Merge branch 'fraction' into dev

This commit is contained in:
Lafrite 2014-12-28 10:48:29 +01:00
commit 61bc284805
3 changed files with 90 additions and 73 deletions

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@ -28,6 +28,46 @@ class Expression(object):
def set_default_render(cls):
cls.set_render(cls.DEFAULT_RENDER)
@classmethod
def tmp_render(cls, render = lambda _,x:Expression(x)):
""" Create a container in which Expression render is temporary modify
The default temporary render is Expression in order to perform calculus inside numbers
>>> exp = Expression("2*3/5")
>>> print(exp)
\\frac{ 2 \\times 3 }{ 5 }
>>> for i in exp.simplify():
... print(i)
\\frac{ 2 \\times 3 }{ 5 }
\\frac{ 6 }{ 5 }
>>> with Expression.tmp_render():
... for i in exp.simplify():
... i
< Expression [2, 3, '*', 5, '/']>
< Expression [6, 5, '/']>
< Fraction 6 / 5>
>>> with Expression.tmp_render(txt):
... for i in exp.simplify():
... print(i)
2 * 3 / 5
6 / 5
>>> for i in exp.simplify():
... print(i)
\\frac{ 2 \\times 3 }{ 5 }
\\frac{ 6 }{ 5 }
"""
class TmpRenderEnv(object):
def __enter__(self):
self.old_render = Expression.get_render()
Expression.set_render(render)
def __exit__(self, type, value, traceback):
Expression.set_render(self.old_render)
return TmpRenderEnv()
@classmethod
def random(self, form="", conditions=[], val_min = -10, val_max=10):
"""Create a random expression from form and with conditions
@ -299,10 +339,10 @@ def test(exp):
print("\n")
if __name__ == '__main__':
render = lambda _,x : str(x)
Expression.set_render(render)
exp = Expression("1/2 - 4")
print(list(exp.simplify()))
#render = lambda _,x : str(x)
#Expression.set_render(render)
#exp = Expression("1/2 - 4")
#print(list(exp.simplify()))
#Expression.set_render(txt)
#exp = "2 ^ 3 * 5"
@ -386,8 +426,8 @@ if __name__ == '__main__':
#for i in exp.simplify():
# print(i)
#import doctest
#doctest.testmod()
import doctest
doctest.testmod()
# -----------------------------
# Reglages pour 'vim'

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@ -119,13 +119,13 @@ class Fraction(object):
>>> f = Fraction(1, 2)
>>> g = Fraction(2, 3)
>>> f + g
[< Expression [1, 3, '*', 2, 3, '*', '/', 2, 2, '*', 3, 2, '*', '/', '+']>, < Expression [3, 4, '+', 6, '/']>, < Fraction 7 / 6>]
[< Expression [1, 3, '*', 2, 3, '*', '/', 2, 2, '*', 3, 2, '*', '/', '+']>, < Expression [3, 6, '/', 4, 6, '/', '+']>, < Expression [< Fraction 3 / 6>, < Fraction 4 / 6>, '+']>, < Expression [3, 4, '+', 6, '/']>, < Expression [7, 6, '/']>, < Fraction 7 / 6>]
>>> f + 2
[< Expression [1, 1, '*', 2, 1, '*', '/', 2, 2, '*', 1, 2, '*', '/', '+']>, < Expression [1, 4, '+', 2, '/']>, < Fraction 5 / 2>]
[< Expression [1, 1, '*', 2, 1, '*', '/', 2, 2, '*', 1, 2, '*', '/', '+']>, < Expression [1, 2, '/', 4, 2, '/', '+']>, < Expression [< Fraction 1 / 2>, < Fraction 4 / 2>, '+']>, < Expression [1, 4, '+', 2, '/']>, < Expression [5, 2, '/']>, < Fraction 5 / 2>]
>>> f = Fraction(3, 4)
>>> g = Fraction(5, 4)
>>> f + g
[< Expression [3, 5, '+', 4, '/']>, < Fraction 8 / 4>, 2]
[< Expression [3, 5, '+', 4, '/']>, < Expression [8, 4, '/']>, 2]
"""
@ -134,31 +134,22 @@ class Fraction(object):
number = self.convert2fraction(other)
steps = []
if self._denom == number._denom:
com_denom = self._denom
num1 = self._num
num2 = number._num
