gcc/libgfortran/ISO_Fortran_binding.h

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gfortran.texi: Add description in sections on TS 29113 and further interoperability with C. 2019-01-12 Paul Thomas <pault@gcc.gnu.org> * gfortran.texi : Add description in sections on TS 29113 and further interoperability with C. * trans-array.c (gfc_conv_descriptor_attribute): New function. (gfc_get_dataptr_offset): Remove static function attribute. * trans-array.h : Add prototypes for above functions. * trans-decl.c : Add declarations for the library functions cfi_desc_to_gfc_desc and gfc_desc_to_cfi_desc. * trans-expr.c (gfc_conv_gfc_desc_to_cfi_desc): New function. (gfc_conv_procedure_call): Call it for scalar and array actual arguments, when the formal arguments are bind_c with assumed shape or assumed rank. * trans.h : External declarations for gfor_fndecl_cfi_to_gfc and gfor_fndecl_gfc_to_cfi. 2019-01-12 Paul Thomas <pault@gcc.gnu.org> * gfortran.dg/ISO_Fortran_binding_1.f90 : New test. * gfortran.dg/ISO_Fortran_binding_1.c : Auxilliary file for test. * gfortran.dg/ISO_Fortran_binding_2.f90 : New test. * gfortran.dg/ISO_Fortran_binding_2.c : Auxilliary file for test. * gfortran.dg/bind_c_array_params_2.f90 : Change search string for dump tree scan. 2019-01-12 Paul Thomas <pault@gcc.gnu.org> * ISO_Fortran_binding.h : New file. * Makefile.am : Include ISO_Fortran_binding.c in the list of files to compile. * Makefile.in : Regenerated. * gfortran.map : Add _gfortran_cfi_desc_to_gfc_desc, _gfortran_gfc_desc_to_cfi_desc and the CFI API functions. * runtime/ISO_Fortran_binding.c : New file containing the new functions added to the map. From-SVN: r267881
2019-01-12 16:25:52 +01:00
/* Declarations for ISO Fortran binding.
Copyright (C) 2018 Free Software Foundation, Inc.
Contributed by Daniel Celis Garza <celisdanieljr@gmail.com>
This file is part of the GNU Fortran runtime library (libgfortran).
Libgfortran is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
Libgfortran is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
#ifndef ISO_FORTRAN_BINDING_H
#define ISO_FORTRAN_BINDING_H
#ifdef __cplusplus
extern "C" {
#endif
#include <stddef.h> /* Standard ptrdiff_t tand size_t. */
#include <stdint.h> /* Integer types. */
/* Constants, defined as macros. */
#define CFI_VERSION 1
#define CFI_MAX_RANK 15
/* Attributes. */
#define CFI_attribute_pointer 0
#define CFI_attribute_allocatable 1
#define CFI_attribute_other 2
/* Error codes.
CFI_INVALID_STRIDE should be defined in the standard because they are useful to the implementation of the functions.
