示例#1
0
    def map_sum(self, expr):
        sum_kind = None

        term_kind_matrix = intern("matrix")
        term_kind_vector = intern("vector")
        term_kind_scalar = intern("scalar")

        result = 0
        for child in expr.children:
            rec_child = self.rec(child)

            if is_zero(rec_child):
                continue

            if isinstance(rec_child, np.ndarray):
                if self.is_kind_matrix(rec_child):
                    term_kind = term_kind_matrix
                elif self.is_kind_vector(rec_child):
                    term_kind = term_kind_vector
                else:
                    raise RuntimeError("unexpected array rank")
            else:
                term_kind = term_kind_scalar

            if sum_kind is None:
                sum_kind = term_kind

            if term_kind != sum_kind:
                raise RuntimeError("encountered %s in sum of kind %s"
                        % (term_kind, sum_kind))

            result = result + rec_child

        return result
示例#2
0
    def __init__(self, next_attr_name=None, prev_attr_name=None):
        """Initializes this list.

        next_attr_name: The name of the attribute that holds a reference
                        to the next item in the list.

        prev_attr_name: the name of the attribute that holds a reference
                        to the previous item in the list.
        """

        # Keep an interned version of the attribute names. This should
        # speed up the process of looking up the attributes.
        self.next_name = intern(next_attr_name)
        self.prev_name = intern(prev_attr_name)
示例#3
0
文件: __init__.py 项目: blino/pytools
def memoize_method_nested(inner):
    """Adds a cache to a function nested inside a method. The cache is attached
    to *memoize_cache_context* (if it exists) or *self* in the outer (method)
    namespace.

    Requires Python 2.5 or newer.
    """

    from functools import wraps
    cache_dict_name = intern("_memoize_inner_dic_%s_%s_%d"
            % (inner.__name__, inner.__code__.co_filename,
                inner.__code__.co_firstlineno))

    from inspect import currentframe
    outer_frame = currentframe().f_back
    cache_context = outer_frame.f_locals.get("memoize_cache_context")
    if cache_context is None:
        cache_context = outer_frame.f_locals.get("self")

    try:
        cache_dict = getattr(cache_context, cache_dict_name)
    except AttributeError:
        cache_dict = {}
        setattr(cache_context, cache_dict_name, cache_dict)

    @wraps(inner)
    def new_inner(*args):
        try:
            return cache_dict[args]
        except KeyError:
            result = inner(*args)
            cache_dict[args] = result
            return result

    return new_inner
示例#4
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    def realize_conditional(self, node, context_cond=None):
        scope = self.scope_stack[-1]

        cond_name = intern("loopy_cond%d" % self.condition_id_counter)
        self.condition_id_counter += 1
        assert cond_name not in scope.type_map

        scope.type_map[cond_name] = np.int32

        from pymbolic import var
        cond_var = var(cond_name)

        self.add_expression_instruction(
                cond_var, self.parse_expr(node, node.expr))

        cond_expr = cond_var
        if context_cond is not None:
            from pymbolic.primitives import LogicalAnd
            cond_expr = LogicalAnd((cond_var, context_cond))

            self.conditions_data.append((context_cond, cond_var))
        else:
            self.conditions_data.append((None, cond_var))

        self.conditions.append(cond_expr)
示例#5
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文件: data.py 项目: inducer/loopy
    def __init__(self, **kwargs):
        kwargs["name"] = intern(kwargs.pop("name"))

        target = kwargs.pop("target", None)

        dtype = kwargs.pop("dtype", None)

        if 'for_atomic' in kwargs:
            for_atomic = kwargs['for_atomic']
        else:
            for_atomic = False

        from loopy.types import to_loopy_type
        dtype = to_loopy_type(
                dtype, allow_auto=True, allow_none=True, for_atomic=for_atomic,
                target=target)

        import loopy as lp
        if dtype is lp.auto:
            warn("Argument/temporary data type for '%s' should be None if "
                   "unspecified, not auto. This usage will be disallowed in 2018."
                    % kwargs["name"],
                    DeprecationWarning, stacklevel=2)

            dtype = None

        kwargs["dtype"] = dtype

        ImmutableRecord.__init__(self, **kwargs)
示例#6
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def normalize_chromosome(c):
    try:
        return NORMALIZE_CHROMOSOME_CACHE[c]
    except KeyError:
        pass

    if not (is_string(c) or is_integer(c)):
        raise TypeError("Chromosome cannot be '%s' : %s" % (c, type(c)))

    result = str(c)
    if result == "0":
        raise ValueError("Chromosome name cannot be 0")
    elif result == "":
        raise ValueError("Chromosome name cannot be empty")

    # only strip off lowercase chr since some of the non-chromosomal
    # contigs start with "CHR"
    if result.startswith("chr"):
        result = result[3:]

    # just in case someone is being lazy, capitalize "M", "MT", X", "Y"
    result = result.upper()

    # standardize mitochondrial genome to be "MT"
    if result == "M":
        result = "MT"

    # interning strings since the chromosome names probably get constructed
    # or parsed millions of times, can save memory in tight situations
    # (such as parsing GTF files)
    result = intern(result)

    NORMALIZE_CHROMOSOME_CACHE[c] = result

    return result
示例#7
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def memoize_method(method):
    """Supports cache deletion via ``method_name.clear_cache(self)``.

    .. note::
        *clear_cache* support requires Python 2.5 or newer.
    """

    cache_dict_name = intern("_memoize_dic_"+method.__name__)

    def wrapper(self, *args, **kwargs):
        if kwargs:
            key = (_HasKwargs, frozenset(six.iteritems(kwargs))) + args
        else:
            key = args

        try:
            return getattr(self, cache_dict_name)[key]
        except AttributeError:
            result = method(self, *args, **kwargs)
            setattr(self, cache_dict_name, {key: result})
            return result
        except KeyError:
            result = method(self, *args, **kwargs)
            getattr(self, cache_dict_name)[key] = result
            return result

    def clear_cache(self):
        delattr(self, cache_dict_name)

    if sys.version_info >= (2, 5):
        from functools import update_wrapper
        new_wrapper = update_wrapper(wrapper, method)
        new_wrapper.clear_cache = clear_cache

    return new_wrapper
示例#8
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def memoize_method(method):
    """Supports cache deletion via ``method_name.clear_cache(self)``.

