This patch makes more than 2D arrays work, with a fix for the way that
loop index is calculated. Removing the restriction of number of
dimensions.
This also changes the way that the actual index is calculated, such that
the stride is used rather than the extent of the previous dimension. Some
tests failed without fixing this - this was likely a latent bug in the
2D version too, but found in a test using 3D arrays, so wouldn't
have been found with 2D only. This introduces a division on the index
calculation - however it should be a nice and constant value allowing
a shift to be used to actually divide - or otherwise removed by using
other methods to calculate the result. In analysing code generated with
optimisation at -O3, there are no divides produced.
Some minor refactoring to avoid repeatedly asking for the "rank" of the
array being worked on.
This improves some of the SPEC-2017 ROMS code, in the same way as the
limited 2D array improvements - less overhead spent calculating array
indices in the inner-most loop and better use of vector-instructions.
Reviewed By: kiranchandramohan
Differential Revision: https://reviews.llvm.org/D151140
In upstream mlir, the dialect conversion infrastructure is used for
lowering from one dialect to another: the passes are of the form
XToYPass. Whereas, transformations within the same dialect tend to use
applyPatternsAndFoldGreedily.
In this case, the full complexity of applyPatternsAndFoldGreedily isn't
needed so we can get away with the simpler applyOpPatternsAndFold.
This change was suggested by @jeanPerier
Differential Revision: https://reviews.llvm.org/D150853
The information needed for translation is now encoded in the dialect
operations and does not require a dedicated pass to be extracted.
Remove the obsolete passes that were performing operand legalization.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D150248
Remove old clause operands from acc.parallel operation since
the new dataOperands is now in place.
private, firstprivate and reductions will receive some redesign but are
not part of the new dataOperands.
Reviewed By: razvanlupusoru
Differential Revision: https://reviews.llvm.org/D150207
Since the new data operand operations have been added in D148389 and
adopted on acc.data in D149673, the old clause operands are no longer
needed.
The LegalizeDataOpForLLVMTranslation will become obsolete when all
operations will be cleaned. For the time being only the appropriate
part are being removed.
processOperands will also receive some updates once all the operands
will be coming from an acc data operand operation.
Reviewed By: razvanlupusoru
Differential Revision: https://reviews.llvm.org/D150155
Since the new data operand operations have been added in D148389 and
adopted on acc.exit_data in D149601, the old clause operands are no longer
needed.
The LegalizeDataOpForLLVMTranslation will become obsolete when all
operations will be cleaned. For the time being only the appropriate
part are being removed.
processOperands will also receive some updates once all the operands
will be coming from an acc data operand operation.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D150145
Since the new data operand operations have been added in D148389 and
adopted on acc.enter_data in D148721, the old clause operands are no longer
needed.
The LegalizeDataOpForLLVMTranslation will become obsolete when all
operations will be cleaned. For the time being only the appropriate
part are being removed.
processOperands will also receive some updates once all the operands
will be coming from an acc data operand operation.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D150132
Since the new data operand operations have been added in D148389 and
adopted on acc.update in D149909, the old clause operands are no longer
needed. This is a first patch to start cleaning the OpenACC operations
with data clause operands.
The `LegalizeDataOpForLLVMTranslation` will become obsolete when all
operations will be cleaned. For the time being only the appropriate
part are being removed.
`processOperands` will also receive some updates once all the operands
will be coming from an acc data operand operation.
Reviewed By: razvanlupusoru, jeanPerier
Differential Revision: https://reviews.llvm.org/D150053
When the default case requires block arguments, they have to be passed
through the cf.br - this piece was missing.
Reviewed By: clementval
Differential Revision: https://reviews.llvm.org/D149484
The AbstractResult pass replaces allocation of function result on the callee
side per an extra argument so that the allocation of the result can be
done on the caller stack.
It looks for the result allocation from the fir.return op, so it needs
to handle (in a transparent way) a fir.declare in the chain between the
allocation and the fir.return.
Reviewed By: vzakhari, clementval
Differential Revision: https://reviews.llvm.org/D149057
Introduce conditional code to identify stride of "one element", and simplify the array accesses for that case.
This allows better loop performance in various benchmarks.
Reviewed By: tblah, kiranchandramohan
Differential Revision: https://reviews.llvm.org/D141306
Similar to D148039 but for the FIR to LLVM IR
conversion pass.
The inner part of the acc.loop has been removed since the rest of the
pipeline is not ready and would raise an error here. This was passing
until now because the acc.loop was discarded completely.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D148057
After the extraction of the TypeConverter, move the header files
to the include dir so the shared library build is fine.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D147979
Previously the mask would be loaded as the appropriate integer type and cast to I1 to pass to
fir.if, however this truncates the integer and so would cast 6 to 0. By loading values as logicals
and casting to I1 this problem is avoided.
Reviewed By: Leporacanthicus
Differential Revision: https://reviews.llvm.org/D144974
Previously COUNT would cast the mask input to logical<4> before passing it
to the runtime function, this has been changed to allow different types of logical.
Reviewed By: tblah
Differential Revision: https://reviews.llvm.org/D144867
This patch adds minloc to the simplify intrinsics pass, supporting calls with KIND or MASK arguments while calls which have BACK, DIM or have a CHARACTER input array are rejected. This patch is targeting exchange2, and in benchmarks provides a ~11% improvement in performance.
