This is initial version of TBAA information generation for Flang
generated IR. The desired behavior is that TBAA type descriptors
are generated for FIR types during FIR to LLVM types conversion,
and then TBAA access tags are attached to memory accessing operations
when they are converted to LLVM IR dialect.
In the initial version the type conversion is not producing
TBAA type descriptors, and all memory accesses are just partitioned
into two sets of box and non-box accesses, which can never alias.
The TBAA generation is enabled by default at >O0 optimization levels.
TBAA generation may also be enabled via `apply-tbaa` option of
`fir-to-llvm-ir` conversion pass. `-mllvm -disable-tbaa` engineering
option allows disabling TBAA generation to override Flang's default
(e.g. when -O1 is used).
SPEC CPU2006/437.leslie3d speeds up by more than 2x on Icelake.
Reviewed By: jeanPerier, clementval
Differential Revision: https://reviews.llvm.org/D141820
When creating temporary from a polymorphic entity, its dynamic type
information must be carried over to the temporary.
This patch updates createTempMutableBox to support passing a source_box
from which the information will be carried over.
This is tested on the spread intrinsic and follow-up patches will updates
other temporary creation where needed.
Reviewed By: jeanPerier, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D141667
Until now, only the address of the type descriptor was hold in
a PolymorphicValue. In some cases, the element size and the
type code are also needed when creating new polymorphic
descriptors from an element of a polymorphic entity.
This patch updates PolymorphicValue to carry the source
descriptor from which the element is extracted. The source
descriptor is then used when emboxing the element to a new
polymorphic descriptor.
This simplify the code done in D141274 and will be used
when creating polymorphic temporary as well.
Reviewed By: jeanPerier, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D141609
Unlimited polymorphic descriptor have a set size and can be loaded the
same way as polymorphic or monomorphic descriptors. The descriptor
code gen as been set in D138587.
Of course, the data hold by those descriptors have an unknown size
at compile time.
Depends on D141383
Reviewed By: jeanPerier, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D141390
The current lowering of initial target in fir.global is relying
on how fir.box are created: instead of using a fir.rebox to add
the POINTER attribute to the created descriptor, it is looking
for a fir.embox defining operation and creating a copy of
it with a different result types.
The rational for doing so was that fir.rebox codegen was not possible
inside fir.global because it expects to manipulate the input fir.box
in memory, while objects cannot be manipulated in memory inside
a fir.global region that must be constant foldable.
But this approach has two problems:
- it won't work with hlfir where fir.box may be created by more
operations than fir.embox (e.g. hlfir.delcare or hlfir.designate).
In general, looking for a precise defining op for a value is
fragile.
- manually copying and modifying an operation is risky: it is easy
to forget copying some default operands (that could be added later).
This patch modifies the helpers to get descriptor fields so that they
can both operate on fir.box lowered in memory or in an llvm.struct
value. This enables the usage of fir.rebox in fir.global op.
The fallout in FIR tests is caused by the usage of constant index
when creating GEP (because extractOp requires constant indices).
MLIR builder uses i32 bit constant indices when non mlir::Value
indices are passed to the MLIR GEP op builder. Previously,
an 64 nist mlir constant value was created and passed to the GEP
builder. In this case, the builder respect the value type when
later generating the GEP.
Given this changes impact the "dimension" index that can, per
Fortran requirement, not be greated than 15, using a 32 bit index
is just fine and actually simplify the MLIR LLVM IR generation.
The fallout in lowering tests is caused by the introduction
of the fir.rebox everytime an initial target is created.
Differential Revision: https://reviews.llvm.org/D141136
When an array element is extracted from an unlimited polymorphic array, the
emboxing of this element has to retrive the type code and element size from
the initial array. This patch retrive this information through the extracted
type descriptor.
This situation can be found in code like:
```
subroutine sub1(a)
class(*) :: a(:)
select type (x=>a(1))
type is (integer)
x = 10
end select
end subroutine
```
Reviewed By: jeanPerier, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D141274
Adding support for ppc64 (big endian) in order to support flang on 64 bit AIX
Reviewed By: clementval, kiranchandramohan
Differential Revision: https://reviews.llvm.org/D138390
This is a fairly large changeset, but it can be broken into a few
pieces:
- `llvm/Support/*TargetParser*` are all moved from the LLVM Support
component into a new LLVM Component called "TargetParser". This
potentially enables using tablegen to maintain this information, as
is shown in https://reviews.llvm.org/D137517. This cannot currently
be done, as llvm-tblgen relies on LLVM's Support component.
- This also moves two files from Support which use and depend on
information in the TargetParser:
- `llvm/Support/Host.{h,cpp}` which contains functions for inspecting
the current Host machine for info about it, primarily to support
getting the host triple, but also for `-mcpu=native` support in e.g.
Clang. This is fairly tightly intertwined with the information in
`X86TargetParser.h`, so keeping them in the same component makes
sense.
- `llvm/ADT/Triple.h` and `llvm/Support/Triple.cpp`, which contains
the target triple parser and representation. This is very intertwined
with the Arm target parser, because the arm architecture version
appears in canonical triples on arm platforms.