    .. note::
        *clear_cache* support requires Python 2.5 or newer.
    """

    return memoize_on_first_arg(method, intern("_memoize_dic_"+method.__name__))
示例#9
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    def make_unique_instruction_id(self, insns=None, based_on="insn",
            extra_used_ids=set()):
        if insns is None:
            insns = self.instructions

        used_ids = set(insn.id for insn in insns) | extra_used_ids

        for id_str in generate_unique_names(based_on):
            if id_str not in used_ids:
                return intern(id_str)
示例#10
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    def __call__(self, based_on="id"):
        based_on = self.forced_prefix + based_on

        for var_name in generate_unique_names(based_on):
            if not self.is_name_conflicting(var_name):
                break

        var_name = intern(var_name)

        self.existing_names.add(var_name)
        return var_name
示例#11
0
文件: data.py 项目: navjotk/loopy
    def __init__(self, **kwargs):
        kwargs["name"] = intern(kwargs.pop("name"))

        dtype = kwargs.pop("dtype", None)

        if isinstance(dtype, np.dtype):
            from loopy.tools import PicklableDtype
            kwargs["picklable_dtype"] = PicklableDtype(dtype)
        else:
            kwargs["picklable_dtype"] = dtype

        Record.__init__(self, **kwargs)
示例#12
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文件: creation.py 项目: navjotk/loopy
def parse_if_necessary(insn, defines):
    if isinstance(insn, InstructionBase):
        yield insn.copy(
                id=intern(insn.id) if isinstance(insn.id, str) else insn.id,
                insn_deps=frozenset(intern(dep) for dep in insn.insn_deps),
                groups=frozenset(intern(grp) for grp in insn.groups),
                conflicts_with_groups=frozenset(
                    intern(grp) for grp in insn.conflicts_with_groups),
                forced_iname_deps=frozenset(
                    intern(iname) for iname in insn.forced_iname_deps),
                predicates=frozenset(
                    intern(pred) for pred in insn.predicates),
                ), []
        return
    elif not isinstance(insn, str):
        raise TypeError("Instructions must be either an Instruction "
                "instance or a parseable string. got '%s' instead."
                % type(insn))

    for insn in insn.split("\n"):
        comment_start = insn.find("#")
        if comment_start >= 0:
            insn = insn[:comment_start]

        insn = insn.strip()
        if not insn:
            continue

        for sub_insn in expand_defines(insn, defines, single_valued=False):
            yield parse_insn(sub_insn)
示例#13
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def der_parse_OID(derblob):
    oidvals = [0]
    for byte in map(ord, derblob):
        if byte & 0x80 != 0x00:
            oidvals[-1] = (oidvals[-1] << 7) | (byte & 0x7f)
        else:
            oidvals[-1] = (oidvals[-1] << 7) | byte
            oidvals.append(0)
    fst = oidvals[0] // 40
    snd = oidvals[0] % 40
    oidvals = [fst, snd] + oidvals[1:-1]
    retval = '.'.join(map(str, oidvals))
    return intern(retval)
示例#14
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    def __setstate__(self, val):
        super(InstructionBase, self).__setstate__(val)

        from loopy.tools import intern_frozenset_of_ids

        if self.id is not None:  # pylint:disable=access-member-before-definition
            self.id = intern(self.id)
        self.depends_on = intern_frozenset_of_ids(self.depends_on)
        self.groups = intern_frozenset_of_ids(self.groups)
        self.conflicts_with_groups = (
                intern_frozenset_of_ids(self.conflicts_with_groups))
        self.within_inames = (
                intern_frozenset_of_ids(self.within_inames))
示例#15
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    def cursor_to_dict(cursor):
        """Converts a SQL cursor into an list of dicts.

        Args:
            cursor : The DBAPI cursor which has executed a query.
        Returns:
            A list of dicts where the key is the column header.
        """
        col_headers = list(intern(str(column[0])) for column in cursor.description)
        results = list(
            dict(zip(col_headers, row)) for row in cursor
        )
        return results
示例#16
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def intern_string(string):
    """Takes a (potentially) unicode string and interns it if it's ascii
    """
    if string is None:
        return None

    try:
        if six.PY2:
            string = string.encode("ascii")

        return intern(string)
    except UnicodeEncodeError:
        return string
示例#17
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文件: data.py 项目: navjotk/loopy
    def __setstate__(self, val):
        super(InstructionBase, self).__setstate__(val)

        from loopy.tools import intern_frozenset_of_ids

        self.id = intern(self.id)
        self.insn_deps = intern_frozenset_of_ids(self.insn_deps)
        self.groups = intern_frozenset_of_ids(self.groups)
        self.conflicts_with_groups = (
                intern_frozenset_of_ids(self.conflicts_with_groups))
        self.forced_iname_deps = (
                intern_frozenset_of_ids(self.forced_iname_deps))
        self.predicates = (
                intern_frozenset_of_ids(self.predicates))
示例#18
0
    def __call__(self, based_on="id"):
        based_on = self.forced_prefix + based_on

        counter = self.prefix_to_counter.get(based_on, None)

        for counter, var_name in generate_numbered_unique_names(based_on, counter):
            if not self.is_name_conflicting(var_name):
                break

        self.prefix_to_counter[based_on] = counter

        var_name = intern(var_name)

        self.existing_names.add(var_name)
        return var_name
示例#19
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def first_arg_dependent_memoize_nested(nested_func):
    """Provides memoization for nested functions. Typically used to cache
    things that get created inside a :class:`pyopencl.Context`, e.g. programs
    and kernels. Assumes that the first argument of the decorated function is
    an OpenCL object that might go away, such as a :class:`pyopencl.Context` or
    a :class:`pyopencl.CommandQueue`, and will therefore respond to
    :func:`clear_first_arg_caches`.

