Create the fir.dispatch_table operation based on semantics
information. The fir.dispatch_table will be used for static devirtualization
as well as for fir.select_type conversion.
Depends on D138129
Reviewed By: jeanPerier, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D138131
This operation will be used to declare named variables in HLFIR.
See the added description in HLFIROpBase.td for more info about it.
The motivation behind this operation is described in https://reviews.llvm.org/D137634.
The FortranVariableInterface verifier is changed a bit. It used to
operate using the result type to verify the provided shape and length
parameters. This is a bit incorrect because what matters to verify the
information is the input address (This worked OK with fir.declare where
the input memref type is the same as the output result). Also, not all
operation defining variables will have an input memref with the same
meaning (hlfir.designate and hlfir.associate for instance).
Hence, this verifier is now optional and must be provided a memref to
operate.
Differential Revision: https://reviews.llvm.org/D137781
The main purpose of this patch is to propagate fastmath attribute
to SimplifyIntrinsicsPass, so that the inline code can inherit
the call operation's attributes. Even though I added translation
of fastmath from fir::CallOp to LLVM::CallOp, there are no fastmath
attributes in LLVM IR. It looks like the translation drops it.
This will need additional commits.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D137602
Update the already existing fir.select_type operation to
reflect decisions made in the polymorphic entities design document.
The verifier is updated to check that the select is polymorphic.
The case attributes name are changed and some tests are added.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D137403
In some cases, it is useful to be able to embox a polymorphic entity
together with its dynamic type. This patch adds an optional tdesc operand
to fir.embox so the dynamic type can be provided while emboxing the entity.
This will be used in follow-up patch that lowers tbp calls for element of
polymorphic entities array.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D135809
Lower call with polymorphic entities to fir.dispatch operation. This patch only
focus one lowering with simple scalar polymorphic entities. A follow-up patch
will deal with allocatble, pointer and array of polymorphic entities as they
require box manipulation for the passed-object.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D135649
This patch updates the fir.convert operation's verifier to allow
conversion from !fir.box<!fir.type<T>> to !fir.class<!fir.type<T>>.
Other conversion involving fir.class are likely needed but will
be added when lowering needs them.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D135445
TARGET dummy arguments have fir.target attribute attached to them,
but globals do not have any sign of TARGET. This patch adds
target attribute for globals, which can be queried via
::fir::GlobalOp::getTarget().
Differential Revision: https://reviews.llvm.org/D135313
Remove custom parser/printer and make use of the assembly format
for the fir.dispatch operation.
Depends on D135358
Reviewed By: PeteSteinfeld, jeanPerier
Differential Revision: https://reviews.llvm.org/D135363
Update the `fir.dispatch` operation to prepare
the lowering part. `nopass` and `pass_arg_pos` attributes
are added in the arguments list so accessors are generated
by MLIR tablegen. A verifier is added as well as some tests.
This patch is part of the implementation of the poltymorphic
entities.
https://github.com/llvm/llvm-project/blob/main/flang/docs/PolymorphicEntities.md
Reviewed By: jeanPerier, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D135358
This reland includes changes to the Python bindings.
Switch variadic operand and result segment size attributes to use the
dense i32 array. Dense integer arrays were introduced primarily to
represent index lists. They are a better fit for segment sizes than
dense elements attrs.
Depends on D131801
Reviewed By: rriddle
Differential Revision: https://reviews.llvm.org/D131803
Switch variadic operand and result segment size attributes to use the
dense i32 array. Dense integer arrays were introduced primarily to
represent index lists. They are a better fit for segment sizes than
dense elements attrs.
Depends on D131738
Reviewed By: mehdi_amini
Differential Revision: https://reviews.llvm.org/D131702
Flang C++ Style Guide tells us to use x.value() when no presence test
is obviously protecting the reference. Since assert can be disabled,
I don't count it as "protection" here.
Differential Revision: https://reviews.llvm.org/D130144
Flang C++ Style Guide tells us to avoid .has_value() in the predicate
expressions of control flow statements. I am treating ternary
expressions as control flow statements for the purpose of this patch.
Differential Revision: https://reviews.llvm.org/D128622
- Add verifiers that determine if an Op requires type parameters or
not and checks that the correct number of parameters is specified.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D128828
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Fix bugs relating to support for characters of different kinds. Lowering
was creating bad FIR and MLIR that crashed in conversion to LLVM IR.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D128723
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Add more diagnostics to fir.coordinate_of to provide better checking
that the IR is sane.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D128255
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
FIR models Fortran intrinsic types with deliberate KIND values. Like
Fortran, COMPLEX and REAL have related KINDs in FIR. Lowering now
converts REAL types to floating point (MLIR) up front. This patch moves
the code to convert from FIR RealType to MLIR FloatType out of codegen
and into the builder, allowing FIR ComplexTypes to have their element
type returned as an MLIR FloatType.
