PhysicalQInteractive.py
88 lines
| 3.3 KiB
| text/x-python
|
PythonLexer
fperez
|
r0 | # -*- coding: utf-8 -*- | ||
| """Modify the PhysicalQuantities class for more convenient interactive use. | ||||
| Also redefine some math functions to operate on PhysQties with no need for | ||||
| special method syntax. This just means moving them out to the global | ||||
| namespace. | ||||
| This module should always be loaded *after* math or Numeric, so it can | ||||
| overwrite math functions with the versions that handle units.""" | ||||
| #***************************************************************************** | ||||
| # Copyright (C) 2001-2004 Fernando Perez <fperez@colorado.edu> | ||||
| # | ||||
| # Distributed under the terms of the BSD License. The full license is in | ||||
| # the file COPYING, distributed as part of this software. | ||||
| #***************************************************************************** | ||||
| from IPython import Release | ||||
| __author__ = '%s <%s>' % Release.authors['Fernando'] | ||||
| __license__ = Release.license | ||||
| from Scientific.Physics.PhysicalQuantities import PhysicalQuantity | ||||
| # This code can be set up to work with Numeric or with math for providing the | ||||
| # mathematical functions. Uncomment the one you prefer to use below. | ||||
| # If you use math, sin(x) won't work for x an array, only float or PhysQty | ||||
| import math | ||||
| # If you use Numeric, sin(x) works for x a float, PhysQty an array. | ||||
| #import Numeric as math | ||||
| class PhysicalQuantityFunction: | ||||
| """Generic function wrapper for PhysicalQuantity instances. | ||||
| Calls functions from either the math library or the instance's methods as | ||||
| required. Allows using sin(theta) or sqrt(v**2) syntax irrespective of | ||||
| whether theta is a pure number or a PhysicalQuantity. | ||||
| This is *slow*. It's meant for convenient interactive use, not for | ||||
| speed.""" | ||||
| def __init__(self,name): | ||||
| self.name = name | ||||
| def __call__(self,x): | ||||
| if isinstance(x,PhysicalQuantity): | ||||
| return PhysicalQuantity.__dict__[self.name](x) | ||||
| else: | ||||
| return math.__dict__[self.name](x) | ||||
| class PhysicalQuantityInteractive(PhysicalQuantity): | ||||
| """Physical quantity with units - modified for Interactive use. | ||||
| Basically, the __str__ and __repr__ methods have been swapped for more | ||||
| convenient interactive use. Powers are shown as ^ instead of ** and only 4 | ||||
| significant figures are shown. | ||||
| Also adds the following aliases for commonly used methods: | ||||
| b = PhysicalQuantity.inBaseUnits | ||||
| u = PhysicalQuantity.inUnitsOf | ||||
| These are useful when doing a lot of interactive calculations. | ||||
| """ | ||||
| # shorthands for the most useful unit conversions | ||||
| b = PhysicalQuantity.inBaseUnits # so you can just type x.b to get base units | ||||
| u = PhysicalQuantity.inUnitsOf | ||||
| # This can be done, but it can get dangerous when coupled with IPython's | ||||
| # auto-calling. Everything ends up shown in baseunits and things like x*2 | ||||
| # get automatically converted to k(*2), which doesn't work. | ||||
| # Probably not a good idea in general... | ||||
| #__call__ = b | ||||
| def __str__(self): | ||||
| return PhysicalQuantity.__repr__(self) | ||||
| def __repr__(self): | ||||
| value = '%.4G' % self.value | ||||
| units = self.unit.name().replace('**','^') | ||||
| return value + ' ' + units | ||||
| # implement the methods defined in PhysicalQuantity as PhysicalQuantityFunctions | ||||
| sin = PhysicalQuantityFunction('sin') | ||||
| cos = PhysicalQuantityFunction('cos') | ||||
| tan = PhysicalQuantityFunction('tan') | ||||
| sqrt = PhysicalQuantityFunction('sqrt') | ||||