ApplyElementwise on character operation was always creating a result
ArrayConstructor with the length of the left operand. This is not
correct for concatenation and SetLength operations.
Compute and thread the length to the spot creating the ArrayConstructor
so that the length is correct for those character operations.
Differential Revision: https://reviews.llvm.org/D108711
Use gettimeofday and localtime_r to implement DATE_AND_TIME intrinsic.
The Windows version fallbacks to the "no date and time information
available" defined by the standard (strings set to blanks and values to
-HUGE).
The implementation uses an ifdef between windows and the rest because
from my tests, the SFINAE approach leads to undeclared name bogus errors
with clang 8 that seems to ignore failure to instantiate is not an error
for the function names (i.e., it understands it should not instantiate
the version using gettimeofday if it is not there, but still yields an
error that it is not declared on the spot where it is called in the
uninstantiated version).
Differential Revision: https://reviews.llvm.org/D108622
BACKSPACE leaves "recordLength" set, which is fine for a later READ,
but it causes a later WRITE to fail due to a misinterpretation of the
knowledge of the record length as indication of a fixed-length record
file (RECL=). Fix.
Differential Revision: https://reviews.llvm.org/D108594
The index of an implied DO loop in a DATA statement or array
constructor is defined by Fortran 2018 to have scope over its
implied DO loop. This definition is unfortunate, because it
requires the implied DO loop's bounds expressions to be in the
scope of the index variable. Consequently, in code like
integer, parameter :: j = 5
real, save :: a(5) = [(j, j=1, j)]
the upper bound of the loop is a reference to the index variable,
not the parameter in the enclosing scope.
This patch limits the scope of the index variable to the "body"
of the implied DO loop as one would naturally expect, with a warning.
I would have preferred to make this a hard error, but most Fortran
compilers treat this case as f18 now does. If the standard
were to be fixed, the warning could be made optional.
Differential Revision: https://reviews.llvm.org/D108595
This patch cleans-up the file generation code in Flang's frontend
driver. It improves the layering between
`CompilerInstance::CreateDefaultOutputFile`,
`CompilerInstance::CreateOutputFile` and their various clients.
* Rename `CreateOutputFile` as `CreateOutputFileImpl` and make it
private. This method is an implementation detail.
* Instead of passing an `std::error_code` out parameter into
`CreateOutputFileImpl`, have it return Expected<>. This is a bit shorter
and idiomatic LLVM.
* Make `CreateDefaultOutputFile` (which calls `CreateOutputFileImpl`)
issue an error when file creation fails. The error code from
`CreateOutputFileImpl` is used to generate a meaningful diagnostic
message.
* Remove error reporting from `PrintPreprocessedAction::ExecuteAction`.
This is only for cases when output file generation fails. This is
handled in `CreateDefaultOutputFile` instead (see the previous point).
* Inline `AddOutputFile` into its only caller,
`CreateDefaultOutputFile`.
* Switch from `lvm::buffer_ostream` to `llvm::buffer_unique_ostream>`
for non-seekable output streams. This simplifies the logic in the driver
and was introduced for this very reason in [1]
* Moke sure that the diagnostics from the prescanner when running `-E`
(`PrintPreprocessedAction::ExecuteAction`) are printed before the actual
output is generated.
* Update comments, add test.
NOTE: This patch relands [2]. As suggested by Michael Kruse in the
post-commit/post-revert review, I've added the following:
```
config.errc_messages = "@LLVM_LIT_ERRC_MESSAGES@"
```
in Flang's `lit.site.cfg.py.in`. This way, `%errc_ENOENT` in
output-paths.f90 gets the correct value on Windows as well as on Linux.
[1] https://reviews.llvm.org/D93260
[2] fd21d1e198
Reviewed By: ashermancinelli
Differential Revision: https://reviews.llvm.org/D108390
We currently feed full files to Python's unified_diff.
It's not quite what we want though -
line-by-line comparison makes more sense
(we want to be able to identify missing/unnecessary lines)
and is also easier to parse for humans.
This patch makes sure that we compare one line at a time.
This change pretties up the output formatting in the script.
