94 Commits

Author SHA1 Message Date
Mogball
ee70039ae2 [mlir] Fix handling of some region branch terminator successors
When `RegionBranchOpInterface::getSuccessorRegions` is called for anything other than the parent op, it expects the operands of the terminator of the source region to be passed, not the operands of the parent op. This was not always respected.

This fixes a bug in integer range inference and ForwardDataFlowSolver and changes `scf.while` to allow narrowing of successors using constant inputs.

Fixes #55873

Reviewed By: mehdi_amini, krzysz00

Differential Revision: https://reviews.llvm.org/D127261
2022-06-08 17:17:03 +00:00
Krzysztof Drewniak
95aff23e29 Re-land "[mlir] Add integer range inference analysis""
This reverts commit 4e5ce2056e3e85f109a074e80bdd23a10ca2bed9.

This relands commit 1350c9887dca5ba80af8e3c1e61b29d6696eb240.

Reinstates the range analysis with the build issue fixed.

Differential Revision: https://reviews.llvm.org/D126926
2022-06-03 17:13:48 +00:00
Mehdi Amini
4e5ce2056e Revert "[mlir] Add integer range inference analysis"
This reverts commit 1350c9887dca5ba80af8e3c1e61b29d6696eb240.

Shared library build is broken with undefined references.
2022-06-02 21:24:06 +00:00
Krzysztof Drewniak
1350c9887d [mlir] Add integer range inference analysis
This commit defines a dataflow analysis for integer ranges, which
uses a newly-added InferIntRangeInterface to compute the lower and
upper bounds on the results of an operation from the bounds on the
arguments. The range inference is a flow-insensitive dataflow analysis
that can be used to simplify code, such as by statically identifying
bounds checks that cannot fail in order to eliminate them.

The InferIntRangeInterface has one method, inferResultRanges(), which
takes a vector of inferred ranges for each argument to an op
implementing the interface and a callback allowing the implementation
to define the ranges for each result. These ranges are stored as
ConstantIntRanges, which hold the lower and upper bounds for a
value. Bounds are tracked separately for the signed and unsigned
interpretations of a value, which ensures that the impact of
arithmetic overflows is correctly tracked during the analysis.

The commit also adds a -test-int-range-inference pass to test the
analysis until it is integrated into SCCP or otherwise exposed.

Finally, this commit fixes some bugs relating to the handling of
region iteration arguments and terminators in the data flow analysis
framework.

Depends on D124020

Depends on D124021

Reviewed By: rriddle, Mogball

Differential Revision: https://reviews.llvm.org/D124023
2022-06-02 20:24:11 +00:00
Arnab Dutta
16219f8c94 [MLIR][GPU] Add canonicalizer for gpu.memcpy
Erase gpu.memcpy op when only uses of dest are
the memcpy op in question, its allocation and deallocation
ops.

Reviewed By: bondhugula, csigg

Differential Revision: https://reviews.llvm.org/D124257
2022-05-14 19:01:04 +05:30
Mehdi Amini
f9735be7e2 Apply clang-tidy fixes for performance-unnecessary-value-param in ControlFlowInterfaces.cpp (NFC) 2022-04-19 17:20:57 +00:00
Matthias Springer
a3005a406e [mlir][interfaces] Fix infinite loop in insideMutuallyExclusiveRegions
This function was missing a termination condition.
2022-04-19 16:28:52 +09:00
Matthias Springer
0f4ba02db3 [mlir][interfaces] Add helpers for detecting recursive regions
Add helper functions to check if an op may be executed multiple times based on RegionBranchOpInterface.

Differential Revision: https://reviews.llvm.org/D123789
2022-04-19 16:13:32 +09:00
Mogball
fa26c7ff4b [mlir] Refactor LICM into a utility
LICM is refactored into a utility that is application on any region. The implementation is moved to Transform/Utils.
2022-04-16 00:37:07 +00:00
Stella Stamenova
353f0a8e43 Revert "[mlir] Refactor LICM into a utility"
This reverts commit 3131f808243abe3746280e016ab9459c14d9e53b.

