Move non-common files from FortranCommon to FortranSupport (analogous to
LLVMSupport) such that
* declarations and definitions that are only used by the Flang compiler,
but not by the runtime, are moved to FortranSupport
* declarations and definitions that are used by both ("common"), the
compiler and the runtime, remain in FortranCommon
* generic STL-like/ADT/utility classes and algorithms remain in
FortranCommon
This allows a for cleaner separation between compiler and runtime
components, which are compiled differently. For instance, runtime
sources must not use STL's `<optional>` which causes problems with CUDA
support. Instead, the surrogate header `flang/Common/optional.h` must be
used. This PR fixes this for `fast-int-sel.h`.
Declarations in include/Runtime are also used by both, but are
header-only. `ISO_Fortran_binding_wrapper.h`, a header used by compiler
and runtime, is also moved into FortranCommon.
When a separate module procedure is defined with MODULE PROCEDURE, the
compiler crashes if there is a dummy procedure in the interface defined
with only a result type. This is due to the type already having been
defined on the ProcEntityDetails symbol as part of earlier wholesale
symbol duplication. Adjust the code to not define the result type of the
ProcEntityDetails if it is already present, but to verify that it is the
same type instead.
Fixes https://github.com/llvm/llvm-project/issues/124487.
The semantics utility GetAllNames has declarations in two header files
and a definition that really should be in the common utilities source
file. Remove the redudant declaration from resolve-names-utils.h and
move code from resolve-names-utils.cpp into Semantics/tools.cpp.
(This is a big patch, but it's nearly an NFC. No test results have
changed and all Fortran tests in the LLVM test suites work as expected.)
Allow a parser::Message for a warning to be marked with the
common::LanguageFeature or common::UsageWarning that controls it. This
will allow a later patch to add hooks whereby a driver will be able to
decorate warning messages with the names of its options that enable each
particular warning, and to add hooks whereby a driver can map those
enumerators by name to command-line options that enable/disable the
language feature and enable/disable the messages.
The default settings in the constructor for LanguageFeatureControl were
moved from its header file into its C++ source file.
Hooks for a driver to use to map the name of a feature or warning to its
enumerator were also added.
To simplify the tagging of warnings with their corresponding language
feature or usage warning, to ensure that they are properly controlled by
ShouldWarn(), and to ensure that warnings never issue at code sites in
module files, two new Warn() member function templates were added to
SemanticsContext and other contextual frameworks. Warn() can't be used
before source locations can be mapped to scopes, but the bulk of
existing code blocks testing ShouldWarn() and FindModuleFile() before
calling Say() were convertible into calls to Warn(). The ones that were
not convertible were extended with explicit calls to
Message::set_languageFeature() and set_usageWarning().
…lock specification expressions
A subroutine or function interface block is of course allowed to
USE-associate symbols into its scope and use them for specification
expressions. This usage works, but crashes the module file output
generator. Fix.
Fixes https://github.com/llvm/llvm-project/issues/93413.
EQUIVALENCE set processing assumes that any arrays have explicit shape
and constant lower bounds. When an erroneous program violates those
assumptions, the compiler crashes. Fix.
Fixes https://github.com/llvm/llvm-project/issues/92636.
Move EQUIVALENCE object checking from resolve-names-utils.cpp to
check-declarations.cpp, where it can work on fully resolved symbols and
reduce clutter in name resolution. Add a check for EQUIVALENCE objects
that are not ObjectEntityDetails symbols so that attempts to equivalence
a procedure are caught.
Save both the raw procedure interface symbol as well as the result of
passing it through GetUltimate() and BypassGeneric() in symbol table
entries with ProcEntityDetails. The raw symbol of the interface needs to
be the one used for emitting procedure symbols to module files.
Fixes https://github.com/llvm/llvm-project/issues/83836.
The code that duplicates the interface of a separate module procedure
into its definition doesn't allow for a dummy procedure with an explicit
INTERFACE declaration. Extend the code to handle this case.
Fixes https://github.com/llvm/llvm-project/issues/66631.
Example:
```
subroutine global_sub()
integer, dimension(4) :: iarr4=(/1,2,3,4/)
integer, dimension(4) :: jarr4
equivalence(iarr4,jarr4)
call sub1
print *, iarr4
contains
subroutine sub1
iarr4=jarr4((/4:1:-1/))
end subroutine sub1
end subroutine global_sub
```
`iarr4` and `jarr4` are equivalenced via a global aggregate storage,
but the references inside `sub1` are lowered differently.