Output before:
```
!DEF:/m/s/xINTENT(IN)(Implicit)ObjectEntityREAL(4)
!DEF:/m/s/yINTENT(INOUT)(Implicit)ObjectEntityREAL(4)
-!-D-E-F-:-f-o-o-b-a-r-
puresubroutines(x,y)bind(c)
!REF:/m/s/x
intent(in)::x
```
Proposed output after:
```
!DEF:/m/s/xINTENT(IN)(Implicit)ObjectEntityREAL(4)
!DEF:/m/s/yINTENT(INOUT)(Implicit)ObjectEntityREAL(4)
-!DEF:foobar
puresubroutines(x,y)bind(c)
!REF:/m/s/x
intent(in)::x
```
Reviewed By: Meinersbur, awarzynski
Differential Revision: https://reviews.llvm.org/D107954
This reverts commit fd21d1e198.
The test added in this patch [1] is failing on Windows and causing the
Windows BuildBot [2] to fail. I don't see any obvious way to fix this,
so reverting in order to investigate.
[1] llvm-project/flang/test/Driver/output-paths.f90
[2] https://lab.llvm.org/buildbot/#/builders/172/builds/2077
This patch refactors the file generation API in Flang's frontend driver.
It improves the layering between `CreateDefaultOutputFile`,
`CreateOutputFile` (`CompilerInstance` methods) and their various
clients.
List of changes:
* Rename `CreateOutputFile` as `CreateOutputFileImpl` and make it
private. This method is an implementation detail.
* Instead of passing an `std::error_code` out parameter into
`CreateOutputFileImpl`, have it return Expected<>. This is a bit shorter
and more idiomatic LLVM.
* Make `CreateDefaultOutputFile` (which calls `CreateOutputFileImpl`)
issue an error when file creation fails. The error code from
`CreateOutputFileImpl` is used to generate a meaningful diagnostic
message.
* Remove error reporting from `PrintPreprocessedAction::ExecuteAction`.
This is only for cases when output file generation fails. This is
handled in `CreateDefaultOutputFile` instead (see the previous point).
* Inline `AddOutputFile` into its only caller,
`CreateDefaultOutputFile`.
* Switch from `lvm::buffer_ostream` to `llvm::buffer_unique_ostream>`
for non-seekable output streams. This simplifies the logic in the driver
and was introduced for this very reason in [1]
* Moke sure that the diagnostics from the prescanner when running `-E`
(`PrintPreprocessedAction::ExecuteAction`) are printed before the actual
output is generated.
* Update comments, add test.
[1] https://reviews.llvm.org/D93260
Differential Revision: https://reviews.llvm.org/D108390
Currently, `printHelp` behaves differently for options that:
* do not define `HelpText` (such options _are not printed_), and
* define its `HelpText` as `HelpText<"">` (such options _are printed_).
In practice, both approaches lead to no help text and `printHelp` should
treat them consistently. This patch addresses that by making
`printHelpt` check the length of the help text to be printed.
All affected tests have been updated accordingly. The option definitions
for llvm-cvtres have been updated with a short description or "Not
implemented" for options that are ignored by the tool.
Differential Revision: https://reviews.llvm.org/D107557
Replacing Hello World example Plugin with one that counts and prints the names of
functions and subroutines.
This involves changing the `PluginParseTreeAction` Plugin base class to
inherit from `PrescanAndSemaAction` class to get access to the Parse Tree
so that the Plugin can walk it.
Additionally, there are tests of this new Plugin to check it prints the correct
things in different circumstances.
Depends on: D106137
Reviewed By: awarzynski
Differential Revision: https://reviews.llvm.org/D107089
This is very similar to CPU_TIME, except that we return nanoseconds
rather than seconds. This means we're potentially dealing with rather
large numbers, so we'll have to wrap around to avoid overflows.
Differential Revision: https://reviews.llvm.org/D105970
Add an implementation for the runtime functions related to SYSTEM_CLOCK.
As with CPU_TIME, this is based on std::clock(), which should be
available everywhere, but it is highly recommended to add
platform-specific implementations for systems where std::clock() behaves
poorly (e.g. POSIX).
The documentation for std::clock() doesn't specify a maximum value and
in fact wrap around behaviour is non-conforming. Therefore, this
implementation of SYSTEM_CLOCK is not guaranteed to wrap around either,
and after std::clock reaches its maximum value we will likely just
return failure rather than wrap around. If this happens often on your
system, please add a new platform-specific implementation.