- I moved the relevant unittests to their own directory.
And so, we end up with a single component that has all the information
about the following, which to me seems like a unified component:
- Triples that LLVM Knows about
- Architecture names and CPUs that LLVM knows about
- CPU detection logic for LLVM
Given this, I have also moved `RISCVISAInfo.h` into this component, as
it seems to me to be part of that same set of functionality.
If you get link errors in your components after this patch, you likely
need to add TargetParser into LLVM_LINK_COMPONENTS in CMake.
Differential Revision: https://reviews.llvm.org/D137838
This is part of an effort to migrate from llvm::Optional to
std::optional. This patch changes the way mlir-tblgen generates .inc
files, and modifies tests and documentation appropriately. It is a "no
compromises" patch, and doesn't leave the user with an unpleasant mix of
llvm::Optional and std::optional.
A non-trivial change has been made to ControlFlowInterfaces to split one
constructor into two, relating to a build failure on Windows.
See also: https://discourse.llvm.org/t/deprecating-llvm-optional-x-hasvalue-getvalue-getvalueor/63716
Signed-off-by: Ramkumar Ramachandra <r@artagnon.com>
Differential Revision: https://reviews.llvm.org/D138934
Exponentiation is lowered to either math::FPowI or Fortran runtime
call (in case of --math-runtime=precise).
MathToFuncs convertor will convert math::FPowI operations with
exponent width >32 to calls of outlined implementations and otherwise
will leave the operation to MathToLLVM convertor.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D139806
Power functions are implemented as linkonce_odr scalar functions
for FPowI operations met in a module.
Vector form of FPowI is linearized into a sequence of calls
of the scalar functions.
Option {min-width-of-fpowi-exponent} controls which FPowI operations
are converted by MathToFuncs: if the width of the exponent's integer
type is less than the specified value, then the operation is not converted.
Flang will specify {min-width-of-fpowi-exponent=33} to make sure that
math::FPowI operations with exponent wider than 32 bits will be converted
by MathToFuncs, and operations with more narrow exponent will be left
for MathToLLVM to convert them to LLVM::PowIOp.
Reviewed By: Mogball
Differential Revision: https://reviews.llvm.org/D139804
When emboxing an entity to a polymorphic box, use the input type to
compute the type code and element size as the box type is too generic.
When reboxing a polymorphic box, get this information from the input
box.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D139916
Reland D139447, D139471 With flang actually working
- FunctionOpInterface: make get/setFunctionType interface methods
This patch removes the concept of a `function_type`-named type attribute
as a requirement for implementors of FunctionOpInterface. Instead, this
type should be provided through two interface methods, `getFunctionType`
and `setFunctionTypeAttr` (*Attr because functions may use different
concrete function types), which should be automatically implemented by
ODS for ops that define a `$function_type` attribute.
This also allows FunctionOpInterface to materialize function types if
they don't carry them in an attribute, for example.
Importantly, all the function "helper" still accept an attribute name to
use in parsing and printing functions, for example.
- FunctionOpInterface: arg and result attrs dispatch to interface
This patch removes the `arg_attrs` and `res_attrs` named attributes as a
requirement for FunctionOpInterface and replaces them with interface
methods for the getters, setters, and removers of the relevent
attributes. This allows operations to use their own storage for the
argument and result attributes.
Reviewed By: jpienaar
Differential Revision: https://reviews.llvm.org/D139736
and "[flang] Fix flang after MLIR update"
This reverts commit dd74e6b6f4fb7a4685086a4895c1934e043f875b and
1897b67ae86470ad54f6baea6f220933d8053b5b due to ongoing test failures on flang
bots e.g. https://lab.llvm.org/buildbot/#/builders/179/builds/5050
This supports the codegen for global procedure pointer in BoxedProcedure
pass. Reset the boxproc type.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D138273
This supports the codegen for procedure pointer component in
BoxedProcedure pass. Also fix the FIR in ProcedurePointer.md so that
all the cases can be run using `tco` to generate the LLVM IR.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D136842
The verifier of fir.emboxchar accepts `fir.char<kind, constant>` types,
but its codegen failed because of a missing cast. It is convenient and
safe to not require making the cast in FIR, so add it in codegen.
Differential Revision: https://reviews.llvm.org/D139514
This patch mechanically replaces None with std::nullopt where the
compiler would warn if None were deprecated. The intent is to reduce
the amount of manual work required in migrating from Optional to
std::optional.
This is part of an effort to migrate from llvm::Optional to
std::optional:
https://discourse.llvm.org/t/deprecating-llvm-optional-x-hasvalue-getvalue-getvalueor/63716
Record type was not correctly retrived so the runtime call was not
produced correctly.
Fix how the record type is retrived so the correct call is
produced.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D139084
Clang uses signext/zeroext attributes for integer arguments shorter than
the default 'int' type on a target. So Flang has to match this for functions
from Fortran runtime and also for BIND(C) routines. This patch implements
ABI adjustments only for Fortran runtime calls. BIND(C) part will be done
separately.
