//===-- Optimizer/Dialect/FIROpsSupport.h -- FIR op support -----*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#ifndef FORTRAN_OPTIMIZER_DIALECT_FIROPSSUPPORT_H
#define FORTRAN_OPTIMIZER_DIALECT_FIROPSSUPPORT_H
#include "flang/Optimizer/Dialect/FIROps.h"
#include "mlir/Dialect/Func/IR/FuncOps.h"
#include "mlir/IR/BuiltinOps.h"
namespace fir {
/// Return true iff the Operation is a non-volatile LoadOp or ArrayLoadOp.
inline bool nonVolatileLoad(mlir::Operation *op) {
if (auto load = mlir::dyn_cast<fir::LoadOp>(op))
return !load->getAttr("volatile");
if (auto arrLoad = mlir::dyn_cast<fir::ArrayLoadOp>(op))
return !arrLoad->getAttr("volatile");
return false;
}
/// Return true iff the Operation is a call.
inline bool isaCall(mlir::Operation *op) {
return mlir::isa<fir::CallOp>(op) || mlir::isa<fir::DispatchOp>(op) ||
mlir::isa<mlir::func::CallOp>(op) ||
mlir::isa<mlir::func::CallIndirectOp>(op);
}
/// Return true iff the Operation is a fir::CallOp, fir::DispatchOp,
/// mlir::CallOp, or mlir::CallIndirectOp and not pure
/// NB: This is not the same as `!pureCall(op)`.
inline bool impureCall(mlir::Operation *op) {
// Should we also auto-detect that the called function is pure if its
// arguments are not references? For now, rely on a "pure" attribute.
return op && isaCall(op) && !op->getAttr("pure");
}
/// Return true iff the Operation is a fir::CallOp, fir::DispatchOp,
/// mlir::CallOp, or mlir::CallIndirectOp and is also pure.
/// NB: This is not the same as `!impureCall(op)`.
inline bool pureCall(mlir::Operation *op) {
// Should we also auto-detect that the called function is pure if its
// arguments are not references? For now, rely on a "pure" attribute.
return op && isaCall(op) && op->getAttr("pure");
}
/// Get or create a FuncOp in a module.
///
/// If `module` already contains FuncOp `name`, it is returned. Otherwise, a new
/// FuncOp is created, and that new FuncOp is returned. A symbol table can
/// be provided to speed-up the lookups.
mlir::func::FuncOp createFuncOp(mlir::Location loc, mlir::ModuleOp module,
llvm::StringRef name, mlir::FunctionType type,
llvm::ArrayRef<mlir::NamedAttribute> attrs = {},
const mlir::SymbolTable *symbolTable = nullptr);
/// Get or create a GlobalOp in a module. A symbol table can be provided to
/// speed-up the lookups.
fir::GlobalOp createGlobalOp(mlir::Location loc, mlir::ModuleOp module,
llvm::StringRef name, mlir::Type type,
llvm::ArrayRef<mlir::NamedAttribute> attrs = {},
const mlir::SymbolTable *symbolTable = nullptr);
/// Attribute to mark Fortran entities with the CONTIGUOUS attribute.
constexpr llvm::StringRef getContiguousAttrName() { return "fir.contiguous"; }
/// Attribute to mark Fortran entities with the OPTIONAL attribute.
constexpr llvm::StringRef getOptionalAttrName() { return "fir.optional"; }
/// Attribute to mark Fortran entities with the TARGET attribute.
static constexpr llvm::StringRef getTargetAttrName() { return "fir.target"; }
/// Attribute to mark that a function argument is a character dummy procedure.
/// Character dummy procedure have special ABI constraints.
static constexpr llvm::StringRef getCharacterProcedureDummyAttrName() {
return "fir.char_proc";
}
/// Attribute to keep track of Fortran scoping information for a symbol.
static constexpr llvm::StringRef getSymbolAttrName() {
return "fir.bindc_name";
}
/// Attribute to mark a function that takes a host associations argument.
static constexpr llvm::StringRef getHostAssocAttrName() {
return "fir.host_assoc";
}
/// Attribute to link an internal procedure to its host procedure symbol.
static constexpr llvm::StringRef getHostSymbolAttrName() {
return "fir.host_symbol";
}
/// Attribute containing the original name of a function from before the
/// ExternalNameConverision pass runs
static constexpr llvm::StringRef getInternalFuncNameAttrName() {
return "fir.internal_name";
}
/// Does the function, \p func, have a host-associations tuple argument?
/// Some internal procedures may have access to host procedure variables.
bool hasHostAssociationArgument(mlir::func::FuncOp func);
/// Is the function, \p func an internal procedure ?
/// Some internal procedures may have access to saved host procedure
/// variables even when they do not have a tuple argument.
inline bool isInternalProcedure(mlir::func::FuncOp func) {
return func->hasAttr(fir::getHostSymbolAttrName());
}
/// Tell if \p value is:
/// - a function argument that has attribute \p attributeName
/// - or, the result of fir.alloca/fir.allocmem op that has attribute \p
/// attributeName
/// - or, the result of a fir.address_of of a fir.global that has attribute \p
/// attributeName
/// - or, a fir.box loaded from a fir.ref<fir.box> that matches one of the
/// previous cases.
bool valueHasFirAttribute(mlir::Value value, llvm::StringRef attributeName);
/// A more conservative version of valueHasFirAttribute().
/// If `value` is one of the operation/function-argument cases listed
/// for valueHasFirAttribute():
/// * if any of the `attributeNames` attributes is set, then the function
/// will return true.
/// * otherwise, it will return false.
///
/// Otherwise, the function will return true indicating that the attributes
/// may actually be set but we were not able to reach the point of definition
/// to confirm that.
bool valueMayHaveFirAttributes(mlir::Value value,
llvm::ArrayRef<llvm::StringRef> attributeNames);
/// Scan the arguments of a FuncOp to determine if any arguments have the
/// attribute `attr` placed on them. This can be used to determine if the
/// function has any host associations, for example.
bool anyFuncArgsHaveAttr(mlir::func::FuncOp func, llvm::StringRef attr);
/// Unwrap integer constant from an mlir::Value.
std::optional<std::int64_t> getIntIfConstant(mlir::Value value);
static constexpr llvm::StringRef getAdaptToByRefAttrName() {
return "adapt.valuebyref";
}
static constexpr llvm::StringRef getFuncPureAttrName() {
return "fir.func_pure";
}
static constexpr llvm::StringRef getFuncElementalAttrName() {
return "fir.func_elemental";
}
static constexpr llvm::StringRef getFuncRecursiveAttrName() {
return "fir.func_recursive";
}
static constexpr llvm::StringRef getFortranProcedureFlagsAttrName() {
return "fir.proc_attrs";
}
// Attribute for an alloca that is a trivial adaptor for converting a value to
// pass-by-ref semantics for a VALUE parameter. The optimizer may be able to
// eliminate these.
// Template is used to avoid compiler errors in places that don't include
// FIRBuilder.h
template <typename Builder>
inline mlir::NamedAttribute getAdaptToByRefAttr(Builder &builder) {
return {mlir::StringAttr::get(builder.getContext(),
fir::getAdaptToByRefAttrName()),
builder.getUnitAttr()};
}
bool isDummyArgument(mlir::Value v);
} // namespace fir
#endif // FORTRAN_OPTIMIZER_DIALECT_FIROPSSUPPORT_H