Exemplo n.º 1
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 def wrapper(*args, memory_pool=None):
     if arity is not Ellipsis and len(args) != arity:
         raise TypeError(
             f"{func_name} takes {arity} positional argument(s), "
             f"but {len(args)} were given")
     if args and isinstance(args[0], Expression):
         return Expression._call(func_name, list(args))
     return func.call(args, None, memory_pool)
Exemplo n.º 2
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def field(*name_or_index):
    """Reference a column of the dataset.

    Stores only the field's name. Type and other information is known only when
    the expression is bound to a dataset having an explicit scheme.

    Nested references are allowed by passing multiple names or a tuple of
    names. For example ``('foo', 'bar')`` references the field named "bar"
    inside the field named "foo".

    Parameters
    ----------
    *name_or_index : string, multiple strings, tuple or int
        The name or index of the (possibly nested) field the expression
        references to.

    Returns
    -------
    field_expr : Expression

    Examples
    --------
    >>> import pyarrow.compute as pc
    >>> pc.field("a")
    <pyarrow.compute.Expression a>
    >>> pc.field(1)
    <pyarrow.compute.Expression FieldPath(1)>
    >>> pc.field(("a", "b"))
    <pyarrow.compute.Expression FieldRef.Nested(FieldRef.Name(a) ...
    >>> pc.field("a", "b")
    <pyarrow.compute.Expression FieldRef.Nested(FieldRef.Name(a) ...
    """
    n = len(name_or_index)
    if n == 1:
        if isinstance(name_or_index[0], (str, int)):
            return Expression._field(name_or_index[0])
        elif isinstance(name_or_index[0], tuple):
            return Expression._nested_field(name_or_index[0])
        else:
            raise TypeError(
                "field reference should be str, multiple str, tuple or "
                f"integer, got {type(name_or_index[0])}")
    # In case of multiple strings not supplied in a tuple
    else:
        return Expression._nested_field(name_or_index)
Exemplo n.º 3
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def scalar(value):
    """Expression representing a scalar value.

    Parameters
    ----------
    value : bool, int, float or string
        Python value of the scalar. Note that only a subset of types are
        currently supported.

    Returns
    -------
    scalar_expr : Expression
    """
    return Expression._scalar(value)
Exemplo n.º 4
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 def wrapper(*args, memory_pool=None, options=None, **kwargs):
     if arity is not Ellipsis:
         if len(args) < arity:
             raise TypeError(
                 f"{func_name} takes {arity} positional argument(s), "
                 f"but {len(args)} were given")
         option_args = args[arity:]
         args = args[:arity]
     else:
         option_args = ()
     options = _handle_options(func_name, options_class, options,
                               option_args, kwargs)
     if args and isinstance(args[0], Expression):
         return Expression._call(func_name, list(args), options)
     return func.call(args, options, memory_pool)
Exemplo n.º 5
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def field(name):
    """Reference a named column of the dataset.

    Stores only the field's name. Type and other information is known only when
    the expression is bound to a dataset having an explicit scheme.

    Parameters
    ----------
    name : string
        The name of the field the expression references to.

    Returns
    -------
    field_expr : Expression
    """
    return Expression._field(name)