Currently if an operation requires additional verification, it specifies an inline
code block (`let verifier = "blah"`). This is quite problematic for various reasons, e.g.
it requires defining C++ inside of Tablegen which is discouraged when possible, but mainly because
nearly all usages simply forward to a static function `static LogicalResult verify(SomeOp op)`.
This commit adds support for a `hasVerifier` bit field that specifies if an additional verifier
is needed, and when set to `1` declares a `LogicalResult verify()` method for operations to
override. For migration purposes, the existing behavior is untouched. Upstream usages will
be replaced in a followup to keep this patch focused on the hasVerifier implementation.
One main user facing change is that what was one `MyOp::verify` is now `MyOp::verifyInvariants`.
This better matches the name this method is called everywhere else, and also frees up `verify` for
the user defined additional verification. The `verify` function when generated now (for additional
verification) is private to the operation class, which should also help avoid accidental usages after
this switch.
Differential Revision: https://reviews.llvm.org/D118742
Apply part of a pending patch for GCC 11 warnings, and
rework a piece of code, to dodge warnings on flag from
GCC 11 build bots exposed by a recent patch.
Applying without review to get bots working again; changes
also tested against GCC 9.3.0.
This patch enable lowering from Fortran to FIR for a basic empty
program. It brings all the infrastructure needed for that. As discussed
previously, this is the first patch for lowering and follow up patches
should be smaller.
With this patch we can lower the following code:
```
program basic
end program
```
To a the FIR equivalent:
```
func @_QQmain() {
return
}
```
Follow up patch will add lowering of more complex constructs.
Reviewed By: kiranchandramohan, schweitz, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D118436
`tco` does not generate machine code, so it does not require (machine)
code-gen related dependencies.
Differential Revision: https://reviews.llvm.org/D118112
tco is a tool to test the FIR to LLVM IR pipeline of the Flang compiler.
This patch update tco pipelines and adds the translation to LLVM IR.
A simple test is added to make sure the tool is working with a simple
FIR program.
More tests will be upstream in follow up patch from the fir-dev branch.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: kiranchandramohan, awarzynski, schweitz, mehdi_amini
Differential Revision: https://reviews.llvm.org/D117781
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Co-authored-by: Jean Perier <jperier@nvidia.com>
Co-authored-by: Andrzej Warzynski <andrzej.warzynski@arm.com>
tco is a tool to test the FIR to LLVM IR pipeline of the Flang compiler.
This patch update tco pipelines and adds the translation to LLVM IR.
A simple test is added to make sure the tool is working with a simple
FIR program.
More tests will be upstream in follow up patch from the fir-dev branch.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: schweitz, mehdi_amini
Differential Revision: https://reviews.llvm.org/D117781
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Co-authored-by: Jean Perier <jperier@nvidia.com>
Co-authored-by: Andrzej Warzynski <andrzej.warzynski@arm.com>
As per https://github.com/flang-compiler/f18-llvm-project/issues/1344,
the `flang` bash script works fine with 4.4.19 and requiring
4.4.23 is too restrictive. Rather than keep updating the patch level,
this patch removes this particular check (so that it will only check the
major and minor versions instead).
As this is both rather straightforward and urgent, I'm merging this
without a review.
The `flang` wrapper script has been written in a relatively modern
version of Bash and it fails on systems with older versions. This patch
makes the script check the version of Bash being used to run it and
generates an error when unsupported version is used.
This was discussed in more detail in:
* https://github.com/flang-compiler/f18-llvm-project/issues/1344.
Many thanks to Anthony Cabrera for the suggestion and for identifying
the oldest version of Bash that we can use here.
Differential Revision: https://reviews.llvm.org/D116608
This patch updates the `flang` bash scripts to differentiate between
object files provided by the user and intermediate object files
generated by the script. The latter are an "implementation detail" that
should not be visible to the end user (i.e. deleted before the scripts
exits). The former should be preserved.