We should consider whether to replace fir::ComplexType with
mlir::ComplexType at some point. I believe these types are presently
used to convey distinctins in the target ABIs in the Tilikum bridge
however.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D127636
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
The warning caused build errors on a couple flang testers that are
building with -Werror. The diagnostic change makes the generated
error correct.
This is a followup to https://reviews.llvm.org/D125549
Differential Revision: https://reviews.llvm.org/D125587
MLIR has a common pattern for "arguments" that uses syntax
like `%x : i32 {attrs} loc("sourceloc")` which is implemented
in adhoc ways throughout the codebase. The approach this uses
is verbose (because it is implemented with parallel arrays) and
inconsistent (e.g. lots of things drop source location info).
Solve this by introducing OpAsmParser::Argument and make addRegion
(which sets up BlockArguments for the region) take it. Convert the
world to propagating this down. This means that we correctly
capture and propagate source location information in a lot more
cases (e.g. see the affine.for testcase example), and it also
simplifies much code.
Differential Revision: https://reviews.llvm.org/D124649
The asm parser had a notional distinction between parsing an
operand (like "%foo" or "%4#3") and parsing a region argument
(which isn't supposed to allow a result number like #3).
Unfortunately the implementation has two problems:
1) It didn't actually check for the result number and reject
it. parseRegionArgument and parseOperand were identical.
2) It had a lot of machinery built up around it that paralleled
operand parsing. This also was functionally identical, but
also had some subtle differences (e.g. the parseOptional
stuff had a different result type).
I thought about just removing all of this, but decided that the
missing error checking was important, so I reimplemented it with
a `allowResultNumber` flag on parseOperand. This keeps the
codepaths unified and adds the missing error checks.
Differential Revision: https://reviews.llvm.org/D124470
This patch avoids to fold `fir.box_addr` when the defining `fir.embox` op
has a slice. If the op is folded the slice information are lost.
This kind of problem occurred with code like:
```
call check(y(half+1:))
```
where `y` is an array.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D123392
This patch revamps the BranchOpInterface a bit and allows a proper implementation of what was previously `getMutableSuccessorOperands` for operations, which internally produce arguments to some of the block arguments. A motivating example for this would be an invoke op with a error handling path:
```
invoke %function(%0)
label ^success ^error(%1 : i32)
^error(%e: !error, %arg0 : i32):
...
```
The advantages of this are that any users of `BranchOpInterface` can still argue over remaining block argument operands (such as `%1` in the example above), as well as make use of the modifying capabilities to add more operands, erase an operand etc.
The way this patch implements that functionality is via a new class called `SuccessorOperands`, which is now returned by `getSuccessorOperands`. It basically contains an `unsigned` denoting how many operator produced operands exist, as well as a `MutableOperandRange`, which are the usual forwarded operands we are used to. The produced operands are assumed to the first few block arguments, followed by the forwarded operands afterwards. The role of `SuccessorOperands` is to provide various utility functions to modify and query the successor arguments from a `BranchOpInterface`.
Differential Revision: https://reviews.llvm.org/D123062
- Adds default implementations of `isDefinedOutsideOfLoop` and `moveOutOfLoop` since 99% of all implementations of these functions were identical
- `moveOutOfLoop` takes one operation and doesn't return anything anymore. 100% of all implementations of this function would always return `success` and uses would either respond with a pass failure or an `llvm_unreachable`.
In FIR, we want to wrap function pointers in a special box known as a
boxproc value. Fortran has a limited form of dynamic scoping
[https://tinyurl.com/2p8v2hw7] between "host procedures" and "internal
procedures". There are a number of implementations possible.
Boxproc typed values abstract away the implementation details of when a
function pointer can be passed directly (as a raw address) and when a
function pointer has to account for the presence of a dynamic scope.
When lowering Fortran syntax to FIR, all function pointers are emboxed
as boxproc values.
When creating LLVM IR, we must strip away the abstraction and produce
low-level LLVM "assembly" code. This patch implements that
transformation as converting the boxproc values to either raw function
pointers or executable trampolines on the stack as needed. The
trampoline then captures the dynamic scope context within an executable
thunk that can be passed instead of the function's raw address.
Some extra handling is required for Fortran functions that return a
character value to deal with LEN values here.