This commit broke the Windows mlir bot:
https://lab.llvm.org/buildbot/#/builders/13/builds/19745
2022-04-15 17:09:16 -07:00
Mogball
3131f80824 [mlir] Refactor LICM into a utility
LICM is refactored into a utility that is application on any region. The implementation is moved to Transform/Utils.
2022-04-15 22:07:01 +00:00
Mogball
3430ae1e7b [mlir] Update LICM to support Graph Regions
Changes the algorithm of LICM to support graph regions (no guarantee of topologically sorted order). Also fixes an issue where ops with recursive side effects and regions would not be hoisted if any nested ops used operands that were defined within the nested region.

Reviewed By: rriddle

Differential Revision: https://reviews.llvm.org/D122465
2022-04-15 17:30:27 +00:00
Jacques Pienaar
35bd41916b [mlir] Add assert to fail with more info (NFC)
This would have assert before during tensor type construction with
opaque error, assert and fail earlier now.
2022-04-14 19:54:12 -07:00
Markus Böck
0c789db541 [mlir] Add support for operation-produced successor arguments in BranchOpInterface
This patch revamps the BranchOpInterface a bit and allows a proper implementation of what was previously `getMutableSuccessorOperands` for operations, which internally produce arguments to some of the block arguments. A motivating example for this would be an invoke op with a error handling path:
```
invoke %function(%0)
  label ^success ^error(%1 : i32)

^error(%e: !error, %arg0 : i32):
  ...
```
The advantages of this are that any users of `BranchOpInterface` can still argue over remaining block argument operands (such as `%1` in the example above), as well as make use of the modifying capabilities to add more operands, erase an operand etc.

The way this patch implements that functionality is via a new class called `SuccessorOperands`, which is now returned by `getSuccessorOperands`. It basically contains an `unsigned` denoting how many operator produced operands exist, as well as a `MutableOperandRange`, which are the usual forwarded operands we are used to. The produced operands are assumed to the first few block arguments, followed by the forwarded operands afterwards. The role of `SuccessorOperands` is to provide various utility functions to modify and query the successor arguments from a `BranchOpInterface`.

Differential Revision: https://reviews.llvm.org/D123062
2022-04-08 08:28:16 +02:00
Mogball
e51652f9bf [mlir] Simplify LoopLikeOpInterface
- Adds default implementations of `isDefinedOutsideOfLoop` and `moveOutOfLoop` since 99% of all implementations of these functions were identical
- `moveOutOfLoop` takes one operation and doesn't return anything anymore. 100% of all implementations of this function would always return `success` and uses would either respond with a pass failure or an `llvm_unreachable`.
2022-03-28 18:10:04 +00:00
Markus Böck
e13d23bc6c [mlir] Rename OpAsmParser::OperandType to OpAsmParser::UnresolvedOperand
I am not sure about the meaning of Type in the name (was it meant be interpreted as Kind?), and given the importance and meaning of Type in the context of MLIR, its probably better to rename it. Given the comment in the source code, the suggestion in the GitHub issue and the final discussions in the review, this patch renames the OperandType to UnresolvedOperand.

Fixes https://github.com/llvm/llvm-project/issues/54446

Differential Revision: https://reviews.llvm.org/D122142
2022-03-21 21:42:13 +01:00
Mogball
e7c7b16a84 [mlir] Region/BranchOpInterface: Allow implicit type conversions along control-flow edges
RegionBranchOpInterface and BranchOpInterface are allowed to make implicit type conversions along control-flow edges. In effect, this adds an interface method, `areTypesCompatible`, to both interfaces, which should return whether the types of corresponding successor operands and block arguments are compatible. Users of the interfaces, here on forth, must be aware that types may mismatch, although current users (in MLIR core), are not affected by this change. By default, type equality is used.

`async.execute` already has unequal types along control-flow edges (`!async.value<f32>` vs. `f32`), but it opted out of calling `RegionBranchOpInterface::verifyTypes` in its verifier. That method has now been removed and `RegionBranchOpInterface` will verify types along control edges by default in its verifier.