*/
#define CFI_SUCCESS 0
#define CFI_FAILURE 1
#define CFI_ERROR_BASE_ADDR_NULL 2
#define CFI_ERROR_BASE_ADDR_NOT_NULL 3
#define CFI_INVALID_ELEM_LEN 4
#define CFI_INVALID_RANK 5
#define CFI_INVALID_TYPE 6
#define CFI_INVALID_ATTRIBUTE 7
#define CFI_INVALID_EXTENT 8
#define CFI_INVALID_STRIDE 9
#define CFI_INVALID_DESCRIPTOR 10
#define CFI_ERROR_MEM_ALLOCATION 11
#define CFI_ERROR_OUT_OF_BOUNDS 12
/* CFI type definitions. */
typedef ptrdiff_t CFI_index_t;
typedef int8_t CFI_rank_t;
typedef int8_t CFI_attribute_t;
typedef int16_t CFI_type_t;
/* CFI_dim_t. */
typedef struct CFI_dim_t
{
CFI_index_t lower_bound;
CFI_index_t extent;
CFI_index_t sm;
}
CFI_dim_t;
/* CFI_cdesc_t, C descriptors are cast to this structure as follows:
CFI_CDESC_T(CFI_MAX_RANK) foo;
CFI_cdesc_t * bar = (CFI_cdesc_t *) &foo;
*/
typedef struct CFI_cdesc_t
{
void *base_addr;
size_t elem_len;
int version;
CFI_rank_t rank;
CFI_attribute_t attribute;
CFI_type_t type;
CFI_dim_t dim[];
}
CFI_cdesc_t;
/* CFI_CDESC_T with an explicit type. */
#define CFI_CDESC_TYPE_T(r, base_type) \
struct { \
base_type *base_addr; \
size_t elem_len; \
int version; \
CFI_rank_t rank; \
CFI_attribute_t attribute; \
CFI_type_t type; \
CFI_dim_t dim[r]; \
}
#define CFI_CDESC_T(r) CFI_CDESC_TYPE_T (r, void)
/* CFI function declarations. */
extern void *CFI_address (const CFI_cdesc_t *, const CFI_index_t []);
extern int CFI_allocate (CFI_cdesc_t *, const CFI_index_t [], const CFI_index_t [],
size_t);
extern int CFI_deallocate (CFI_cdesc_t *);
extern int CFI_establish (CFI_cdesc_t *, void *, CFI_attribute_t, CFI_type_t, size_t,
CFI_rank_t, const CFI_index_t []);
extern int CFI_is_contiguous (const CFI_cdesc_t *);
extern int CFI_section (CFI_cdesc_t *, const CFI_cdesc_t *, const CFI_index_t [],
const CFI_index_t [], const CFI_index_t []);
extern int CFI_select_part (CFI_cdesc_t *, const CFI_cdesc_t *, size_t, size_t);
extern int CFI_setpointer (CFI_cdesc_t *, CFI_cdesc_t *, const CFI_index_t []);
/* Types and kind numbers. Allows bitwise and to reveal the intrinsic type of a kind type. It also allows us to find the kind parameter by inverting the bit-shift equation.
CFI_type_kind_shift = 8
CFI_intrinsic_type = 0 0 0 0 0 0 0 0 0 0 1 0
CFI_type_kind = 0 0 0 0 0 0 0 0 1 0 0 0
CFI_type_example = CFI_intrinsic_type + (CFI_type_kind << CFI_type_kind_shift)
Defining the CFI_type_example.
CFI_type_kind = 0 0 0 0 0 0 0 0 1 0 0 0 << CFI_type_kind_shift
-------------------------
1 0 0 0 0 0 0 0 0 0 0 0 +
CFI_intrinsic_type = 0 0 0 0 0 0 0 0 0 0 1 0
-------------------------
CFI_type_example = 1 0 0 0 0 0 0 0 0 0 1 0
Finding the intrinsic type with the logical mask.
CFI_type_example = 1 0 0 0 0 0 0 0 0 0 1 0 &
CFI_type_mask = 0 0 0 0 1 1 1 1 1 1 1 1
-------------------------
CFI_intrinsic_type = 0 0 0 0 0 0 0 0 0 0 1 0
Using the intrinsic type and kind shift to find the kind value of the type.
CFI_type_kind = (CFI_type_example - CFI_intrinsic_type) >> CFI_type_kind_shift
CFI_type_example = 1 0 0 0 0 0 0 0 0 0 1 0 -
CFI_intrinsic_type = 0 0 0 0 0 0 0 0 0 0 1 0
-------------------------
1 0 0 0 0 0 0 0 0 0 0 0 >> CFI_type_kind_shift
-------------------------
CFI_type_kind = 0 0 0 0 0 0 0 0 1 0 0 0
*/
#define CFI_type_mask 0xFF
#define CFI_type_kind_shift 8
/* Intrinsic types. Their kind number defines their storage size. */
#define CFI_type_Integer 1
#define CFI_type_Logical 2
#define CFI_type_Real 3
#define CFI_type_Complex 4
#define CFI_type_Character 5
/* Types with no kind. */
#define CFI_type_struct 6
#define CFI_type_cptr 7
#define CFI_type_cfunptr 8
#define CFI_type_other -1
/* Types with kind parameter.
