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79 Commits

Author SHA1 Message Date
5fa3682f73 Feat: Remove references to random in API
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2021-10-26 19:20:22 +02:00
86d66e8b1b Fix: fraction test
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2021-10-25 15:04:46 +02:00
9919dd77f6 Feat: Few tests for Expression generator
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2021-10-10 16:40:50 +02:00
5b0d0e5d1e Fix: log -> cos for domain issues 2021-10-09 20:01:32 +02:00
0f575ae0ae Feat: testing list random generator
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2021-10-09 16:18:37 +02:00
b738cf8dd8 Feat: use functions from math module in variable and conditions 2021-10-09 16:09:09 +02:00
32112a4591 Feat: test random import 2021-10-09 15:22:58 +02:00
b43c64fc7e Feat: rename var_list to template 2021-10-09 08:32:00 +02:00
aad2395a3a Fix: format with black 2021-10-09 06:30:38 +02:00
a267acd7b3 Feat: random expression generator is working
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2021-10-06 16:17:50 +02:00
5d909a5f81 Fix: list_generator pass doctests 2021-10-06 15:41:35 +02:00
87b6b3ca27 Feat: move to global_config, configs for generator
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2021-10-03 16:52:54 +02:00
b2b204c17b Feat: move extract_letters and eval_words in grammar 2021-10-03 15:41:54 +02:00
204c7dffd7 Feat: RandomTree, rename generate function ... 2021-10-03 15:36:35 +02:00
1672530179 Refact: move random function away from core 2021-09-30 14:52:08 +02:00
daed07efa3 Feat: simplify "no * allowed token" 2021-09-29 16:13:02 +02:00
d6e3f774fa Feat: fraction can be simplify
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2021-09-29 15:34:14 +02:00
1347c30b92 Feat: simplified version for Fraction and MOFraction
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2021-09-26 08:58:42 +02:00
bf55470467 Feat: make MOFraction comparable 2021-09-26 08:29:07 +02:00
78ce8f767a Fix: fraction rendering
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2021-09-25 18:05:05 +02:00
cbcead48f7 Feat: Init polynomial with coefficients
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2021-02-04 10:18:12 +01:00
ff4d8471ef Feat: dirty way to manage () and * in render 2020-12-15 16:01:54 +01:00
460255b151 Fix: Rendering and changing it works 2020-12-15 15:37:27 +01:00
95fd12c430 Feat: test num and denom for fraction 2020-12-15 15:02:39 +01:00
a1608a20d1 Feat: add test on what doesn't work! 2020-12-15 14:36:39 +01:00
48088762be Feat: update tabulate version
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2020-12-12 23:25:44 +01:00
2109fc46cb Fix: simplify rendering by expanding tree. still bugs with set_render 2020-12-12 23:14:44 +01:00
1a20e6927d Feat: remove __txt__ and __tex__
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2020-12-12 22:10:53 +01:00
7649928be8 Fix: clean __str__ method for token 2020-12-12 22:10:53 +01:00
bb43611f67 Test: separate expression build and showing it
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2020-11-15 21:12:26 +01:00
9dc4d08619 Feat: return value for random_list 2020-11-15 21:12:26 +01:00
33c4872ff7 Fix: rename list_generator to random_list 2020-11-15 21:12:26 +01:00
76dad93f03 Tagging: bad version number! 2020-11-15 21:12:26 +01:00
6f7fd416be Tagging: change version to 2.2 2020-11-15 21:12:26 +01:00
8d9294afe1 Feat: random list generator 2020-11-15 21:12:26 +01:00
