Mapytex/pymath/fraction.py

#!/usr/bin/env python
# encoding: utf-8

from .arithmetic import gcd

class Fraction(object):
    """Fractions!"""

    def __init__(self, num, denom = 1):
        """To initiate a fraction we need a numerator and a denominator

        :param num: the numerator
        :param denom: the denominator

        """
        self._num = num
        self._denom = denom

    def simplify(self):
        """Simplify the fraction 

        :returns: steps to simplify the fraction or the fraction if there is nothing to do
        """
        steps = []

        if self._num == 0:
            steps.append(0)

            return steps

        if self._denom < 0:
            n_frac = Fraction(-self._num, -self._denom)
            steps.append(n_frac)

        gcd_ = gcd(abs(self._num), abs(self._denom))
        if self._num == self._denom:
            n_frac = Fraction(1,1)
            steps.append(n_frac)

        elif gcd_ != 1:
            n_frac = Fraction(self._num // gcd_ , self._denom // gcd_)
            #steps.append("( {reste1} * {gcd} ) / ( {reste2} * {gcd} )".format(reste1 = n_frac._num, reste2 = n_frac._denom, gcd = gcd_))
            steps.append([n_frac._num, gcd_, '*', n_frac._denom, gcd_, '*', '/' ])

            # Certainement le truc le plus moche que j'ai jamais fait... On ne met que des strings dans steps puis au dernier moment on met une fraction. C'est moche de ma part
            steps.append(n_frac)

        return steps

    def __str__(self):
        if self._denom == 1:
            return str(self._num)
        else:
            return str(self._num) + " / " + str(self._denom)

    def __repr__(self):
        return "< Fraction " + self.__str__() + ">"

    def __float__(self):
        return self._num / self._denom
    
    def __add__(self, other):
        if type(other) == Fraction:
            #cool
            number = other
        else:
            number = Fraction(other)

        steps = []

        if self._denom == number._denom:
            com_denom = self._denom
            num1 = self._num
            num2 = number._num

        else:
            gcd_denom = gcd(self._denom, number._denom)
            coef1 = number._denom // gcd_denom
            coef2 = self._denom // gcd_denom

            steps.append([self._num, coef1, "*", self._denom, coef1, "*", '/', number._num, coef2, "*", number._denom, coef2, "*", "/",'+']) 

            com_denom = self._denom * coef1
            num1 = self._num * coef1
            num2 = number._num * coef2

        steps.append([num1, num2, '+', com_denom, '/'])

        num = num1 + num2

        ans_frac = Fraction(num, com_denom)
        steps.append(ans_frac)
        steps += ans_frac.simplify()

        return steps

    def __radd__(self, other):
        if type(other) == Fraction:
            #cool
            number = other
        else:
            number = Fraction(other)

        steps = []

        if number._denom == self._denom:
            com_denom = number._denom
            num1 = number._num
            num2 = self._num

        else:
            gcd_denom = gcd(number._denom, self._denom)
            coef1 = self._denom // gcd_denom
            coef2 = number._denom // gcd_denom

            steps.append([number._num, coef1, "*", number._denom, coef1, "*", '/', self._num, coef2, "*", self._denom, coef2, "*", "/",'+']) 

            com_denom = number._denom * coef1
            num1 = number._num * coef1
            num2 = self._num * coef2

        steps.append([num1, num2, '+', com_denom, '/'])

        num = num1 + num2

        ans_frac = Fraction(num, com_denom)
        steps.append(ans_frac)
        steps += ans_frac.simplify()

        return steps


    def __sub__(self, other):
        if type(other) == Fraction:
            #cool
            number = other
        else:
            number = Fraction(other)

        steps = []

        if self._denom == number._denom:
            com_denom = self._denom
            num1 = self._num
            num2 = number._num

        else:
            gcd_denom = gcd(self._denom, number._denom)
            coef1 = number._denom // gcd_denom
            coef2 = self._denom // gcd_denom

            steps.append([self._num, coef1, "*", self._denom, coef1, "*", '/', number._num, coef2, "*", number._denom, coef2, "*", "/",'-']) 

