Mapytex/pymath/calculus/render.py
2016-02-13 06:48:23 +03:00

97 lines
2.7 KiB
Python

#!/usr/bin/env python
# encoding: utf-8
from .generic import Stack,isOperator
__all__ = ['txt', 'tex', 'p2i']
class Render(object):
""" Create functions which know how to render postfix tokens lists """
def __init__(self, render):
"""Initiate the render
:param render: function which take an operator and return a function to render the operator with his operands
"""
self.render = render
def __call__(self, postfix_tokens):
"""Make the object acting like a function
:param postfix_tokens: the list of postfix tokens to be render
:returns: the render string
"""
operandeStack = Stack()
for token in postfix_tokens:
if isOperator(token):
if token.arity == 1:
op1 = operandeStack.pop()
operandeStack.push(self.render(token)(op1))
elif token.arity == 2:
op1 = operandeStack.pop()
op2 = operandeStack.pop()
# Switch op1 and op2 to respect order
operandeStack.push(self.render(token)(op2, op1))
else:
operandeStack.push(self.render(token)())
if len(operandeStack) > 1:
raise ValueError("This postfix_tokens is not a valid expression")
else:
return operandeStack.pop()
def txt_render(token):
def render(*args):
try:
return getattr(token, '__txt__')(*args)
except AttributeError:
return str(token)
return render
txt = Render(txt_render)
def tex_render(token):
def render(*args):
try:
return getattr(token, '__tex__')(*args)
except AttributeError:
return str(token)
return render
tex = Render(tex_render)
def p2i_render(token):
def render(*args):
try:
return getattr(token, '__p2i__')(*args)
except AttributeError:
return token
return render
p2i = Render(p2i_render)
if __name__ == '__main__':
from .operator import op
from itertools import permutations
from pymath import Polynom
from pymath import Expression
from pymath import Fraction
coefs_p = [[(i-2),(j-2)] for i,j in permutations(range(5),2)]
coefs_q = [[2*(i-2),2*(j-2)] for i,j in permutations(range(5),2)]
l_p = [Polynom(i) for i in coefs_p]
l_q = [Fraction(i,j) for i,j in coefs_q if j!=0]
operations = [Expression([l_p[i],l_q[j],op.mul]) for i,j in permutations(range(len(l_q)),2)]
for i in operations:
print(i)
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