Some of the code in Bridge.cpp and ConvertExpr.cpp and be re-arranged to
faciliate the upstreaming effort.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: jeanPerier, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D122223
Co-authored-by: mleair <leairmark@gmail.com>
Co-authored-by: Jean Perier <jperier@nvidia.com>
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Co-authored-by: V Donaldson <vdonaldson@nvidia.com>
Co-authored-by: Kiran Chandramohan <kiran.chandramohan@arm.com>
I am not sure about the meaning of Type in the name (was it meant be interpreted as Kind?), and given the importance and meaning of Type in the context of MLIR, its probably better to rename it. Given the comment in the source code, the suggestion in the GitHub issue and the final discussions in the review, this patch renames the OperandType to UnresolvedOperand.
Fixes https://github.com/llvm/llvm-project/issues/54446
Differential Revision: https://reviews.llvm.org/D122142
This patch adds lowering for procedure designator.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D122153
Co-authored-by: Jean Perier <jperier@nvidia.com>
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
This removes any potential confusion with the `getType` accessors
which correspond to SSA results of an operation, and makes it
clear what the intent is (i.e. to represent the type of the function).
Differential Revision: https://reviews.llvm.org/D121762
Allow fir.rebox input and output element type to differ for characters
if:
- Any of the character type is dynamic. Fortran allows making pointer
assignments between deferred and constant lengths entities, making this
case useful (if the input length is dynamic and the output length constant,
it is a user requirement that the length matches at runtime. There is no
option to check this at runtime, but it could be added as an option to
fir.rebox codegen later if desired).
- Or, there is a slice in the fir.rebox (the fir.rebox can implement a
substring view, hence the constant output and input lengths).
This is only a verifier constraint change, the fir.rebox codegen is not
impacted and already support those cases.
Add related FIR parsing, error, and codegen tests.
Differential Revision: https://reviews.llvm.org/D121710
This patch update the array value copy pass to support fir-array_amend
and fir.array_access.
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: PeteSteinfeld, schweitz
Differential Revision: https://reviews.llvm.org/D121300
Co-authored-by: Jean Perier <jperier@nvidia.com>
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Currently, CGOps.h and FIROps.h contain `using namespace mlir;`. Every
file that includes one of these header files (directly and transitively)
will have the MLIR namespace enabled. With name-clashes within
sub-projects (LLVM and MLIR, MLIR and Flang), this is not desired. Also,
it is not possible to "un-use" a namespace once it is "used". Instead,
we should try to limit `using namespace` to implementation files (i.e.
*.cpp).
This patch removes `using namespace mlir;` from header files and adjusts
other files accordingly. In header and TableGen files, extra namespace
qualifier is added when referring to symbols defined in MLIR. Similar
approach is adopted in source files that didn't require many changes. In
files that would require a lot of changes, `using namespace mlir;` is
added instead.
Differential Revision: https://reviews.llvm.org/D120897
The last remaining operations in the standard dialect all revolve around
FuncOp/function related constructs. This patch simply handles the initial
renaming (which by itself is already huge), but there are a large number
of cleanups unlocked/necessary afterwards:
* Removing a bunch of unnecessary dependencies on Func
* Cleaning up the From/ToStandard conversion passes
* Preparing for the move of FuncOp to the Func dialect
See the discussion at https://discourse.llvm.org/t/standard-dialect-the-final-chapter/6061
Differential Revision: https://reviews.llvm.org/D120624
This patch introduce basic function/subroutine calls.
Because of the state of lowering only simple scalar arguments
can be used in the calls. This will be enhanced in follow up
patches with arrays, allocatable, pointer ans so on.
```
subroutine sub1()
end
subroutine sub2()
call sub1()
end
```
This patch is part of the upstreaming effort from fir-dev branch.
Reviewed By: schweitz
Differential Revision: https://reviews.llvm.org/D120419
Co-authored-by: Eric Schweitz <eschweitz@nvidia.com>
Co-authored-by: Jean Perier <jperier@nvidia.com>
Co-authored-by: V Donaldson <vdonaldson@nvidia.com>
Without results, there is no getType injected and so generating one in prefixed form doesn't result in any failures during C++ compilation.
Differential Revision: https://reviews.llvm.org/D119871
`kEmitAccessorPrefix_Raw ` is being removed, and so updating the
accessors to `kEmitAccessorPrefix_Prefixed`.
Reviewed By: clementval
Differential Revision: https://reviews.llvm.org/D119812
These have been replaced by `hasCustomAssemblyFormat` and `hasVerifier`
fields and aren't needed anymore.
Ops deriving from `fir_IntegralSwitchTerminatorOp` and `region_Op` are
not handled in this patch for ease of review.
Reviewed By: rriddle
Differential Revision: https://reviews.llvm.org/D119776
