import commands
import distutils
import logging
import os
import re
import subprocess
import sys
import warnings
import numpy
from theano.compat import decode, decode_iter
from theano.gof import local_bitwidth
from import hash_from_file
from theano.gof.cmodule import (std_libs, std_lib_dirs,
                                std_include_dirs, dlimport,
from theano.gof.python25 import any
from import output_subprocess_Popen
_logger = logging.getLogger("theano.sandbox.cuda.nvcc_compiler")
from theano.configparser import (config, AddConfigVar, StrParam,
                                 BoolParam, ConfigParam)
             "If defined, nvcc compiler driver will seek g++ and gcc"
             " in this directory",
user_provided_cuda_root = True
def default_cuda_root():
    global user_provided_cuda_root
    v = os.getenv('CUDA_ROOT', "")
    user_provided_cuda_root = False
    if v:
        return v
    return find_cuda_root()
        """directory with bin/, lib/, include/ for cuda utilities.
        This directory is included via -L and -rpath when linking
        dynamically compiled modules.  If AUTO and nvcc is in the
        path, it will use one of nvcc parent directory.  Otherwise
        /usr/local/cuda will be used.  Leave empty to prevent extra
        linker directives.  Default: environment variable "CUDA_ROOT"
        or else "AUTO".
        "DEPRECATED, use nvcc.flags instead",
        StrParam("", allow_override=False),
if config.cuda.nvccflags != '':
    warnings.warn('Configuration variable cuda.nvccflags is deprecated. '
            'Please use nvcc.flags instead. You provided value: %s'
            % config.cuda.nvccflags)
def filter_nvcc_flags(s):
    assert isinstance(s, str)
    flags = [flag for flag in s.split(' ') if flag]
    if any([f for f in flags if not f.startswith("-")]):
        raise ValueError(
            "Theano nvcc.flags support only parameter/value pairs without"
            " space between them. e.g.: '--machine 64' is not supported,"
            " but '--machine=64' is supported. Please add the '=' symbol."
            " nvcc.flags value is '%s'" % s)
    return ' '.join(flags)
             "Extra compiler flags for nvcc",
             ConfigParam(config.cuda.nvccflags, filter_nvcc_flags),
             # Not needed in c key as it is already added.
             # We remove it as we don't make the md5 of config to change
             # if theano.sandbox.cuda is loaded or not.
             # Not needed in c key as it is already added.
             # We remove it as we don't make the md5 of config to change
             # if theano.sandbox.cuda is loaded or not.
nvcc_path = 'nvcc'
nvcc_version = None
def is_nvcc_available():
    """Return True iff the nvcc compiler is found."""
    def set_version():
        p_out = output_subprocess_Popen([nvcc_path, '--version'])
        ver_line = decode(p_out[0]).strip().split('\n')[-1]
        build, version = ver_line.split(',')[1].strip().split()
        assert build == 'release'
        global nvcc_version
        nvcc_version = version
        return True
    except Exception:
        #try to find nvcc into cuda.root
        p = os.path.join(config.cuda.root, 'bin', 'nvcc')
        if os.path.exists(p):
            global nvcc_path
            nvcc_path = p
            except Exception:
                return False
            return True
            return False
def find_cuda_root():
    s = os.getenv("PATH")
    if not s:
    for dir in s.split(os.path.pathsep):
        if os.path.exists(os.path.join(dir, "nvcc")):
            config.cuda.root = os.path.split(dir)[0]
rpath_defaults = []
def add_standard_rpath(rpath):
class NVCC_compiler(object):
    def version_str():
        return "nvcc " + nvcc_version
    def compile_args():
        This args will be received by compile_str() in the preargs paramter.
        They will also be included in the "hard" part of the key module.
        flags = [flag for flag in config.nvcc.flags.split(' ') if flag]
        if config.nvcc.fastmath:
        cuda_ndarray_cuh_hash = hash_from_file(
            os.path.join(os.path.split(__file__)[0], 'cuda_ndarray.cuh'))
        flags.append('-DCUDA_NDARRAY_CUH=' + cuda_ndarray_cuh_hash)
        # numpy 1.7 deprecated the following macro but the didn't
        # existed in the past
        numpy_ver = [int(n) for n in numpy.__version__.split('.')[:2]]
        if bool(numpy_ver < [1, 7]):
            flags.append("-D NPY_ARRAY_ENSURECOPY=NPY_ENSURECOPY")
            flags.append("-D NPY_ARRAY_ALIGNED=NPY_ALIGNED")
            flags.append("-D NPY_ARRAY_WRITEABLE=NPY_WRITEABLE")
            flags.append("-D NPY_ARRAY_UPDATE_ALL=NPY_UPDATE_ALL")
            flags.append("-D NPY_ARRAY_C_CONTIGUOUS=NPY_C_CONTIGUOUS")
            flags.append("-D NPY_ARRAY_F_CONTIGUOUS=NPY_F_CONTIGUOUS")
        # If the user didn't specify architecture flags add them
        if not any(['-arch=sm_' in f for f in flags]):
