Allow utility constructs (error and nothing) to appear in the
specification part as well as the execution part. The exception is
"ERROR AT(EXECUTION)" which should only be in the execution part.
In case of ambiguity (the boundary between the specification and the
execution part), utility constructs will be parsed as belonging to the
specification part. In such cases move them to the execution part in the
OpenMP canonicalization code.
The OmpLinearClause class was a variant of two classes, one for when the
linear modifier was present, and one for when it was absent. These two
classes did not follow the conventions for parse tree nodes, (i.e.
tuple/wrapper/union formats), which necessitated specialization of the
parse tree visitor.
The new form of OmpLinearClause is the standard tuple with a list of
modifiers and an object list. The specialization of parse tree visitor
for it has been removed.
Parsing and unparsing of the new form bears additional complexity due to
syntactical differences between OpenMP 5.2 and prior versions: in OpenMP
5.2 the argument list is post-modified, while in the prior versions, the
step modifier was a post-modifier while the linear modifier had an
unusual syntax of `modifier(list)`.
With this change the LINEAR clause is no different from any other
clauses in terms of its structure and use of modifiers. Modifier
validation and all other checks work the same as with other clauses.
This is a mostly mechanical change from specific modifiers embedded
directly in a clause to the Modifier variant.
Additional comments and references to the OpenMP specs were added.
The intent is to keep names in sync with the terminology from the OpenMP
spec:
```
OmpBindClause::Type -> Binding
OmpDefaultClause::Type -> DataSharingAttribute
OmpDeviceTypeClause::Type -> DeviceTypeDescription
OmpProcBindClause::Type -> AffinityPolicy
```
Add more comments with references to the OpenMP specs.
Again, this simplifies the semantic checks and lowering quite a bit.
Update the check for positive alignment to use a more informative
message, and to highlight the modifier itsef, not the whole clause.
Remove the checks for the allocator expression itself being positive:
there is nothing in the spec that says that it should be positive.
Remove the "simple" modifier from the AllocateT template, since both
simple and complex modifiers are the same thing, only differing in
syntax.
This removes the specialized parsers and helper classes for these
clauses, namely ConcatSeparated, MapModifiers, and MotionModifiers. Map
and the motion clauses are now handled in the same way as all other
clauses with modifiers, with one exception: the commas separating their
modifiers are optional. This syntax is deprecated in OpenMP 5.2.
Implement version checks for modifiers: for a given modifier on a given
clause, check if that modifier is allowed on this clause in the
specified OpenMP version. This replaced several individual checks.
Add a testcase for handling map modifiers in a different order, and for
diagnosing an ultimate modifier out of position.
This actually simplifies the AST node for the schedule clause: the two
allowed modifiers can be easily classified as the ordering-modifier and
the chunk-modifier during parsing without the need to create additional
classes.
Also, define helper macros in parse-tree.h.
Apply the new modifier representation to the DEFAULTMAP and REDUCTION
clauses, with testcases utilizing the new modifier validation.
OpenMP modifier overhaul: #3/3
This is the first part of the effort to make parsing of clause modifiers
more uniform and robust. Currently, when multiple modifiers are allowed,
the parser will expect them to appear in a hard-coded order.
Additionally, modifier properties (such as "ultimate") are checked
separately for each case.
The overall plan is
1. Extract all modifiers into their own top-level classes, and then
equip them with sets of common properties that will allow performing the
property checks generically, without refering to the specific kind of
the modifier.
2. Define a parser (as a separate class) for each modifier.
3. For each clause define a union (std::variant) of all allowable
modifiers, and parse the modifiers as a list of these unions.
The intent is also to isolate parts of the code that could eventually be
auto-generated.
OpenMP modifier overhaul: #1/3
Extract the SINK/SOURCE parse tree elements into a separate class
`OmpDoacross`, share them between DEPEND and DOACROSS clauses. Most of
the changes in Semantics are to accommodate the new contents of
OmpDependClause, and a mere introduction of OmpDoacrossClause.
There are no semantic checks specifically for DOACROSS.
Parse the locator list in OmpDependClause as an OmpObjectList (instead
of a list of Designators). When a common block appears in the locator
list, show an informative message.
Implement resolving symbols in DependSinkVec in a dedicated visitor
instead of having a visitor for OmpDependClause.
Resolve unresolved names common blocks in OmpObjectList.
Minor changes to the code organization:
- rename OmpDependenceType to OmpTaskDependenceType (to follow 5.2
terminology),
- rename Depend::WithLocators to Depend::DepType,
- add comments with more detailed spec references to parse-tree.h.
---------
Co-authored-by: Kiran Chandramohan <kiran.chandramohan@arm.com>
This commit adds parsing of type modifiers for the MAP clause: CLOSE,
OMPX_HOLD, and PRESENT. The support for ALWAYS has already existed.