exp = Expression([num1, num2, op.add, com_denom, op.div])
else:
gcd_denom = gcd(self._denom, number._denom)
coef1 = number._denom // gcd_denom
coef2 = self._denom // gcd_denom
steps.append(Expression([self._num, coef1, op.mul, self._denom, coef1, op.mul, op.div, number._num, coef2, op.mul, number._denom, coef2, op.mul, op.div,op.add]) )
exp = Expression([self._num, coef1, op.mul, self._denom, coef1, op.mul, op.div, number._num, coef2, op.mul, number._denom, coef2, op.mul, op.div,op.add])
com_denom = self._denom * coef1
num1 = self._num * coef1
num2 = number._num * coef2
steps.append(Expression([num1, num2, op.add, com_denom, op.div]))
num = num1 + num2
ans_frac = Fraction(num, com_denom)
steps.append(ans_frac)
steps += ans_frac.simplify()
with Expression.tmp_render():
steps = list(exp.simplify())
return steps
@ -176,7 +167,7 @@ class Fraction(object):
>>> f = Fraction(1, 2)
>>> g = Fraction(2, 3)
>>> f - g
[< Expression [1, 3, '*', 2, 3, '*', '/', 2, 2, '*', 3, 2, '*', '/', '-']>, < Expression [3, 4, '-', 6, '/']>, < Fraction -1 / 6>]
[< Expression [1, 3, '*', 2, 3, '*', '/', 2, 2, '*', 3, 2, '*', '/', '-']>, < Expression [3, 6, '/', 4, 6, '/', '-']>, < Expression [< Fraction 3 / 6>, < Fraction 4 / 6>, '-']>, < Expression [3, 4, '-', 6, '/']>, < Expression [-1, 6, '/']>, < Fraction -1 / 6>]
"""
if other == 0:
@ -184,31 +175,22 @@ class Fraction(object):
number = self.convert2fraction(other)
steps = []
if self._denom == number._denom:
com_denom = self._denom
num1 = self._num
num2 = number._num
exp = Expression([num1, num2, op.sub, com_denom, op.div])
else:
gcd_denom = gcd(self._denom, number._denom)
coef1 = number._denom // gcd_denom
coef2 = self._denom // gcd_denom
steps.append(Expression([self._num, coef1, op.mul, self._denom, coef1, op.mul, op.div, number._num, coef2, op.mul, number._denom, coef2, op.mul, op.div,op.sub]))
exp = Expression([self._num, coef1, op.mul, self._denom, coef1, op.mul, op.div, number._num, coef2, op.mul, number._denom, coef2, op.mul, op.div,op.sub])
com_denom = self._denom * coef1
num1 = self._num * coef1
num2 = number._num * coef2
steps.append(Expression([num1, num2, op.sub, com_denom, op.div]))
num = num1 - num2
ans_frac = Fraction(num, com_denom)
steps.append(ans_frac)
steps += ans_frac.simplify()
with Expression.tmp_render():
steps = list(exp.simplify())
return steps
@ -234,7 +216,11 @@ class Fraction(object):
"""
f = Fraction(-self._num, self._denom)
return [f] + f.simplify()
with Expression.tmp_render():
steps = [f] + f.simplify()
return steps
def __mul__(self, other):
""" overload *
@ -242,13 +228,13 @@ class Fraction(object):
>>> f = Fraction(1, 2)
>>> g = Fraction(2, 3)
>>> f*g
[< Expression [1, 1, 2, '*', '*', 1, 2, '*', 3, '*', '/']>, < Fraction 1 / 3>]
[< Expression [1, 1, 2, '*', '*', 1, 2, '*', 3, '*', '/']>, < Expression [1, 2, '*', 2, 3, '*', '/']>, < Expression [2, 6, '/']>, < Expression [1, 2, '*', 3, 2, '*', '/']>, < Fraction 1 / 3>]
>>> f * 0
[0]
>>> f*1
[< Fraction 1 / 2>]
>>> f*4
[< Expression [1, 2, '*', 2, '*', 1, 2, '*', '/']>, < Fraction 2 / 1>, 2]
[< Expression [1, 2, '*', 2, '*', 1, 2, '*', '/']>, < Expression [2, 2, '*', 2, '/']>, < Expression [4, 2, '/']>, 2]
"""
steps = []
@ -258,6 +244,8 @@ class Fraction(object):
elif other == 1:
return [self]
# TODO: Changer dans le cas où il y a trop de 1 |dim. déc. 28 10:44:10 CET 2014
elif type(other) == int:
gcd1 = gcd(other, self._denom)
if gcd1 != 1:
@ -266,10 +254,8 @@ class Fraction(object):
else:
num = [self._num, other, op.mul]
denom = [self._denom]
steps.append(Expression(num + denom + [op.div]))
num = int(self._num * other / gcd1)
denom = int(self._denom / gcd1)
exp = Expression(num + denom + [op.div])
else:
number = self.convert2fraction(other)
@ -291,14 +277,10 @@ class Fraction(object):
denom1 = [self._denom]
steps.append(Expression(num1 + num2 + [ op.mul] + denom1 + denom2 + [op.mul, op.div]))
exp = Expression(num1 + num2 + [ op.mul] + denom1 + denom2 + [op.mul, op.div])
num = int(self._num * number._num / (gcd1 * gcd2))
denom = int(self._denom * number._denom / (gcd1 * gcd2))
ans_frac = Fraction(num, denom)
steps.append(ans_frac)
steps += ans_frac.simplify()
with Expression.tmp_render():
steps = list(exp.simplify())
return steps
@ -334,10 +316,10 @@ class Fraction(object):
>>> f**1
[< Fraction 3 / 4>]
>>> f**3
[< Expression [3, 3, '^', 4, 3, '^', '/']>, < Fraction 27 / 64>]
[< Expression [3, 3, '^', 4, 3, '^', '/']>, < Expression [27, 64, '/']>, < Fraction 27 / 64>]
>>> f = Fraction(6, 4)
>>> f**3
[< Expression [6, 3, '^', 4, 3, '^', '/']>, < Fraction 216 / 64>, < Expression [27, 8, '*', 8, 8, '*', '/']>, < Fraction 27 / 8>]
[< Expression [6, 3, '^', 4, 3, '^', '/']>, < Expression [216, 64, '/']>, < Expression [27, 8, '*', 8, 8, '*', '/']>, < Fraction 27 / 8>]
"""
if not type(power) == int:
@ -348,10 +330,9 @@ class Fraction(object):
elif power == 1:
return [self]
else:
steps = [Expression([self._num, power, op.pw, self._denom, power, op.pw, op.div])]
ans_frac = Fraction(self._num ** power, self._denom ** power)
steps.append(ans_frac)
steps += ans_frac.simplify()
exp = Expression([self._num, power, op.pw, self._denom, power, op.pw, op.div])
with Expression.tmp_render():
steps = list(exp.simplify())
return steps
def __xor__(self, power):
@ -364,10 +345,10 @@ class Fraction(object):
>>> f^1
[< Fraction 3 / 4>]
>>> f^3
[< Expression [3, 3, '^', 4, 3, '^', '/']>, < Fraction 27 / 64>]
[< Expression [3, 3, '^', 4, 3, '^', '/']>, < Expression [27, 64, '/']>, < Fraction 27 / 64>]
>>> f = Fraction(6, 4)
>>> f^3
[< Expression [6, 3, '^', 4, 3, '^', '/']>, < Fraction 216 / 64>, < Expression [27, 8, '*', 8, 8, '*', '/']>, < Fraction 27 / 8>]
[< Expression [6, 3, '^', 4, 3, '^', '/']>, < Expression [216, 64, '/']>, < Expression [27, 8, '*', 8, 8, '*', '/']>, < Fraction 27 / 8>]
"""

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@ -291,19 +291,15 @@ class Polynom(object):
# On converti en Expression
coef_exp = Expression(postfix_add)
old_render = Expression.get_render()
Expression.set_render(lambda _,x:Expression(x))
with Expression.tmp_render():
coef_steps = list(coef_exp.simplify())
Expression.set_render(old_render)
#print('\t 1.coef_steps -> ', coef_steps)
elif type(coef) == Expression:
old_render = Expression.get_render()
Expression.set_render(lambda _,x:Expression(x))
with Expression.tmp_render():
coef_steps = list(coef.simplify())
Expression.set_render(old_render)
#print('\t 2.coef_steps -> ', coef_steps)
@ -524,7 +520,7 @@ def test(p,q):
if __name__ == '__main__':
#from .fraction import Fraction
Expression.set_render(txt)
with Expression.tmp_render(txt):
p = Polynom([10, -5])
q = Polynom([3, -9])
print(p-q)