Merge branch 'dev_tree' of ssh://git.opytex.org:2222/lafrite/Mapytex into dev_tree

This commit is contained in:
Bertrand Benjamin 2018-12-17 11:23:34 +01:00
commit e7015e282d
5 changed files with 210 additions and 26 deletions

View File

@ -41,14 +41,38 @@ class Expression(object):
self._ancestor = ancestor
@classmethod
def from_str(cls, string):
def from_str(cls, string, typing=True):
""" Initiate the expression from a string
:param string: String to parse to generate the Expression
:returns: the expression
:example:
>>> e = Expression.from_str("2 + 3 * 4")
>>> e
<Exp: 2 + 3 * 4>
>>> e = Expression.from_str("2/3")
>>> e
<Fraction 2 / 3>
>>> e = Expression.from_str("2x + 1")
>>> e
<Linear 2x + 1>
>>> e = Expression.from_str("2x + 1 + 5x^2")
>>> e
<Quadratic 2x + 1 + 5x^2>
>>> e = Expression.from_str("2x + 1 + 5x")
>>> e
<Exp: 2x + 1 + 5x>
"""
t = Tree.from_str(string)
if typing:
tt = cls(t)._typing()
try:
return factory(tt)
except TypeError as e:
return cls(t)
return cls(t)
@classmethod
@ -173,7 +197,7 @@ class Expression(object):
""" Build a copy of self with as much typing as possible
:example:
>>> e = Expression.from_str("2x")
>>> e = Expression.from_str("2x", typing=False)
>>> print(e._tree.map_on_leaf(type))
*
> <class 'mapytex.calculus.core.MO.mo.MOnumber'>
@ -185,7 +209,7 @@ class Expression(object):
>>> print(type(typed_e._tree))
<class 'mapytex.calculus.core.MO.monomial.MOMonomial'>
>>> e = Expression.from_str("2x+3+4/5")
>>> e = Expression.from_str("2x+3+4/5", typing=False)
>>> print(e._tree.map_on_leaf(type))
+
> +

View File

@ -60,16 +60,16 @@ def factory(exp, name="", ancestor=None):
if isinstance(mo, MOnumber):
if isinstance(mo.value, int):
return Integer(mo, name, ancestor)
return Integer.from_mo(mo, name, ancestor)
elif isinstance(mo.value, _Decimal):
return Decimal(mo, name, ancestor)
return Decimal.from_mo(mo, name, ancestor)
raise TypeError(f"Can't build from MOnumber ({mo}) neither int nor decimal")
elif isinstance(mo, MOFraction):
if isinstance(mo._denominator, MOnumber) and \
isinstance(mo._numerator, MOnumber):
return Fraction(mo, name, ancestor)
return Fraction.from_mo(mo, name, ancestor)
raise TypeError(f"Can't build from MOFraction ({mo}) numerator and denominator are not MOnumber")
@ -79,13 +79,13 @@ def factory(exp, name="", ancestor=None):
if isinstance(mo, MOstr) or \
(isinstance(mo, MOMonomial) and mo.power.value == 1) or \
(isinstance(mo, MOpolynomial) and mo.power.value == 1):
return Linear(mo, name, ancestor)
return Linear.from_mo(mo, name, ancestor)
elif (isinstance(mo, MOstrPower) and mo.power.value == 2) or \
(isinstance(mo, MOMonomial) and mo.power.value == 2) or \
(isinstance(mo, MOpolynomial) and mo.power.value == 2):
return Quadratic(mo, name, ancestor)
return Quadratic.from_mo(mo, name, ancestor)
else:
return Polynomial(mo, name, ancestor)
return Polynomial.from_mo(mo, name, ancestor)
else:
raise TypeError(f"{type(mo)} is unknown MathObject")

View File

@ -11,6 +11,7 @@ Tokens representing interger and decimal
"""
from .token import Token
from ...core.MO import MO
from ...core.MO.mo import MOnumber
from ...core.MO.fraction import MOFraction
from decimal import Decimal as _Decimal
@ -19,17 +20,37 @@ __all__ = ["Integer", "Decimal"]
class Integer(Token):
""" Token representing a integer """
""" Token representing a integer
def __init__(self, mo, name="", ancestor=None):
if not isinstance(mo, MOnumber):
raise TypeError
if not isinstance(mo.value, int):
raise TypeError
:example:
>>> Integer(4)
<Integer 4>
>>> a = MOnumber(4)
>>> Integer.from_mo(a)
<Integer 4>
"""
def __init__(self, a, name="", ancestor=None):
if not isinstance(a, MO):
if not isinstance(a, int):
raise TypeError
mo = MOnumber(a)
else:
mo = a
Token.__init__(self, mo, name, ancestor)
self._mathtype = 'entier'
@classmethod
def from_mo(cls, mo, name="", ancestor=None):
if not isinstance(mo, MOnumber):
raise TypeError
if not isinstance(mo.value, int):
raise TypeError
return cls(mo, name, ancestor)
@classmethod
def random(cls):
raise NotImplemented
@ -38,14 +59,26 @@ class Decimal(Token):
""" Token representing a decimal """
def __init__(self, mo, name="", ancestor=None):
def __init__(self, a, name="", ancestor=None):
if not isinstance(a, MO):
if isinstance(a, (str, float)):
mo = MOnumber(Decimal(a))
else:
raise TypeError
else:
mo = a
self._mathtype = 'décimal'
Token.__init__(self, mo, name, ancestor)
@classmethod
def from_mo(cls, mo, name="", ancestor=None):
if not isinstance(mo, MOnumber):
raise TypeError
if not isinstance(mo.value, _Decimal):
raise TypeError
Token.__init__(self, mo, name, ancestor)
self._mathtype = 'décimal'
return cls(mo, name, ancestor)
@classmethod
def random(cls):
@ -55,7 +88,21 @@ class Fraction(Token):
""" Token representing a fraction """
def __init__(self, mo, name="", ancestor=None):
def __init__(self, a, name="", ancestor=None):
if not isinstance(a, MO):
if isinstance(a, str):
num, denom = a.split('/')
mo = MOFraction(int(num), int(denom))
else:
raise TypeError
else:
mo = a
self._mathtype = 'fraction'
Token.__init__(self, mo, name, ancestor)
@classmethod
def from_mo(cls, mo, name="", ancestor=None):
if not isinstance(mo, MOFraction):
raise TypeError
if not isinstance(mo._numerator, MOnumber):
@ -63,8 +110,7 @@ class Fraction(Token):
if not isinstance(mo._denominator, MOnumber):
raise TypeError
Token.__init__(self, mo, name, ancestor)
self._mathtype = 'fraction'
return cls(mo, name, ancestor)
@classmethod
def random(cls):