`iarr4` is accessed via the global aggregate storage, while `jarr4`
is accessed via the argument tuple. This confuses the FIR alias
analysis,
that claims that a host associated entity cannot alias with a global
(if they have different source and do not have Target/Pointer
attributes deduced by the alias analysis).
I am not convinced that there is an issue in the alias analysis yet.
I think we'd better lower the accesses uniformly, i.e. if one variable
from an equivalence is lowered via the global aggregate storage, then
any other variable from this equivalence should be lowered the same way
(even if they are used via host association).
This patch makes sure that all symbols from an EQUIVALENCE get
and implicit SAVE attribute, if they do not have it already and
any symbol from the EQUIVALENCE is SAVEd (explicitly or implicitly).
This makes the further lowering consistent.
When a module procedure's interface is defined in an ancestor (sub)module
with an implicitly typed dummy argument, don't emit a bogus error in
the separate module procedure later if its submodule has IMPLICIT NONE.
Fixes llvm-test-suite/Fortran/gfortran/regression/submodule_26.f90.
Differential Revision: https://reviews.llvm.org/D157335
The following PowerPC vector type syntax is added:
VECTOR ( element-type-spec )
where element-type-sec is integer-type-spec, real-type-sec or unsigned-type-spec.
Two opaque types (__VECTOR_PAIR and __VECTOR_QUAD) are also added.
A finite set of functionalities are implemented in order to support the new types:
1. declare objects
2. declare function result
3. declare type dummy arguments
4. intrinsic assignment between the new type objects (e.g. v1=v2)
5. reference functions that return the new types
Submit on behalf of @tislam @danielcchen
Authors: @tislam @danielcchen
Differential Revision: https://reviews.llvm.org/D150876
A fairly recent introduction of runtime I/O APIs called OutputDerivedType()
and InputDerivedType() didn't cover NAMELIST I/O's need to access
non-type-bound generic interfaces for user-defined derived type I/O
when those generic interfaces are defined in some scope other than the
one that defines the derived type.
The patch adds a new data structure shared between lowering
and the runtime that can represent all of the cases that can
arise with non-type-bound defined I/O. It can represent
scopes in which non-type-bound defined I/O generic interfaces
are inaccessible, too, due to IMPORT statements.
The data structure is now an operand to OutputDerivedType() and
InputDerivedType() as well as a data member in the NamelistGroup
structure.
Differential Revision: https://reviews.llvm.org/D148257
Constraint checking for explicit SAVE attributes is more
accurate when done along with other declaration checking, rather
than on the fly during name resolution. This allows us to
catch attempts to attach explicit SAVE attributes to anything
that can't have one (constraints C859, C860).
Also delete `IsSave()`, whose few remaining uses were changed to the
more general `IsSaved()` predicate that seems more correct for
those uses, returning true for both explicit and implied SAVE
attributes.
Differential Revision: https://reviews.llvm.org/D146579
The ProcInterface structure is used only by ProcEntityDetails; it represents
what a program might have put in parentheses in a procedure-declaration-stmt,
either the name of a procedure interface or a declaration-type-spec.
If a procedure entity has an implicit interface, the function result
type (if any) can be kept in EntityDetails::type_, which already exists
and is currently redundant for ProcEntityDetails symbols.
All that is really needed is a nullable Symbol pointer in ProcEntityDetails
to point to the procedure's explicit interface, when it has one.
Also, catch the case where a procedure has an explicit interface
and a program attempts to also give it a type.
Differential Revision: https://reviews.llvm.org/D140134
Given a MODULE SUBROUTINE or MODULE FUNCTION interface followed
later by a corresponding separate module subprogram definition in a
MODULE PROCEDURE, the copies of the interface's dummy argument and
function result symbols that populate the initial scope of that
MODULE PROCEDURE need to have any symbol references in their types
or bounds adjusted to point to their new counterparts.
Differential Revision: https://reviews.llvm.org/D139200
Any symbol in a module file will have been already shamed with
portability warnings when the module was compiled, so don't pile
on when compiling other program units that use the module.
This also silences warnings about some symbols whose names were
created or extended by the compiler to avoid clashes.
Differential Revision: https://reviews.llvm.org/D134455
Adds flang/include/flang/Common/log2-visit.h, which defines
a Fortran::common::visit() template function that is a drop-in
replacement for std::visit(). Modifies most use sites in
the front-end and runtime to use common::visit().
The C++ standard mandates that std::visit() have O(1) execution
time, which forces implementations to build dispatch tables.
This new common::visit() is O(log2 N) in the number of alternatives
in a variant<>, but that N tends to be small and so this change
produces a fairly significant improvement in compiler build
memory requirements, a 5-10% improvement in compiler build time,
and a small improvement in compiler execution time.