Reviewed By: rriddle

Differential Revision: https://reviews.llvm.org/D120790
2022-03-04 20:33:14 +00:00
Alex Zinenko
f64170aa1d [mlir] Data layout for integer and float types
Add support for integer and float types into the data layout subsystem with
default logic similar to LLVM IR. Given the flexibility of the sybsystem, the
logic can be easily overwritten by operations if necessary. This provides the
connection necessary, e.g., for the GPU target where alignment requirements for
integers and floats differ from those provided by default (although still
compatible with the LLVM IR model). Previously, it was impossible to use
non-default alignment requirements for integer and float types, which could
lead to incorrect address and size calculations when targeting GPUs.

Depends On D120737

Reviewed By: wsmoses

Differential Revision: https://reviews.llvm.org/D120739
2022-03-02 14:56:49 +01:00
River Riddle
58e7bf78a3 [mlir] Add isa/dyn_cast support for dialect interfaces
This matches the same API usage as attributes/ops/types. For example:

```c++
Dialect *dialect = ...;

// Instead of this:
if (auto *interface = dialect->getRegisteredInterface<DialectInlinerInterface>())

// You can do this:
if (auto *interface = dyn_cast<DialectInlinerInterface>(dialect))
```

Differential Revision: https://reviews.llvm.org/D117859
2022-01-31 19:24:34 -08:00
River Riddle
63b8018468 [mlir:LoopLikeInterface] Add missing dependency on SideEffectInterfaces
This was missed when moveLoopInvariantCode was added.
2022-01-24 21:13:31 -08:00
River Riddle
a70aa7bb0d [mlir:Transforms] Move out the remaining non-dialect independent transforms and utilities
This has been a major TODO for a very long time, and is necessary for establishing a proper
dialect-free dependency layering for the Transforms library. Code was moved to effectively
two main locations:

* Affine/
There was quite a bit of affine dialect related code in Transforms/ do to historical reasons
(of a time way into MLIR's past). The following headers were moved to:
Transforms/LoopFusionUtils.h -> Dialect/Affine/LoopFusionUtils.h
Transforms/LoopUtils.h -> Dialect/Affine/LoopUtils.h
Transforms/Utils.h -> Dialect/Affine/Utils.h

The following transforms were also moved:
AffineLoopFusion, AffinePipelineDataTransfer, LoopCoalescing

* SCF/
Only one SCF pass was in Transforms/ (likely accidentally placed here): ParallelLoopCollapsing
The SCF specific utilities in LoopUtils have been moved to SCF/Utils.h

* Misc:
mlir::moveLoopInvariantCode was also moved to LoopLikeInterface.h given
that it is a simple utility defined in terms of LoopLikeOpInterface.

Differential Revision: https://reviews.llvm.org/D117848
2022-01-24 19:25:53 -08:00
River Riddle
5ef7abbc6f [mlir:TiingInterface] Remove unnecessary include of Tensor.h
Interfaces in Interfaces/ should not depend on any dialects, and this include
is unnecessary anyways.
2022-01-20 13:10:44 -08:00
Eugene Zhulenev
69bc334be5 [mlir] Remove getNumberOfExecutions from RegionBranchOpInterface
`getNumRegionInvocations` was originally added for the async reference counting, but turned out to be not useful, and currently is not used anywhere (couldn't find any uses in public github repos). Removing dead code.

Reviewed By: Mogball, mehdi_amini

Differential Revision: https://reviews.llvm.org/D117347
2022-01-14 13:15:27 -08:00
Ivan Butygin
b65f21a498 [mlir] Provide getMixedOffsets/sizes/strides as free functions
* This is useful when you need to build mixed array from external static/dynamic arrays (e.g. from adaptor during dialect conversion)
* Also, to reduce C++ code in td and generated files

Differential Revision: https://reviews.llvm.org/D117106
2022-01-13 13:46:31 +03:00
Nicolas Vasilache
d0ee094d6a [mlir][Bufferize] Fix incorrect bufferization of rank-reducing tensor ops.
This revision fixes SubviewOp, InsertSliceOp, ExtractSliceOp construction during bufferization
where not all offset/size/stride operands were properly specified.

A test that exhibited problematic behaviors related to incorrect memref casts is introduced.
Init tensor optimization is disabled in teh testing func bufferize pass.

