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I am having trouble passing char arrays from c++ to fortran (f90).

Here is my c++ file, 'cmain.cxx':

#include <iostream>

using namespace std;

extern "C" int ftest_( char (*string)[4] );

int main() {
    char string[2][4];

    strcpy(string[0],"abc");
    strcpy(string[1],"xyz");

    cout << "c++: string[0] = '" << string[0] << "'" << endl;
    cout << "c++: string[1] = '" << string[1] << "'" << endl;

    ftest_(string);

    return 0;
}

Here is my fortran file, 'ftest.f90':

SUBROUTINE FTEST(string)

CHARACTER*3 string(2)
CHARACTER*3 expected(2)
data expected(1)/'abc'/
data expected(2)/'xyz'/

DO i=1,2
    WRITE(6,10) i,string(i)
10  FORMAT("fortran: string(",i1,") = '", a, "'" )

    IF(string(i).eq.expected(i)) THEN
        WRITE(6,20) string(i),expected(i)
20      FORMAT("'",a,"' equals '",a,"'")
    ELSE
        WRITE(6,30) string(i),expected(i)
30      FORMAT("'",a,"' does not equal '",a,"'")
    END IF
ENDDO

RETURN
END

The build process is:

gfortran -c -m64   ftest.f90 
g++ -c  cmain.cxx
gfortran -m64 -lstdc++ -gnofor_main -o test ftest.o cmain.o

Edit: note that the executable can also be build via:

g++ -lgfortran -o test ftest.o cmain.o

Also, the -m64 flag is required as I am running OSX 10.6.

The output from executing 'test' is:

c++: string[0] = 'abc'
c++: string[1] = 'xyz'
fortran: string(1) = 'abc'
'abc' equals 'abc'
fortran: string(2) = 'xy'
'xy' does not equal 'xyz'

Declaring the 'string' and 'expected' character arrays in ftest.f90 with size 4, ie:

CHARACTER*4 string(2)
CHARACTER*4 expected(2)

and recompiling gives the following output:

c++: string[0] = 'abc'
c++: string[1] = 'xyz'
fortran: string(1) = 'abc'
'abc' does not equal 'abc '
fortran: string(2) = 'xyz'
'xyz' does not equal 'xyz '

Declaring the character arrays in 'cmain.cxx' with size 3, ie:

extern "C" int ftest_( char (*string)[3] );

int main() {
    char string[2][3];

and reverting to the original size in the fortran file (3), ie:

CHARACTER*3 string(2)
CHARACTER*3 expected(2)

and recompiling gives the following output:

c++: string[0] = 'abcxyz'
c++: string[1] = 'xyz'
fortran: string(1) = 'abc'
'abc' equals 'abc'
fortran: string(2) = 'xyz'
'xyz' equals 'xyz'

So the last case is the only one that works, but here I have assigned 3 characters to a char array of size 3 which means the terminating '\0' is missing, and leads to the 'abcxyz' output - this is not acceptable for my intended application.

Any help would be greatly appreciated, this is driving me nuts!

share|improve this question
    
I see no sign that you are using Fortran's 'Interoperability with C' capabilities which are designed to ease such problems as you are facing. I suggest you do use them. –  High Performance Mark Apr 15 '12 at 16:22
    
Hi Mark, I have an externally provided fortran program that I wish to interface with via c++. I cannot modify the fortran code. Can you see a way to get this to work without modifying the original fortran file? –  user1334640 Apr 15 '12 at 16:34
    
It depends on the actual type of interfacing you are doing, but if you have the Fortran code, even if you can't change it, you could add a C interface module to it. The module would just make some conversion functions visible to C. As a bonus, you could get rid of the trailing _ in function names. –  Vladimir F Apr 15 '12 at 17:47

2 Answers 2

C strings are zero terminated whereas fortran strings, by convention, are space padded but of fixed size. You shouldn't expect to be able to pass C strings to fortran without some conversion.

For example:

#include <algorithm>

void ConvertToFortran(char* fstring, std::size_t fstring_len,
                      const char* cstring)
{
    std::size_t inlen = std::strlen(cstring);
    std::size_t cpylen = std::min(inlen, fstring_len);

    if (inlen > fstring_len)
    {
        // TODO: truncation error or warning
    }

    std::copy(cstring, cstring + cpylen, fstring);
    std::fill(fstring + cpylen, fstring + fstring_len, ' ');
}

Which you can then use with either the 3 or 4 length version of ftest:

#include <iostream>
#include <ostream>
extern "C" int ftest_( char string[][4] );

void ConvertToFortran(char* fstring, std::size_t fstring_len,
                      const char* cstring);

int main()
{
    char cstring[2][4] = { "abc", "xyz" };
    char string[2][4];

    ConvertToFortran(string[0], sizeof string[0], cstring[0]);
    ConvertToFortran(string[1], sizeof string[1], cstring[1]);

    std::cout << "c++: string[0] = '" << cstring[0] << "'" << std::endl;
    std::cout << "c++: string[1] = '" << cstring[1] << "'" << std::endl;

    ftest_(string);

    return 0;
}
share|improve this answer

I recommend using the ISO C Binding on the Fortran side as suggested by "High Performance Mark". You are already using "extern C". The ISO C Binding of Fortran 2003 (currently implemented in most Fortran 95 / partial Fortan 2003 compilers) makes this a compiler and platform independent approach. Charles Bailey described the differences between strings in the two languages. This Stackoverflow question has a code example: Calling a FORTRAN subroutine from C

If you don't want to modify existing Fortran code you could write a "glue" routine in between your C++ code and the existing Fortran code. Writing the glue routine in Fortran using the ISO C Binding would be more reliable and stable since this would be based on the features of a language standard.

share|improve this answer

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