Fixes https://github.com/flang-compiler/f18-llvm-project/issues/1348
Differential Revision: https://reviews.llvm.org/D116590
Extracted from D99484. My new plan is to start from the outside and work
inward.
Reviewed By: stephenneuendorffer
Differential Revision: https://reviews.llvm.org/D115569
Clean up InitFIR.h file.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: kiranchandramohan
Differential Revision: https://reviews.llvm.org/D111539
Co-authored-by: Valentin Clement <clementval@gmail.com>
Add the external name conversion pass needed for compiler
interoperability. This pass convert the Flang internal symbol name to
the common gfortran convention.
Clean up old passes without implementation in the Passes.ts file so
the project and fir-opt can build correctly.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: schweitz
Differential Revision: https://reviews.llvm.org/D111057
Partition libFIROptimizer into smaller libraries that reflect the
structure. Adapt potential problems.
This patch is part of the upstreaming effort from fir-dev branch. It's a
building stone to upstreaming transformations.
Reviewed By: schweitz
Differential Revision: https://reviews.llvm.org/D111055
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Partition libFIROptimizer into smaller libraries that reflect the
structure. Adapt potential problems.
This patch is part of the upstreaming effort from fir-dev branch. It's a
building stone to upstreaming transformations.
Reviewed By: schweitz
Differential Revision: https://reviews.llvm.org/D111055
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Partition libFIROptimizer into smaller libraries that reflect the
structure. Adapt potential problems.
This patch is part of the upstreaming effort from fir-dev branch. It's a
building stone to upstreaming transformations.
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Reviewed By: schweitz
Differential Revision: https://reviews.llvm.org/D111055
Rearrange the contents of __builtin_* module files a little and
make sure that semantics implicitly USEs the module __Fortran_builtins
before processing each source file. This ensures that the special derived
types for TEAM_TYPE, EVENT_TYPE, LOCK_TYPE, &c. exist in the symbol table
where they will be available for use in coarray intrinsic function
processing.
Update IsTeamType() to exploit access to the __Fortran_builtins
module rather than applying ad hoc name tests. Move it and some
other utilities from Semantics/tools.* to Evaluate/tools.* to make
them available to intrinsics processing.
Add/correct the intrinsic table definitions for GET_TEAM, TEAM_NUMBER,
and THIS_IMAGE to exercise the built-in TEAM_TYPE as an argument and
as a result.
Add/correct/extend tests accordingly.
Differential Revision: https://reviews.llvm.org/D110356
Introducing a plugin API and a simple HelloWorld Plugin example.
This patch adds the `-load` and `-plugin` flags to frontend driver and
the code around using custom frontend actions from within a plugin
shared library object.
It also adds to the Driver-help test to check the help option with the
updated driver flags.
Additionally, the patch creates a plugin-example test to check the
HelloWorld plugin example runs correctly. As part of this, a new CMake
flag (`FLANG_BUILD_EXAMPLES`) is added to allow the example to be built
and for the test to run.
This Plugin API has only been tested on Linux.
Reviewed By: awarzynski
Differential Revision: https://reviews.llvm.org/D106137
We are only adding this in `flang` - the bash wrapper script for the
driver. We don't have any specific plans to support `-M{fixed|free}` in
`flang-new` (i.e. the actual driver).
That feature was requested by one of our users.
Differential Revision: https://reviews.llvm.org/D107081
This patch removes `f18`, a.k.a. the old driver. It is being replaced
with the new driver, `flang-new`, which has reached feature parity with
`f18` a while ago. This was discussed in [1] and also in [2].
With this change, `FLANG_BUILD_NEW_DRIVER` is no longer needed and is
also deleted. This means that we are making the dependency on Clang permanent
(i.e. it cannot be disabled with a CMake flag).
LIT set-up is updated accordingly. All references to `f18` or `f18.cpp`
are either updated or removed.
The `F18_FC` variable from the `flang` bash script is replaced with
`FLANG_FC`. The former is still supported for backwards compatibility.
