Exemple #1
0
def _get_unit_data_from_expr(unit_expr, unit_symbol_lut):
    """
    Grabs the total base_value and dimensions from a valid unit expression.

    Parameters
    ----------
    unit_expr: Unit object, or sympy Expr object
        The expression containing unit symbols.
    unit_symbol_lut: dict
        Provides the unit data for each valid unit symbol.

    """
    # The simplest case first
    if isinstance(unit_expr, Unit):
        return (unit_expr.base_value, unit_expr.dimensions)

    # Now for the sympy possibilities
    if isinstance(unit_expr, Symbol):
        return _lookup_unit_symbol(str(unit_expr), unit_symbol_lut)

    if isinstance(unit_expr, Number):
        return (float(unit_expr), sympy_one)

    if isinstance(unit_expr, Pow):
        unit_data = _get_unit_data_from_expr(unit_expr.args[0],
                                             unit_symbol_lut)
        power = unit_expr.args[1]
        if isinstance(power, Symbol):
            raise UnitParseError("Invalid unit expression '%s'." % unit_expr)
        conv = float(unit_data[0]**power)
        unit = unit_data[1]**power
        return (conv, unit)

    if isinstance(unit_expr, Mul):
        base_value = 1.0
        dimensions = 1
        for expr in unit_expr.args:
            unit_data = _get_unit_data_from_expr(expr, unit_symbol_lut)
            base_value *= unit_data[0]
            dimensions *= unit_data[1]

        return (float(base_value), dimensions)

    raise UnitParseError("Cannot parse for unit data from '%s'. Please supply" \
                         " an expression of only Unit, Symbol, Pow, and Mul" \
                         "objects." % str(unit_expr))
Exemple #2
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def validate_dimensions(dimensions):
    if isinstance(dimensions, Mul):
        for dim in dimensions.args:
            validate_dimensions(dim)
    elif isinstance(dimensions, Symbol):
        if dimensions not in base_dimensions:
            raise UnitParseError("Dimensionality expression contains an "
                                 "unknown symbol '%s'." % dimensions)
    elif isinstance(dimensions, Pow):
        if not isinstance(dimensions.args[1], Number):
            raise UnitParseError("Dimensionality expression '%s' contains a "
                                 "unit symbol as a power." % dimensions)
    elif isinstance(dimensions, (Add, Number)):
        if not isinstance(dimensions, One):
            raise UnitParseError("Only dimensions that are instances of Pow, "
                                 "Mul, or symbols in the base dimensions are "
                                 "allowed.  Got dimensions '%s'" % dimensions)
    elif not isinstance(dimensions, Basic):
        raise UnitParseError("Bad dimensionality expression '%s'." % dimensions)
Exemple #3
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def _lookup_unit_symbol(symbol_str, unit_symbol_lut):
    """
    Searches for the unit data tuple corresponding to the given symbol.

    Parameters
    ----------
    symbol_str : str
        The unit symbol to look up.
    unit_symbol_lut : dict
        Dictionary with symbols as keys and unit data tuples as values.

    """
    if symbol_str in unit_symbol_lut:
        # lookup successful, return the tuple directly
        return unit_symbol_lut[symbol_str]

    # could still be a known symbol with a prefix
    possible_prefix = symbol_str[0]
    if possible_prefix in unit_prefixes:
        # the first character could be a prefix, check the rest of the symbol
        symbol_wo_prefix = symbol_str[1:]

        unit_is_si_prefixable = (symbol_wo_prefix in unit_symbol_lut and
                                 symbol_wo_prefix in prefixable_units)

        if unit_is_si_prefixable is True:
            # lookup successful, it's a symbol with a prefix
            unit_data = unit_symbol_lut[symbol_wo_prefix]
            prefix_value = unit_prefixes[possible_prefix]

            if possible_prefix in latex_prefixes:
                latex_repr = symbol_str.replace(
                    possible_prefix, '{'+latex_prefixes[possible_prefix]+'}')
            else:
                # Need to add some special handling for comoving units
                # this is fine for now, but it wouldn't work for a general
                # unit that has an arbitrary LaTeX representation
                if symbol_wo_prefix != 'cm' and symbol_wo_prefix.endswith('cm'):
                    sub_symbol_wo_prefix = symbol_wo_prefix[:-2]
                    sub_symbol_str = symbol_str[:-2]
                else:
                    sub_symbol_wo_prefix = symbol_wo_prefix
                    sub_symbol_str = symbol_str
                latex_repr = unit_data[3].replace(
                    '{' + sub_symbol_wo_prefix + '}', '{' + sub_symbol_str + '}')

