/usr/include/octave-4.2.2/octave/f77-fcn.h is in liboctave-dev 4.2.2-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright (C) 1996-2017 John W. Eaton
This file is part of Octave.
Octave 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 of the License, or (at your
option) any later version.
Octave 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.
You should have received a copy of the GNU General Public License
along with Octave; see the file COPYING. If not, see
<http://www.gnu.org/licenses/>.
*/
#if ! defined (octave_f77_fcn_h)
#define octave_f77_fcn_h 1
#include "octave-config.h"
#include "quit.h"
#if defined (__cplusplus)
extern "C" {
#endif
/* Hack to stringize macro results. */
#define xSTRINGIZE(x) #x
#define STRINGIZE(x) xSTRINGIZE(x)
/* How to print an error for the F77_XFCN macro. */
#define F77_XFCN_ERROR(f, F) \
(*current_liboctave_error_handler) \
("exception encountered in Fortran subroutine %s", \
STRINGIZE (F77_FUNC (f, F)))
/* This can be used to call a Fortran subroutine that might call
XSTOPX. XSTOPX will call lonjmp with current_context. Once back
here, we'll restore the previous context and return. We may also
end up here if an interrupt is processed when the Fortran
subroutine is called. In that case, we resotre the context and go
to the top level. */
#define F77_XFCN(f, F, args) \
do \
{ \
octave_jmp_buf saved_context; \
sig_atomic_t saved_octave_interrupt_immediately = octave_interrupt_immediately; \
f77_exception_encountered = 0; \
octave_save_current_context (saved_context); \
if (octave_set_current_context) \
{ \
octave_interrupt_immediately = saved_octave_interrupt_immediately; \
octave_restore_current_context (saved_context); \
if (f77_exception_encountered) \
F77_XFCN_ERROR (f, F); \
else \
octave_rethrow_exception (); \
} \
else \
{ \
octave_interrupt_immediately++; \
F77_FUNC (f, F) args; \
octave_interrupt_immediately--; \
octave_restore_current_context (saved_context); \
} \
} \
while (0)
/* So we can check to see if an exception has occurred. */
OCTAVE_API extern int f77_exception_encountered;
#if ! defined (F77_FCN)
#define F77_FCN(f, F) F77_FUNC (f, F)
#endif
/*
The following macros are used for handling Fortran <-> C calling
conventions. They are defined below for three different types of
systems, Cray (possibly now obsolete), Visual Fortran, and gfortran.
Note that we don't attempt to handle Fortran functions, we always use
subroutine wrappers for them and pass the return value as an extra
argument.
Use these macros to pass character strings from C to Fortran:
F77_CHAR_ARG(x)
F77_CONST_CHAR_ARG(x)
F77_CXX_STRING_ARG(x)
F77_CHAR_ARG_LEN(l)
F77_CHAR_ARG_DECL
F77_CONST_CHAR_ARG_DECL
F77_CHAR_ARG_LEN_DECL
Use these macros to write C-language functions that accept
Fortran-style character strings:
F77_CHAR_ARG_DEF(s, len)
F77_CONST_CHAR_ARG_DEF(s, len)
F77_CHAR_ARG_LEN_DEF(len)
F77_CHAR_ARG_USE(s)
F77_CHAR_ARG_LEN_USE(s, len)
Use these macros for C++ code
F77_INT Equivalent to Fortran INTEGER type
F77_INT4 Equivalent to Fortran INTEGER*4 type
F77_DBLE Equivalent to Fortran DOUBLE PRECISION type
F77_REAL Equivalent to Fortran REAL type
F77_CMPLX Equivalent to Fortran COMPLEX type
F77_DBLE_CMPLX Equivalent to Fortran DOUBLE COMPLEX type
F77_LOGICAL Equivalent to Fortran LOGICAL type
F77_RET_T Return type of a C++ function that acts like a
Fortran subroutine.
Use these macros to return from C-language functions that are supposed
to act like Fortran subroutines. F77_NORETURN is intended to be used
as the last statement of such a function that has been tagged with a
"noreturn" attribute. If the compiler supports the "noreturn"
attribute or if F77_RET_T is void, then it should expand to nothing so
that we avoid warnings about functions tagged as "noreturn"
containing a return statement. Otherwise, it should expand to a
statement that returns the given value so that we avoid warnings about
not returning a value from a function declared to return something.
