I've been looking for a way to deal with vectors in python and havent found a solution here or in the documentation that completely fits me.
This is what I've come up with so far for a vector class:
class vec(tuple): def __add__(self, y): if len(self)!=len(y): raise TypeError else: ret= for i,entry in enumerate(self): ret.append(entry+y[i]) return vec(ret) def __mul__(self, y): t=y.__class__ if t == int or t==float: #scalar multiplication ret= for entry in self: ret.append(y*entry) return vec(ret) elif t== list or t==tuple or t==vec: # dot product if len(y)!=len(self): print 'vecs dimensions dont fit' raise TypeError else: ret=0 for i,entry in enumerate(self): ret+=entry*y[i] return ret
Theres a little bit more, left out to keep things short. So far everythings working fine but I have lots of tiny specific questions (and will probably post more as they come up):
- Are there base classes for the numeric and sequence-types and how can I address them?
- How can I make all of this more Python-y? I want to learn how to write good Python code, so if you find something that's inefficient or just ugly, please tell me.
- What about precision? As python seems to cast from integers to floats only if necessary, input and output are usually of the same type. So there might be problems with very large or small numbers, but I don't really need those currently. Should I generally worry about precision or does python do that for me? Would it be better to convert to the largest possible type automatically? Which one is that? What happens beyond that?
I want to use n-dimensional vectors in a project involving lots of vectorial equations and functions and I'd like to be able to use the usual notation that's used in math textbooks. As you can see this inherits from tuple (for easy construction, immutability and indexing) and most built in functions are overwritten in order to use the (+,-,*,..)- operators. They only work if the left operand is a vec (can I change that?). Multiplication includes dot- and scalar product, pow is also used for the cross-product if both vecs are 3D.
def testVec(): rnd=random.Random() for i in range(0,10000): a=utils.vec((rnd.random(),rnd.random(),rnd.random())) ### functions to test a*(a*a) ### def testNumpy(): rnd=random.Random() for i in range(0,10000): a=np.array((rnd.random(),rnd.random(),rnd.random())) ### a.dot(a)*a ### cProfile.run('testNumpy()')
-> 50009 function calls in 0.135 seconds
-> 100009 function calls in 0.064 seconds