinite loop is only observable in combination with
https://reviews.llvm.org/D12676 or a similar patch.

llvm-svn: 297156
2017-03-07 16:17:55 +00:00
Tobias Grosser
134a572951 [ScopDetection] Do not detect scops that exit to an unreachable
Scops that exit with an unreachable are today still permitted, but make little
sense to optimize. We therefore can already skip them during scop detection.
This speeds up scop detection in certain cases and also ensures that bugpoint
does not introduce unreachables when reducing test cases.

In practice this change should have little impact, as the performance of
unreachable code is unlikely to matter.

This commit is part of a series that makes Polly more robust in the presence
of unreachables.

llvm-svn: 297151
2017-03-07 15:50:43 +00:00
Tobias Grosser
1c787e0b49 [ScopDetection] Do not allow required-invariant loads in non-affine region
These loads cannot be savely hoisted as the condition guarding the
non-affine region cannot be duplicated to also protect the hoisted load
later on. Today they are dropped in ScopInfo. By checking for this early, we
do not even try to model them and possibly can still optimize smaller regions
not containing this specific required-invariant load.

llvm-svn: 296744
2017-03-02 12:15:37 +00:00
Tobias Grosser
c2f151084d [ScopInfo] Disable memory folding in case it results in multi-disjunct relations
Multi-disjunct access maps can easily result in inbound assumptions which
explode in case of many memory accesses and many parameters. This change reduces
compilation time of some larger kernel from over 15 minutes to less than 16
seconds.

Interesting is the test case test/ScopInfo/multidim_param_in_subscript.ll
which has a memory access

  [n] -> { Stmt_for_body3[i0, i1] -> MemRef_A[i0, -1 + n - i1] }

which requires folding, but where only a single disjunct remains. We can still
model this test case even when only using limited memory folding.

For people only reading commit messages, here the comment that explains what
memory folding is:

To recover memory accesses with array size parameters in the subscript
expression we post-process the delinearization results.

We would normally recover from an access A[exp0(i) * N + exp1(i)] into an
array A[][N] the 2D access A[exp0(i)][exp1(i)]. However, another valid
delinearization is A[exp0(i) - 1][exp1(i) + N] which - depending on the
range of exp1(i) - may be preferrable. Specifically, for cases where we
know exp1(i) is negative, we want to choose the latter expression.

As we commonly do not have any information about the range of exp1(i),
we do not choose one of the two options, but instead create a piecewise
access function that adds the (-1, N) offsets as soon as exp1(i) becomes
negative. For a 2D array such an access function is created by applying
the piecewise map:

[i,j] -> [i, j] :      j >= 0
[i,j] -> [i-1, j+N] :  j <  0

After this patch we generate only the first case, except for situations where
we can proove the first case to be invalid and can consequently select the
second without introducing disjuncts.

llvm-svn: 296679
2017-03-01 21:11:27 +00:00
Tobias Grosser
24222c7357 Fix namespaces after clang-format update
llvm-svn: 296635
2017-03-01 15:54:27 +00:00
Tobias Grosser
d7c4975349 [ScopInfo] Simplify inbounds assumptions under domain constraints
Without this simplification for a loop nest:

  void foo(long n1_a, long n1_b, long n1_c, long n1_d,
           long p1_b, long p1_c, long p1_d,
           float A_1[][p1_b][p1_c][p1_d]) {
    for (long i = 0; i < n1_a; i++)
      for (long j = 0; j < n1_b; j++)
        for (long k = 0; k < n1_c; k++)
          for (long l = 0; l < n1_d; l++)
            A_1[i][j][k][l] += i + j + k + l;
 }

the assumption:

  n1_a <= 0 or (n1_a > 0 and n1_b <= 0) or
  (n1_a > 0 and n1_b > 0 and n1_c <= 0) or
  (n1_a > 0 and n1_b > 0 and n1_c > 0 and n1_d <= 0) or
  (n1_a > 0 and n1_b > 0 and n1_c > 0 and n1_d > 0 and
   p1_b >= n1_b and p1_c >= n1_c and p1_d >= n1_d)

is taken rather than the simpler assumption:

  p9_b >= n9_b and p9_c >= n9_c and p9_d >= n9_d.

The former is less strict, as it allows arbitrary values of p1_* in case, the
loop is not executed at all. However, in practice these precise constraints
explode when combined across different accesses and loops. For now it seems
to make more sense to take less precise, but more scalable constraints by
default. In case we find a practical example where more precise constraints
are needed, we can think about allowing such precise constraints in specific
situations where they help.

This change speeds up the new test case from taking very long (waited at least
a minute, but it probably takes a lot more) to below a second.

llvm-svn: 296456
2017-02-28 09:45:54 +00:00
Tobias Grosser
cf66ea3845 Update isl to isl-0.18-304-g1efe43d
This is a normal maintenance update.

llvm-svn: 296441
2017-02-28 07:06:06 +00:00