F77_RETURN(retval)
F77_NORETURN(retval)
*/
#if defined (F77_USES_CRAY_CALLING_CONVENTION)
#include <fortran.h>
/* Use these macros to pass character strings from C to Fortran. Cray
Fortran uses a descriptor structure to pass a pointer to the string
and the length in a single argument. */
#define F77_CHAR_ARG(x) octave_make_cray_ftn_ch_dsc (x, strlen (x))
#define F77_CONST_CHAR_ARG(x) \
octave_make_cray_const_ftn_ch_dsc (x, strlen (x))
#define F77_CHAR_ARG2(x, l) octave_make_cray_ftn_ch_dsc (x, l)
#define F77_CONST_CHAR_ARG2(x, l) octave_make_cray_const_ftn_ch_dsc (x, l)
#define F77_CXX_STRING_ARG(x) \
octave_make_cray_const_ftn_ch_dsc (x.c_str (), x.length ())
#define F77_CHAR_ARG_LEN(l)
#define F77_CHAR_ARG_LEN_TYPE
#define F77_CHAR_ARG_LEN_DECL
#define F77_CHAR_ARG_DECL octave_cray_ftn_ch_dsc
#define F77_CONST_CHAR_ARG_DECL octave_cray_ftn_ch_dsc
/* Use these macros to write C-language functions that accept
Fortran-style character strings. */
#define F77_CHAR_ARG_DEF(s, len) octave_cray_ftn_ch_dsc s
#define F77_CONST_CHAR_ARG_DEF(s, len) octave_cray_ftn_ch_dsc s
#define F77_CHAR_ARG_LEN_DEF(len)
#define F77_CHAR_ARG_USE(s) s.ptr
#define F77_CHAR_ARG_LEN_USE(s, len) (s.mask.len >> 3)
#define F77_RET_T int
/* Use these macros to return from C-language functions that are
supposed to act like Fortran subroutines. F77_NORETURN is intended
to be used as the last statement of such a function that has been
tagged with a "noreturn" attribute. */
#define F77_RETURN(retval) return retval;
#if defined (HAVE_OCTAVE_NORETURN_ATTR)
# define F77_NORETURN(retval)
#else
# define F77_NORETURN(retval) return retval;
#endif
/* FIXME: These should work for SV1 or Y-MP systems but will
need to be changed for others. */
typedef union
{
const char *const_ptr;
char *ptr;
struct
{
unsigned off : 6;
unsigned len : 26;
unsigned add : 32;
} mask;
} octave_cray_descriptor;
typedef void *octave_cray_ftn_ch_dsc;
#if defined (__cplusplus)
# define OCTAVE_F77_FCN_INLINE inline
#else
# define OCTAVE_F77_FCN_INLINE
#endif
static OCTAVE_F77_FCN_INLINE octave_cray_ftn_ch_dsc
octave_make_cray_ftn_ch_dsc (char *ptr_arg, unsigned long len_arg)
{
octave_cray_descriptor desc;
desc.ptr = ptr_arg;
desc.mask.len = len_arg << 3;
return *((octave_cray_ftn_ch_dsc *) &desc);
}
static OCTAVE_F77_FCN_INLINE octave_cray_ftn_ch_dsc
octave_make_cray_const_ftn_ch_dsc (const char *ptr_arg, unsigned long len_arg)
{
octave_cray_descriptor desc;
desc.const_ptr = ptr_arg;
desc.mask.len = len_arg << 3;
return *((octave_cray_ftn_ch_dsc *) &desc);
}
#undef OCTAVE_F77_FCN_INLINE
#elif defined (F77_USES_VISUAL_FORTRAN_CALLING_CONVENTION)
/* Use these macros to pass character strings from C to Fortran.
Visual Fortran inserts the length after each character string
argument. */
#define F77_CHAR_ARG(x) x, strlen (x)
#define F77_CONST_CHAR_ARG(x) F77_CHAR_ARG (x)
#define F77_CHAR_ARG2(x, l) x, l
#define F77_CONST_CHAR_ARG2(x, l) F77_CHAR_ARG2 (x, l)
#define F77_CXX_STRING_ARG(x) F77_CONST_CHAR_ARG2 (x.c_str (), x.length ())
#define F77_CHAR_ARG_LEN(l)
#define F77_CHAR_ARG_LEN_TYPE int
#define F77_CHAR_ARG_LEN_DECL
#define F77_CHAR_ARG_DECL char *, F77_CHAR_ARG_LEN_TYPE
#define F77_CONST_CHAR_ARG_DECL const char *, F77_CHAR_ARG_LEN_TYPE
#define F77_CHAR_ARG_DEF(s, len) char *s, F77_CHAR_ARG_LEN_TYPE len
#define F77_CONST_CHAR_ARG_DEF(s, len) const char *s, F77_CHAR_ARG_LEN_TYPE len
#define F77_CHAR_ARG_LEN_DEF(len)
#define F77_CHAR_ARG_USE(s) s
#define F77_CHAR_ARG_LEN_USE(s, len) len
#define F77_RET_T void
#define F77_RETURN(retval) return;
#define F77_NORETURN(retval)
#elif defined (F77_USES_GFORTRAN_CALLING_CONVENTION)
/* Use these macros to pass character strings from C to Fortran.
gfortran appends length arguments for assumed size character
strings to the and ignores others.