            # Leave offset and dimensions the same, but adjust scale factor and
            # LaTeX representation
            ret = (unit_data[0] * prefix_value, unit_data[1], unit_data[2],
                   latex_repr)

            unit_symbol_lut[symbol_str] = ret

            return ret

    # no dice
    if symbol_str.startswith('code_'):
        raise UnitParseError(
            "Code units have not been defined. \n"
            "Try creating the array or quantity using ds.arr or ds.quan instead.")
    else:
        raise UnitParseError("Could not find unit symbol '%s' in the provided " \
                             "symbols." % symbol_str)
Exemple #4
0
    def __new__(cls, unit_expr=sympy_one, base_value=None, base_offset=0.0,
                dimensions=None, registry=None, latex_repr=None, **assumptions):
        """
        Create a new unit. May be an atomic unit (like a gram) or combinations
        of atomic units (like g / cm**3).

        Parameters
        ----------
        unit_expr : Unit object, sympy.core.expr.Expr object, or str
            The symbolic unit expression.
        base_value : float
            The unit's value in yt's base units.
        base_offset : float
            The offset necessary to normalize temperature units to a common
            zero point.
        dimensions : sympy.core.expr.Expr
            A sympy expression representing the dimensionality of this unit.
            It must contain only mass, length, time, temperature and angle
            symbols.
        registry : UnitRegistry object
            The unit registry we use to interpret unit symbols.
        latex_repr : string
            A string to render the unit as LaTeX

        Additional keyword arguments are passed as assumptions to the Sympy Expr
        initializer

        """
        # Simplest case. If user passes a Unit object, just use the expr.
        unit_key = None
        if isinstance(unit_expr, (str, bytes, text_type)):
            if isinstance(unit_expr, bytes):
                unit_expr = unit_expr.decode("utf-8")

            if registry and unit_expr in registry.unit_objs:
                return registry.unit_objs[unit_expr]
            else:
                unit_key = unit_expr
                if not unit_expr:
                    # Bug catch...
                    # if unit_expr is an empty string, parse_expr fails hard...
                    unit_expr = "1"
                try:
                    unit_expr = parse_expr(unit_expr, global_dict=global_dict,
                                           transformations=unit_text_transform)
                except SyntaxError as e:
                    msg = ("Unit expression %s raised an error "
                           "during parsing:\n%s" % (unit_expr, repr(e)))
                    raise UnitParseError(msg)
        elif isinstance(unit_expr, Unit):
            # grab the unit object's sympy expression.
            unit_expr = unit_expr.expr
        # Make sure we have an Expr at this point.
        if not isinstance(unit_expr, Expr):
            raise UnitParseError("Unit representation must be a string or " \
                                 "sympy Expr. %s has type %s." \
                                 % (unit_expr, type(unit_expr)))

        if unit_expr == sympy_one and dimensions is None:
            dimensions = dimensionless

        if registry is None:
            # Caller did not set the registry, so use the default.
            registry = default_unit_registry

        # done with argument checking...

        # see if the unit is atomic.
        is_atomic = False
        if isinstance(unit_expr, Symbol):
            is_atomic = True

        #
        # check base_value and dimensions
        #

        if base_value is not None:
            # check that base_value is a float or can be converted to one
            try:
                base_value = float(base_value)
            except ValueError:
                raise UnitParseError("Could not use base_value as a float. " \
                                     "base_value is '%s' (type %s)." \
                                     % (base_value, type(base_value)) )

            # check that dimensions is valid
            if dimensions is not None:
                validate_dimensions(dimensions)
        else:
            # lookup the unit symbols
            unit_data = _get_unit_data_from_expr(unit_expr, registry.lut)
            base_value = unit_data[0]
            dimensions = unit_data[1]
            if len(unit_data) > 2:
                base_offset = unit_data[2]
                latex_repr = unit_data[3]
            else:
                base_offset = 0.0

        # Create obj with superclass construct.
        obj = Expr.__new__(cls, **assumptions)

        # Attach attributes to obj.
        obj.expr = unit_expr
        obj.is_atomic = is_atomic
        obj.base_value = base_value
        obj.base_offset = base_offset
        obj.dimensions = dimensions
        obj._latex_repr = latex_repr
        obj.registry = registry

        if unit_key is not None:
            registry.unit_objs[unit_key] = obj

        # Return `obj` so __init__ can handle it.

        return obj