Differential Revision: https://reviews.llvm.org/D116899
2022-01-10 10:14:55 -05:00
Mehdi Amini
e4853be2f1 Apply clang-tidy fixes for performance-for-range-copy to MLIR (NFC) 2022-01-02 22:19:56 +00:00
MaheshRavishankar
7df7586a0b [mlir][MemRef] Deprecate unspecified trailing offset, size, and strides semantics of OffsetSizeAndStrideOpInterface.
The semantics of the ops that implement the
`OffsetSizeAndStrideOpInterface` is that if the number of offsets,
sizes or strides are less than the rank of the source, then some
default values are filled along the trailing dimensions (0 for offset,
source dimension of sizes, and 1 for strides). This is confusing,
especially with rank-reducing semantics. Immediate issue here is that
the methods of `OffsetSizeAndStridesOpInterface` assumes that the
number of values is same as the source rank. This cause out-of-bounds
errors.

So simplifying the specification of `OffsetSizeAndStridesOpInterface`
to make it invalid to specify number of offsets/sizes/strides not
equal to the source rank.

Differential Revision: https://reviews.llvm.org/D115677
2021-12-29 11:18:29 -08:00
Mehdi Amini
02b6fb218e Fix clang-tidy issues in mlir/ (NFC)
Reviewed By: ftynse

Differential Revision: https://reviews.llvm.org/D115956
2021-12-20 20:25:01 +00:00
Nicolas Vasilache
c537a94334 [mlir][Vector] Thread 0-d vectors through vector.transfer ops
This revision adds 0-d vector support to vector.transfer ops.
In the process, numerous cleanups are applied, in particular around normalizing
and reducing the number of builders.

Reviewed By: ThomasRaoux, springerm

Differential Revision: https://reviews.llvm.org/D114803
2021-12-01 16:49:43 +00:00
Matthias Springer
a5c2f78287 [mlir][interfaces] Add insideMutuallyExclusiveRegions helper
Add a helper function to ControlFlowInterfaces for checking if two ops
are in mutually exclusive regions according to RegionBranchOpInterface.

Utilize this new helper in Linalg ComprehensiveBufferize. This makes the
analysis independent of the SCF dialect and generalizes it to other ops
that implement RegionBranchOpInterface.

Differential Revision: https://reviews.llvm.org/D114220
2021-11-25 17:44:39 +09:00
River Riddle
195730a650 [mlir][NFC] Replace references to Identifier with StringAttr
This is part of the replacement of Identifier with StringAttr.

Differential Revision: https://reviews.llvm.org/D113953
2021-11-16 17:36:26 +00:00
River Riddle
120591e126 [mlir] Replace usages of Identifier with StringAttr
Identifier and StringAttr essentially serve the same purpose, i.e. to hold a string value. Keeping these seemingly identical pieces of functionality separate has caused problems in certain situations:

* Identifier has nice accessors that StringAttr doesn't
* Identifier can't be used as an Attribute, meaning strings are often duplicated between Identifier/StringAttr (e.g. in PDL)

The only thing that Identifier has that StringAttr doesn't is support for caching a dialect that is referenced by the string (e.g. dialect.foo). This functionality is added to StringAttr, as this is useful for StringAttr in generally the same ways it was useful for Identifier.

Differential Revision: https://reviews.llvm.org/D113536
2021-11-11 02:02:24 +00:00
River Riddle
ae40d62541 [mlir] Refactor ElementsAttr's value access API
There are several aspects of the API that either aren't easy to use, or are
deceptively easy to do the wrong thing. The main change of this commit
is to remove all of the `getValue<T>`/`getFlatValue<T>` from ElementsAttr
and instead provide operator[] methods on the ranges returned by
`getValues<T>`. This provides a much more convenient API for the value
ranges. It also removes the easy-to-be-inefficient nature of
getValue/getFlatValue, which under the hood would construct a new range for
the type `T`. Constructing a range is not necessarily cheap in all cases, and
could lead to very poor performance if used within a loop; i.e. if you were to
naively write something like:

```
DenseElementsAttr attr = ...;
for (int i = 0; i < size; ++i) {
  // We are internally rebuilding the APFloat value range on each iteration!!
  APFloat it = attr.getFlatValue<APFloat>(i);
}
```