Also included are some minor style changes / cleanup in simplifyIntrinsics.cpp.
Reviewed By: vzakhari
Differential Revision: https://reviews.llvm.org/D144103
Some functions (e.g. the main function) end with a call to the STOP
statement instead of a func.return. This is lowered as a call to the
stop runtime function followed by a fir.unreachable. fir.unreachable is
a terminator and so this can cause functions to have no func.return.
The stack arrays pass looks to see which heap allocations have always
been freed by the time a function returns. Without any returns, the pass
does not detect any freed allocations. This patch changes this behaviour
so that fir.unreachable is checked as well as func.return.
This allows 15 heap allocations for array temporaries in spec2017
exchange2's main function to be moved to the stack.
Differential Revision: https://reviews.llvm.org/D143918
When rank > 1, the inital value would be lost on inner loops, leading to the wrong
value to be returned, e.g. This would return T. This patch fixes this to use the correct
inital value for all cases.
```
Integer :: m(0,10)
Any(m .eq 0)
```
Reviewed By: vdonaldson
Differential Revision: https://reviews.llvm.org/D143899
This patch provides a simplified version of the Any intrinsic as well as the All intrinsic
that can be used for inlining or simpiler use cases. These changes are targeting exchange2, and
provide a ~9% performance increase.
Reviewed By: Leporacanthicus, vzakhari
Differential Revision: https://reviews.llvm.org/D142977
This pass implements the `-fstack-arrays` flag. See the RFC in
`flang/docs/fstack-arrays.md` for more information.
Differential revision: https://reviews.llvm.org/D140415
This fixes an issue where the symbols for operations that were not directly
handled by the rewriting in ExternalNameConversion.cpp were not updated
accurately when a FuncOp symbol was modified. Resulting in a name
mismatch between the FuncOp and the operation holding a symbol to
the FuncOp.
This fix works by updating all of the symbols relating to a FuncOp in a
module, this did not show up as an issue previously as fir::CallOps were
getting specific handling and only fir::CallOps were being tested. So
as the more larger case is now being handled the specific handling for
fir::CallOps has been removed (but is still handled by the fix).
Reviewers:
clementval
Differential Revision: https://reviews.llvm.org/D142918
Simple fix to check for rank in the same way as other intrinsics to allow
runtime count to take over when dealing with unknown dimension arrays.
Fixes#60356
Reviewed By: Leporacanthicus
Differential Revision: https://reviews.llvm.org/D142877
This patch adds a simplfiied version of count for the simplify intrinsics pass, allowing the function to be inlined.
This was done specifically to help improve performance for exchange2, and provides a ~12% performance increase.
Reviewed By: vzakhari, Leporacanthicus
Differential Revision: https://reviews.llvm.org/D142209
This ensures that functions in included files have the correct path
in their file metadata.
Note: This patch also sets all locations to have the full path names.
Reviewed By: vzakhari, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D142263
Assume no conflict between pointer arrays and arrays without the target
attribute, if the fact of an array not having the target attribute
can be reliably computed.
This change speeds up SPEC CPU2017/527.cam from 2.5k seconds to 880 seconds
on Icelake, and makes further performance investigation easier.
Differential Revision: https://reviews.llvm.org/D142273
Previously, the DISubroutineType attribute used an optional result
parameter and an optional argument types array to model the subroutine
signature. LLVM IR debug metadata, on the other hand, has one types
list whose first entry maps to the result type. That entry may be
null to model a void result type. The type list may also be entirely
empty not specifying any type information. The latter is problematic
since the current DISubroutineType attribute cannot express it.
The revision changes DISubroutineTypeAttr to closely follow the
LLVM metadata design. In particular, it uses a single types parameter
array to model the subroutine signature and introduces an explicit
DIVoidResultTypeAttr to model the null entries.
Reviewed By: Dinistro
Differential Revision: https://reviews.llvm.org/D141261
This reverts commit 81f57b6
and relands commit a960547
Fixes flang build and drop_begin on an empty array ref.
Recent changes to MLIR meant that Flang does not generate any debug line
table information.
This patch adds a pass that provides some foundation work with which
basic line table debug info can be generated. A walk is performed on
all the `func` ops in the module and they are decorated with a fusedLoc
op that contains the debug metadata for the subroutine along with
location information.
Alternatives include populating this info during lowering or during FIR
to LLVM Dialect conversion.
Note: Patches in future will add
-> more realistic debug info for types and other fields.
-> driver flags to control generation of debug.
Fixes#58634.
Reviewed By: awarzynski, vzakhari
Differential Revision: https://reviews.llvm.org/D137956
Addresses and properties (bounds, length parameters) of host
variables associated in an internal procedure were all passed via
an extra tuple argument of the internal procedure.
This extra tuple is in general an overhead: it must be created and
passed, and require creating thunks when taking the address of the
internal procedure.
This patch allows not using the tuple for host global variables
(from modules, common block, or local saved variables) since they can
be instantiated from the fir.global symbol in the internal procedure
instead.
Add a fir.internal_proc attribute to mlir::FuncOp for internal procedures
so that ArrayValueCopy can still detect internal procedures even if they
do not have a tuple argument.
Differential Revision: https://reviews.llvm.org/D140288