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import math
import matplotlib.units as units
import matplotlib.ticker as ticker
import matplotlib.numerix as nx
from matplotlib.axes import Axes
from matplotlib.cbook import iterable
class ProxyDelegate(object):
def __init__(self, fn_name, proxy_type):
self.proxy_type = proxy_type
self.fn_name = fn_name
def __get__(self, obj, objtype=None):
return self.proxy_type(self.fn_name, obj)
class TaggedValueMeta (type):
def __init__(cls, name, bases, dict):
for fn_name in cls._proxies.keys():
try:
dummy = getattr(cls, fn_name)
except AttributeError:
setattr(cls, fn_name, ProxyDelegate(fn_name, cls._proxies[fn_name]))
class PassThroughProxy(object):
def __init__(self, fn_name, obj):
self.fn_name = fn_name
self.target = obj.proxy_target
def __call__(self, *args):
#print 'passthrough', self.target, self.fn_name
fn = getattr(self.target, self.fn_name)
ret = fn(*args)
return ret
class ConvertArgsProxy(PassThroughProxy):
def __init__(self, fn_name, obj):
PassThroughProxy.__init__(self, fn_name, obj)
self.unit = obj.unit
def __call__(self, *args):
converted_args = []
for a in args:
try:
converted_args.append(a.convert_to(self.unit))
except AttributeError:
converted_args.append(TaggedValue(a, self.unit))
converted_args = tuple([c.get_value() for c in converted_args])
return PassThroughProxy.__call__(self, *converted_args)
class ConvertReturnProxy(PassThroughProxy):
def __init__(self, fn_name, obj):
PassThroughProxy.__init__(self, fn_name, obj)
self.unit = obj.unit
def __call__(self, *args):
ret = PassThroughProxy.__call__(self, *args)
if (type(ret) == type(NotImplemented)):
return NotImplemented
return TaggedValue(ret, self.unit)
class ConvertAllProxy(PassThroughProxy):
def __init__(self, fn_name, obj):
PassThroughProxy.__init__(self, fn_name, obj)
self.unit = obj.unit
def __call__(self, *args):
converted_args = []
arg_units = [self.unit]
for a in args:
if hasattr(a, 'get_unit') and not hasattr(a, 'convert_to'):
# if this arg has a unit type but no conversion ability,
# this operation is prohibited
return NotImplemented
if hasattr(a, 'convert_to'):
try:
a = a.convert_to(self.unit)
except:
pass
arg_units.append(a.get_unit())
converted_args.append(a.get_value())
else:
converted_args.append(a)
if hasattr(a, 'get_unit'):
arg_units.append(a.get_unit())
else:
arg_units.append(None)
converted_args = tuple(converted_args)
ret = PassThroughProxy.__call__(self, *converted_args)
if (type(ret) == type(NotImplemented)):
return NotImplemented
ret_unit = unit_resolver(self.fn_name, arg_units)
if (ret_unit == NotImplemented):
return NotImplemented
return TaggedValue(ret, ret_unit)
class TaggedValue (object):
__metaclass__ = TaggedValueMeta
_proxies = {'__add__':ConvertAllProxy,
'__sub__':ConvertAllProxy,
'__mul__':ConvertAllProxy,
'__rmul__':ConvertAllProxy,
'__len__':PassThroughProxy}
def __new__(cls, value, unit):
# generate a new subclass for value
value_class = type(value)
try:
subcls = type('TaggedValue_of_%s' % (value_class.__name__),
tuple([cls, value_class]),
{})
if subcls not in units.registry:
units.registry[subcls] = basicConverter
return object.__new__(subcls, value, unit)
except TypeError:
if cls not in units.registry:
units.registry[cls] = basicConverter
return object.__new__(cls, value, unit)
def __init__(self, value, unit):
self.value = value
self.unit = unit
self.proxy_target = self.value
def get_compressed_copy(self, mask):
compressed_value = nx.ma.masked_array(self.value, mask=mask).compressed()
return TaggedValue(compressed_value, self.unit)
def __getattribute__(self, name):
if (name.startswith('__')):
return object.__getattribute__(self, name)
variable = object.__getattribute__(self, 'value')
if (hasattr(variable, name) and name not in self.__class__.__dict__):
return getattr(variable, name)
return object.__getattribute__(self, name)
def __array__(self, t = None, context = None):
if t is not None:
return nx.asarray(self.value).astype(t)
else:
return nx.asarray(self.value, 'O')
def __array_wrap__(self, array, context):
return TaggedValue(array, self.unit)
def __repr__(self):
return 'TaggedValue(' + repr(self.value) + ', ' + repr(self.unit) + ')'
def __str__(self):
return str(self.value) + ' in ' + str(self.unit)
def __iter__(self):
class IteratorProxy(object):
def __init__(self, iter, unit):
self.iter = iter
self.unit = unit
def next(self):
value = self.iter.next()
return TaggedValue(value, self.unit)
return IteratorProxy(iter(self.value), self.unit)
def get_compressed_copy(self, mask):