View File

@ -11,6 +11,7 @@ Tokens representing polynomials functions
"""
from .token import Token
from ...core.MO import MO
__all__ = ["Polynomial", "Quadratic", "Linear"]
@ -18,11 +19,23 @@ class Polynomial(Token):
""" Token representing a polynomial """
def __init__(self, mo, name="", ancestor=None):
def __init__(self, a, name="", ancestor=None):
if not isinstance(a, MO):
if isinstance(a, str):
raise TypeError
else:
raise TypeError
else:
mo = a
Token.__init__(self, mo, name, ancestor)
self._mathtype = 'polynome'
@classmethod
def from_mo(cls, mo, name="", ancestor=None):
return cls(mo, name, ancestor)
@classmethod
def random(cls):
raise NotImplemented
@ -39,26 +52,26 @@ class Polynomial(Token):
""" Call a Polynomial to evaluate itself on value """
pass
class Linear(Token):
class Linear(Polynomial):
""" Token representing a linear """
def __init__(self, mo, name="", ancestor=None):
Token.__init__(self, mo, name, ancestor)
Polynomial.__init__(self, mo, name, ancestor)
self._mathtype = 'affine'
@classmethod
def random(cls):
raise NotImplemented
class Quadratic(Token):
class Quadratic(Polynomial):
""" Token representing a quadratic """
def __init__(self, mo, name="", ancestor=None):
Token.__init__(self, mo, name, ancestor)
Polynomial.__init__(self, mo, name, ancestor)
self._mathtype = 'polynome du 2nd degré'
@classmethod

View File

@ -63,6 +63,107 @@ class Token(object):
def __tex__(self):
return self._mo.__tex__
def _operate(self, other, operation):
""" Make a operation between 2 Tokens,
a Token and en Expression ora
a Token an a builtin type
"""
from ..expression import Expression
from ...core import Tree
from . import factory
if not isinstance(other, Token):
_other = factory(other)
else:
_other = other
tree = Tree(operation, self._mo, _other._mo)
return Expression(tree).simplify()
def __add__(self, other):
""" Adding 2 Tokens or a Token and a Expression
:example:
>>> from .number import Integer
>>> a = Integer(3)
>>> b = Integer(7)
>>> c = a + b
>>> c
<Integer 10>
>>> for i in c.explain():
... print(i)
3 + 7
10
>>> from .number import Fraction
>>> a = Fraction("4/3")
>>> b = Integer(7)
>>> c = a + b
>>> c
<Fraction 25 / 3>
>>> for i in c.explain():
... print(i)
4 / 3 + 7
4 / 3 + 7 / 1
4 / 3 + (7 * 3) / (1 * 3)
4 / 3 + 21 / 3
(4 + 21) / 3
25 / 3
"""
return self._operate(other, "+")
def __mul__(self, other):
""" Multiply 2 Tokens or a Token and a Expression
:example:
>>> from .number import Integer
>>> a = Integer(3)
>>> b = Integer(7)
>>> c = a * b
>>> c
<Integer 21>
>>> for i in c.explain():
... print(i)
3 * 7
21
>>> from .number import Fraction
>>> a = Fraction("4/3")
>>> b = Integer(7)
>>> c = a * b
>>> c
<Fraction 28 / 3>
>>> for i in c.explain():
... print(i)
4 / 3 * 7
(4 * 7) / 3
28 / 3
"""
return self._operate(other, "*")
def __truediv__(self, other):
""" Divising 2 Tokens or a Token and a Expression
:example:
>>> from .number import Integer
>>> a = Integer(3)
>>> b = Integer(7)
>>> c = a / b
>>> c
<Fraction 3 / 7>
>>> for i in c.explain():
... print(i)
3 / 7
>>> from .number import Fraction
>>> a = Fraction("4/3")
>>> b = Integer(7)
>>> c = a / b
>>> c
<Fraction 4 / 21>
>>> for i in c.explain():
... print(i)
4 / 3 / 7
4 / 3 * 1 / 7
(4 * 1) / (3 * 7)
4 / 21
"""
return self._operate(other, "/")