            # We compile during import.
            # We should not add device properties at that time.
            # As the device is not selected yet!
            # TODO: re-compile cuda_ndarray when we bind to a GPU?
            import theano.sandbox.cuda
            if hasattr(theano.sandbox, 'cuda'):
                n = theano.sandbox.cuda.use.device_number
                if n is None:
                        "We try to get compilation arguments for CUDA"
                        " code, but the GPU device is not initialized."
                        " This is probably caused by an Op that work on"
                        " the GPU that don't inherit from GpuOp."
                        " We Initialize the GPU now.")
                    n = theano.sandbox.cuda.use.device_number
                p = theano.sandbox.cuda.device_properties(n)
                flags.append('-arch=sm_' + str(p['major']) +
        return flags
    def compile_str(
            module_name, src_code,
            location=None, include_dirs=[], lib_dirs=[], libs=[], preargs=[],
            rpaths=rpath_defaults, py_module=True):
        """:param module_name: string (this has been embedded in the src_code
        :param src_code: a complete c or c++ source listing for the module
        :param location: a pre-existing filesystem directory where the
                         cpp file and .so will be written
        :param include_dirs: a list of include directory names
                             (each gets prefixed with -I)
        :param lib_dirs: a list of library search path directory names
                         (each gets prefixed with -L)
        :param libs: a list of libraries to link with
                     (each gets prefixed with -l)
        :param preargs: a list of extra compiler arguments
        :param rpaths: list of rpaths to use with Xlinker.
                       Defaults to `rpath_defaults`.
        :param py_module: if False, compile to a shared library, but
            do not import as a Python module.
        :returns: dynamically-imported python module of the compiled code.
            (unless py_module is False, in that case returns None.)
        :note 1: On Windows 7 with nvcc 3.1 we need to compile in the
                 real directory Otherwise nvcc never finish.
        rpaths = list(rpaths)
        if sys.platform == "win32":
            # Remove some compilation args that cl.exe does not understand.
            # cl.exe is the compiler used by nvcc on Windows.
            for a in ["-Wno-write-strings", "-Wno-unused-label",
                      "-Wno-unused-variable", "-fno-math-errno"]:
                if a in preargs:
        if preargs is None:
            preargs = []
            preargs = list(preargs)
        if sys.platform != 'win32':
        no_opt = False
        cuda_root = config.cuda.root
        #The include dirs gived by the user should have precedence over
        #the standards ones.
        include_dirs = include_dirs + std_include_dirs()
        if os.path.abspath(os.path.split(__file__)[0]) not in include_dirs:
        libs = std_libs() + libs
        if 'cudart' not in libs:
        lib_dirs = std_lib_dirs() + lib_dirs
        if cuda_root:
            lib_dirs.append(os.path.join(cuda_root, 'lib'))
            # from Benjamin Schrauwen April 14 2010
            if sys.platform != 'darwin':
                # OS X uses universal libraries
                lib_dirs.append(os.path.join(cuda_root, 'lib64'))
        if sys.platform != 'darwin':
            # sometimes, the linker cannot find -lpython so we need to tell it
            # explicitly where it is located
            # this returns somepath/lib/python2.x
            python_lib = distutils.sysconfig.get_python_lib(plat_specific=1, \
            python_lib = os.path.dirname(python_lib)
            if python_lib not in lib_dirs:
        cppfilename = os.path.join(location, '')
        cppfile = open(cppfilename, 'w')
        _logger.debug('Writing module C++ code to %s', cppfilename)
        lib_filename = os.path.join(location, '%s.%s' %
                (module_name, get_lib_extension()))
        _logger.debug('Generating shared lib %s', lib_filename)
        # TODO: Why do these args cause failure on gtx285 that has 1.3
        # compute capability? '--gpu-architecture=compute_13',
        # '--gpu-code=compute_13',
        #nvcc argument
        preargs1 = []
        for pa in preargs:
            for pattern in ['-O', '-arch=',
                            '--fmad', '--ftz', '--maxrregcount',
                            '--prec-div', '--prec-sqrt',  '--use_fast_math',
                            '-fmad', '-ftz', '-maxrregcount',
                            '-prec-div', '-prec-sqrt', '-use_fast_math']:
                if pa.startswith(pattern):
        preargs2 = [pa for pa in preargs
                    if pa not in preargs1]  # other arguments
        cmd = [nvcc_path, '-shared', '-g'] + preargs1
        if config.nvcc.compiler_bindir:
            cmd.extend(['--compiler-bindir', config.nvcc.compiler_bindir])
        if sys.platform == 'win32':
            # add flags for Microsoft compiler to create .pdb files
            preargs2.extend(['/Zi', '/MD'])
            cmd.extend(['-Xlinker', '/DEBUG'])
        if local_bitwidth() == 64:
        if len(preargs2) > 0:
            cmd.extend(['-Xcompiler', ','.join(preargs2)])