    .. versionadded:: 2013.1

    Requires Python 2.5 or newer.
    """

    from functools import wraps
    cache_dict_name = intern("_memoize_inner_dic_%s_%s_%d"
            % (nested_func.__name__, nested_func.__code__.co_filename,
                nested_func.__code__.co_firstlineno))

    from inspect import currentframe
    # prevent ref cycle
    try:
        caller_frame = currentframe().f_back
        cache_context = caller_frame.f_globals[
                caller_frame.f_code.co_name]
    finally:
        #del caller_frame
        pass

    try:
        cache_dict = getattr(cache_context, cache_dict_name)
    except AttributeError:
        cache_dict = {}
        _first_arg_dependent_caches.append(cache_dict)
        setattr(cache_context, cache_dict_name, cache_dict)

    @wraps(nested_func)
    def new_nested_func(cl_object, *args):
        try:
            return cache_dict[cl_object][args]
        except KeyError:
            arg_dict = cache_dict.setdefault(cl_object, {})
            result = nested_func(cl_object, *args)
            arg_dict[args] = result
            return result

    return new_nested_func
示例#20
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    def add_expression_instruction(self, lhs, rhs):
        scope = self.scope_stack[-1]

        new_id = intern("insn%d" % self.insn_id_counter)
        self.insn_id_counter += 1

        from loopy.kernel.data import Assignment
        insn = Assignment(
                lhs, rhs,
                within_inames=frozenset(
                    scope.active_loopy_inames),
                id=new_id,
                predicates=frozenset(self.conditions),
                tags=tuple(self.instruction_tags))

        scope.previous_instruction_id = new_id
        scope.instructions.append(insn)
示例#21
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文件: symbolic.py 项目: shigh/loopy
class RuleArgument(Expression):
    """Represents a (numbered) argument of a :class:`loopy.SubstitutionRule`.
    Only used internally in the rule-aware mappers to match subst rules
    independently of argument names.
    """

    init_arg_names = ("index", )

    def __init__(self, index):
        self.index = index

    def __getinitargs__(self):
        return (self.index, )

    def stringifier(self):
        return StringifyMapper

    mapper_method = intern("map_rule_argument")
示例#22
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class RefStiffnessTOperator(RefDiffOperatorBase):
    mapper_method = intern("map_ref_stiffness_t")

    @staticmethod
    def matrices(out_elem_grp, in_elem_grp):
        if in_elem_grp == out_elem_grp:
            assert in_elem_grp.is_orthogonal_basis()
            mmat = in_elem_grp.mass_matrix()
            return [dmat.T.dot(mmat.T) for dmat in in_elem_grp.diff_matrices()]

        from modepy import vandermonde
        vand = vandermonde(out_elem_grp.basis(), out_elem_grp.unit_nodes)
        grad_vand = vandermonde(out_elem_grp.grad_basis(), in_elem_grp.unit_nodes)
        vand_inv_t = np.linalg.inv(vand).T

        weights = in_elem_grp.weights

        return np.einsum('c,bz,acz->abc', weights, vand_inv_t, grad_vand)
示例#23
0
class LinearSubscript(Expression):
    """Represents a linear index into a multi-dimensional array, completely
    ignoring any multi-dimensional layout.
    """

    init_arg_names = ("aggregate", "index")

    def __init__(self, aggregate, index):
        self.aggregate = aggregate
        self.index = index

    def __getinitargs__(self):
        return self.aggregate, self.index

    def stringifier(self):
        return StringifyMapper

    mapper_method = intern("map_linear_subscript")
示例#24
0
 def __init__(self,
              max_reqs=400000,
              max_reps=400000,
              max_events=400000,
              timer=None):
     self._accumulators = {}
     self._cv = Condition()
     self._stopped = True
     self._requests = Deque(maxlen=max_reqs)
     self._replies = Deque(maxlen=max_reps)
     self._events = Deque(maxlen=max_events)
     self._request_handlers = set()
     self._reply_handlers = set()
     self._event_handlers = set()
     self._auth_by_client = defaultdict(lambda: intern("noauth"))
     self._timer = timer if timer else Timer()
     super(QueueStatsLoader, self).__init__()
     self.setDaemon(True)
示例#25
0
class Lookup(AlgebraicLeaf):
    """Access to an attribute of an *aggregate*, such as an
    attribute of a class.
    """

    init_arg_names = (
        "aggregate",
        "name",
    )

    def __init__(self, aggregate, name):
        self.aggregate = aggregate
        self.name = name

    def __getinitargs__(self):
        return self.aggregate, self.name

    mapper_method = intern("map_lookup")
示例#26
0
class If(Expression):
    """
    .. attribute:: condition
    .. attribute:: then
    .. attribute:: else_
    """

    init_arg_names = ("condition", "then", "else_")

    def __init__(self, condition, then, else_):
        self.condition = condition
        self.then = then
        self.else_ = else_

    def __getinitargs__(self):
        return self.condition, self.then, self.else_

    mapper_method = intern("map_if")
示例#27
0
class Slice(Expression):
    """A slice expression as in a[1:7]."""

    init_arg_names = ("children", )

    def __init__(self, children):
        assert isinstance(children, tuple)
        self.children = children

        if len(children) > 3:
            raise ValueError("slice with more than three arguments")

    def __getinitargs__(self):
        return (self.children, )

    def __bool__(self):
        return True

    __nonzero__ = __bool__

    @property
    def start(self):
        if len(self.children) > 1:
            return self.children[0]
        else:
            return None

    @property
    def stop(self):
        if len(self.children) == 1:
            return self.children[0]
        elif len(self.children) > 1:
            return self.children[1]
        else:
            return None

    @property
    def step(self):
        if len(self.children) == 3:
            return self.children[2]
        else:
            return None

    mapper_method = intern("map_slice")
示例#28
0
class _SignedFaceOnes(HasDOFDesc, ExpressionBase):
    """Produces DoFs on a face that are :math:`-1` if their corresponding
    face number is odd and :math:`+1` if it is even.
    *dd* must refer to a 0D (point-shaped) trace domain.
    This is based on the face order of
    :meth:`meshmode.mesh.MeshElementGroup.face_vertex_indices`.