            com_denom = self._denom * coef1
            num1 = self._num * coef1
            num2 = number._num * coef2

        steps.append([num1, num2, '-', com_denom, '/'])

        num = num1 - num2

        ans_frac = Fraction(num, com_denom)
        steps.append(ans_frac)
        steps += ans_frac.simplify()

        return steps

    def __rsub__(self, other):
        if type(other) == Fraction:
            #cool
            number = other
        else:
            number = Fraction(other)

        steps = []

        if number._denom == self._denom:
            com_denom = number._denom
            num1 = number._num
            num2 = self._num

        else:
            gcd_denom = gcd(number._denom, self._denom)
            coef1 = self._denom // gcd_denom
            coef2 = number._denom // gcd_denom

            steps.append([number._num, coef1, "*", number._denom, coef1, "*", '/', self._num, coef2, "*", self._denom, coef2, "*", "/",'-']) 

            com_denom = number._denom * coef1
            num1 = number._num * coef1
            num2 = self._num * coef2

        steps.append([num1, num2, '-', com_denom, '/'])

        num = num1 - num2

        ans_frac = Fraction(num, com_denom)
        steps.append(ans_frac)
        steps += ans_frac.simplify()

        return steps

    def __neg__(self):
        return [Fraction(-self._num,self._denom)]
    
    def __mul__(self, other):
        if type(other) == Fraction:
            #cool
            number = other
        else:
            number = Fraction(other)

        steps = []

        steps.append([self._num, number._num, '*', self._denom, number._denom, '*', '/'])

        num = self._num * number._num
        denom = self._denom * number._denom

        ans_frac = Fraction(num, denom)
        steps.append(ans_frac)
        steps += ans_frac.simplify()

        return steps

    def __rmul__(self, other):
        if type(other) == Fraction:
            #cool
            number = other
        else:
            number = Fraction(other)

        steps = []

        steps.append([number._num, self._num, '*', number._denom, self._denom, '*', '/'])

        num = self._num * number._num
        denom = self._denom * number._denom

        ans_frac = Fraction(num, denom)
        steps.append(ans_frac)
        steps += ans_frac.simplify()

        return steps

    def __truediv__(self, other):
        if type(other) == Fraction:
            #cool
            number = other
        else:
            number = Fraction(other)

        steps = []
        number = Fraction(number._denom, number._num)
        steps.append([self, number, "/"])
        steps += self * number

        return steps

    def __rtruediv__(self, other):
        if type(other) == Fraction:
            #cool
            number = other
        else:
            number = Fraction(other)

        steps = []
        self_inv = Fraction(self._denom, self._num)
        steps.append([number, self_inv, "/"])
        steps += number * self_inv

        return steps

    def __eq__(self, other):
        """ == """
        if type(other) == Fraction:
            number = other
        else:
            number = Fraction(other)

        return self._num * number._denom == self._denom * number._num

    def __lt__(self, other):
        """ < """
        if type(other) == Fraction:
            return (self._num / self._denom) < (other._num / other._denom)
        else:
            return (self._num / self._denom) < other

    def __le__(self, other):
        """ <= """
        if type(other) == Fraction:
            return (self._num / self._denom) <= (other._num / other._denom)
        else:
            return (self._num / self._denom) <= other



if __name__ == '__main__':
    f = Fraction(1, 12)
    g = Fraction(1, 12)
    h = Fraction(1,-5)
    t = Fraction(4,5)
    print("---------")
    for i in (1 + h):
        print(i)
    print("---------")
    #for i in (f + t):
    #    print(i)
    #print("---------")
    #for i in (f + g):
    #    print(i)
    #print("---------")
    #for i in (f - g):
    #    print(i)
    #print("---------")
    #for i in (f * g):
    #    print(i)
    #print("---------")
    #for i in (h + t):
    #    print(i)
    #print("---------")
    #for i in (h - t):
    #    print(i)
    #print("---------")
    #for i in (h * t):
    #    print(i)
    #print("---------")
    #for i in (h / t):
    #    print(i)

    #print(f.simplify())

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