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Hi I want to use the special functions of Julia implementation (https://juliamath.github.io/SpecialFunctions.jl/dev/functions_list/) inside c++.

Following the manual (https://docs.julialang.org/en/v1/manual/embedding/) I could not achieve so far.

For functions like sqrt we have something like

jl_function_t *func1 = jl_get_function(jl_base_module,"sqrt");

In a similar fashion what is the module for these special functions?

I tried to use

jl_function_t *func2 = jl_get_function(jl_specialfunctions_module,"polygamma");

which shows the following error:

signal (11): Segmentation fault
in expression starting at none:0
jl_mutex_wait at /buildworker/worker/package_linux64/build/src/locks.h:24 [inlined]
jl_mutex_lock at /buildworker/worker/package_linux64/build/src/locks.h:94 [inlined]
jl_get_binding_ at /buildworker/worker/package_linux64/build/src/module.c:280
jl_get_global at /buildworker/worker/package_linux64/build/src/module.c:561
jl_get_function at ./test (unknown line)
main at ./test (unknown line)
__libc_start_main at /lib/x86_64-linux-gnu/libc.so.6 (unknown line)
_start at ./test (unknown line)
Allocations: 2544 (Pool: 2535; Big: 9); GC: 0

It is not clear from the manual how one should use these special functions in c++. Any lead would be much appreciated!

I found that this was already asked by Federico (particularly for polygamma): (How to call a julia method defined in an imported package from c++?): Here is the example:

  #include<iostream>
  #include<julia.h>
  JULIA_DEFINE_FAST_TLS() ;

int main(){
   jl_init();
   jl_eval_string("print(sqrt(2.0))"); // see that Julia works

   jl_module_t* jl_specialfunctions_module = (jl_module_t*) 
   jl_get_binding(jl_main_module, jl_symbol("SpecialFunctions"));
   jl_function_t* func2 = jl_get_function(jl_specialfunctions_module,"polygamma");
   jl_value_t *argument1 = jl_box_int64(1);
   jl_value_t *argument2 = jl_box_float64(2.0);
   jl_value_t *arguments[2] = { argument1 , argument2 };
   jl_value_t *ret = jl_call(func2, arguments, 2);

   if (jl_typeis(ret, jl_float64_type)) {
    double ret_unboxed = jl_unbox_float64(ret);
    std::cout << "julia = " << ret_unboxed << std::endl;
    }
   else {
    std::cout << "Error" << std::endl;
   }

   jl_atexit_hook(0);
   return 0;
 }

No answer there unfortunately!

Similar happens when I try to adapt this: https://discourse.julialang.org/t/jl-get-function-throwing-segmentation-fault/37186

NB: The special functions extension was installed through import Pkg; Pkg.add("SpecialFunctions") and in the julia shell the special functions are accessible.

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  • On the face of it, it looks like a bug in the Julia source. Could you post a minimal reproducible example? Commented Dec 16, 2020 at 12:47
  • 1
    It looks like you need to tell C++ that you're using SpecialFunctions. The embedding documentation is missing docs for jl_module_import and friends, but I think that's what you're missing. Commented Dec 16, 2020 at 18:04

2 Answers 2

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I answered this question in the other stackoverflow thread.

Basically, the easiest thing to do is to use the Julia @cfunction construct to let Julia compile the code into a C++ function pointer, which you can then call normally without worrying about unboxing etcetera.

(For passing complex numbers, @cfunction can exploit the fact that C++ std::complex<double> and Julia Complex{Float64} have identical memory representations.)

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3 Comments

, thanks for letting me know this alternative and probably better method. I could produce the values for complex arguments for polygamma with this as well and thus avoiding box/unbox etc. Its unfortunate that standard C++ libraries do not support (to my knowledge) polygamma for complex arguments. Thanks to you for putting effort implementing it in Julia. If you want (also would be nice for future readers), you can turn it as a better answer providing a complete example. (This also encourage me to accept your answer as the "accepted answer") :)
Ooops you have already answered in the other thread !!
Julia is a much better language than C++ for implementing special functions, I've found. (For comparison, I wrote the C/C++ complex error function used in SciPy etc.) Even simple things like easy-to-write code that works simultaneously for single/double precision and real/complex data are a huge win, much less metaprogramming techniques for inlining polynomial evaluations and other advanced tricks.
2

Thanks to @Matt B, I looked into Julia codes and see how these modules are there. So the following could be one possible solution.

#include <julia.h>
#include<iostream>
JULIA_DEFINE_FAST_TLS() 

int main(){
  jl_init();

  jl_eval_string("using SpecialFunctions");
  jl_module_t* SpecialFunctions =(jl_module_t*)jl_eval_string("SpecialFunctions");

  jl_function_t *func2 = jl_get_function(SpecialFunctions, "polygamma");

  // arguments to pass to polygamma
  jl_value_t *argument1 = jl_box_int64(1);
  jl_value_t *argument2 = jl_box_float64(2.0);
  jl_value_t *arguments[2] = { argument1 , argument2 };
  jl_value_t *ret2 = jl_call(func2, arguments, 2);

  if (jl_typeis(ret2, jl_float64_type)){
    double ret_unboxed = jl_unbox_float64(ret2);
    std::cout << "\n julia result = " << ret_unboxed << std::endl;
  }
  else{
    std::cout<<"hello error!!"<<std::endl;
  }

  jl_atexit_hook(0);
  return 0;
 }

Now I need to see how can I pass complex numbers to the argument of polygamma which is why all these fuss about :) !

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