   .. note::

       This is used as a hack to generate normals with the correct orientation
       in 1D problems, and so far only intended for this particular use cases.
       (If you can think of a better way, please speak up!)
    """
    def __init__(self, dd):
        dd = as_dofdesc(dd)
        assert dd.is_trace()
        super(_SignedFaceOnes, self).__init__(dd)

    mapper_method = intern("map_signed_face_ones")
示例#29
0
    def parametrized_decorator(method):
        cache_dict_name = intern("_memoize_dic_"+method.__name__)

        def wrapper(self, *args, **kwargs):
            cache_args = list(args)
            cache_kwargs = kwargs.copy()

            for i in uncached_args:
                if i < len(cache_args):
                    cache_args.pop(i)

            cache_args = tuple(cache_args)

            if kwargs:
                for name in uncached_kwargs:
                    cache_kwargs.pop(name, None)

                key = (
                        (_HasKwargs, frozenset(six.iteritems(cache_kwargs)))
                        + cache_args)
            else:
                key = cache_args

            try:
                return getattr(self, cache_dict_name)[key]
            except AttributeError:
                result = method(self, *args, **kwargs)
                setattr(self, cache_dict_name, {key: result})
                return result
            except KeyError:
                result = method(self, *args, **kwargs)
                getattr(self, cache_dict_name)[key] = result
                return result

        def clear_cache(self):
            delattr(self, cache_dict_name)

        if sys.version_info >= (2, 5):
            from functools import update_wrapper
            new_wrapper = update_wrapper(wrapper, method)
            new_wrapper.clear_cache = clear_cache

        return new_wrapper
示例#30
0
    def parametrized_decorator(method):
        cache_dict_name = intern("_memoize_dic_"+method.__name__)

        def wrapper(self, *args, **kwargs):
            cache_args = list(args)
            cache_kwargs = kwargs.copy()

            for i in uncached_args:
                if i < len(cache_args):
                    cache_args.pop(i)

            cache_args = tuple(cache_args)

            if kwargs:
                for name in uncached_kwargs:
                    cache_kwargs.pop(name, None)

                key = (
                        (_HasKwargs, frozenset(six.iteritems(cache_kwargs)))
                        + cache_args)
            else:
                key = cache_args

            try:
                return getattr(self, cache_dict_name)[key]
            except AttributeError:
                result = method(self, *args, **kwargs)
                setattr(self, cache_dict_name, {key: result})
                return result
            except KeyError:
                result = method(self, *args, **kwargs)
                getattr(self, cache_dict_name)[key] = result
                return result

        def clear_cache(self):
            delattr(self, cache_dict_name)

        if sys.version_info >= (2, 5):
            from functools import update_wrapper
            new_wrapper = update_wrapper(wrapper, method)
            new_wrapper.clear_cache = clear_cache

        return new_wrapper
示例#31
0
class Power(Expression):
    """
    .. attribute:: base
    .. attribute:: exponent
    """

    init_arg_names = (
        "base",
        "exponent",
    )

    def __init__(self, base, exponent):
        self.base = base
        self.exponent = exponent

    def __getinitargs__(self):
        return self.base, self.exponent

    mapper_method = intern("map_power")
示例#32
0
    def map_IfThen(self, node):
        scope = self.scope_stack[-1]

        cond_name = intern("loopy_cond%d" % self.condition_id_counter)
        self.condition_id_counter += 1
        assert cond_name not in scope.type_map

        scope.type_map[cond_name] = np.int32

        from pymbolic import var
        cond_var = var(cond_name)

        self.add_expression_instruction(
                cond_var, self.parse_expr(node, node.expr))

        self.conditions.append(cond_name)

        self.block_nest.append("if")
        for c in node.content:
            self.rec(c)
示例#33
0
    def map_IfThen(self, node):
        scope = self.scope_stack[-1]

        cond_name = intern("loopy_cond%d" % self.condition_id_counter)
        self.condition_id_counter += 1
        assert cond_name not in scope.type_map

        scope.type_map[cond_name] = np.int32

        from pymbolic import var
        cond_var = var(cond_name)

        self.add_expression_instruction(
                cond_var, self.parse_expr(node, node.expr))

        self.conditions.append(cond_name)

        self.block_nest.append("if")
        for c in node.content:
            self.rec(c)
示例#34
0
class TaggedVariable(Variable):
    """This is an identifier with a tag, such as 'matrix$one', where
    'one' identifies this specific use of the identifier. This mechanism
    may then be used to address these uses--such as by prefetching only
    accesses tagged a certain way.
    """

    init_arg_names = ("name", "tag")

    def __init__(self, name, tag):
        Variable.__init__(self, name)
        self.tag = tag

    def __getinitargs__(self):
        return self.name, self.tag

    def stringifier(self):
        return StringifyMapper

    mapper_method = intern("map_tagged_variable")
示例#35
0
class OperatorBinding(ExpressionBase):
    init_arg_names = ("op", "field")

    def __init__(self, op, field):
        self.op = op
        self.field = field

    mapper_method = intern("map_operator_binding")

    def __getinitargs__(self):
        return self.op, self.field

    def is_equal(self, other):
        return (other.__class__ == self.__class__ and other.op == self.op
                and np.array_equal(other.field, self.field))

    def get_hash(self):
        from pytools.obj_array import obj_array_to_hashable
        return hash(
            (self.__class__, self.op, obj_array_to_hashable(self.field)))
示例#36
0
 def __init_bindata__(self):
     """The object has been setup with structural information in
        _der_packer and _recipe, as well as instance data in
        _bindata and _offset.  We now iterate over all the fields
        in the _recipe to replace some or all entries in _bindata
        with an ASN1Object subclass instance.
        The last step of this procedure is to self-register into
        _bindata [_offset], so as to support future _der_pack()
        calls.
     """
     if self._recipe[0] != '_NAMED':
         import sys
         sys.exit(1)
     assert self._recipe[
         0] == '_NAMED', 'ASN1ConstructedType instances must have a dictionary in their _recipe'
     (_NAMED, recp) = self._recipe
     self._fields = {}
     # Static recipe is generated from the ASN.1 grammar
     # Iterate over this recipe to form the instance data
     from quick_der import builder
     for (subfld, subrcp) in recp.items():
         if type(subfld) != str:
             raise Exception("ASN.1 recipe keys can only be strings")
         # Interned strings yield faster dictionary lookups
         # Field names in Python are always interned
         subfld = intern(subfld.replace('-', '_'))
         self._fields[subfld] = self._offset  # fallback
         subval = builder.build_asn1(self._context, subrcp, self._bindata,
                                     self._offset)
         if type(subval) == int:
             # Primitive: Index into _bindata; set in _fields
             self._fields[subfld] += subval
         elif subval.__class__ == ASN1Atom:
             # The following moved into __init_bindata__():
             # self._bindata [self._offset] = subval
             # Native types may be assigned instead of subval
             pass
             print('Not placing field {} subvalue :: {}'.format(
                 subfld, type(subval)))
         elif isinstance(subval, ASN1Object):
             self._fields[subfld] = subval
示例#37
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class CommonSubexpression(Expression):
    """A helper for code generation and caching. Denotes a subexpression that
    should only be evaluated once. If, in code generation, it is assigned to
    a variable, a name starting with :attr:`prefix` should be used.