new_value = nx.ma.masked_array(self.value, mask=mask).compressed()
return TaggedValue(new_value, self.unit)
def convert_to(self, unit):
#print 'convert to', unit, self.unit
if (unit == self.unit or not unit):
return self
new_value = self.unit.convert_value_to(self.value, unit)
return TaggedValue(new_value, unit)
def get_value(self):
return self.value
def get_unit(self):
return self.unit
class BasicUnit(object):
def __init__(self, name, fullname=None):
self.name = name
if fullname is None: fullname = name
self.fullname = fullname
self.conversions = dict()
def __repr__(self):
return 'BasicUnit(%s)'%self.name
def __str__(self):
return self.fullname
def __call__(self, value):
return TaggedValue(value, self)
def __mul__(self, rhs):
value = rhs
unit = self
if hasattr(rhs, 'get_unit'):
value = rhs.get_value()
unit = rhs.get_unit()
unit = unit_resolver('__mul__', (self, unit))
if (unit == NotImplemented):
return NotImplemented
return TaggedValue(value, unit)
def __rmul__(self, lhs):
return self*lhs
def __array_wrap__(self, array, context):
return TaggedValue(array, self)
def __array__(self, t=None, context=None):
ret = nx.array([1])
if t is not None:
return ret.astype(t)
else:
return ret
def add_conversion_factor(self, unit, factor):
def convert(x):
return x*factor
self.conversions[unit] = convert
def add_conversion_fn(self, unit, fn):
self.conversions[unit] = fn
def get_conversion_fn(self, unit):
return self.conversions[unit]
def convert_value_to(self, value, unit):
#print 'convert value to: value ="%s", unit="%s"'%(value, type(unit)), self.conversions
conversion_fn = self.conversions[unit]
ret = conversion_fn(value)
return ret
def get_unit(self):
return self
class UnitResolver(object):
def addition_rule(self, units):
for unit_1, unit_2 in zip(units[:-1], units[1:]):
if (unit_1 != unit_2):
return NotImplemented
return units[0]
def multiplication_rule(self, units):
non_null = [u for u in units if u]
if (len(non_null) > 1):
return NotImplemented
return non_null[0]
op_dict = {
'__mul__':multiplication_rule,
'__rmul__':multiplication_rule,
'__add__':addition_rule,
'__radd__':addition_rule,
'__sub__':addition_rule,
'__rsub__':addition_rule,
}
def __call__(self, operation, units):
if (operation not in self.op_dict):
return NotImplemented
return self.op_dict[operation](self, units)
unit_resolver = UnitResolver()
cm = BasicUnit('cm', 'centimeters')
inch = BasicUnit('inch', 'inches')
inch.add_conversion_factor(cm, 2.54)
cm.add_conversion_factor(inch, 1/2.54)
radians = BasicUnit('rad', 'radians')
degrees = BasicUnit('deg', 'degrees')
radians.add_conversion_factor(degrees, 180.0/nx.pi)
degrees.add_conversion_factor(radians, nx.pi/180.0)
secs = BasicUnit('s', 'seconds')
hertz = BasicUnit('Hz', 'Hertz')
minutes = BasicUnit('min', 'minutes')
secs.add_conversion_fn(hertz, lambda x:1./x)
secs.add_conversion_factor(minutes, 1/60.0)
# radians formatting
def rad_fn(x,pos=None):
n = int((x / nx.pi) * 2.0 + 0.25)
if n == 0:
return '0'
elif n == 1:
return r'$\pi/2$'
elif n == 2:
return r'$\pi$'
elif n % 2 == 0:
return r'$%s\pi$' % (n/2,)
else:
return r'$%s\pi/2$' % (n,)
class BasicUnitConverter(units.ConversionInterface):
def axisinfo(unit):
'return AxisInfo instance for x and unit'
if unit==radians:
return units.AxisInfo(
majloc=ticker.MultipleLocator(base=nx.pi/2),
majfmt=ticker.FuncFormatter(rad_fn),
label=unit.fullname,
)
elif unit==degrees:
return units.AxisInfo(
majloc=ticker.AutoLocator(),
majfmt=ticker.FormatStrFormatter(r'$%i^\circ$'),
label=unit.fullname,
)
elif unit is not None:
if hasattr(unit, 'fullname'):
return units.AxisInfo(label=unit.fullname)
elif hasattr(unit, 'unit'):
return units.AxisInfo(label=unit.unit.fullname)
return None
axisinfo = staticmethod(axisinfo)
def convert(val, unit):
if units.ConversionInterface.is_numlike(val):
return val
#print 'convert checking iterable'
if iterable(val):
return [thisval.convert_to(unit).get_value() for thisval in val]
else:
return val.convert_to(unit).get_value()
convert = staticmethod(convert)
def default_units(x):
'return the default unit for x or None'
if iterable(x):
for thisx in x:
return thisx.unit
return x.unit
default_units = staticmethod(default_units)
def cos( x ):
if ( iterable(x) ):
result = []
for val in x:
result.append( math.cos( val.convert_to( radians ).get_value() ) )
return result
else:
return math.cos( x.convert_to( radians ).get_value() )
basicConverter = BasicUnitConverter()
units.registry[BasicUnit] = basicConverter
units.registry[TaggedValue] = basicConverter
|
