Intel® Fortran Compiler 18.0 Developer Guide and Reference

CFI_establish

C function prototype: Establishes a C descriptor.

int CFI_establish(CFI_cdesc_t *dv, void *base_addr, 
                  CFI_attribute_t attribute,
                  CFI_type_t type, size_t elem_len, 
                  CFI_rank_t rank,
                  const CFI_index_t extents[]);

Formal Parameters:

dv

The address of a data object large enough to hold a C descriptor of the rank specified by rank. It must not have the same value as either a C formal parameter that corresponds to a Fortran actual argument or a C actual argument that corresponds to a Fortran dummy argument. It must not be the address of a C descriptor that describes an allocated allocatable object.

base_addr

A null pointer or the base address of the object to be described. If it is not a null pointer, it must be the address of a contiguous storage sequence that is appropriately aligned for an object of the type specified by type.

attribute

One of the attribute codes in Table "Macros for attribute codes" in C Typedefs and Macros for interoperability. If it is CFI_attribute_allocatable, base_addr must be a null pointer.

type

One of the type codes in Table "Macros for type codes" in C Typedefs and Macros for interoperability.

elem_len

If the type is CFI_type_struct, CFI_type_other, or a Fortran character type code, elem_len must be greater than zero and equal to the storage size in bytes of an element of the object. Otherwise, type is ignored.

rank

A value in the range 0 ≤ rankCFI_MAX_RANK. It specifies the rank of the object.

extents

This is ignored if rank is equal to zero or if base_addr is a null pointer. Otherwise, it must be the address of an array with rank elements; the value of each element must be nonnegative, and extents[i] specifies the extent of dimension i of the object.

Description

Successful execution of CFI_establish updates the object with the address dv to be an established C descriptor for a nonallocatable nonpointer data object of known shape, an unallocated allocatable object, or a data pointer.

If base_addr is not a null pointer, it is the address for a nonallocatable entity that is a scalar or a contiguous array. If the attribute argument has the value CFI_attribute_pointer, the lower bounds of the object described by dv are set to zero. If base_addr is a null pointer, the established C descriptor is for an unallocated allocatable, a disassociated pointer, or is a C descriptor that has the attribute CFI_attribute_other but does not describe a data object. If base_addr is the C address of a Fortran data object, the type and elem_len arguments must be consistent with the type and type parameters of the Fortran data object.

The remaining properties of the object are given by the other arguments.

CFI_establish is used to initialize a C descriptor declared in C with CFI_CDESC_T before passing it to any other functions as an actual argument, in order to set the rank, attribute, type and element length.

A C descriptor with attribute CFI_attribute_other and a base_addr that is a null pointer can be used as the argument result in calls to CFI_section or CFI_select_part, which will produce a C descriptor for a nonallocatable nonpointer data object.

If an error is detected, the object with the address dv is not modified.

Result Value

The result is an error indicator.

Example

The following code fragment establishes a C descriptor for an unallocated rank-one allocatable array that can be passed to Fortran for allocation there:


CFI_rank_t rank;
CFI_CDESC_T(1) field;
int ind;
rank = 1;
ind = CFI_establish((CFI_cdesc_t *)&field, NULL, 
CFI_attribute_allocatable,
CFI_type_double, 0, rank, NULL);

If the following Fortran type definition is specified:


TYPE, BIND(C) :: T
REAL(C_DOUBLE) :: X
COMPLEX(C_DOUBLE_COMPLEX) :: Y
END TYPE

and a Fortran subprogram that has an assumed-shape dummy argument of type T, the following code fragment creates a descriptor a_fortran for an array of size 100 that can be used as the actual argument in an invocation of the subprogram from C:


typedef struct {double x; double _Complex y;} t;
t a_c[100];
CFI_CDESC_T(1) a_fortran;
int ind;
CFI_index_t extent[1];

extent[0] = 100;
ind = CFI_establish((CFI_cdesc_t *)&a_fortran, a_c, 
CFI_attribute_other,
CFI_type_struct, sizeof(t), 1, extent);

See Also