[1] https://lists.llvm.org/pipermail/flang-dev/2021-June/000742.html
[2] https://reviews.llvm.org/D103177
Differential Revision: https://reviews.llvm.org/D105811
This file was previously included transitively via `mlir/Transforms/Passes.h`, but the include has been removed from that file.
Differential Revision: https://reviews.llvm.org/D107455
Rename the current -E option to "-E -Xflang -fno-reformat".
Add a new Parsing::EmitPreprocessedSource() routine to convert the
cooked character stream output of the prescanner back to something
more closely resembling output from a traditional preprocessor;
call this new routine when -E appears.
The new -E output is suitable for use as fixed form Fortran source to
compilation by (one hopes) any Fortran compiler. If the original
top-level source file had been free form source, the output will be
suitable for use as free form source as well; otherwise there may be
diagnostics about missing spaces if they were indeed absent in the
original fixed form source.
Unless the -P option appears, #line directives are interspersed
with the output (but be advised, f18 will ignore these if presented
with them in a later compilation).
An effort has been made to preserve original alphabetic character case
and source indentation.
Add -P and -fno-reformat to the new drivers.
Tweak test options to avoid confusion with prior -E output; use
-fno-reformat where needed, but prefer to keep -E, sometimes
in concert with -P, on most, updating expected results accordingly.
Differential Revision: https://reviews.llvm.org/D106727
This patch only modifies `flang` - the bash wrapper script.
`-fopenmp`/`-fopenacc` are required to enable the OpenMP/OpenACC
extension in the frontend and to make sure that the required libraries
are linked when generating the final binary. This patch makes sure that
`-fopnemp`/`-fopenacc` is used for both unparsing and the code
generation (via the host compiler).
Differential Revision: https://reviews.llvm.org/D106871
`-Mfixed` is not supported by the new driver and hence
`flang`, the bash wrapper script, forwards it to the host compiler.
The forwarded options are used by the host compiler when compiling the
unparsed files. As the unparsed source files are always in the free
form, forwarding `-Mfixed` is problematic.
With this patch, `-Mfixed` (and `-Mfree` for consistency) will be
ignored altogether. The user will only see a warning. This is not a
particularly sound approach, but `flang` is only a temporary solution
for us and this workaround is a fair compromise.
Differential Revision: https://reviews.llvm.org/D106428
In the `flang` bash script, we need to be careful _when_ to use <output>
from `flang -c -o <output> <input>` when generating the relocatable
output file name.
In particular, we should use it in this case:
```compilation only
flang -c -o <output> <input>
```
but leave it for the final executable here:
```compile, assemble and link
flang -o <output> <input>
```
This change is implemented in `get_relocatable_name`.
I've also taken the liberty to fix how errors from sub-commands are
reported (without this change, `flang` always returns `0` on failure).
This is implemented in `main`.
Differential Revision: https://reviews.llvm.org/D105896
This patch makes sure that the base name of the temporary unparsed files
(generated by the `flang` bash script) are randomised and unique to a
particular invocation of the script. Otherwise, we cannot reliably run
the script in parallel.
Differential Revision: https://reviews.llvm.org/D106052
Currently, `flang -c file.f` generates `flang_unparsed_source_file_0.o`.
This is incorrect. This patch:
* simplifies the logic around output filename generation, and
* makes sure that `file.o` is produced instead of e.g.
`flang_unparsed_source_file_0.o` when using the `-c` flag
The output filename generation is moved to a dedicated function. I've
also made a few minor improvements, e.g. marked variables as local,
added comments, refined error messages.
Differential Revision: https://reviews.llvm.org/D105546
The bash wrapper script, `flang`, calls `flang-new -fc1` under the hood,
which does not support `--version` (this is consistent with `clang -cc1
--version`). This change is needed for `flang --version` to work as
expected.
Note that `flang --version` (the Flang bash wrapper script for the
compiler driver) gives rather minimal output compared to `flang-new
--version` (the Flang compiler driver). As the wrapper script is just a
temporary solution for us, this should be sufficient.
