# python math expressions to latex, verbatim (no reordering, factoring, etc.)

I have input of a whole lot of math expressions and equations, and I'd like to print out latex representation for each on them. So far I have tried Sage and sympy, but the tricky part is to not-reorder terms in expressions.

So, if my input is this, something that can be eval-ed in python:

(C - A*x) / B


I want output that will be something like this:

\frac{C - A x}{B}


What I don't want is something like this:

\frac{-(A x - C)}{B}
\frac{1}{B}(C - A x)
etc...


Can this be achieved? I'm slowly losing hope...

EDIT:

The input expressions are diverse, some containing square roots, nested parentheses, exponents etc. Looking for a generic solution.

Here is what doesn't work so far:

1) Sage:

sage: var('A B C x y')
(A, B, C, x, y)
sage: latex(y == (C - A*x) / B)
y = -\frac{A x - C}{B}


2) sympy:

>>> from sympy import *
>>> x = Symbol('x')
>>> A = Symbol('A')
>>> B = Symbol('B')
>>> C = Symbol('C')
>>> latex((C - A*x) / B)
'\\frac{1}{B} \\left(- A x + C\\right)'

-
may you supply some code that gives you undesired output? –  alko Oct 30 '13 at 21:27
@alko I've edited the question to include examples with Sage and sympy –  frnhr Oct 30 '13 at 21:59

\You can do this by creating Symbol and Operator classes that implement the standard python data model (http://docs.python.org/2/reference/datamodel.html). This will keep things in the same order of python operator precedence, although you can rearrange via parens:

class Symbol(object):
def __init__(self, name):
self._name = name

def __str__(self):
return str(self._name)

def __div__(self, other):
return Div(self, other)

def __mul__(self, other):
return Mult(self, other)

def __sub__(self, other):
return Sub(self, other)

def __rdiv__(self, other):
return Div(other, self)

def __rmul__(self, other):
return Mult(other, self)

def __rsub__(self, other):
return Sub(other, self)

class Operation(Symbol):
def __init__(self, a, b, op):
self._a = a
self._b = b
self._op = op

def __str__(self):
return self._op.format(self._a, self._b)

precedence = 0

def __init__(self, a, b):
super(Add, self).__init__(a, b, "{0} + {1}")

class Sub(Operation):
precedence = 0
def __init__(self, a, b):
super(Sub, self).__init__(a, b, "{0} - {1}")

class Mult(Operation):
precedence = 1
def __init__(self, a, b):
if isinstance(a, Operation) and a.precedence < Mult.precedence:
a_form = "({0})"
else:
a_form = "{0}"
if isinstance(b, Operation) and b.precedence < Mult.precedence:
b_form = "({1})"
else:
b_form = "{1}"
super(Mult, self).__init__(a, b, a_form + " " + b_form)

class Div(Operation):
precedence = 1
def __init__(self, a, b):
super(Div, self).__init__(a, b, "\\frac{{{0}}}{{{1}}}")

A = Symbol('A')
B = Symbol('B')
C = Symbol('C')
x = Symbol('x')


Then:

>>> print (C - A * x) / (B)
\frac{C - A x}{B}
>>> print (C * (A + B))
C (A + B)
>>> print (C * (A + B + A + B + C + x))
C (A + B + A + B + C + x)

-
This won't preserve parentheses in something like x * (y+z). –  jwodder Oct 30 '13 at 21:27
True. This is a quick-and-dirty example of the data model. To preserve parentheses, you would need to maintain more data in your combination methods to handle order-of-operations. –  John Spong Oct 30 '13 at 21:32
Edited to maintain operator precedence –  John Spong Oct 30 '13 at 21:46
@JohnSpong This looks nice, but it seems to be too specific - I'm looking for a general solution that will support a vide range of math expressions (exponents, roots, nested stuff etc.) –  frnhr Oct 30 '13 at 21:54
Depending on your use case, you'll either need to go this route, or accept the argument re-ordering of a third-party library. docs.python.org/2/reference/… should provide almost all of that stuff, and the precedence mechanism should already be half-way there. –  John Spong Oct 30 '13 at 21:59
Short of writing your own parser, I believe the only real way to do this is to use python's built-in compile() function and process the returned abstract syntax tree.