700665c0a5 Feat: add autopublishing 2020-11-15 21:12:26 +01:00
7e4bfc9ba0 Feat: doctest skip
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2020-08-20 16:57:17 +02:00
cdfd3e47b5 Mise à jour de 'README.md' 2020-08-20 16:57:17 +02:00
364f16b872 Mise à jour de '.drone.yml' 2020-08-20 16:57:17 +02:00
cc94f1f50c Feat: nothing 2020-08-20 16:57:17 +02:00
ad6923f8cd Feat: add a drone for testing 2020-08-20 16:57:17 +02:00
fadd93b9a6 Feat: change frac to dfrac for fractions 2019-11-04 09:43:52 +01:00
cb8010c7ac Feat: force subtree to be str and tex instead of txt in tree2tex 2019-11-04 09:39:52 +01:00
f12ec38746 Feat: Polynomial are displayed in nicer order! 2019-10-30 21:12:58 +01:00
f8b24472d1 Fix: clean __init__ 2019-10-30 20:59:09 +01:00
240857a7ad Fix: chante value to content in raw 2019-10-30 20:58:46 +01:00
70ec6933ac Feat: missing_times works with RdLeaf 2019-10-30 18:46:57 +01:00
91779bd945 Feat: Add doctest to rdstr2 2019-10-30 10:49:07 +01:00
69e1e43966 Feat: raw methods for tokens 2019-10-16 22:45:41 +02:00
16a6c4953d Feat: remove precision setting for Decimal 2019-10-15 19:41:09 +02:00
84c71f6b5d Feat: overload pow for tokens 2019-10-15 19:32:19 +02:00
2a74722b19 Feat: add doctest add int and Decimal 2019-10-15 19:15:32 +02:00
43fd46379c Feat: dirty way to get decimal approx of a function 2019-10-14 22:26:51 +02:00
2d296cf1d2 Feat: allowing to import Decimal 2019-10-14 22:22:08 +02:00
12109156d1 Feat: allow import Integer in calculus 2019-10-13 22:38:49 +02:00
2fad004d6d Feat: dirty sub (repeatition in explain) 2019-10-13 22:38:49 +02:00
207dead5d0 Feat: doctest for operation between Token and str 2019-10-13 22:38:49 +02:00
e24bff23db Feat: tokens can operate with builtin int 2019-10-13 22:38:49 +02:00
69c2b3718d Fix: precessing -> processing 2019-10-13 22:38:49 +02:00
9c25142a4b Feat: start using nox 2019-10-13 22:38:49 +02:00
931e55c35e Fix: Black does its job 2019-10-13 22:38:49 +02:00
aba43c9f19 Feat: no more round in quadratic roots 2019-07-17 09:55:32 +02:00
b93f34bc38 Feat: MOnumber creating with a integer string 2019-07-17 09:53:03 +02:00
204fdf755b Feat: to_be_token decorator and force token to be Integer when it's
possible
2019-07-17 09:49:50 +02:00
d75fd4c4cf Feat: tokenify for everything! 2019-07-17 09:25:12 +02:00
a32b684b6b Feat: Test and validate roots (but not elegant) 2019-07-16 16:49:33 +02:00
a5f062a151 Feat: doctest for composing Expressions 2019-07-16 09:31:30 +02:00
f8e1c7f962 Feat: Expression call works with tokens 2019-07-16 09:30:30 +02:00
1685c73051 Feat: Allow pure string rendering 2019-07-16 09:09:39 +02:00
04ac74d17a Fix: move __call__ to expressions 2019-07-15 18:37:16 +02:00
23ab39f7d4 Feat: add tree2tex in all import 2019-07-15 18:36:59 +02:00
41385ec561 Feat: Polynoms can be differentiate!!!! 2019-07-15 17:48:59 +02:00
8389a319f0 Fix: Issue with typing null monomial 2019-07-15 17:27:38 +02:00
6e24756746 Fix: replace notimplemented by NotImplementedError 2019-07-15 17:16:00 +02:00
d45ab560c9 Feat: coefficients, delta and some roots for polynomial, Linear and Quadratic 2019-07-15 11:59:28 +02:00
fa8beb6bb2 Feat: Polynomial can be evaluated 2019-07-15 11:14:48 +02:00
b81281d78a Feat: Move some import into functions 2019-07-15 11:09:59 +02:00
071b8caf1d Feat: start working on eval for polynoms 2019-07-15 10:42:49 +02:00
1ed0b9715a Fix: typing filter for multiply 2019-07-15 10:42:13 +02:00
37 changed files with 1044 additions and 872 deletions