Differential Revision: https://reviews.llvm.org/D105352
Until now, `f18` would:
1. Use Flang to unparse the input files
2. Call an external Fortran compiler to compile the unparsed source
files (generated in step 1)
With this patch, `f18` will stop after unparsing the input source files,
i.e. step 1 above. The `flang` bash script will take care of step 2,
i.e. calling an external Fortran compiler driver to compile them. This
way:
* the functionality of `f18` is reduced - it will only drive Flang (as
opposed to delegating code-generation to an external tool on top of
this)
* we will able to switch between `f18` and `flang-new` for unparsing before
an external Fortran compiler is called for code-generation
The updated `flang` bash script needs to specify the output file when
using the `-fdebug-unparse` action. Both `f18` and `flang-new` have been
updated accordingly.
These changes were discussed in [1] as a requirement for replacing `f18`
with `flang-new`.
[1] https://lists.llvm.org/pipermail/flang-dev/2021-April/000677.html
Differential Revision: https://reviews.llvm.org/D103177
This patch adds a new option for the new Flang driver:
`-fno-analyzed-objects-for-unparse`. The semantics are similar to
`-funparse-typed-exprs-to-f18-fc` from `f18`. For consistency, the
latter is replaced with `-fno-analyzed-objects-for-unparse`.
The new option controls the behaviour of the unparser (i.e. the action
corresponding to `-fdebug-unparse`). The default behaviour is to use the
analyzed objects when unparsing. The new flag can be used to turn this
off, so that the original parse-tree objects are used. The analyzed
objects are generated during the semantic checks [1].
This patch also updates the semantics of
`-fno-analyzed-objects-for-unparse`/`-funparse-typed-exprs-to-f18-fc`
in `f18`, so that this flag is always taken into account when `Unparse`
is used (this way the semantics in `f18` and `flang-new` are identical).
The added test file is based on example from Peter Steinfeld.
[1]
https://github.com/llvm/llvm-project/blob/main/flang/docs/Semantics.md
Differential Revision: https://reviews.llvm.org/D103612
Flang diverges from the llvm coding style in that it requires braces
around the bodies of if/while/etc statements, even when the body is
a single statement.
This commit adds the readability-braces-around-statements check to
flang's clang-tidy config file. Hopefully the premerge bots will pick it
up and report violations in Phabricator.
We also explicitly disable the check in the directories corresponding to
the Lower and Optimizer libraries, which rely heavily on mlir and llvm
and therefore follow their coding style. Likewise for the tools
directory.
We also fix any outstanding violations in the runtime and in
lib/Semantics.
Differential Revision: https://reviews.llvm.org/D104100
In error recovery situations, the mappings from source locations
to scopes were failing in a way that tripped some asserts.
Specifically, FindPureProcedureContaining() wasn't coping well
when starting at the global scope. (And since the global scope
no longer has a source range, clean up the Semantics constructor
to avoid confusion.)
Differential Revision: https://reviews.llvm.org/D103567
Andrezj W. @ Arm discovered that the runtime derived type table
building code in semantics was detecting fatal errors in the tests
that the f18 driver wasn't printing. This patch fixes f18 so that
these messages are printed; however, the messages were not valid user
errors, and the rest of this patch fixes them up.
There were two sources of the bogus errors. One was that the runtime
derived type information table builder was calculating the shapes of
allocatable and pointer array components in derived types, and then
complaining that they weren't constant or LEN parameter values, which
of course they couldn't be since they have to have deferred shapes
and those bounds were expressions like LBOUND(component,dim=1).
The second was that f18 was forwarding the actual LEN type parameter
expressions of a type instantiation too far into the uses of those
parameters in various expressions in the declarations of components;
when an actual LEN type parameter is not a constant value, it needs
to remain a "bare" type parameter inquiry so that it will be lowered
to a descriptor inquiry and acquire a captured expression value.