The kind parameter represents the type's byte size. The exception is kind = 10, which has byte size of 64 but 80 bit precision. Complex variables are double the byte size of their real counterparts. The ucs4_char matches wchar_t if sizeof (wchar_t) == 4.
*/
#define CFI_type_char (CFI_type_Character + (1 << CFI_type_kind_shift))
#define CFI_type_ucs4_char (CFI_type_Character + (4 << CFI_type_kind_shift))
/* C-Fortran Interoperability types. */
#define CFI_type_signed_char (CFI_type_Integer + (1 << CFI_type_kind_shift))
#define CFI_type_short (CFI_type_Integer + (2 << CFI_type_kind_shift))
#define CFI_type_int (CFI_type_Integer + (4 << CFI_type_kind_shift))
#define CFI_type_long (CFI_type_Integer + (8 << CFI_type_kind_shift))
#define CFI_type_long_long (CFI_type_Integer + (8 << CFI_type_kind_shift))
#define CFI_type_size_t (CFI_type_Integer + (8 << CFI_type_kind_shift))
#define CFI_type_int8_t (CFI_type_Integer + (1 << CFI_type_kind_shift))
#define CFI_type_int16_t (CFI_type_Integer + (2 << CFI_type_kind_shift))
#define CFI_type_int32_t (CFI_type_Integer + (4 << CFI_type_kind_shift))
#define CFI_type_int64_t (CFI_type_Integer + (8 << CFI_type_kind_shift))
#define CFI_type_int_least8_t (CFI_type_Integer + (1 << CFI_type_kind_shift))
#define CFI_type_int_least16_t (CFI_type_Integer + (2 << CFI_type_kind_shift))
#define CFI_type_int_least32_t (CFI_type_Integer + (4 << CFI_type_kind_shift))
#define CFI_type_int_least64_t (CFI_type_Integer + (8 << CFI_type_kind_shift))
#define CFI_type_int_fast8_t (CFI_type_Integer + (1 << CFI_type_kind_shift))
#define CFI_type_int_fast16_t (CFI_type_Integer + (2 << CFI_type_kind_shift))
#define CFI_type_int_fast32_t (CFI_type_Integer + (4 << CFI_type_kind_shift))
#define CFI_type_int_fast64_t (CFI_type_Integer + (8 << CFI_type_kind_shift))
#define CFI_type_intmax_t (CFI_type_Integer + (8 << CFI_type_kind_shift))
#define CFI_type_intptr_t (CFI_type_Integer + (8 << CFI_type_kind_shift))
#define CFI_type_ptrdiff_t (CFI_type_Integer + (8 << CFI_type_kind_shift))
#define CFI_type_int128_t (CFI_type_Integer + (16 << CFI_type_kind_shift))
#define CFI_type_int_least128_t (CFI_type_Integer + (16 << CFI_type_kind_shift))
#define CFI_type_int_fast128_t (CFI_type_Integer + (16 << CFI_type_kind_shift))
#define CFI_type_Bool (CFI_type_Logical + (1 << CFI_type_kind_shift))
#define CFI_type_float (CFI_type_Real + (4 << CFI_type_kind_shift))
#define CFI_type_double (CFI_type_Real + (8 << CFI_type_kind_shift))
#define CFI_type_long_double (CFI_type_Real + (10 << CFI_type_kind_shift))
#define CFI_type_float128 (CFI_type_Real + (16 << CFI_type_kind_shift))
#define CFI_type_float_Complex (CFI_type_Complex + (4 << CFI_type_kind_shift))
#define CFI_type_double_Complex (CFI_type_Complex + (8 << CFI_type_kind_shift))
#define CFI_type_long_double_Complex (CFI_type_Complex + (10 << CFI_type_kind_shift))
#define CFI_type_float128_Complex (CFI_type_Complex + (16 << CFI_type_kind_shift))
#ifdef __cplusplus
}
#endif
#endif /* ISO_FORTRAN_BINDING_H */