We define COUNT_MAX as either the maximum value that can be stored in
a std::clock_t or in a 64-bit integer (whichever is smaller), and
COUNT_RATE as CLOCKS_PER_SEC. For POSIX systems, the value of
CLOCKS_PER_SEC is hardcoded to 10^6 and irrelevant for the values
returned by std::clock.
Differential Revision: https://reviews.llvm.org/D105969
This patch implements the following check for TARGET construct:
```
OpenMP Version 5.0 Target construct restriction: If a target update,
target data, target enter data, or target exit data construct is
encountered during execution of a target region, the behavior is
unspecified.
```
Also add one test case for the check.
Reviewed By: kiranchandramohan, clementval
Differential Revision: https://reviews.llvm.org/D106165
When the vector version of EOSHIFT was called, the BOUNDARY argument was being
ignored. I fixed that and added a test that would not pass without this fix.
Differential Revision: https://reviews.llvm.org/D108249
NAMELIST input needs to start with a call to BeginReadingRecord().
Internal unit input doesn't care (so unit tests were passing), but
external unit input does need the call and will assert without it.
Differential Revision: https://reviews.llvm.org/D108051
A recent runtime I/O change[1] was meant to improve the handling of
input from external files missing a terminal newline on their last
records; the change was "triggered" by the wrong circumstances and
causing reads that should have pulled more data into the buffer to be
treated as EOFs. So fix that, and also don't retain input data
in the buffer once an input record has been finished unless it's
known that list-directed or NAMELIST input of a repeated input item
may need to backspace a non-positionable external unit to return
to the beginning of the repeated item.
[1] 6578893a0453384346f149479f8574dfff977ace
Differential Revision: https://reviews.llvm.org/D108164
This patch refactors the `FrontendAction` class. It merely moves code
around so that re-using it is easier. No new functionality is
introduced.
1. Three new member methods are introduced: `RunPrescan`, `RunParse`,
`RunSemanticChecks`.
2. The following free functions are re-implemented as member methods:
* `reportFatalSemanticErrors`
* `reportFatalScanningErrors`
* `reportFatalParsingErrors`
* `reportFatalErrors`
`reportFatalSemanticErrors` is updated to resemble the other error
reporting functions and to make the API more consistent.
3. The `BeginSourceFileAction` methods are simplified and the unused
input argument is deleted.
Differential Revision: https://reviews.llvm.org/D108130
`CompilerInstance` is a more appropriate place for a key component of
the frontend like `Semantics`.
This change opens a path for us to introduce new frontend actions that
will also run semantics, but for which inheriting from
`PrescanAndSemaAction` wouldn't make much sense. For example, for
code-gen actions we plan to introduce a dedicate hierarchy of action
classes.
I've also added a doxyment for `CompilerInstance` to add a bit of
context for this change (and also make future refactoring more informed).
As `CompilerInstance` in Flang has been inspired by its counterpart in
Clang, this comment is roughly a verbatim copy of the comment in Clang
(with some adjustments from me). Credits to Daniel Dunbar for the great
design and the original comment.
Differential Revision: https://reviews.llvm.org/D108035
This patch implements the following check for TEAMS construct:
```
OpenMP Version 5.0 Teams construct restriction: A teams region can
only be strictly nested within the implicit parallel region or a target
region. If a teams construct is nested within a target construct, that
target construct must contain no statements, declarations or directives
outside of the teams construct.
```
Also add one test case for the check.
Reviewed By: kiranchandramohan, clementval
Differential Revision: https://reviews.llvm.org/D106335
This patch implements the following semantic checks for cancellation constructs:
```
OpenMP Version 5.0 Section 2.18.1: CANCEL construct restriction:
If construct-type-clause is taskgroup, the cancel construct must be
closely nested inside a task or a taskloop construct and the cancel
region must be closely nested inside a taskgroup region. If
construct-type-clause is sections, the cancel construct must be closely
nested inside a sections or section construct. Otherwise, the cancel
construct must be closely nested inside an OpenMP construct that matches
the type specified in construct-type-clause of the cancel construct.
