Exemple #1
0
 def compile(self, code):
     # Note, we do not add carray or particle_array as nnps_base would
     # have been rebuilt anyway if they changed.
     root = expanduser(join('~', '.pypsh', 'source', get_platform_dir()))
     depends = ["pysph.base.nnps_base"]
     # Add pysph/base directory to inc_dirs for including spatial_hash.h
     # for SpatialHashNNPS
     extra_inc_dirs = [join(dirname(dirname(realpath(__file__))), 'base')]
     self._ext_mod = ExtModule(
         code, verbose=True, root=root, depends=depends,
         extra_inc_dirs=extra_inc_dirs
     )
     self._module = self._ext_mod.load()
     return self._module
Exemple #2
0
class AccelerationEvalCythonHelper(object):
    def __init__(self, acceleration_eval):
        self.object = acceleration_eval
        self.config = get_config()
        self.all_array_names = get_all_array_names(self.object.particle_arrays)
        self.known_types = get_known_types_for_arrays(self.all_array_names)
        self._ext_mod = None
        self._module = None

    ##########################################################################
    # Public interface.
    ##########################################################################
    def get_code(self):
        path = join(dirname(__file__), 'acceleration_eval_cython.mako')
        template = Template(filename=path)
        main = template.render(helper=self)
        return main

    def setup_compiled_module(self, module):
        # Create the compiled module.
        object = self.object
        acceleration_eval = module.AccelerationEval(object.kernel,
                                                    object.all_group.equations,
                                                    object.particle_arrays)
        object.set_compiled_object(acceleration_eval)

    def compile(self, code):
        # Note, we do not add carray or particle_array as nnps_base would
        # have been rebuilt anyway if they changed.
        root = expanduser(join('~', '.pysph', 'source', get_platform_dir()))
        depends = ["pysph.base.nnps_base"]
        # Add pysph/base directory to inc_dirs for including spatial_hash.h
        # for SpatialHashNNPS
        extra_inc_dirs = [join(dirname(dirname(realpath(__file__))), 'base')]
        self._ext_mod = ExtModule(code,
                                  verbose=True,
                                  root=root,
                                  depends=depends,
                                  extra_inc_dirs=extra_inc_dirs)
        self._module = self._ext_mod.load()
        return self._module

    ##########################################################################
    # Mako interface.
    ##########################################################################
    def get_array_decl_for_wrapper(self):
        array_names = self.all_array_names
        decl = []
        for a_type in sorted(array_names.keys()):
            props = array_names[a_type]
            decl.append('cdef public {a_type} {attrs}'.format(
                a_type=a_type, attrs=', '.join(sorted(props))))
        return '\n'.join(decl)

    def get_header(self):
        object = self.object
        helpers = []
        headers = []
        headers.extend(get_cython_code(object.kernel))
        if hasattr(object.kernel, '_get_helpers_'):
            helpers.extend(object.kernel._get_helpers_())

        # get headers from the Equations
        for equation in object.all_group.equations:
            headers.extend(get_cython_code(equation))
            if hasattr(equation, '_get_helpers_'):
                for helper in equation._get_helpers_():
                    if helper not in helpers:
                        helpers.append(helper)

        headers.extend(get_helper_code(helpers))

        # Kernel wrappers.
        cg = CythonGenerator(known_types=self.known_types)
        cg.parse(object.kernel)
        headers.append(cg.get_code())

        # Equation wrappers.
        self.known_types['SPH_KERNEL'] = KnownType(
            object.kernel.__class__.__name__)
        headers.append(object.all_group.get_equation_wrappers(
            self.known_types))

        return '\n'.join(headers)

    def get_equation_defs(self):
        return self.object.all_group.get_equation_defs()

    def get_equation_init(self):
        return self.object.all_group.get_equation_init()

    def get_kernel_defs(self):
        return 'cdef public %s kernel' % (
            self.object.kernel.__class__.__name__)

    def get_kernel_init(self):
        object = self.object
        return 'self.kernel = %s(**kernel.__dict__)' % (
            object.kernel.__class__.__name__)

    def get_variable_declarations(self):
        group = self.object.all_group
        ctx = group.context
        return group.get_variable_declarations(ctx)

    def get_array_declarations(self):
        group = self.object.all_group
        src, dest = group.get_array_names()
        src.update(dest)
        return group.get_array_declarations(src, self.known_types)

    def get_dest_array_setup(self, dest_name, eqs_with_no_source, sources,
                             real):
        src, dest_arrays = eqs_with_no_source.get_array_names()
        for g in sources.values():
            s, d = g.get_array_names()
            dest_arrays.update(d)
        lines = ['NP_DEST = self.%s.size(real=%s)' % (dest_name, real)]
        lines += ['%s = dst.%s.data' % (n, n[2:]) for n in sorted(dest_arrays)]
        return '\n'.join(lines)

    def get_src_array_setup(self, src_name, eq_group):
        src_arrays, dest = eq_group.get_array_names()
        lines = ['NP_SRC = self.%s.size()' % src_name]
        lines += ['%s = src.%s.data' % (n, n[2:]) for n in sorted(src_arrays)]
        return '\n'.join(lines)

    def get_parallel_block(self):
        if self.config.use_openmp:
            return "with nogil, parallel():"
        else:
            return "if True: # Placeholder used for OpenMP."

    def get_parallel_range(self, start, stop=None, step=1):
        return get_parallel_range(start, stop, step)

    def get_particle_array_names(self):
        parrays = [pa.name for pa in self.object.particle_arrays]
        return ', '.join(parrays)