Building with -DFLANG_USE_STD_VISIT causes common::visit()
to be an alias for std::visit().
Calls to common::visit() with multiple variant arguments
are referred to std::visit(), pending further work.
This change is enabled only for GCC builds with GCC >= 9;
an earlier attempt (D122441) ran into bugs in some versions of
clang and was reverted rather than simply disabled; and it is
not well tested with MSVC. In non-GCC and older GCC builds,
common::visit() is simply an alias for std::visit().
Adds flang/include/flang/Common/visit.h, which defines
a Fortran::common::visit() template function that is a drop-in
replacement for std::visit(). Modifies most use sites in
the front-end and runtime to use common::visit().
The C++ standard mandates that std::visit() have O(1) execution
time, which forces implementations to build dispatch tables.
This new common::visit() is O(log2 N) in the number of alternatives
in a variant<>, but that N tends to be small and so this change
produces a fairly significant improvement in compiler build
memory requirements, a 5-10% improvement in compiler build time,
and a small improvement in compiler execution time.
Building with -DFLANG_USE_STD_VISIT causes common::visit()
to be an alias for std::visit().
Calls to common::visit() with multiple variant arguments
are referred to std::visit(), pending further work.
Differential Revision: https://reviews.llvm.org/D122441
Using recently established message severity codes, upgrade
non-fatal messages to usage and portability warnings as
appropriate.
Differential Revision: https://reviews.llvm.org/D121246
F18 presently has fatal and non-fatal diagnostic messages. We'd like
to make non-fatal warnings stand out better in the output of the compiler.
This will turn out to be a large change that affects many files.
This patch is just the first part. It converts a Boolean isFatal_ data
member of the message classes into a severity code, and defines four
of these codes (Error, Warning, Portability, and a catch-all Other).
Later patches will result from sweeping over the parser and semantics,
changing most non-fatal diagnostic messages into warnings and portability
notes.
Differential Revision: https://reviews.llvm.org/D121228
EQUIVALENCE storage association of objects whose types are not
both default-kind numeric storage sequences, or not both default-kind
character storage sequences, are not standard conformant.
However, most Fortran compilers admit such usage, with warnings
in strict conformance mode. This patch allos EQUIVALENCE of objects
that have sequence types that are either identical, both numeric
sequences (of default kind or not), or both character sequences.
Non-sequence types, and sequences types that are not homogeneously
numeric or character, remain errors.
Differential Revision: https://reviews.llvm.org/D119848
Some kinds of Fortran arrays are declared with the same syntax,
and it is impossible to tell from a shape (:, :) or (*) whether
the object is assumed shape, deferred shape, assumed size, implied
shape, or whatever without recourse to more information about the
symbol in question. This patch softens the names of some predicate
functions (IsAssumedShape to CanBeAssumedShape) and makes others
more reflective of the syntax they represent (isAssumed to isStar)
in an attempt to encourage coders to seek and find definitive
predicate functions whose names deliver what they seem to mean.
Address TODO comments in IsSimplyContiguous() by using the
updated IsAssumedShape() predicate.
Differential Revision: https://reviews.llvm.org/D114829
This legacy option (available in other Fortran compilers with various
spellings) implies the SAVE attribute for local variables on subprograms
that are not explicitly RECURSIVE. The SAVE attribute essentially implies
static rather than stack storage. This was the default setting in Fortran
until surprisingly recently, so explicit SAVE statements & attributes
could be and often were omitted from older codes. Note that initialized
objects already have an implied SAVE attribute, and objects in COMMON
effectively do too, as data overlays are extinct; and since objects that are
expected to survive from one invocation of a procedure to the next in static
storage should probably be explicit initialized in the first place, so the
use cases for this option are somewhat rare, and all of them could be
handled with explicit SAVE statements or attributes.
This implicit SAVE attribute must not apply to automatic (in the Fortran sense)
local objects, whose sizes cannot be known at compilation time. To get the
semantics of IsSaved() right, the IsAutomatic() predicate was moved into
Evaluate/tools.cpp to allow for dynamic linking of the compiler. The
redundant predicate IsAutomatic() was noticed, removed, and its uses replaced.
GNU Fortran's spelling of the option (-fno-automatic) was added to
the clang-based driver and used for basic sanity testing.
Differential Revision: https://reviews.llvm.org/D114209
It's possible to declare deferred shape array using the POINTER
statement, for example:
POINTER :: var(:)
When analyzing POINTER declarations, we were not capturing the array
specification information, if present. I fixed this by changing the
"Post" function for "parser::PointerDecl" to check to see if the
declaration contained a "DeferredShapeSpecList". In such cases, I
analyzed the shape and used to information to declare an "ObjectEntity"
that contains the shape information rather than an "UnknownEntity".