OpenMP Version 5.0 Section 2.18.2: CANCELLATION POINT restriction:
A cancellation point construct for which construct-type-clause is
taskgroup must be closely nested inside a task or taskloop construct,
and the cancellation point region must be closely nested inside a
taskgroup region. A cancellation point construct for which
construct-type-clause is sections must be closely nested inside a
sections or section construct. A cancellation point construct for which
construct-type-clause is neither sections nor taskgroup must be closely
nested inside an OpenMP construct that matches the type specified in
construct-type-clause.
```
Also add test cases for the check.
Reviewed By: kiranchandramohan
Differential Revision: https://reviews.llvm.org/D106538
https://reviews.llvm.org/D106137 added support for plugins in Flang. The
CMake configuration for plugins requires some LLVM variables that are
not available in out-of-tree builds (e.g. `LLVM_SHLIB_OUTPUT_INTDIR`).
This has caused the out-of-tree BuildBot worker to start failing:
* https://lab.llvm.org/buildbot/#/builders/175
This patch effectively disables plugins in out-of-tree builds and fixes
the configuration error. In order to support plugins in out-of-tree
builds, we would have to find a way to access the missing CMake
variables from LLVM. This could be implemented at a later time.
Differential Revision: https://reviews.llvm.org/D107973
Flang uses positional arguments for `messages::say()`, such as "%1$s" which is only supported in MS Compilers with the `_*printf_p` form of the function. This uses a conditional macro to convert the existing `vsnprintf` used to the one needed in MS-World.
7 tests in D107575 rely on this change.
Reviewed By: Meinersbur
Differential Revision: https://reviews.llvm.org/D107654
std::clock_t can be an unsigned value on some platforms like MacOS and
therefore needs a cast when initializing an std::clock_t value with -1.
Reviewed By: klausler
Differential Revision: https://reviews.llvm.org/D107972
Recent work in runtime assignments failed an assertion in fir-dev
while running tests (flang/test/Semantics/defined-ops.f90). This
test didn't fail in llvm-project/main because only the "new" Arm
driver is used now, and that only builds runtime derived type information
tables when some debug dumping options are enabled.
So add a reproducing test case to another test that is run with
-fdebug-dump-symbols, and fix the crash by emitting special procedure
binding information only for type-bound generic ASSIGNMENT(=) bindings
that are relevant to the runtime support library for use in intrinsic
assignment of derived types.
Differential Revision: https://reviews.llvm.org/D107918
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
A repeated null value at the end of an input record with a count > 1
would incorrectly advance to the next record when resumed. Fix.
Improve some poor naming and code flow noticed while debugging, so
next time will be easier.
Extend a unit test to check this case.
Differential Revision: https://reviews.llvm.org/D107917
When the upper bound is less than the lower bound, the extent is zero. This is
specified in section 8.5.8.2, paragraph 3.
Note that similar problems exist in the lowering code. This change only fixes
the problem for the front end.
I also added a test.
Differential Revision: https://reviews.llvm.org/D107832
https://reviews.llvm.org/D105464 did not correctly cover the case
where the symbol from the host procedure is use associated. Outside
of the mis-parsed ArrayRef case, flang was also creating a symbol with
HostAssociated details inside the internal procedure (pointing to the
use associated symbol in the host). That is what lowering expects.
This patch ensures the same logic is applied in the mis-parsed array-ref name
resolution (and the pointer target name resolution).
Differential Revision: https://reviews.llvm.org/D107759
Some build environments complain about unused data members in some
C++ translations of Fortran derived types; those members don't really
need to be present, so remove them.
Fix pushed w/o review to get build bots running again.
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
Define an API for, and implement, runtime support for arbitrary
assignment of one descriptor's data to another, with full support for
(re)allocation of allocatables with finalization when necessary,
user-defined derived type assignment TBP calls, and intrinsic (default)
componentwise assignment of derived type instances with allocation of
automatic components. Also clean up API and implementation of
finalization/destruction using knowledge gained while studying
edge cases for assignment in the 2018 standard.
The look-up procedure for special procedure bindings in derived
types has been optimized from O(N) to O(1) since it will probably
matter more. This required some analysis in runtime derived type
description table construction in semantics and some changes to the
table schemata.