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@ -1,7 +1,7 @@
#!/usr/bin/env python
# encoding: utf-8
from .calculus import Expression, Integer, Decimal, random_list
from .calculus import Expression, render, random
# Expression.set_render('tex')

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@ -108,26 +108,35 @@ x^7
(6 + 6) * x + 4x^2 + 9
4x^2 + 12x + 9
>>> e = Expression.from_str("(2x-3)(-x+2)")
>>> e_simplified = e.simplify()
>>> e_simplified
<Quadratic - 2x^2 + 7x - 6>
>>> for s in e_simplified.explain():
... print(s)
(2x - 3)(- x + 2)
(2x - 3)(- x + 2)
2x(- x) + 2x * 2 - 3(- x) - 3 * 2
2(- 1) * x^(1 + 1) + 2 * 2 * x - 3(- 1) * x - 6
4x + 3x - 2x^2 - 6
(4 + 3) * x - 2x^2 - 6
- 2x^2 + 7x - 6
"""
from .renders import render
from .expression import Expression
from .tokens.number import Integer, Decimal
from .tokens import Token
from .tokens.polynomial import Polynomial
from .tokens.number import Integer, Decimal, Fraction
if __name__ == "__main__":
e = Expression.from_str("1+2/3/4/5")
et = e._typing()
print("typing")
print(e._tree)
e = et._order()
print("order")
print(e._tree)
e = e._optimize()
print("then optimize")
print(e._tree)
e = et._optimize()
print("optimize without order")
print(e._tree)
e = Expression.from_str("(2x-3)(-x+2)")
e_simplified = e.simplify()
e_simplified
for s in e_simplified.explain():
print(s._tree.map_on_leaf(lambda x: type(x)))
print(s)
# -----------------------------
# Reglages pour 'vim'

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@ -12,16 +12,9 @@ Expression
"""
from functools import partial
from ..core import AssocialTree, Tree, compute, typing, TypingError
from ..core.random import (
extract_rdleaf,
extract_rv,
random_generator,
compute_leafs,
replace_rdleaf,
)
from ..core.MO import moify
from .tokens import factory
from .renders import renders
from .renders import render
class Expression(object):
@ -42,7 +35,6 @@ class Expression(object):
14
"""
RENDER = "txt"
def __init__(self, tree, ancestor=None):
"""
@ -50,41 +42,6 @@ class Expression(object):
self._tree = tree
self._ancestor = ancestor
@classmethod
def set_render(cls, render):
""" Define default render function
:param render: render name (txt or tex)
:example:
>>> e = Expression.from_str("2+3*4")
>>> print(e)
2 + 3 * 4
>>> e = Expression.from_str("2+3/4")
>>> print(e)
2 + 3 / 4
>>> es = e.simplify()
>>> print(es)
11 / 4
>>> Expression.set_render('tex')
>>> Expression.RENDER
'tex'
>>> e = Expression.from_str("2+3*4")
>>> print(e)
2 + 3 \\times 4
>>> e = Expression.from_str("2+3/4")
>>> print(e)
2 + \\dfrac{3}{4}
>>> es = e.simplify()
>>> print(es)
\\dfrac{11}{4}
>>> Expression.set_render('txt')
"""
from .tokens.token import Token
Token.set_render(render)
cls.RENDER = render
@classmethod
def from_str(cls, string, typing=True):
""" Initiate the expression from a string
@ -115,55 +72,6 @@ class Expression(object):
return cls(t)
@classmethod
def random(
cls,
template,
conditions=[],
rejected=[0],
min_max=(-10, 10),
variables_scope={},
shuffle=False,
):
""" Initiate randomly the expression
:param template: the template of the expression
:param conditions: conditions on randomly generate variable
:param rejected: Values to reject for all random variables
:param min_max: Min and max value for all random variables
:param variables_scope: Dictionnary for each random varaibles to fic rejected and min_max
:param shuffle: allowing to shuffle the tree
:returns: TODO
:example:
>>> e = Expression.random("{a}/{a*k}")
>>> e # doctest: +SKIP
<Exp: -3 / -15>
>>> e = Expression.random("{a}/{a*k} - 3*{b}", variables_scope={'a':{'min_max':(10, 30)}})
>>> e # doctest: +SKIP
<Exp: 18 / 108 - 3 * 9>
>>> e = Expression.random("{a}*x + {b}*x + 3", ["a>b"], rejected=[0, 1])
>>> ee = e.simplify()
>>> print(e) # doctest: +SKIP
10x - 6x + 3
>>> print(ee) # doctest: +SKIP
4x + 3
"""
rd_t = Tree.from_str(template, random=True)
leafs = extract_rdleaf(rd_t)
rd_varia = extract_rv(leafs)
generated = random_generator(
rd_varia, conditions, rejected, min_max, variables_scope
)
computed = compute_leafs(leafs, generated)
t = replace_rdleaf(rd_t, computed).map_on_leaf(moify)
if shuffle:
raise NotImplemented("Can't suffle expression yet")
return cls._post_processing(t)
@classmethod
def _post_processing(cls, t):
""" Post process the tree by typing it """
@ -174,10 +82,10 @@ class Expression(object):
return cls(t)
def __str__(self):
return renders[self.RENDER](self._tree)
return render(self._tree)
def __repr__(self):
return f"<Exp: {renders['txt'](self._tree)}>"
return f"<Exp: {render(self._tree, 'txt')}>"
def _order(self, exclude_nodes=["*", "/", "**"]):
""" Order the expression base on types
@ -204,7 +112,8 @@ class Expression(object):
return type(leaf)
else:
try:
typed_leaf = typing(leaf.node, leaf.left_value, leaf.right_value)
typed_leaf = typing(
leaf.node, leaf.left_value, leaf.right_value)
return typed_leaf.signature
except (AttributeError, NotImplementedError, TypingError):
return type(leaf)
@ -344,15 +253,15 @@ class Expression(object):
comp_exp = opt_exp._compute()
if typed_exp == comp_exp:
typed_exp.set_ancestor(self._ancestor)
return typed_exp
else:
if typed_exp != comp_exp:
comp_exp.set_ancestor(self)
return comp_exp._simplify(optimize=optimize)
typed_exp.set_ancestor(self._ancestor)
return typed_exp
def simplify(self, optimize=True):
""" Compute as much as possible the expression
""" Simplify the expression, keep the history and factory child
:param optimize: bool to optimize tree when it's possible
:return: an expression

