runtime/allocatable.h - llvm-project/flang - Git at Google

 //===-- runtime/allocatable.h -----------------------------------*- 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
 //
 //===----------------------------------------------------------------------===//

 // Defines APIs for Fortran runtime library support of code generated
 // to manipulate and query allocatable variables, dummy arguments, & components.
 #ifndef FORTRAN_RUNTIME_ALLOCATABLE_H_
 #define FORTRAN_RUNTIME_ALLOCATABLE_H_
 #include "descriptor.h"
 #include "entry-names.h"

 namespace Fortran::runtime::typeInfo {
 class DerivedType;
 }

 namespace Fortran::runtime {
 extern "C" {

 // Initializes the descriptor for an allocatable of intrinsic or derived type.
 // The incoming descriptor is treated as (and can be) uninitialized garbage.
 // Must be called for each allocatable variable as its scope comes into being.
 // The storage for the allocatable's descriptor must have already been
 // allocated to a size sufficient for the rank, corank, and type.
 // A descriptor must be initialized before being used for any purpose,
 // but needs reinitialization in a deallocated state only when there is
 // a change of type, rank, or corank.
 void RTNAME(AllocatableInitIntrinsic)(
     Descriptor &, TypeCategory, int kind, int rank = 0, int corank = 0);
 void RTNAME(AllocatableInitCharacter)(Descriptor &, SubscriptValue length = 0,
     int kind = 1, int rank = 0, int corank = 0);
 void RTNAME(AllocatableInitDerived)(
     Descriptor &, const typeInfo::DerivedType &, int rank = 0, int corank = 0);

 // Checks that an allocatable is not already allocated in statements
 // with STAT=.  Use this on a value descriptor before setting bounds or
 // type parameters.  Not necessary on a freshly initialized descriptor.
 // (If there's no STAT=, the error will be caught later anyway, but
 // this API allows the error to be caught before descriptor is modified.)
 // Return 0 on success (deallocated state), else the STAT= value.
 int RTNAME(AllocatableCheckAllocated)(Descriptor &,
     const Descriptor *errMsg = nullptr, const char *sourceFile = nullptr,
     int sourceLine = 0);

 // For MOLD= allocation; sets bounds, cobounds, and length type
 // parameters from another descriptor.  The destination descriptor must
 // be initialized and deallocated.
 void RTNAME(AllocatableApplyMold)(Descriptor &, const Descriptor &mold);

 // Explicitly sets the bounds and length type parameters of an initialized
 // deallocated allocatable.
 void RTNAME(AllocatableSetBounds)(
     Descriptor &, int zeroBasedDim, SubscriptValue lower, SubscriptValue upper);

 // The upper bound is ignored for the last codimension.
 void RTNAME(AllocatableSetCoBounds)(Descriptor &, int zeroBasedCoDim,
     SubscriptValue lower, SubscriptValue upper = 0);

 // Length type parameters are indexed in declaration order; i.e., 0 is the
 // first length type parameter in the deepest base type.  (Not for use
 // with CHARACTER; see above.)
 void RTNAME(AllocatableSetDerivedLength)(
     Descriptor &, int which, SubscriptValue);

 // When an explicit type-spec appears in an ALLOCATE statement for an
 // allocatable with an explicit (non-deferred) length type paramater for
 // a derived type or CHARACTER value, the explicit value has to match
 // the length type parameter's value.  This API checks that requirement.
 // Returns 0 for success, or the STAT= value on failure with hasStat==true.
 int RTNAME(AllocatableCheckLengthParameter)(Descriptor &,
     int which /* 0 for CHARACTER length */, SubscriptValue other,
     bool hasStat = false, const Descriptor *errMsg = nullptr,
     const char *sourceFile = nullptr, int sourceLine = 0);