This resolves https://github.com/llvm/llvm-project/issues/58579
Differential Revision: https://reviews.llvm.org/D137050
Change how the binding tables are retrived. Use the newly lowered
fir.dispatch_table operations instead of the fir.global type infos.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D138903
As an attempt to fix errors in Flang regression tests on RISCV64 platform, RISCV64 target was added, and subsequent tests were provided.
Reviewed By: vzakhari
Differential Revision: https://reviews.llvm.org/D136547
Handle rewriting dispatch operation with complex arguments or
return.
sret will be done in a separate patch.
Reviewed By: jeanPerier, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D138820
Code generation to create and populate the descriptor (element size and
type code) is based on the boxed result type. This does not work well with
unlimited polymorphic entities since the fir type does not represent what is
actually emboxed or reboxed.
In the case of emboxing, the input type will be used to populate
the descriptor element size and type code.
When reboxing an unlimited polymorphic to a unlimited polymorphic entities, the
element size and type code is retrieve from the input box.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D138587
Initialization of unlimited polymorphic descriptor was raising an error.
This patch sets a default size and type code for unlimited polymoprhic descriptor
that will be updated once allocated/assigned.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D138479
Couple of operation are expecting BoxType but can totally handle
ClassType as well. This patch updates couple of locations to support
BaseBoxType instead of BoxType only.
Reviewed By: jeanPerier, PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D138422
Clang uses signext/zeroext attributes for integer arguments shorter than
the default 'int' type on a target. So Flang has to match this for functions
from Fortran runtime and also for BIND(C) routines. This patch implements
ABI adjustments only for Fortran runtime calls. BIND(C) part will be done
separately.
This resolves https://github.com/llvm/llvm-project/issues/58579
Differential Revision: https://reviews.llvm.org/D137050
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
`fir.box_typecode` operation allows to retrieve the type code
from a boxed value. This will be used in the `fir.select_type` conversion
to if-then-else ladder for type guard statement with intrinsic type spec
instead of using a runtime call.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D137829
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
When a fir.dispatch is done with a NOPASS type-bound
procedure, the object in fir.dispatch is just used to gather the vtable.
Therefore, no transformation is done on it and the original entity
is used. The current code generation didn't expect the entity to be an array.
This patch update the code generation to be able to retrieve the vtable
accordingly.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D137255
This patch fix issues found during call to deallocate.
fir.class can be handled the same way as fir.box in fir.store operation
code generation. In MutableBox::createNewFirBox, the fir.class is
also already a boxed entity.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D137079
Lowering of allocate statement for polymoprhic pointers is a bit
different than for allocatables. A call to `PointerNullifyDerived`
runtime function is done instead of `AllocatableInitDerived`.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D136820
This patch lowers the complex operations supported by the MLIR complex
dialect to those operations rather than libm. When the math runtime flag
is set to precise, libm lowering is used instead.
Differential Revision: https://reviews.llvm.org/D135882
For polymoprhic entities, the type descriptor is dynamic. The tdesc
operand on fir.embox is meant to propagate the dynamic type when
embox a polymorphic entity.
This patch makes use of this operand in code generation and update
the created descriptor accordingly.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D136748
This allows all ELF operating systems to use target specifics tuned for Linux,
since they use mostly the same ABIs. If some triples are to excluded, it's
better done at the driver layer.
Reviewed By: emaste
Differential Revision: https://reviews.llvm.org/D135100
Load the pointer of the dynamic type descriptor from the
original box and update the destination descriptor with this pointer.
Reviewed By: PeteSteinfeld
Differential Revision: https://reviews.llvm.org/D136618
fir.dispatch code generation was not handling fir.class pointer and
allocatable types. Update the code generation part to rertieve correctly the
the type info from those types.
Depends on D136426
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D136429
When allocating a polymorphic entity, its type descriptor can come
from the declared type or can be provided in the allocate statement.
This patch adds lowering for allocate on polymorphic by calling
the `AllocatableInitDerived` runtime function with the correct
type descriptor. Some adaptation are made in the code generation
to accept fir.class where it is appropriate.
Reviewed By: jeanPerier
Differential Revision: https://reviews.llvm.org/D136426
The single precision `hypot` intrinsic is lowered to a call to the libm
`hypotf` function. However, the MSVC runtime lacks a hypotf function
and instead uses `_hypotf` (*). This patch tries to find and rewrite
calls to `hypotf` if we're on a MSVC platform.
Calls to libm functions can be introduced even after lowering (**).
Therefore, we try to do the rewriting at the very end of FIR to LLVM
lowering.
Fixes https://github.com/llvm/llvm-project/issues/57563
(*) More specifically, MSVC's headers define hypotf as an inline
function that just calls _hypotf. This works fine for clang, since it
will include those headers, but flang only links with the CRT so we
don't get a free ride.
(**) 56f94ede2a/flang/lib/Optimizer/CodeGen/CodeGen.cpp (L3391)
Differential Revision: https://reviews.llvm.org/D135853
For now, nothing is done about debug info and the fir.declare is simply
replaced by the memref argument. This is done in the PreCGRewrite in
order to avoid requiring adding support for fir.shape codegen, which
would still be useless and undesired at that point.
Differential Revision: https://reviews.llvm.org/D136254