View File

@ -12,34 +12,59 @@ Expression
"""
from ..core import tree2txt, tree2tex
class Render(object):
""" Object which render Expression or token """
def _txt(mo_tree):
""" txt render for MOs or Trees"""
try:
return tree2txt(mo_tree)
except ValueError:
pass
def __init__(self, default="txt"):
self._default = default
self._render = default
self.renders = {}
try:
return mo_tree.__txt__
except AttributeError:
return str(mo_tree)
def register_render(self, name, func, attribute):
""" register a render """
try:
self.renders[name]
except KeyError:
self.renders[name] = {"name": name, "func": func, "attribute": attribute}
else:
raise ValueError("This render name already exists")
@property
def render_name(self):
return self._render
@property
def render(self):
return self.renders[self._render]
def __call__(self, mo_tree, tmp_render=''):
if tmp_render:
r = self.renders[tmp_render]
else:
r = self.render
try:
return r["func"](mo_tree)
except ValueError:
pass
try:
return getattr(mo_tree, r["attribute"])
except AttributeError:
return str(mo_tree)
def set_render(self, render):
""" Define the render """
if render in self.renders.keys():
self._render = render
else:
raise ValueError("This render does not exists")
def _tex(mo_tree):
""" Tex render for MOs or Trees"""
try:
return tree2tex(mo_tree)
except ValueError:
pass
try:
return mo_tree.__tex__
except AttributeError:
return str(mo_tree)
renders = {"txt": _txt, "tex": _tex}
render = Render()
render.register_render("txt", tree2txt, "__txt__")
render.register_render("tex", tree2tex, "__tex__")
# -----------------------------
# Reglages pour 'vim'