 // Allocates an allocatable.  The allocatable descriptor must have been
 // initialized and its bounds and length type parameters set and must be
 // in a deallocated state.
 // On failure, if hasStat is true, returns a nonzero error code for
 // STAT= and (if present) fills in errMsg; if hasStat is false, the
 // image is terminated.  On success, leaves errMsg alone and returns zero.
 // Successfully allocated memory is initialized if the allocatable has a
 // derived type, and is always initialized by AllocatableAllocateSource().
 // Performs all necessary coarray synchronization and validation actions.
 int RTNAME(AllocatableAllocate)(Descriptor &, bool hasStat = false,
     const Descriptor *errMsg = nullptr, const char *sourceFile = nullptr,
     int sourceLine = 0);
 int RTNAME(AllocatableAllocateSource)(Descriptor &, const Descriptor &source,
     bool hasStat = false, const Descriptor *errMsg = nullptr,
     const char *sourceFile = nullptr, int sourceLine = 0);

 // Assigns to a whole allocatable, with automatic (re)allocation when the
 // destination is unallocated or nonconforming (Fortran 2003 semantics).
 // The descriptor must be initialized.
 // Recursively assigns components with (re)allocation as necessary.
 // TODO: Consider renaming to a more general name that will work for
 // assignments to pointers, dummy arguments, and anything else with a
 // descriptor.
 void RTNAME(AllocatableAssign)(Descriptor &to, const Descriptor &from);

 // Implements the intrinsic subroutine MOVE_ALLOC (16.9.137 in F'2018,
 // but note the order of first two arguments is reversed for consistency
 // with the other APIs for allocatables.)  The destination descriptor
 // must be initialized.
 int RTNAME(MoveAlloc)(Descriptor &to, const Descriptor &from,
     bool hasStat = false, const Descriptor *errMsg = nullptr,
     const char *sourceFile = nullptr, int sourceLine = 0);

 // Deallocates an allocatable.  Finalizes elements &/or components as needed.
 // The allocatable is left in an initialized state suitable for reallocation
 // with the same bounds, cobounds, and length type parameters.
 int RTNAME(AllocatableDeallocate)(Descriptor &, bool hasStat = false,
     const Descriptor *errMsg = nullptr, const char *sourceFile = nullptr,
     int sourceLine = 0);
 }
 } // namespace Fortran::runtime
 #endif // FORTRAN_RUNTIME_ALLOCATABLE_H_
	//===-- runtime/allocatable.h ------------------------------------ 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
	//
	//===----------------------------------------------------------------------===//

	// Defines APIs for Fortran runtime library support of code generated
	// to manipulate and query allocatable variables, dummy arguments, & components.
	#ifndef FORTRAN_RUNTIME_ALLOCATABLE_H_
	#define FORTRAN_RUNTIME_ALLOCATABLE_H_
	#include "descriptor.h"
	#include "entry-names.h"

	namespace Fortran::runtime::typeInfo {
	class DerivedType;
	}

	namespace Fortran::runtime {
	extern "C" {

	// Initializes the descriptor for an allocatable of intrinsic or derived type.
	// The incoming descriptor is treated as (and can be) uninitialized garbage.
	// Must be called for each allocatable variable as its scope comes into being.
	// The storage for the allocatable's descriptor must have already been
	// allocated to a size sufficient for the rank, corank, and type.
	// A descriptor must be initialized before being used for any purpose,
	// but needs reinitialization in a deallocated state only when there is
	// a change of type, rank, or corank.
	void RTNAME(AllocatableInitIntrinsic)(
	Descriptor &, TypeCategory, int kind, int rank = 0, int corank = 0);
	void RTNAME(AllocatableInitCharacter)(Descriptor &, SubscriptValue length = 0,
	int kind = 1, int rank = 0, int corank = 0);
	void RTNAME(AllocatableInitDerived)(
	Descriptor &, const typeInfo::DerivedType &, int rank = 0, int corank = 0);

	// Checks that an allocatable is not already allocated in statements
	// with STAT=. Use this on a value descriptor before setting bounds or
	// type parameters. Not necessary on a freshly initialized descriptor.
	// (If there's no STAT=, the error will be caught later anyway, but
	// this API allows the error to be caught before descriptor is modified.)
	// Return 0 on success (deallocated state), else the STAT= value.
	int RTNAME(AllocatableCheckAllocated)(Descriptor &,
	const Descriptor errMsg = nullptr, const char sourceFile = nullptr,
	int sourceLine = 0);

