Fortran: Difference between revisions
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This page describes an example of how to call liboctave functions from a Fortran program. | This page describes an example of how to call liboctave functions from a Fortran program. | ||
In the example we will load | In the example we will load a single matrix, stored in ASCII format, from a data file. | ||
It consists of two steps: | |||
# write a C++ function with a C compatible interface and C linkage that reads a variable from an Octave ASCII file | |||
# write Fortran code using the "iso_c_binding" intrinsic module to call the C++ function | |||
=== Data file === | |||
{{File|data.txt|<syntaxhighlight lang="text"> | |||
1.59797350e-01 5.41307474e-01 1.12127655e-01 2.09249248e-01 | |||
3.22564589e-01 7.94307947e-01 8.25924316e-01 5.38352076e-01 | |||
3.63990736e-01 1.90371212e-02 2.89370865e-01 1.30131246e-01 | |||
6.28360462e-01 1.98831330e-01 6.89539723e-01 6.91062597e-01 | |||
</syntaxhighlight>}} | |||
The file was generated with | |||
<syntaxhighlight lang="octave"> | |||
A = rand (4); | |||
save -ascii data.txt A | |||
</syntaxhighlight> | |||
=== C++ function === | === C++ function === | ||
Line 53: | Line 69: | ||
=== Header file === | === Header file === | ||
Header file with C interface to {{Path|octave_file_io.cc}}. | |||
{{File|octave_file_io.h|<syntaxhighlight lang="C"> | |||
#ifndef OCTAVE_FILE_IO_H | #ifndef OCTAVE_FILE_IO_H | ||
#define OCTAVE_FILE_IO_H | #define OCTAVE_FILE_IO_H | ||
Line 61: | Line 79: | ||
#endif | #endif | ||
int octave_load (const char* filename | int octave_load (const char* filename, double** data, int* numel); | ||
#ifdef __cplusplus | #ifdef __cplusplus | ||
Line 70: | Line 88: | ||
</syntaxhighlight>}} | </syntaxhighlight>}} | ||
=== Fortran Code === | |||
Fortran main program to read the plain ASCII matrix with the help of the Octave-C++ function. The read in matrix is printed to the screen. | |||
{{ | {{File|octave_file_io_example.f90|<syntaxhighlight lang="fortran"> | ||
program octave_file_io_example | program octave_file_io_example | ||
use iso_c_binding | use iso_c_binding | ||
implicit none | implicit none | ||
interface | interface | ||
function octave_load (filename | function octave_load (filename, data, numel) bind(c, name="octave_load") | ||
use iso_c_binding | use iso_c_binding | ||
implicit none | implicit none | ||
integer(c_int) :: octave_load | integer(c_int) :: octave_load | ||
character(kind=c_char), intent(in) :: filename(*) | character(kind=c_char), intent(in) :: filename(*) | ||
type(c_ptr), intent(out) :: data | type(c_ptr), intent(out) :: data | ||
integer(c_int), intent(out) :: numel | integer(c_int), intent(out) :: numel | ||
end function octave_load | end function octave_load | ||
end interface | end interface | ||
integer(c_int) :: res | integer(c_int) :: res | ||
type(c_ptr) :: data | type(c_ptr) :: data | ||
real(c_double), pointer :: fdata(:) | real(c_double), pointer :: fdata(:) | ||
integer(c_int) :: numel | integer(c_int) :: numel | ||
res = octave_load (c_char_' | res = octave_load (c_char_'data.txt' // c_null_char, data, numel) | ||
call c_f_pointer (data, fdata, (/numel/)) | call c_f_pointer (data, fdata, (/numel/)) | ||
write (*,*) fdata | write (*,*) fdata | ||
Line 111: | Line 129: | ||
</syntaxhighlight>}} | </syntaxhighlight>}} | ||
=== Compiling the code === | |||
Generate {{Path|octave_file_io.o}} from {{Path|octave_file_io.cc}}. | |||
mkoctfile -I. -c octave_file_io.cc | |||
Generate {{Path|octave_file_io_example.exe}} from {{Path|octave_file_io_example.f90}} including {{Path|octave_file_io.o}}. | |||
mkoctfile -I. --link-stand-alone octave_file_io_example.f90 octave_file_io.o -o octave_file_io_example.exe -lgfortran | |||
=== | If you receive errors about missing libraries, make sure your <code>LD_LIBRARY_PATH</code> is set correctly to find all Octave libraries, e.g. | ||
$ ldd ./octave_file_io_example.exe | |||
... | |||
libgfortran.so.4 => /usr/lib64/libgfortran.so.4 (0x00007fe9eb62b000) | |||
liboctinterp.so.8 => not found | |||
liboctave.so.8 => not found | |||
... | |||
Then find {{Path|liboctinterp.so.8}} and {{Path|liboctave.so.8}} on your system and type | |||
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/path/to/lib/octave/{{Release}}/ | |||
[[Category:Examples]] | [[Category:Examples]] |
Latest revision as of 05:17, 13 July 2020
This page describes an example of how to call liboctave functions from a Fortran program. In the example we will load a single matrix, stored in ASCII format, from a data file. It consists of two steps:
- write a C++ function with a C compatible interface and C linkage that reads a variable from an Octave ASCII file
- write Fortran code using the "iso_c_binding" intrinsic module to call the C++ function
Data file[edit]
1.59797350e-01 5.41307474e-01 1.12127655e-01 2.09249248e-01
3.22564589e-01 7.94307947e-01 8.25924316e-01 5.38352076e-01
3.63990736e-01 1.90371212e-02 2.89370865e-01 1.30131246e-01
6.28360462e-01 1.98831330e-01 6.89539723e-01 6.91062597e-01
The file was generated with
A = rand (4);
save -ascii data.txt A
C++ function[edit]
C++ function to load a single matrix, stored in ASCII format, from a data file.
