I am trying to make YCM plugin of vim to work for CUDA source files. Since CUDA is basically C++ syntax with some extensions, I thought that editing the standard '.ycm_extra_conf.py' file would be sufficient. I changed the line

SOURCE_EXTENSIONS = [ '.cpp', '.cxx', '.cc', '.c', '.m', '.mm']


SOURCE_EXTENSIONS = [ '.cpp', '.cxx', '.cc', '.c', '.m', '.mm', '.cu' ]

and the line

return extension in [ '.h', '.hxx', '.hpp', '.hh']


return extension in [ '.h', '.hxx', '.hpp', '.hh', '.cuh' ]

But YCM does not work, it does not even ask me to use the config file as it should in the beginning. In normal C/C++ source files YCM works correct.

Any ideas what is missing?

  • You probably need to whitelist it in g:ycm_filetype_whitelist or some other vim script variable. – FDinoff Nov 18 '14 at 18:44
  • I took your advice and used the whitelist option, using both general * and 'cuda' keywords, but no luck. I had hope that option would be the solution. – labotsirc Nov 18 '14 at 18:59
  • since CUDA uses the 'nvcc' compiler, I start to believe maybe it is not possible. – labotsirc Nov 18 '14 at 19:56

I got this working by the following steps:

First remap .cu files to cpp in your .vimrc

" Map cuda files to c++ so that Ycm can parse
autocmd BufNewFile,BufRead *.cu set filetype=cpp

Next update .ycm_extra_conf.py with flags for Clang CUDA support.

import os
import ycm_core

includes = ['-I/opt/cudatoolkit/6.5/include', '-I/your/includes/here']

common = ['-std=c++11',

cpp_flags = ['-x', 'c++',]

# http://llvm.org/docs/CompileCudaWithLLVM.html
cuda_flags = ['-x', 'cuda', '--cuda-gpu-arch=sm_35']

def FlagsForFile( filename ):

  compile_flags = cpp_flags
  if filename.endswith('.cu'):
    compile_flags = cuda_flags

  return {
    'flags': compile_flags,
    'do_cache': True

Finally you need to add in a header file to your .cu file so Ycm can parse the CUDA builtins. This file, cuda_builtin_vars.h was in my local Clang build.

#ifdef __clang__
#include <cuda_builtin_vars.h>

Even with all this, the Clang parser still doesn't seem to accept that my __global__ functions are actually __global__ (even though it can handle the kernel call syntax with any problems), so I usually wrap them with #ifndef __clang__


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