The new modifiers are not yet handled in lowering: when present, a TODO
message is emitted and compilation stops.
This does a global rename from `flang-new` to `flang`. I also
removed/changed any TODOs that I found related to making this change.
---------
Co-authored-by: H. Vetinari <h.vetinari@gmx.com>
Co-authored-by: Andrzej Warzynski <andrzej.warzynski@arm.com>
Derived from #92480. This PR supports parsing of the DO CONCURRENT
REDUCE clause in Fortran 2023. Following the style of the OpenMP parser
in MLIR, the front end accepts both arbitrary operations and procedures
for the REDUCE clause. But later Semantics can notify type errors and
resolve procedure names.
When there are one or more fatal error messages produced by the parser,
semantic analysis is not performed. But when there are messages produced
by the parser and none of them are fatal, those messages are emitted to
the user before compilation continues with semantic analysis, and any
messages produced by semantics are emitted after the messages from
parsing.
This can be confusing for the user, as the messages may no longer all be
in source file location order. It also makes it difficult to write tests
that check for both non-fatal messages from parsing as well as messages
from semantics using inline CHECK: or other expected messages in test
source code.
This patch ensures that if semantic analysis is performed, and non-fatal
messages were produced by the parser, that all the messages will be
combined and emitted in source file order.
Add `notify-type` to `iso_fortran_env` module. Add `notify-wait-stmt` to
the parser and add checks for constraints on the statement, `C1177` and
`C1178`, from the Fortran 2023 standard. Add three semantics tests for
`notify-wait-stmt`.
Re-land commit 3787fd942f3927345320cc97a479f13e44355805
This patch adds support for storing OpenMP REQUIRES information in the
semantics symbols for programs/subprograms and modules/submodules, and
populates them during directive resolution. A pass is added to name resolution
that makes sure this information is also propagated across top-level programs,
functions and subprograms.
Storing REQUIRES information inside of semantics symbols will also allow
supporting the propagation of this information across Fortran modules. This
will come as a separate patch.
The `bool DirectiveAttributeVisitor::Pre(const parser::SpecificationPart &x)`
method is removed since it resulted in specification parts being visited twice.
This is patch 3/5 of a series splitting D149337 to simplify review.
Differential Revision: https://reviews.llvm.org/D157983
Changes in this commit make some gfortran tests crash the compiler. It is
likely trying to dereference undefined symbol pointers.
This reverts commit 3787fd942f3927345320cc97a479f13e44355805.
This patch adds support for storing OpenMP REQUIRES information in the
semantics symbols for programs/subprograms and modules/submodules, and
populates them during directive resolution. A pass is added to name resolution
that makes sure this information is also propagated across top-level programs,
functions and subprograms.
Storing REQUIRES information inside of semantics symbols will also allow
supporting the propagation of this information across Fortran modules. This
will come as a separate patch.
The `bool DirectiveAttributeVisitor::Pre(const parser::SpecificationPart &x)`
method is removed since it resulted in specification parts being visited twice.
This is patch 3/5 of a series splitting D149337 to simplify review.
Differential Revision: https://reviews.llvm.org/D157983
Extend the SourceFile class to take account of #line directives
when computing source file positions for error messages.
Adjust the output of #line directives to -E output so that they
reflect any #line directives that were in the input.
Differential Revision: https://reviews.llvm.org/D153910
Add parsing supprot for dim in gang clause
Depends on D151971
Reviewed By: razvanlupusoru, jeanPerier
Differential Revision: https://reviews.llvm.org/D151972
This is an ongoing series of commits that are reformatting our
Python code. This catches the last of the python files to
reformat. Since they where so few I bunched them together.
Reformatting is done with `black`.
If you end up having problems merging this commit because you
have made changes to a python file, the best way to handle that
is to run git checkout --ours <yourfile> and then reformat it
with black.
If you run into any problems, post to discourse about it and
we will try to help.
RFC Thread below:
https://discourse.llvm.org/t/rfc-document-and-standardize-python-code-style
Reviewed By: jhenderson, #libc, Mordante, sivachandra
Differential Revision: https://reviews.llvm.org/D150784
Plugin that counts the number of times each tree node occurs in a given program. Used for test coverage.
Updated to fix build issues.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D143704
Plugin that counts the number of times each tree node occurs in a given program. Used for test coverage.
Updated to fix build issues.
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D143704
Plugin that counts the number of times each tree node occurs in a given program. Used for test coverage.