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@ -13,12 +13,10 @@ Tokens representing interger and decimal
from decimal import Decimal as _Decimal
from .token import Token
from ...core.arithmetic import gcd
from ...core.random.int_gene import filter_random
from ...core.MO import MO, MOnumber
from ...core.MO.fraction import MOFraction
from random import random
__all__ = ["Integer", "Decimal"]
__all__ = ["Integer", "Decimal", "Fraction"]
class Integer(Token):
@ -54,23 +52,6 @@ class Integer(Token):
return cls(mo, name, ancestor)
@classmethod
def random(
cls, name="", min_value=-10, max_value=10, rejected=[0, 1], accept_callbacks=[]
):
""" Generate a random Integer
:param name: name of the Integer
:param min_value: minimum value
:param max_value: maximum value
:param rejected: rejected values
:param accept_callbacks: list of function for value acceptation
"""
candidate = filter_random(min_value, max_value, rejected, accept_callbacks)
return Integer(candidate, name)
class Decimal(Token):
@ -108,40 +89,10 @@ class Decimal(Token):
return cls(mo, name, ancestor)
@classmethod
def random(
cls,
name="",
min_value=-10,
max_value=10,
digits=2,
rejected=[0, 1],
reject_callbacks=[],
):
""" Generate a random Decimal
:param name: name of the Integer
:param min_value: minimum value
:param max_value: maximum value
:param digits: digits after comas
:param rejected: rejected values
:param reject_callbacks: list of function for value rejection
"""
conditions = [lambda x: x in rejected] + reject_callbacks
float_cand = (max_value - min_value) * random() + min_value
candidate = _Decimal(f"{float_cand:.{digits}f}")
while any(c(candidate) for c in conditions):
float_cand = (max_value - min_value) * random() + min_value
candidate = _Decimal(f"{float_cand:.{digits}f}")
return Decimal(candidate, name)
class Fraction(Token):
""" Token representing a fraction
""" Token representing a fraction of numbers
:example:
>>> Fraction("3/4")
@ -172,76 +123,27 @@ class Fraction(Token):
return cls(mo, name, ancestor)
@classmethod
def random(
cls,
name="",
fix_num="",
min_num=-10,
max_num=10,
rejected_num=[0],
accept_num_callbacks=[],
fix_denom="",
min_denom=-10,
max_denom=10,
rejected_denom=[0, 1, -1],
accept_denom_callbacks=[],
irreductible=False,
not_integer=True,
):
""" Generate a random Fraction
:param name: Name of the fraction
:param fix_num: if set, the numerator will get this value
:param min_num: minimum value for the numerator
:param max_num: maximum value for the numerator
:param rejected_num: rejected values for the numerator
:param accept_num_callbacks: list of function for numerator rejection
:param fix_denom: if set, the denomerator will get this value
:param min_denom: minimum value for the denominator
:param max_denom: maximum value for the denominator
:param rejected_denom: rejected values for the denominator
:param accept_denom_callbacks: list of function for denomerator rejection
:param irreductible: is the generated fraction necessary irreductible
:param not_integer: can the generated fraction be egal to an interger
"""
if fix_num == "":
num = filter_random(min_num, max_num, rejected_num, accept_num_callbacks)
else:
num = fix_num
if fix_denom == "":
accept_callbacks = accept_denom_callbacks
if irreductible:
def prime_with_num(denom):
return gcd(num, denom) == 1
accept_callbacks.append(prime_with_num)
if not_integer:
def not_divise_num(denom):
return num % denom != 0
accept_callbacks.append(not_divise_num)
denom = filter_random(
min_denom, max_denom, rejected_denom, accept_callbacks
)
else:
denom = fix_denom
frac = MOFraction(num, denom)
return cls(frac, name)
@property
def numerator(self):
return self._mo.numerator
""" Get numerator of the fraction
:example:
>>> a = Fraction("3/4")
>>> a.numerator
<Integer 3>
"""
return Integer(self._mo.numerator)
@property
def denominator(self):
return self._mo.denominator
""" Get denominator of the fraction
:example:
>>> a = Fraction("3/4")
>>> a.denominator
<Integer 4>
"""
return Integer(self._mo.denominator)
@property
def decimal(self):
@ -255,7 +157,58 @@ class Fraction(Token):
>>> f.decimal
<Decimal 0.3333333333333333333333333333>
"""
return Decimal(_Decimal(self._mo.numerator._value) / _Decimal(self._mo.denominator._value))
return Decimal(self._mo._value)
@property
def simplified(self):
""" Get the irreductible version of self
:example:
>>> f = Fraction("3/4")
>>> f.simplified
<Fraction 3 / 4>
>>> f = Fraction("12/9")
>>> f.simplified
<Fraction 4 / 3>
>>> f = Fraction("12/4")
>>> f.simplified
<Integer 3>
"""
simplified = self._mo.simplified()
if isinstance(simplified, MOnumber):
return Integer(simplified)
return Fraction(simplified)
def simplify(self):
""" Itself or its simplified version
:example:
>>> f = Fraction("12/8")
>>> fs = f.simplify()
>>> for i in fs.explain():
... print(i)
12 / 8
3 / 2
>>> f = Fraction("5/8")
>>> fs = f.simplify()
>>> for i in fs.explain():
... print(i)
5 / 8
"""
simplified = self.simplified
try:
if self.numerator == simplified.numerator:
return self
except AttributeError:
pass
simplified._ancestor = self
return simplified
# -----------------------------