        # We should not use rpath if possible. If the user provided
        # provided an cuda.root flag, we need to add one, but
        # otherwise, we don't add it. See gh-1540 and
        # for details.
        if (user_provided_cuda_root and
            os.path.exists(os.path.join(config.cuda.root, 'lib'))):
            rpaths.append(os.path.join(config.cuda.root, 'lib'))
            if sys.platform != 'darwin':
                # the CUDA libs are universal (contain both 32-bit and 64-bit)
                rpaths.append(os.path.join(config.cuda.root, 'lib64'))
        if sys.platform != 'win32':
            # the -rpath option is not understood by the Microsoft linker
            for rpath in rpaths:
                cmd.extend(['-Xlinker', ','.join(['-rpath', rpath])])
        cmd.extend('-I%s' % idir for idir in include_dirs)
        cmd.extend(['-o', lib_filename])
        cmd.extend(['-L%s' % ldir for ldir in lib_dirs])
        cmd.extend(['-l%s' % l for l in libs])
        if sys.platform == 'darwin':
            # This tells the compiler to use the already-loaded python
            # symbols (which should always be the right ones).
            cmd.extend(['-Xcompiler', '-undefined,dynamic_lookup'])
        # Remove "-u Symbol" arguments, since they are usually not
        # relevant for the new compilation, even if they were used for
        # compiling python.  If they are necessary, the nvcc syntax is
        # "-U Symbol" with a capital U.
        done = False
        while not done:
                indexof = cmd.index('-u')
                cmd.pop(indexof)  # Remove -u
                cmd.pop(indexof)  # Remove argument to -u
            except ValueError, e:
                done = True
        # CUDA Toolkit v4.1 Known Issues:
        # Host linker on Mac OS 10.7 (and 10.6 for me) passes -no_pie option
        # to nvcc this option is not recognized and generates an error
        # Passing -Xlinker -pie stops -no_pie from getting passed
        if sys.platform == 'darwin' and nvcc_version >= '4.1':
            cmd.extend(['-Xlinker', '-pie'])
        #cmd.append("--ptxas-options=-v") #uncomment this to see
        #register and shared-mem requirements
        _logger.debug('Running cmd %s', ' '.join(cmd))
        orig_dir = os.getcwd()
            p = subprocess.Popen(
                    cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
            nvcc_stdout, nvcc_stderr = decode_iter(p.communicate()[:2])
        for eline in nvcc_stderr.split('\n'):
            if not eline:
            if 'skipping incompatible' in eline:
                #ld is skipping an incompatible library
            if 'declared but never referenced' in eline:
            if 'statement is unreachable' in eline:
  "NVCC: %s", eline)
        if p.returncode:
            for i, l in enumerate(src_code.split('\n')):
                print >> sys.stderr,  i + 1, l
            print >> sys.stderr, '==============================='
            # filter the output from the compiler
            for l in nvcc_stderr.split('\n'):
                if not l:
                # filter out the annoying declaration warnings
                    if l[l.index(':'):].startswith(': warning: variable'):
                    if l[l.index(':'):].startswith(': warning: label'):
                except Exception:
                print >> sys.stderr, l
            print nvcc_stdout
            print cmd
            raise Exception('nvcc return status', p.returncode,
                            'for cmd', ' '.join(cmd))
        elif config.cmodule.compilation_warning and nvcc_stdout:
            print nvcc_stdout
        if nvcc_stdout:
            # this doesn't happen to my knowledge
            print >> sys.stderr, "DEBUG: nvcc STDOUT", nvcc_stdout
        if py_module:
            #touch the __init__ file
            open(os.path.join(location, ""), 'w').close()
            return dlimport(lib_filename)