Differential Revision: https://reviews.llvm.org/D113229
2021-11-09 00:15:08 +00:00
Simon Pilgrim
e244a6fec7 [mlir] Replace report_fatal_error(std::string) uses with report_fatal_error(Twine)
As described on D111049, we're trying to remove the <string> dependency from error handling and replace uses of report_fatal_error(const std::string&) with the Twine() variant which can be forward declared.
2021-10-06 12:57:20 +01:00
River Riddle
0cb5d7fc7f [mlir] Add value_begin/value_end methods to DenseElementsAttr
Currently DenseElementsAttr only exposes the ability to get the full range of values for a given type T, but there are many situations where we just want the beginning/end iterator. This revision adds proper value_begin/value_end methods for all of the supported T types, and also cleans up a bit of the interface.

Differential Revision: https://reviews.llvm.org/D104173
2021-09-21 01:57:43 +00:00
MaheshRavishankar
ba72cfe734 [mlir] Add an interface to allow operations to specify how they can be tiled.
An interface to allow for tiling of operations is introduced. The
tiling of the linalg.pad_tensor operation is modified to use this
interface.

Differential Revision: https://reviews.llvm.org/D108611
2021-08-30 16:31:18 -07:00
Jacques Pienaar
093493032d [mlir] Enable specifying querying function in ValueShapeRange
This enables querying shapes/values as shapes without mutating the IR
directly (e.g., towards enabling doing inference in analysis &
application steps, inferring function shape with constant from callsite,
...). Add a new ShapeAdaptor that abstracts over whether shape is from
Type or ShapedTypeComponents or DenseIntElementsAttribute. This adds new
accessors to ValueShapeRange to get Shape and value as shape, but
doesn't restrict or remove the previous way of accessing Type via the
Value for now, that does mean a less refined shape could be accidentally
queried and will be restricted in follow up.

Currently restricted Value query to what can be represented as Shape. So
only supports cases where constant subgraph evaluation's output is a
shape. I had considered making it more general, but without TBD extern
attribute concept or some such a user cannot today uniformly avoid
overhead.

Update TOSA ops and also the shape inference pass.

Differential Revision: https://reviews.llvm.org/D107768
2021-08-10 11:44:20 -07:00
Markus Böck
97335ad13f [mlir] Change ABI breaking use of NDEBUG to LLVM_ENABLE_ABI_BREAKING_CHECKS
The `DataLayout` class currently contains the member `layoutStack` which is hidden behind a preprocessor region dependant on the NDEBUG macro. Code wise this makes a lot of sense, as the `layoutStack` is used for extra assertions that users will want when compiling a debug build.
It however has the uncomfortable consequence of leading to a different ABI in Debug and Release builds. This I think is a bit annoying for downstream projects and others as they may want to build against a stable Release of MLIR in Release mode, but be able to debug their own project depending on MLIR.

This patch changes the related uses of NDEBUG to LLVM_ENABLE_ABI_BREAKING_CHECKS. As the macro is computed at configure time of LLVM, it may not change based on compiler settings of a downstream projects like NDEBUG would.

Differential Revision: https://reviews.llvm.org/D107227
2021-08-01 14:01:36 +02:00
Fangrui Song
f2026f5d6e [mlir] Replace LLVM_ATTRIBUTE_NORETURN with C++11 [[noreturn]]
[[noreturn]] can be used since 2016 when the minimum compiler requirement was bumped to GCC 4.8/MSVC 2015.
2021-07-27 18:57:33 -07:00
Marcel Koester
0425332015 [mlir] Added new RegionBranchTerminatorOpInterface and adapted uses of hasTrait<ReturnLike>.
This CL adds a new RegionBranchTerminatorOpInterface to query information about operands that can be
passed to successor regions. Similar to the BranchOpInterface, it allows to freely define the
involved operands. However, in contrast to the BranchOpInterface, it expects an additional region
number to distinguish between various use cases which might require different operands passed to
different regions.