    .. attribute:: child
    .. attribute:: prefix
    .. attribute:: scope

        One of the values in :class:`cse_scope`. See there for meaning.

    See :class:`pymbolic.mapper.c_code.CCodeMapper` for an example.
    """

    init_arg_names = ("child", "prefix", "scope")

    def __init__(self, child, prefix=None, scope=None):
        """
        :arg scope: Defaults to :attr:`cse_scope.EVALUATION` if given as *None*.
        """
        if scope is None:
            scope = cse_scope.EVALUATION

        self.child = child
        self.prefix = prefix
        self.scope = scope

    def __getinitargs__(self):
        return (self.child, self.prefix, self.scope)

    def get_extra_properties(self):
        """Return a dictionary of extra kwargs to be passed to the
        constructor from the identity mapper.

        This allows derived classes to exist without having to
        extend every mapper that processes them.
        """

        return {}

    mapper_method = intern("map_common_subexpression")
示例#38
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class ProjectionOperator(Operator):
    def __init__(self, dd_in, dd_out):
        super(ProjectionOperator, self).__init__(dd_in, dd_out)

    def __call__(self, expr):
        from pytools.obj_array import obj_array_vectorize

        def project_one(subexpr):
            from pymbolic.primitives import is_constant
            if self.dd_in == self.dd_out:
                # no-op projection, go away
                return subexpr
            elif is_constant(subexpr):
                return subexpr
            else:
                from grudge.symbolic.primitives import OperatorBinding
                return OperatorBinding(self, subexpr)

        return obj_array_vectorize(project_one, expr)

    mapper_method = intern("map_projection")
示例#39
0
class Assign(AssignBase):
    """
    .. attribute:: names
    .. attribute:: exprs
    .. attribute:: do_not_return

        a list of bools indicating whether the corresponding entry in names and
        exprs describes an expression that is not needed beyond this assignment

    .. attribute:: priority
    """
    def __init__(self, names, exprs, **kwargs):
        Instruction.__init__(self, names=names, exprs=exprs, **kwargs)

        if not hasattr(self, "do_not_return"):
            self.do_not_return = [False] * len(names)

    @memoize_method
    def flop_count(self):
        return sum(mappers.FlopCounter()(expr) for expr in self.exprs)

    def get_assignees(self):
        return set(self.names)

    @memoize_method
    def get_dependencies(self, each_vector=False):
        dep_mapper = _make_dep_mapper(include_subscripts=False)

        from operator import or_
        deps = reduce(or_, (dep_mapper(expr) for expr in self.exprs))

        from pymbolic.primitives import Variable
        deps -= set(Variable(name) for name in self.names)

        if not each_vector:
            self._dependencies = deps

        return deps

    mapper_method = intern("map_insn_assign")
示例#40
0
def memoize_on_first_arg(function, cache_dict_name=None):
    """Like :func:`memoize_method`, but for functions that take the object
    to do memoization as first argument.

    Supports cache deletion via ``function_name.clear_cache(self)``.

    .. note::
        *clear_cache* support requires Python 2.5 or newer.
    """

    if cache_dict_name is None:
        cache_dict_name = intern("_memoize_dic_"
                + function.__module__ + function.__name__)

    def wrapper(obj, *args, **kwargs):
        if kwargs:
            key = (_HasKwargs, frozenset(six.iteritems(kwargs))) + args
        else:
            key = args

        try:
            return getattr(obj, cache_dict_name)[key]
        except AttributeError:
            result = function(obj, *args, **kwargs)
            setattr(obj, cache_dict_name, {key: result})
            return result
        except KeyError:
            result = function(obj, *args, **kwargs)
            getattr(obj, cache_dict_name)[key] = result
            return result

    def clear_cache(obj):
        delattr(obj, cache_dict_name)

    if sys.version_info >= (2, 5):
        from functools import update_wrapper
        new_wrapper = update_wrapper(wrapper, function)
        new_wrapper.clear_cache = clear_cache

    return new_wrapper
示例#41
0
def memoize_on_first_arg(function, cache_dict_name=None):
    """Like :func:`memoize_method`, but for functions that take the object
    to do memoization as first argument.

    Supports cache deletion via ``function_name.clear_cache(self)``.

    .. note::
        *clear_cache* support requires Python 2.5 or newer.
    """

    if cache_dict_name is None:
        cache_dict_name = intern("_memoize_dic_"
                + function.__module__ + function.__name__)

    def wrapper(obj, *args, **kwargs):
        if kwargs:
            key = (_HasKwargs, frozenset(six.iteritems(kwargs))) + args
        else:
            key = args

        try:
            return getattr(obj, cache_dict_name)[key]
        except AttributeError:
            result = function(obj, *args, **kwargs)
            setattr(obj, cache_dict_name, {key: result})
            return result
        except KeyError:
            result = function(obj, *args, **kwargs)
            getattr(obj, cache_dict_name)[key] = result
            return result

    def clear_cache(obj):
        delattr(obj, cache_dict_name)

    if sys.version_info >= (2, 5):
        from functools import update_wrapper
        new_wrapper = update_wrapper(wrapper, function)
        new_wrapper.clear_cache = clear_cache

    return new_wrapper
示例#42
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def memoize_method_nested(inner):
    """Adds a cache to a function nested inside a method. The cache is attached
    to *memoize_cache_context* (if it exists) or *self* in the outer (method)
    namespace.

    Requires Python 2.5 or newer.
    """

    from warnings import warn
    warn("memoize_method_nested is deprecated. Use @memoize_in(self, 'identifier') "
            "instead", DeprecationWarning, stacklevel=2)

    from functools import wraps
    cache_dict_name = intern("_memoize_inner_dic_%s_%s_%d"
            % (inner.__name__, inner.__code__.co_filename,
                inner.__code__.co_firstlineno))

    from inspect import currentframe
    outer_frame = currentframe().f_back
    cache_context = outer_frame.f_locals.get("memoize_cache_context")
    if cache_context is None:
        cache_context = outer_frame.f_locals.get("self")

    try:
        cache_dict = getattr(cache_context, cache_dict_name)
    except AttributeError:
        cache_dict = {}
        setattr(cache_context, cache_dict_name, cache_dict)