> One thing we need...is a way to determine what features a code uses. Preferably we would also be able to determine if they are implemented or not. Just the former could be done with a visitor for the parse tree. For the latter we would continue compilation and somehow ignore todo errors but collect them - @jdoerfert
Reviewed By: jdoerfert
Differential Revision: https://reviews.llvm.org/D143704
Without this change the problem is that flangOmpReport and
flangPrintFunctionNames libraries are not built under 'all',
but they are imported targets via LLVMExports.cmake so that
any out-of-tree build that configures upon LLVM+Flang package
will get this CMake error:
```
The imported target "flangPrintFunctionNames" references the file
".../lib/flangPrintFunctionNames.so"
but this file does not exist.
```
flang-aarch64-out-of-tree buildbot (https://lab.llvm.org/buildbot/#/builders/175)
does not catch this issue, because it does not enable Flang on the first stage.
This change gets rid of FLANG_BUILD_EXAMPLES in favor of LLVM_BUILD_EXAMPLES
and uses available LLVM CMake macros to add example executables/libraries.
Differential Revision: https://reviews.llvm.org/D145992
The current setting is not working.
When compiling `flang`, the `external-hello-world` is still compiled by default.
Reviewed By: luporl
Differential Revision: https://reviews.llvm.org/D145877
This patch adds parser suppert for the device_type clause used by the Declare Target directive.
Differential Revision: https://reviews.llvm.org/D143671
EnumToString() now returns a string_view; usage in
examples/FlangOmpReport/FlangOmpReportVisitor.cpp
needs to be updated. Pushing without review to get
flang build bots back up.
https://reviews.llvm.org/D136428 introduced the need for FIRBuilder
library to link against HLFIRDialect to satisfy shared builds.
The PrintFlangFunctionNames failure is unrelated, it is a build
race because many of the headers included in FrontendAction are
tablegen generated. So PrintFlangFunctionNames must wait until its
headers can be safely used. See
https://lab.llvm.org/buildbot/#/builders/191/builds/10340
To accomplish this, this patch creates an optional list of environment
variable default values to be set by the runtime to allow directly using
the existing runtime implementation of FORT_CONVERT for I/O conversions.
I went over the output of the following mess of a command:
`(ulimit -m 2000000; ulimit -v 2000000; git ls-files -z | parallel --xargs -0 cat | aspell list --mode=none --ignore-case | grep -E '^[A-Za-z][a-z]*$' | sort | uniq -c | sort -n | grep -vE '.{25}' | aspell pipe -W3 | grep : | cut -d' ' -f2 | less)`
and proceeded to spend a few days looking at it to find probable typos
and fixed a few hundred of them in all of the llvm project (note, the
ones I found are not anywhere near all of them, but it seems like a
good start).
Reviewed By: awarzynski, clementval
Differential Revision: https://reviews.llvm.org/D130844
After the recent re-factoring of the driver code
(https://reviews.llvm.org/D125007), `ExecuteAction` was renamed as
`executeAction`. This patch updates the examples in Flang accordingly.
If you set `FLANG_BUILD_EXAMPLES` to `On` when building Flang, then the
refactoring from D125007 would have caused build failures for you. This
patch fixes that.
This is fairly straightforward and fixes buildbot failures, so I'm
sending this without a review.
This patch adds a few new member methods in the `PluginParseTreeAction`
frontend action base class. With these new methods, the plugin API
becomes independent of the driver internals. In particular, plugin
writers no longer require the `CompilerInstance.h` header file to access
various driver data structures (instead, they can use newly added
hooks).
This change is desirable as `CompilerInstance.h` includes various
headers from Clang (both explicitly and implicitly). Some of these
header files are generated at build time (through TableGen) and
including them creates a dependency on some of Clang's build targets.
However, plugins in Flang should not depend on Clang build targets.
Note that plugins might still work fine most of the time, even without
this change and without adding Clang build targets as dependency in
plugin's CMake definition. Indeed, these Clang build targets are often
generated early in the build process. However, that's not guaranteed and
we did notice that on occasions plugins would fail to build.
Differential Revision: https://reviews.llvm.org/D120999
This patch adds parser nodes for each indivudual section in sections
construct. This should help with the translation to FIR. `!$omp section`
was not recognized as a construct and hence needed special handling.
`OpenMPSectionsConstruct` contains a list of `OpenMPConstruct`. Each
such `OpenMPConstruct` wraps an `OpenMPSectionConstruct`
(section, not sections). An `OpenMPSectionConstruct` is a wrapper around
a `Block`.
Reviewed By: kiranchandramohan, peixin
Differential Revision: https://reviews.llvm.org/D121680
Currently, everything that includes "flang/Parser/parse-tree.h" in Flang
depends on the `gen_acc` and `gen_omp` CMake targets (these targets
generate include files that are used in "parse-tree.h"). The examples in
Flang do use this header file and hence also depend on
`gen_acc`/`gen_omp`. This patch updates relevant CMake scripts
accordingly.
I've also taken the liberty to rename some of the example files so that
their names follow LLVM's coding guidelines.
Differential Revision: https://reviews.llvm.org/D117016