FIXME: I don't think we correctly handle the case of mixing some
fixed-length and some assumed-length character string arguments as
we don't handle each case separately, so it seems there could be
mismatch? However, I don't think we currently have to handle this
case in Octave. */
#define F77_CHAR_ARG(x) x
#define F77_CONST_CHAR_ARG(x) F77_CHAR_ARG (x)
#define F77_CHAR_ARG2(x, l) x
#define F77_CONST_CHAR_ARG2(x, l) F77_CHAR_ARG2 (x, l)
#define F77_CXX_STRING_ARG(x) F77_CONST_CHAR_ARG2 (x.c_str (), x.length ())
#define F77_CHAR_ARG_LEN(l) , l
#define F77_CHAR_ARG_LEN_TYPE int
#define F77_CHAR_ARG_LEN_DECL , F77_CHAR_ARG_LEN_TYPE
#define F77_CHAR_ARG_DECL char *
#define F77_CONST_CHAR_ARG_DECL const char *
#define F77_CHAR_ARG_DEF(s, len) char *s
#define F77_CONST_CHAR_ARG_DEF(s, len) const char *s
#define F77_CHAR_ARG_LEN_DEF(len) , F77_CHAR_ARG_LEN_TYPE len
#define F77_CHAR_ARG_USE(s) s
#define F77_CHAR_ARG_LEN_USE(s, len) len
#define F77_RET_T void
#define F77_RETURN(retval) return;
#if defined (HAVE_OCTAVE_NORETURN_ATTR)
# define F77_NORETURN(retval)
#else
# define F77_NORETURN(retval) return retval;
#endif
#elif defined (F77_USES_F2C_CALLING_CONVENTION)
/* Assume f2c-compatible calling convention. */
/* Use these macros to pass character strings from C to Fortran. f2c
appends all length arguments at the end of the parameter list. */
#define F77_CHAR_ARG(x) x
#define F77_CONST_CHAR_ARG(x) F77_CHAR_ARG (x)
#define F77_CHAR_ARG2(x, l) x
#define F77_CONST_CHAR_ARG2(x, l) F77_CHAR_ARG2 (x, l)
#define F77_CXX_STRING_ARG(x) F77_CONST_CHAR_ARG2 (x.c_str (), x.length ())
#define F77_CHAR_ARG_LEN(l) , l
#define F77_CHAR_ARG_LEN_TYPE long
#define F77_CHAR_ARG_LEN_DECL , F77_CHAR_ARG_LEN_TYPE
#define F77_CHAR_ARG_DECL char *
#define F77_CONST_CHAR_ARG_DECL const char *
#define F77_CHAR_ARG_DEF(s, len) char *s
#define F77_CONST_CHAR_ARG_DEF(s, len) const char *s
#define F77_CHAR_ARG_LEN_DEF(len) , F77_CHAR_ARG_LEN_TYPE len
#define F77_CHAR_ARG_USE(s) s
#define F77_CHAR_ARG_LEN_USE(s, len) len
#define F77_RET_T int
#define F77_RETURN(retval) return retval;
#if defined (HAVE_OCTAVE_NORETURN_ATTR)
# define F77_NORETURN(retval)
#else
# define F77_NORETURN(retval) return retval;
#endif
#else
#error "unknown C++ to Fortran calling convention"
#endif
#define F77_DBLE double
#define F77_REAL float
#define F77_DBLE_CMPLX double _Complex
#define F77_CMPLX float _Complex
#define F77_INT octave_idx_type
#define F77_INT4 int32_t
#define F77_LOGICAL octave_idx_type
#define F77_CMPLX_ARG(x) \
reinterpret_cast<float _Complex *> (x)
#define F77_CONST_CMPLX_ARG(x) \
reinterpret_cast<const float _Complex *> (x)
#define F77_DBLE_CMPLX_ARG(x) \
reinterpret_cast<double _Complex *> (x)
#define F77_CONST_DBLE_CMPLX_ARG(x) \
reinterpret_cast<const double _Complex *> (x)
/* Build a C string local variable CS from the Fortran string parameter S
declared as F77_CHAR_ARG_DEF(s, len) or F77_CONST_CHAR_ARG_DEF(s, len).
The string will be cleaned up at the end of the current block.
Needs to include <cstring> and <vector>. */
#define F77_CSTRING(s, len, cs) \
OCTAVE_LOCAL_BUFFER (char, cs, F77_CHAR_ARG_LEN_USE (s, len) + 1); \
memcpy (cs, F77_CHAR_ARG_USE (s), F77_CHAR_ARG_LEN_USE (s, len)); \
cs[F77_CHAR_ARG_LEN_USE(s, len)] = '\0'
OCTAVE_NORETURN OCTAVE_API extern
F77_RET_T
F77_FUNC (xstopx, XSTOPX) (F77_CONST_CHAR_ARG_DECL
F77_CHAR_ARG_LEN_DECL);
#if defined (__cplusplus)
}
#endif
#endif
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