Executable Fortran tests have been developed; they'll be added
to the test base once they can be lowered and run by f18.
Differential Revision: https://reviews.llvm.org/D107678
Due to unavailability of Flang testing on Windows, the shell scripts
are being ported to Python. The following changes are being made in
this patch: removed test_symbols.sh and common.sh, and ported them
to Python. Changes to the tests themselves so that they use the
python scripts instead of the shell script.
Reviewed By: Meinersbur, awarzynski, kiranchandramohan
Differential Revision: https://reviews.llvm.org/D107041
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
For boolean options, e.g. `-fxor-operator`/`-fno-xor-operator`, we ought
to be using TableGen multi-classes. This way, we only have to write one
definition to have both forms auto-generated. This patch refactors all
of Flang's boolean options to use two new multi-classes:
`OptInFC1FFOption` and `OptOutFC1FFOption`. These multi-classes are
based on `OptInFFOption`/`OptOutFFOption`, respectively. I've also
simplified the processing of the updated options in
CompilerInvocation.cpp.
With the new approach, "empty" help text (i.e. no `HelpText`) is now
replaced with an empty string (i.e. HelpText<"">). When running
flang-new --help, that's considered as non-empty help messages, which is
then printed (that's controlled by `printHelp` from
llvm/lib/Option/OptTable.cpp). This means that with this patch,
flang-new --help will start printing e.g. -fno-backslash, even though
there is no actual help text to print for this option (apart from the
empty string ""). Tests are updated accordingly.
Note that with this patch, both `-fxor-operator` and `-fno-xor-operator`
(and other boolean options refactored here) remain available in
`flang-new` and `flang-new -fc1`. In this respect, nothing changes. In a
forthcoming patch, I will refine this so that `flang-new -fc1` only
accepts `-ffoo` (`OptInFC1FFOption`) or `-fno-foo` (`OptOutCC1FFOption`).
For clarity, `OptInFFOption`/`OptOutFFOption` are renamed as
`OptInCC1FFOption`/`OptOutCC1FFOption`, respectively. Otherwise, this is
an NFC from Clang's perspective.
Differential Revision: https://reviews.llvm.org/D105881
The algorithm for Fw.d output will drive binary to decimal conversion for
an initial fixed number of digits, then adjust that number based on the
result's exposent. For value close to a power of ten, this adjustment
process wouldn't terminate; e.g., formatting 9.999 as F10.2 would start
with 1e2, boost the digits to 2, get 9.99e1, decrease the digits, and loop.
Solve by refusing to boost the digits a second time.
Differential Revision: https://reviews.llvm.org/D107490
Like the similar legacy extension FLOAT(), DFLOAT() represents a
conversion from default integer to DOUBLE PRECISION. Rewrite
into a conversion operation.
Differential Revision: https://reviews.llvm.org/D107489
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
Dummy procedures can be defined as subprograms with explicit
interfaces, e.g.
subroutine subr(dummy)
interface
subroutine dummy(x)
real :: x
end subroutine
end interface
! ...
end subroutine
but the symbol table had no means of marking such symbols as dummy
arguments, so predicates like IsDummy(dummy) would fail. Add an
isDummy_ flag to SubprogramNameDetails, analogous to the corresponding
flag in EntityDetails, and set/test it as needed.
Differential Revision: https://reviews.llvm.org/D106697
The result expression for the analysis of a Component is not (longer)
valid in the expression traversal framework used by IsSimplyContiguousHelper
now that it has a tri-state result. Fix so that any result of
analyzing the component symbol is required to be true, not just
present.
Differential Revision: https://reviews.llvm.org/D106693
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
Port external-io test to use GTest. Remove Runtime tests directory.
Rename RuntimeGTest directory to Runtime.
This is the last in a series of patches which ported tests from the old
flang/unittests/Runtime test directory to use GTest in a temporary
unittest directory under flang/unittests/RuntimeGTest. Now that all the
tests in the old directory have been ported to use GTest, the old
directory has been removed and the GTest directory has been renamed to
flang/unittests/Runtime.
Differential Revision: https://reviews.llvm.org/D105315
Reviewed by: Meinersbur, awarzynski
Jean Perier