// Octave header
#include <octave/oct.h>
#include <octave/ls-mat-ascii.h>
// Custom header containing the C compatible interface
#include <octave_file_io.h>
//! Load a single matrix, stored in ASCII format, from a data file.
//!
//! @param file_name name of the data file.
//! @param data pointer to the read-in matrix stored as fortran vector
//! (column-major order).
//! @param numel number of elements in @p data.
int octave_load (const char* file_name, double** data, int* numel)
{
// Define variable to hold the read data.
octave_value read_data;
// Read a plain ASCII matrix from data file.
std::ifstream in_file_stream (file_name, std::ios::binary);
read_mat_ascii_data (in_file_stream, file_name, read_data);
in_file_stream.close ();
// Convert read data to numerical array (matrix).
NDArray A = read_data.array_value ();
// Extract number of elements in matrix A.
*numel = A.numel ();
// Allocate memory to pointer to returned values.
*data = (double*) malloc (A.numel () * sizeof (double));
// Copy the content of matrix A to data structure Fortran can handle.
memcpy (*data, A.fortran_vec (), A.numel () * sizeof (double));
return 0;
}
Header file[edit]
Header file with C interface to octave_file_io.cc.
#ifndef OCTAVE_FILE_IO_H
#define OCTAVE_FILE_IO_H
#ifdef __cplusplus
extern "C" {
#endif
int octave_load (const char* filename, double** data, int* numel);
#ifdef __cplusplus
}
#endif
#endif
Fortran Code[edit]
Fortran main program to read the plain ASCII matrix with the help of the Octave-C++ function. The read in matrix is printed to the screen.
program octave_file_io_example
use iso_c_binding
implicit none
interface
function octave_load (filename, data, numel) bind(c, name="octave_load")
use iso_c_binding
implicit none
integer(c_int) :: octave_load
character(kind=c_char), intent(in) :: filename(*)
type(c_ptr), intent(out) :: data
integer(c_int), intent(out) :: numel
end function octave_load
end interface
integer(c_int) :: res
type(c_ptr) :: data
real(c_double), pointer :: fdata(:)
integer(c_int) :: numel
res = octave_load (c_char_'data.txt' // c_null_char, data, numel)
call c_f_pointer (data, fdata, (/numel/))
write (*,*) fdata
end program octave_file_io_example
Compiling the code[edit]
Generate octave_file_io.o from octave_file_io.cc.
mkoctfile -I. -c octave_file_io.cc
Generate octave_file_io_example.exe from octave_file_io_example.f90 including octave_file_io.o.
mkoctfile -I. --link-stand-alone octave_file_io_example.f90 octave_file_io.o -o octave_file_io_example.exe -lgfortran
If you receive errors about missing libraries, make sure your LD_LIBRARY_PATH
is set correctly to find all Octave libraries, e.g.
$ ldd ./octave_file_io_example.exe ... libgfortran.so.4 => /usr/lib64/libgfortran.so.4 (0x00007fe9eb62b000) liboctinterp.so.8 => not found liboctave.so.8 => not found ...
Then find liboctinterp.so.8 and liboctave.so.8 on your system and type
export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/path/to/lib/octave/9.2.0/