Moreover, we added new utility functions (namely getMutableRegionBranchSuccessorOperands and
getRegionBranchSuccessorOperands) to query (mutable) operand ranges for operations equiped with the
ReturnLike trait and/or implementing the newly added interface.  This simplifies reasoning about
terminators in the scope of the nested regions.

We also adjusted the SCF.ConditionOp to benefit from the newly added capabilities.

Differential Revision: https://reviews.llvm.org/D105018
2021-07-26 06:39:31 +02:00
Jacques Pienaar
a5b889db7f [mlir] Also update inferReturnTensorTypes (NFC)
Missed this one in the first go.
2021-07-22 13:57:36 -07:00
Alex Zinenko
f6faa71eaf [mlir] fix a crash if the dialect is missing a data layout interface
The top-level verifier of data layout specifications delegates verification of
entries with identifier keys to the dialect of the identifier prefix. This flow
was missing a check whether the dialect actually implements the relevant
interface.

Reviewed By: gysit

Differential Revision: https://reviews.llvm.org/D103945
2021-06-09 17:46:27 +02:00
Nicolas Vasilache
ce4f99e7f2 [mlir][Linalg] Add comprehensive bufferization support for subtensor (5/n)
This revision refactors and simplifies the pattern detection logic: thanks to SSA value properties, we can actually look at all the uses of a given value and avoid having to pattern-match specific chains of operations.

A bufferization pattern for subtensor is added and specific inplaceability analysis is implemented for the simple case of subtensor. More advanced use cases will follow.

Differential revision: https://reviews.llvm.org/D102512
2021-05-27 12:48:08 +00:00
Matthias Springer
9b77be5583 [mlir] Unrolled progressive-vector-to-scf.
Instead of an SCF for loop, these pattern generate fully unrolled loops with no temporary buffer allocations.

Differential Revision: https://reviews.llvm.org/D101981
2021-05-13 13:08:48 +09:00
Matthias Springer
c52cbe63e4 [mlir] Fix masked vector transfer ops with broadcasts
Broadcast dimensions of a vector transfer op have no corresponding dimension in the mask vector. E.g., a 2-D TransferReadOp, where one dimension is a broadcast, can have a 1-D `mask` attribute.

This commit also adds a few additional transfer op integration tests for various combinations of broadcasts, masking, dim transposes, etc.

Differential Revision: https://reviews.llvm.org/D101745
2021-05-13 12:46:03 +09:00
Matthias Springer
6555e53ab0 Revert "[mlir] Fix masked vector transfer ops with broadcasts"
This reverts commit c9087788f7e41285445729127dd07ff7f82e3fc0.

Accidentally pushed old version of the commit.
2021-05-13 11:55:00 +09:00
Matthias Springer
c9087788f7 [mlir] Fix masked vector transfer ops with broadcasts
Broadcast dimensions of a vector transfer op have no corresponding dimension in the mask vector. E.g., a 2-D TransferReadOp, where one dimension is a broadcast, can have a 1-D `mask` attribute.

This commit also adds a few additional transfer op integration tests for various combinations of broadcasts, masking, dim transposes, etc.

Differential Revision: https://reviews.llvm.org/D101745
2021-05-13 11:37:36 +09:00
Uday Bondhugula
62851ea7ea [MLIR] Rename free function verify on OffsetSizeAndStrideOpInterface
Using a free function verify(<Op>) is error prone. Rename it.

Differential Revision: https://reviews.llvm.org/D101886
2021-05-05 17:44:15 +05:30
Tres Popp
31686d13dc Add default DataLayout support for complex numbers
Differential Revision: https://reviews.llvm.org/D100289
2021-04-19 11:36:12 +02:00
Tobias Gysi
b614ada0e8 [mlir] add support for index type in vectors.
The patch enables the use of index type in vectors. It is a prerequisite to support vectorization for indexed Linalg operations. This refactoring became possible due to the newly introduced data layout infrastructure. The data layout of a module defines the bitwidth of the index type needed to verify bitcasts and similar vector operations.

Reviewed By: nicolasvasilache

Differential Revision: https://reviews.llvm.org/D99948
2021-04-08 08:17:13 +00:00