Experience:

fortran for about 3 months

python - intermediate : never used the ctypes module in python before this

I was looking for a way to use the fortran code for my doctoral work in python - subsequently using the computation for visualizations on-the-fly for visualizations using matplotlib.

THIS POST helped (this tells that fortran code can be used/invoked in python using the ctypes module - and given that the fortran functions have alternate names bound to them - this much makes sense to me logically although i do not know how this works in detail. But we **DO** choose our battles wisely!).

Then this SO post deals with calling fortran functions from python as well.

The next logical step was to look up the documentation for the python module ctypes. This talks about how the shared library can be accessed using python at an API level.

I had all the pieces to make a minimal working example, which another answer has already done. But i wanted to look at the output mechanism and mathematical operations involving real floats. Here is the test case i made.

## test.f90

```
function prnt(s)
character(80):: s
logical :: prnt
print*, s
prnt = .true.
end function prnt
function sin_2(r)
real:: r,sin_2
sin_2 = sin(r)**2
end function sin_2
```

## make the shared object

```
$gfortran -shared -g -o test.so test.f90
```

EDIT: for some reason my work computer needs the -fPIC option to compile

To make sure my two functions `prnt`

and `sin_2`

are in there somewhere, i checked with `nm`

:

```
$ nm test.so | tail -3
0000067f T prnt_
0000065c T sin_2_
U sinf@@GLIBC_2.0
```

So far so good. My functions `prnt`

and `sin_2`

have been mapped onto `prnt_`

and `sin_2_`

inside the library.

## invoke fortran functions from the python interpreter

this is where all of this gets a bit soggy. Using the table in python-ctypes documentation, I typed in the following -

```
>>> from ctypes import byref, cdll, c_float,c_char_p
>>> t = cdll.LoadLibrary('./test.so')
>>> c = c_char_p("Mary had a little lamb")
>>> t.prnt_('Mary had a little lamb')
Mary had a little lambe
1
>>> t.prnt_("Mary had a little lamb")
Mary had a little lambe
1
>>> t.prnt_(c)
Mary had a little lambe[� .prnt_(c)
1
```

I suppose that the 1 printed at the end of each output is python's way of letting me know that the boolean output to `t.prnt_`

is `.true.`

.

I am a bit worried about how the situation gets worse with `t.prnt_`

when i switch to the proper datatype for the string. The literals print okay, only with a `e`

at the end. Is that the EOL character?

Then there is the `t.sin_2_`

function. I have decided to use it to compute sin(4.56)**2. here is how that went -

```
>>> f = c_float(4.56)
>>> t.sin_2_(4.56)
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
ctypes.ArgumentError: argument 1: <type 'exceptions.TypeError'>: Don't know how to convert parameter 1
>>> t.sin_2_(f)
Segmentation fault (core dumped)
```

Where did i go wrong here? I tried to explain how I approached the problem so that it would be apparent if I made an obvious gaffe somewhere.

The multitude of links to other SO posts is to help other people who ask the same question as I do now.