	// For MOLD= allocation; sets bounds, cobounds, and length type
	// parameters from another descriptor. The destination descriptor must
	// be initialized and deallocated.
	void RTNAME(AllocatableApplyMold)(Descriptor &, const Descriptor &mold);

	// Explicitly sets the bounds and length type parameters of an initialized
	// deallocated allocatable.
	void RTNAME(AllocatableSetBounds)(
	Descriptor &, int zeroBasedDim, SubscriptValue lower, SubscriptValue upper);

	// The upper bound is ignored for the last codimension.
	void RTNAME(AllocatableSetCoBounds)(Descriptor &, int zeroBasedCoDim,
	SubscriptValue lower, SubscriptValue upper = 0);

	// Length type parameters are indexed in declaration order; i.e., 0 is the
	// first length type parameter in the deepest base type. (Not for use
	// with CHARACTER; see above.)
	void RTNAME(AllocatableSetDerivedLength)(
	Descriptor &, int which, SubscriptValue);

	// When an explicit type-spec appears in an ALLOCATE statement for an
	// allocatable with an explicit (non-deferred) length type paramater for
	// a derived type or CHARACTER value, the explicit value has to match
	// the length type parameter's value. This API checks that requirement.
	// Returns 0 for success, or the STAT= value on failure with hasStat==true.
	int RTNAME(AllocatableCheckLengthParameter)(Descriptor &,
	int which /* 0 for CHARACTER length */, SubscriptValue other,
	bool hasStat = false, const Descriptor *errMsg = nullptr,
	const char *sourceFile = nullptr, int sourceLine = 0);

	// Allocates an allocatable. The allocatable descriptor must have been
	// initialized and its bounds and length type parameters set and must be
	// in a deallocated state.
	// On failure, if hasStat is true, returns a nonzero error code for
	// STAT= and (if present) fills in errMsg; if hasStat is false, the
	// image is terminated. On success, leaves errMsg alone and returns zero.
	// Successfully allocated memory is initialized if the allocatable has a
	// derived type, and is always initialized by AllocatableAllocateSource().
	// Performs all necessary coarray synchronization and validation actions.
	int RTNAME(AllocatableAllocate)(Descriptor &, bool hasStat = false,
	const Descriptor errMsg = nullptr, const char sourceFile = nullptr,
	int sourceLine = 0);
	int RTNAME(AllocatableAllocateSource)(Descriptor &, const Descriptor &source,
	bool hasStat = false, const Descriptor *errMsg = nullptr,
	const char *sourceFile = nullptr, int sourceLine = 0);

	// Assigns to a whole allocatable, with automatic (re)allocation when the
	// destination is unallocated or nonconforming (Fortran 2003 semantics).
	// The descriptor must be initialized.
	// Recursively assigns components with (re)allocation as necessary.
	// TODO: Consider renaming to a more general name that will work for
	// assignments to pointers, dummy arguments, and anything else with a
	// descriptor.
	void RTNAME(AllocatableAssign)(Descriptor &to, const Descriptor &from);

	// Implements the intrinsic subroutine MOVE_ALLOC (16.9.137 in F'2018,
	// but note the order of first two arguments is reversed for consistency
	// with the other APIs for allocatables.) The destination descriptor
	// must be initialized.
	int RTNAME(MoveAlloc)(Descriptor &to, const Descriptor &from,
	bool hasStat = false, const Descriptor *errMsg = nullptr,
	const char *sourceFile = nullptr, int sourceLine = 0);

	// Deallocates an allocatable. Finalizes elements &/or components as needed.
	// The allocatable is left in an initialized state suitable for reallocation
	// with the same bounds, cobounds, and length type parameters.
	int RTNAME(AllocatableDeallocate)(Descriptor &, bool hasStat = false,
	const Descriptor errMsg = nullptr, const char sourceFile = nullptr,
	int sourceLine = 0);
	}
	} // namespace Fortran::runtime
	#endif // FORTRAN_RUNTIME_ALLOCATABLE_H_