    @wraps(inner)
    def new_inner(*args):
        try:
            return cache_dict[args]
        except KeyError:
            result = inner(*args)
            cache_dict[args] = result
            return result

    return new_inner
示例#43
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class FromDiscretizationScopedAssign(AssignBase):
    scope_indicator = "(discr)-"
    neglect_for_dofdesc_inference = True

    def __init__(self, name, **kwargs):
        super(FromDiscretizationScopedAssign, self).__init__(name=name,
                                                             **kwargs)

    @memoize_method
    def flop_count(self):
        return 0

    def get_assignees(self):
        return frozenset([self.name])

    def get_dependencies(self):
        return frozenset()

    def __str__(self):
        return "%s <-(from discr)" % self.name

    mapper_method = intern("map_insn_assign_from_discr_scoped")
示例#44
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class Product(_MultiChildExpression):
    """
    .. attribute:: children

        A :class:`tuple`.
    """

    def __mul__(self, other):
        if not is_valid_operand(other):
            return NotImplemented
        if isinstance(other, Product):
            return Product(self.children + other.children)
        if is_zero(other):
            return 0
        if is_zero(other-1):
            return self
        return Product(self.children + (other,))

    def __rmul__(self, other):
        if not is_constant(other):
            return NotImplemented
        if isinstance(other, Product):
            return Product(other.children + self.children)
        if is_zero(other):
            return 0
        if is_zero(other-1):
            return self
        return Product((other,) + self.children)

    def __bool__(self):
        for i in self.children:
            if is_zero(i):
                return False
        return True

    __nonzero__ = __bool__

    mapper_method = intern("map_product")
示例#45
0
class OppositePartitionFaceSwap(Operator):
    """
    .. attribute:: unique_id

        An integer corresponding to the :attr:`OppositeInteriorFaceSwap.unique_id`
        which led to the creation of this object. This integer is used as an
        MPI tag offset to keep different subexpressions apart in MPI traffic.
    """
    def __init__(self, dd_in=None, dd_out=None, unique_id=None):
        import grudge.symbolic.primitives as prim

        if dd_in is None and dd_out is None:
            raise ValueError("dd_in or dd_out must be specified")
        elif dd_in is None:
            dd_in = dd_out
        elif dd_out is None:
            dd_out = dd_in

        super(OppositePartitionFaceSwap, self).__init__(dd_in, dd_out)
        if not (isinstance(self.dd_in.domain_tag, prim.DTAG_BOUNDARY) and
                isinstance(self.dd_in.domain_tag.tag, prim.BTAG_PARTITION)):
            raise ValueError(
                "dd_in must be a partition boundary faces domain, not '%s'" %
                self.dd_in.domain_tag)
        if self.dd_out != self.dd_in:
            raise ValueError("dd_out and dd_in must be identical")

        self.i_remote_part = self.dd_in.domain_tag.tag.part_nr

        assert unique_id is None or isinstance(unique_id, int)
        self.unique_id = unique_id

    init_arg_names = ("dd_in", "dd_out", "unique_id")

    def __getinitargs__(self):
        return (self.dd_in, self.dd_out, self.unique_id)

    mapper_method = intern("map_opposite_partition_face_swap")
示例#46
0
class RankDataSwapAssign(Instruction):
    """
    .. attribute:: name
    .. attribute:: field
    .. attribute:: i_remote_rank

        The number of the remote rank that this instruction swaps data with.

    .. attribute:: dd_out
    .. attribute:: comment
    """
    # TODO: We need to be sure this does not conflict with some other tag.
    MPI_TAG_GRUDGE_DATA_BASE = 0x3700d3e

    def __init__(self, name, field, op):
        self.name = name
        self.field = field
        self.i_remote_rank = op.i_remote_part
        self.dd_out = op.dd_out
        self.send_tag = self.MPI_TAG_GRUDGE_DATA_BASE + op.unique_id
        self.recv_tag = self.MPI_TAG_GRUDGE_DATA_BASE + op.unique_id
        self.comment = "Swap data with rank %02d" % self.i_remote_rank

    @memoize_method
    def get_assignees(self):
        return set([self.name])

    @memoize_method
    def get_dependencies(self):
        return _make_dep_mapper(include_subscripts=False)(self.field)

    def __str__(self):
        return ("{\n" + "   /* %s */\n" % self.comment +
                "   send_tag = %s\n" % self.send_tag +
                "   recv_tag = %s\n" % self.recv_tag + "   %s <- %s\n" %
                (self.name, self.field) + "}")

    mapper_method = intern("map_insn_rank_data_swap")
示例#47
0
 def __init_bindata__(self):
     """The object has been setup with structural information in
        _der_packer and _recipe, as well as instance data in
        _bindata and _offset.  We now iterate over all the fields
        in the _recipe to replace some or all entries in _bindata
        with an ASN1Object subclass instance.
        The last step of this procedure is to self-register into
        _bindata [_offset], so as to support future _der_pack()
        calls.
     """
     if self._recipe[0] != '_NAMED':
         import sys
         sys.exit(1)
     assert self._recipe[0] == '_NAMED', 'ASN1ConstructedType instances must have a dictionary in their _recipe'
     (_NAMED, recp) = self._recipe
     self._fields = {}
     # Static recipe is generated from the ASN.1 grammar
     # Iterate over this recipe to form the instance data
     from quick_der import builder
     for (subfld, subrcp) in recp.items():
         if type(subfld) != str:
             raise Exception("ASN.1 recipe keys can only be strings")
         # Interned strings yield faster dictionary lookups
         # Field names in Python are always interned
         subfld = intern(subfld.replace('-', '_'))
         self._fields[subfld] = self._offset  # fallback
         subval = builder.build_asn1(self._context, subrcp, self._bindata, self._offset)
         if type(subval) == int:
             # Primitive: Index into _bindata; set in _fields
             self._fields[subfld] += subval
         elif subval.__class__ == ASN1Atom:
             # The following moved into __init_bindata__():
             # self._bindata [self._offset] = subval
             # Native types may be assigned instead of subval
             pass
             print('Not placing field {} subvalue :: {}'.format(subfld, type(subval)))
         elif isinstance(subval, ASN1Object):
             self._fields[subfld] = subval
示例#48
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    def add_expression_instruction(self, lhs, rhs):
        scope = self.scope_stack[-1]

        new_id = intern("insn%d" % self.insn_id_counter)
        self.insn_id_counter += 1

        if self.auto_dependencies and scope.previous_instruction_id:
            depends_on = frozenset([scope.previous_instruction_id])
        else:
            depends_on = frozenset()