Fixing this up properly involved: moving some code into new utility
function templates in Evaluate/tools.h, tweaking the rewriting of
conversions in expression folding to elide needless integer kind
conversions of type parameter inquiries, making type parameter
inquiry folding *not* replace bare LEN type parameters with
non-constant actual parameter values, and cleaning up some
altered test results.
Differential Revision: https://reviews.llvm.org/D101001
This patch adds `-fget-definition` to `flang-new`. The semantics of this
option are identical in both drivers. The error message in the
"throwaway" driver is updated so that it matches the one from
`flang-new` (which is auto-generated and cannot be changed easily).
Tests are updated accordingly. A dedicated test for error handling was
added: get-definition.f90 (for the sake of simplicity,
getdefinition01.f90 no longer tests for errors).
The `ParseFrontendArgs` function is updated so that it can return
errors. This change is required in order to report invalid values
following `-fget-definition`.
The actual implementation of `GetDefinitionAction::ExecuteAction()` was
extracted from f18.cpp (i.e. the bit that deals with
`-fget-definition`).
Depends on: https://reviews.llvm.org/D100556
Differential Revision: https://reviews.llvm.org/D100558
`%flang-new` was introduced in the early days of the new driver to make
a clear distinction between the tests for the current and the new
driver. We have since introduced `%flang` (compiler driver) and
`%flang_fc1` (frontend driver) as the long term solution. This has allowed
us to share tests between `flang-new` and `f18`. This patch replaces
all uses of `%flang-new` with `%flang` and `%flang_fc1`.
Some tests are reformatted so that all tests look uniform and are easier
to follow. Where possible, `! REQUIRES: new-flang-driver` is deleted so
that more tests can be shared with `f18`. To facilitate this,
`f{no-}implicit-none` are introduced in `f18` with semantics identical
to `flang-new`.
Two tests are deleted rather than updated:
* flang/test/Frontend/print-preprocess-C-file.f90
* flang/test/Frontend/print-preprocessed-file.f90
Instead, there is plenty of preprocessor tests in
flang/test/Preprocessing/.
Differential Revision: https://reviews.llvm.org/D100174
This patch adds two debugging options in the new Flang driver
(flang-new):
*fdebug-unparse-no-sema
*fdebug-dump-parse-tree-no-sema
Each of these options combines two options from the "throwaway" driver
(left: f18, right: flang-new):
* `-fdebug-uparse -fdebug-no-semantics` --> `-fdebug-unparse-no-sema`
* `-fdebug-dump-parse-tree -fdebug-no-semantics` -->
`-fdebug-dump-parse-tree-no-sema`
There are no plans to implement `-fdebug-no-semantics` in the new
driver. Such option would be too powerful. Also, it would only make
sense when combined with specific frontend actions (`-fdebug-unparse`
and `-fdebug-dump-parse-tree`). Instead, this patch adds 2 specialised
options listed above. Each of these is implemented through a dedicated
FrontendAction (also added).
The new frontend actions are implemented in terms of a new abstract base
action: `PrescanAndSemaAction`. This new base class was required so that
we can have finer control over what steps within the frontend are
executed:
* `PrescanAction`: run the _prescanner_
* `PrescanAndSemaAction`: run the _prescanner_ and the _parser_ (new
in this patch)
* `PrescanAndSemaAction`: run the _prescanner_, _parser_ and run the
_semantic checks_
This patch introduces `PrescanAndParseAction::BeginSourceFileAction`.
Apart from the semantic checks removed at the end, it is similar to
`PrescanAndSemaAction::BeginSourceFileAction`.
Differential Revision: https://reviews.llvm.org/D99645
Before the conversion to LLVM-IR dialect and ultimately LLVM IR, FIR is
partially rewritten into a codegen form. This patch adds that pass, the
fircg dialect, and the small set of Ops in the fircg (sub) dialect.
Fircg is not part of the FIR dialect and should never be used outside of
the (closed) conversion to LLVM IR.
Authors: Eric Schweitz, Jean Perier, Rajan Walia, et.al.
Differential Revision: https://reviews.llvm.org/D98063