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@ -15,6 +15,7 @@ from .token import Token
from . import to_be_token
from ...core.MO import MO
from ...core.MO.atoms import moify
from ...core.MO.polynomial import MOpolynomial
__all__ = ["Polynomial", "Quadratic", "Linear"]
@ -44,13 +45,21 @@ class Polynomial(Token):
return cls(mo, name, ancestor)
@classmethod
def from_coefficients(cls, coefficients):
""" Initiate polynomial from list of coefficients """
pass
def from_coefficients(cls, coefficients, variable_name="x", name=""):
""" Initiate polynomial from list of coefficients
@classmethod
def random(cls):
raise NotImplementedError
:examples:
>>> P = Polynomial.from_coefficients([1, 2, 3])
>>> P
<Polynomial 3x^2 + 2x + 1>
>>> P = Polynomial.from_coefficients([1, 2, -3])
>>> P
<Polynomial - 3x^2 + 2x + 1>
>>> P = Polynomial.from_coefficients([1, 2, 3], "y")
>>> P
<Polynomial 3y^2 + 2y + 1>
"""
return cls(MOpolynomial(variable_name, coefficients), name)
@property
def raw(self):
@ -135,7 +144,11 @@ class Linear(Polynomial):
>>> P.differentiate()
<Integer 2>
>>> P.roots
[<Fraction - 2 / 1>]
[<Integer - 2>]
>>> for i in P.roots[0].explain():
... print(i)
- 2 / 1
- 2
"""
@ -154,10 +167,6 @@ class Linear(Polynomial):
Polynomial.__init__(self, mo, name, ancestor)
self._mathtype = "affine"
@classmethod
def random(cls):
raise NotImplementedError
@property
@to_be_token
def a(self):
@ -177,9 +186,20 @@ class Linear(Polynomial):
>>> from ...core.MO.polynomial import MOpolynomial, MOMonomial
>>> P = Linear(MOpolynomial('x', [1, 2]))
>>> P.roots
[<Fraction - 2 / 1>]
>>> #P = Linear(MOpolynomial('x', [1, -2]))
>>> #P.roots
[<Integer - 2>]
>>> P = Linear(MOpolynomial('x', [2, 1]))
>>> P.roots
[<Fraction - 1 / 2>]
>>> for i in P.roots[0].explain():
... print(i)
- 1 / 2
>>> P = Linear(MOpolynomial('x', [10, 6]))
>>> P.roots
[<Fraction - 3 / 5>]
>>> for i in P.roots[0].explain():
... print(i)
- 6 / 10
- 3 / 5
"""
try:
@ -230,10 +250,6 @@ class Quadratic(Polynomial):
Polynomial.__init__(self, mo, name, ancestor)
self._mathtype = "polynome du 2nd degré"
@classmethod
def random(cls):
raise NotImplementedError
@property
@to_be_token
def a(self):