        from loopy.kernel.data import Assignment
        insn = Assignment(
                lhs, rhs,
                within_inames=frozenset(
                    scope.active_loopy_inames),
                depends_on=depends_on,
                id=new_id,
                predicates=frozenset(self.conditions),
                tags=tuple(self.instruction_tags))

        scope.previous_instruction_id = new_id
        scope.instructions.append(insn)
示例#49
0
    def add_expression_instruction(self, lhs, rhs):
        scope = self.scope_stack[-1]

        new_id = intern("insn%d" % self.insn_id_counter)
        self.insn_id_counter += 1

        if self.auto_dependencies and scope.previous_instruction_id:
            insn_deps = frozenset([scope.previous_instruction_id])
        else:
            insn_deps = frozenset()

        from loopy.kernel.data import Assignment
        insn = Assignment(
                lhs, rhs,
                forced_iname_deps=frozenset(
                    scope.active_loopy_inames),
                insn_deps=insn_deps,
                id=new_id,
                predicates=frozenset(self.conditions),
                tags=tuple(self.instruction_tags))

        scope.previous_instruction_id = new_id
        scope.instructions.append(insn)
示例#50
0
class Call(AlgebraicLeaf):
    """A function invocation.

    .. attribute:: function

        A :class:`Expression` that evaluates to a function.

    .. attribute:: parameters

        A :class:`tuple` of positional parameters, each element
        of which is a :class:`Expression` or a constant.

    """

    init_arg_names = (
        "function",
        "parameters",
    )

    def __init__(self, function, parameters):
        self.function = function
        self.parameters = parameters

        try:
            arg_count = self.function.arg_count
        except AttributeError:
            pass
        else:
            if len(self.parameters) != arg_count:
                raise TypeError("%s called with wrong number of arguments "
                                "(need %d, got %d)" %
                                (self.function, arg_count, len(parameters)))

    def __getinitargs__(self):
        return self.function, self.parameters

    mapper_method = intern("map_call")
示例#51
0
文件: data.py 项目: navjotk/loopy
    def __init__(self, name, dtype=None, shape=(), is_local=auto,
            dim_tags=None, offset=0, dim_names=None, strides=None, order=None,
            base_indices=None, storage_shape=None,
            base_storage=None):
        """
        :arg dtype: :class:`loopy.auto` or a :class:`numpy.dtype`
        :arg shape: :class:`loopy.auto` or a shape tuple
        :arg base_indices: :class:`loopy.auto` or a tuple of base indices
        """

        if is_local is None:
            raise ValueError("is_local is None is no longer supported. "
                    "Use loopy.auto.")

        if base_indices is None:
            base_indices = (0,) * len(shape)

        ArrayBase.__init__(self, name=intern(name),
                dtype=dtype, shape=shape,
                dim_tags=dim_tags, offset=offset, dim_names=dim_names,
                order="C",
                base_indices=base_indices, is_local=is_local,
                storage_shape=storage_shape,
                base_storage=base_storage)
示例#52
0
        form = BulkPreapprovalsForm(pctx.course)

    return render_course_page(
        pctx, "course/generic-course-form.html", {
            "form": form,
            "form_description": _("Create Participation Preapprovals"),
        })


# }}}

# {{{ participation query parsing

# {{{ lexer data

_and = intern("and")
_or = intern("or")
_not = intern("not")
_openpar = intern("openpar")
_closepar = intern("closepar")

_id = intern("id")
_email = intern("email")
_email_contains = intern("email_contains")
_user = intern("user")
_user_contains = intern("user_contains")
_institutional_id = intern("institutional_id")
_institutional_id_contains = intern("institutional_id__contains")
_tagged = intern("tagged")
_role = intern("role")
_status = intern("status")
示例#53
0
文件: tools.py 项目: inducer/loopy
def intern_frozenset_of_ids(fs):
    return frozenset(intern(s) for s in fs)
示例#54
0
文件: tools.py 项目: inducer/loopy
def is_interned(s):
    return s is None or intern(s) is s
示例#55
0
def read(fp):
    """Deserialize an OOPS from an RFC822 format message."""
    msg = BytesParser().parse(fp, headersonly=True)
    id = msg.get('oops-id')
    exc_type = msg.get('exception-type')
    exc_value = msg.get('exception-value')
    datestr = msg.get('date')
    if datestr is not None:
        date = iso8601.parse_date(msg.get('date'))
    else:
        date = None
    topic = msg.get('topic')
    if topic is None:
        topic = msg.get('page-id')
    username = msg.get('user')
    url = msg.get('url')
    try:
        duration = float(msg.get('duration', '-1'))
    except ValueError:
        duration = float(-1)
    informational = msg.get('informational')
    branch_nick = msg.get('branch')
    revno = msg.get('revision')
    reporter = msg.get('oops-reporter')

    # Explicitly use an iterator so we can process the file sequentially.
    lines = iter(msg.get_payload().splitlines(True))

    statement_pat = re.compile(r'^(\d+)-(\d+)(?:@([\w-]+))?\s+(.*)')

    def is_req_var(line):
        return "=" in line and not statement_pat.match(line)

    def is_traceback(line):
        return line.lower().startswith('traceback') or line.startswith(
            '== EXTRA DATA ==')

    req_vars = []
    statements = []
    first_tb_line = ''
    for line in lines:
        first_tb_line = line
        line = line.strip()
        if line == '':
            continue
        else:
            match = statement_pat.match(line)
            if match is not None:
                start, end, db_id, statement = match.groups()
                if db_id is not None:
                    db_id = intern(db_id)  # This string is repeated lots.
                statements.append([int(start), int(end), db_id, statement])
            elif is_req_var(line):
                key, value = line.split('=', 1)
                req_vars.append([unquote(key), unquote(value)])
            elif is_traceback(line):
                break
    req_vars = dict(req_vars)

    # The rest is traceback.
    tb_text = ''.join([first_tb_line] + list(lines))

    result = dict(id=id,
                  type=exc_type,
                  value=exc_value,
                  time=date,
                  topic=topic,
                  tb_text=tb_text,
                  username=username,
                  url=url,
                  duration=duration,
                  req_vars=req_vars,
                  timeline=statements,
                  branch_nick=branch_nick,
                  revno=revno)
    if informational is not None:
        result['informational'] = informational
    if reporter is not None:
        result['reporter'] = reporter
    return result
示例#56
0
def expand_attribute_strings(attribute_strings,
                             quote_char='\"',
                             missing_value=""):
    """
    The last column of GTF has a variable number of key value pairs
    of the format: "key1 value1; key2 value2;"
    Parse these into a dictionary mapping each key onto a list of values,
    where the value is None for any row where the key was missing.