I also added a couple of small tests that fail to compile without these
changes.
Differential Revision: https://reviews.llvm.org/D95080
Some operators have more than one name, e.g. operator(==), operator(.eq).
That was working correctly in generic definitions but they can also
appear in other contexts: USE statements and access statements, for
example.
This changes FindInScope to always look for each of the names for
a symbol. So an operator may be use-associated under one name but
declared private under another name and it will be the same symbol.
This replaces GenericSpecInfo::FindInScope which was only usable in
some cases.
Add a version of FindInScope() that looks in the current scope to
simplify many of the calls.
Differential Revision: https://reviews.llvm.org/D93344
Change how generic operators and assignments are checked for
distinguishable procedures. Because of how they are invoked, available
type-bound generics and normal generics all have to be considered
together. This is different from how generic names are checked.
Move common part of checking into DistinguishabilityHelper so that it
can be used in both cases after the appropriate procedures have been
added.
Cache result of Procedure::Characterize(Symbol) in a map in
CheckHelper so that we don't have to worry about passing the
characterized Procedures around or the cost of recomputing them.
Add MakeOpName() to construct names for defined operators and assignment
for using in error messages. This eliminates the need for different
messages in those cases.
When the procedures for a defined operator or assignment are undistinguishable,
include the type name in the error message, otherwise it may be ambiguous.
Add missing check that procedures for defined operators are functions
and that their dummy arguments are INTENT(IN) or VALUE.
Differential Revision: https://reviews.llvm.org/D87341
Implement cross-set EQUIVALENCE impossibility checking; fixes
an infinite loop on an erroneous test. Also fix substring
reference offset calculations in EQUIVALENCE discovered to
be incorrect during testing.
Reviewed By: tskeith
Differential Revision: https://reviews.llvm.org/D82993
Summary
- Implemented C876, C877
- Fixed IsConstantExpr to check C879
- Fixed bugs in few test cases - data01.f90, block-data01.f90,
pre-fir-tree02.f90
- Modified implementation of C8106 to identify all automatic objects
and modified equivalence01.f90 to reflect the changes
Differential Revision: https://reviews.llvm.org/D78424
Summary:
Some Symbol-related functions used in Evaluate were moved to
Evaluate/tools.h. This includes changing some member functions that were
replaced by non-member functions `IsDummy`, `GetUsedModule`, and
`CountLenParameters`.
Some member functions were made inline in `Scope`, `Symbol`,
`ArraySpec`, and `DeclTypeSpec`. The definitions were preceded by a
comment explaining why they are inline.
`IsConstantShape` was expanded inline in `IsDescriptor` because it isn't
used anywhere else
After this change, at least when compiling with clang on macos,
`libFortranEvaluate.a` has no undefined symbols that are satisfied by
`libFortranSemantics.a`.
Reviewers: klausler, PeteSteinfeld, sscalpone, jdoerfert, DavidTruby
Reviewed By: PeteSteinfeld
Subscribers: llvm-commits
Tags: #flang, #llvm
Differential Revision: https://reviews.llvm.org/D80762
This patch replaces the occurrence of std::ostream by llvm::raw_ostream.
In LLVM Coding Standards[1] "All new code should use raw_ostream
instead of ostream".[1]
As a consequence, this patch also replaces the use of:
std::stringstream by llvm::raw_string_ostream or llvm::raw_ostream*
std::ofstream by llvm::raw_fd_ostream
std::endl by '\n' and flush()[2]
std::cout by llvm::outs() and
std::cerr by llvm::errs()
It also replaces std::strerro by llvm::sys::StrError** , but NOT in Fortran
runtime libraries
*std::stringstream were replaced by llvm::raw_ostream in all methods that
used std::stringstream as a parameter. Moreover, it removes the pointers to
these streams.
[1]https://llvm.org/docs/CodingStandards.html
[2]https://releases.llvm.org/2.5/docs/CodingStandards.html#ll_avoidendl
Signed-off-by: Caroline Concatto <caroline.concatto@arm.com>
Running clang-format-7
Signed-off-by: Caroline Concatto <caroline.concatto@arm.com>
Removing residue of ostream library
Signed-off-by: Caroline Concatto <caroline.concatto@arm.com>
Original-commit: flang-compiler/f18@a3507d44b8
Reviewed-on: https://github.com/flang-compiler/f18/pull/1047