    Parameters
    ----------
    attribute_strings : list of str

    quote_char : str
        Quote character to remove from values

    missing_value : any
        If an attribute is missing from a row, give it this value.

    Returns OrderedDict of column->value list mappings, in the order they
    appeared in the attribute strings.
    """
    logging.debug("Memory usage before expanding GTF attributes: %0.4f MB" %
                  (memory_usage(), ))
    n = len(attribute_strings)

    extra_columns = {}
    column_order = []

    # Split the semi-colon separated attributes in the last column of a GTF
    # into a list of (key, value) pairs.
    kv_generator = (
        # We're slicing the first two elements out of split() because
        # Ensembl release 79 added values like:
        #   transcript_support_level "1 (assigned to previous version 5)";
        # ...which gets mangled by splitting on spaces.
        #
        # TODO: implement a proper parser!
        (i, kv.strip().split(" ", 2)[:2])
        for (i, attribute_string) in enumerate(attribute_strings)
        for kv in attribute_string.split(";")
        # need at least 3 chars for minimal entry like 'k v'
        if len(kv) > 2 and " " in kv)

    #
    # SOME NOTES ABOUT THE BIZARRE STRING INTERNING GOING ON BELOW
    #
    # While parsing millions of repeated strings (e.g. "gene_id" and "TP53"),
    # we can save a lot of memory by making sure there's only one string
    # object per unique string. The canonical way to do this is using
    # the 'intern' function. One problem is that Py2 won't let you intern
    # unicode objects, so to get around this we call intern(str(...)).
    #
    # It also turns out to be faster to check interned strings ourselves
    # using a local dictionary, hence the two dictionaries below
    # and pair of try/except blocks in the loop.
    column_interned_strings = {}
    value_interned_strings = {}

    for i, (column_name, value) in kv_generator:
        try:
            column_name = column_interned_strings[column_name]
            column = extra_columns[column_name]
        except KeyError:
            column_name = intern(str(column_name))
            column_interned_strings[column_name] = column_name
            column = [missing_value] * n
            extra_columns[column_name] = column
            column_order.append(column_name)

        value = value.replace(quote_char, "") if quote_char in value else value

        try:
            value = value_interned_strings[value]
        except KeyError:
            value = intern(str(value))
            value_interned_strings[value] = value

        column[i] = value

    logging.debug("Memory usage after expanding GTF attributes: %0.4f MB" %
                  (memory_usage(), ))
    logging.info("Extracted GTF attributes: %s" % column_order)
    return OrderedDict((column_name, extra_columns[column_name])
                       for column_name in column_order)
示例#57
0
 def all_inames(self):
     result = set()
     for dom in self.domains:
         result.update(
                 intern(n) for n in dom.get_var_names(dim_type.set))
     return frozenset(result)
示例#58
0
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#    http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
# implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import weakref
from six.moves import intern

dict_name = intern('_internable_dict')


#
# Internable
#
class Internable(object):
    """Class that allows instances to be 'interned'. That is, given an
    instance of this class, one can obtain a canonical (interned)
    copy.

    This saves memory when there are likely to be many identical
    instances of the class -- users hold references to a single
    interned object instead of references to different objects that
    are identical.
示例#59
0
class Reduction(Expression):
    """Represents a reduction operation on :attr:`expr`
    across :attr:`inames`.

    .. attribute:: operation

        an instance of :class:`loopy.library.reduction.ReductionOperation`

    .. attribute:: inames

        a list of inames across which reduction on :attr:`expr` is being
        carried out.

    .. attribute:: expr

        The expression (as a :class:`pymbolic.primitives.Expression`)
        on which reduction is performed.

    .. attribute:: allow_simultaneous

        A :class:`bool`. If not *True*, an iname is allowed to be used
        in precisely one reduction, to avoid mis-nesting errors.
    """

    init_arg_names = ("operation", "inames", "expr", "allow_simultaneous")

    def __init__(self, operation, inames, expr, allow_simultaneous=False):
        if isinstance(inames, str):
            inames = tuple(iname.strip() for iname in inames.split(","))

        elif isinstance(inames, Variable):
            inames = (inames,)

        assert isinstance(inames, tuple)

        def strip_var(iname):
            if isinstance(iname, Variable):
                iname = iname.name

            assert isinstance(iname, str)
            return iname

        inames = tuple(strip_var(iname) for iname in inames)

        if isinstance(operation, str):
            from loopy.library.reduction import parse_reduction_op
            operation = parse_reduction_op(operation)

        from loopy.library.reduction import ReductionOperation
        assert isinstance(operation, ReductionOperation)

        self.operation = operation
        self.inames = inames
        self.expr = expr
        self.allow_simultaneous = allow_simultaneous

    def __getinitargs__(self):
        return (self.operation, self.inames, self.expr, self.allow_simultaneous)

    def get_hash(self):
        return hash((self.__class__, self.operation, self.inames,
            self.expr))

    def is_equal(self, other):
        return (other.__class__ == self.__class__
                and other.operation == self.operation
                and other.inames == self.inames
                and other.expr == self.expr)

    def stringifier(self):
        return StringifyMapper

    @property
    @memoize_method
    def inames_set(self):
        return set(self.inames)

    mapper_method = intern("map_reduction")
示例#60
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            operation = parse_reduction_op(name)
            if operation:
                if len(expr.parameters) != 2:
                    raise RuntimeError("invalid invocation of "
                            "reduction operation '%s'" % expr.function.name)

                inames, red_expr = expr.parameters
                return self._parse_reduction(operation, inames, self.rec(red_expr))

            else:
                return IdentityMapper.map_call(self, expr)


# {{{ customization to pymbolic parser

_open_dbl_bracket = intern("open_dbl_bracket")

TRAILING_FLOAT_TAG_RE = re.compile("^(.*?)([a-zA-Z]*)$")


class LoopyParser(ParserBase):
    lex_table = [
            (_open_dbl_bracket, pytools.lex.RE(r"\[\[")),
            ] + ParserBase.lex_table

    def parse_float(self, s):
        match = TRAILING_FLOAT_TAG_RE.match(s)

        val = match.group(1)
        tag = frozenset(match.group(2))
        if tag == frozenset("j"):