View File

@ -10,7 +10,7 @@
Tokens: practical envelop of math object
"""
from ..renders import renders
from ..renders import render
from ...core.MO.atoms import moify
@ -18,30 +18,12 @@ class Token(object):
""" Token: practical envelop of an math object """
RENDER = "txt"
def __init__(self, mo, name="", ancestor=None):
self._mo = mo
self.name = name
self._mathtype = None
self._ancestor = ancestor
@classmethod
def random(
cls,
family="integer",
**kwds
):
raise NotImplemented
@classmethod
def set_render(cls, render):
""" Define default render function
:param render: render name (txt or tex)
"""
cls.RENDER = render
def explain(self):
""" Yield every calculus step which have lead to self
@ -64,25 +46,16 @@ class Token(object):
yield self
def __repr__(self):
return f"<{self.__class__.__name__} {self.__txt__}>"
try:
return f"<{self.__class__.__name__} {render(self._mo._tree, 'txt')}>"
except AttributeError:
return f"<{self.__class__.__name__} {render(self._mo, 'txt')}>"
def __str__(self):
if self.RENDER == "tex":
return self.__tex__
elif self.RENDER == "txt":
return self.__txt__
else:
raise ValueError(f"Unknow render {self.RENDER}")
# return renders[self.RENDER](self._mo)
@property
def __txt__(self):
return self._mo.__txt__
@property
def __tex__(self):
return self._mo.__tex__
try:
return render(self._mo._tree)
except AttributeError:
return render(self._mo)
@property
def raw(self):
@ -261,11 +234,10 @@ class Token(object):
>>> c = a ** 2
>>> c
<Decimal 5.29>
"""
"""
return self._operate(other, "^")
def _roperate(self, other, operation):
""" Make a operation between 2 Tokens """
from ..expression import Expression
@ -315,6 +287,7 @@ class Token(object):
<Linear x - 3>
"""
return self._roperate(other, "-")
def __rmul__(self, other):
""" Multiply 2 Tokens or a Token and a Expression
@ -342,7 +315,6 @@ class Token(object):
"""
return self._roperate(other, "/")
def _get_soul(self, other=None):
""" Get the builtin soul of self or other """
if isinstance(other, Token):

View File

@ -12,8 +12,7 @@ Make calculus as a student
Expression is the classe wich handle all calculus. It can randomly generate or import calculus, simplify them and explain them as a student would do.
>>> from mapytex.calculus import Expression
>>> Expression.set_render("txt")
>>> render.set_render("txt")
>>> e = Expression.from_str("2x + 6 - 3x")
>>> print(e)
2x + 6 - 3x
@ -27,16 +26,23 @@ Expression is the classe wich handle all calculus. It can randomly generate or i
(2 - 3) * x + 6
- x + 6
Create random Expression
========================
>>> e = random.expression("{a} / {b} + {c} / {d}")
>>> print(e) # doctest: +SKIP
- 3 / - 10 + 3 / 5
"""
from .API import Expression, Integer, Decimal
from .core import random_list
from decimal import getcontext
from .API import render, Expression
#from decimal import getcontext
from . import random
#getcontext().prec = 2
__all__ = ["Expression"]
__all__ = ["render", "Expression", "random"]
# -----------------------------

View File

@ -37,7 +37,7 @@ def moify_cor(target):
>>> for i in [-2, "+", "x", "*", Decimal("3.3")]:
... list2molist.send(i)
>>> list2molist.throw(STOOOP)
[<MOnumber - 2>, '+', <MOstr x>, '*', <MOnumber 3.3>]
[<MOnumber -2>, '+', <MOstr x>, '*', <MOnumber 3.3>]
"""
try:
@ -78,7 +78,7 @@ class MOnumber(Atom):
>>> MOnumber(23)
<MOnumber 23>
>>> MOnumber(-23)
<MOnumber - 23>
<MOnumber -23>
As expected there will be trouble with float
@ -90,13 +90,13 @@ class MOnumber(Atom):
>>> MOnumber(Decimal("23.3"))
<MOnumber 23.3>
>>> MOnumber(Decimal("-23.3"))
<MOnumber - 23.3>
<MOnumber -23.3>
Or directly passe a decimal string
>>> MOnumber("23.3")
<MOnumber 23.3>
>>> MOnumber("-23.3")
<MOnumber - 23.3>
<MOnumber -23.3>
MOnumber initialisation is idempotent
@ -259,7 +259,8 @@ class MOstr(Atom):
f"An MOstr should be initiate with a single caracter string, got {val}"
)
if not val.isalpha():
raise MOError(f"An MOstr should be initiate with a alpha string, got {val}")
raise MOError(
f"An MOstr should be initiate with a alpha string, got {val}")
Atom.__init__(self, val)

View File

@ -9,6 +9,8 @@
from mapytex.calculus.core.tree import Tree
from .mo import Molecule, MO
from .atoms import MOnumber
from decimal import Decimal
from ..arithmetic import gcd
__all__ = ["MOFraction"]
@ -32,10 +34,10 @@ class MOFraction(Molecule):
>>> f = MOFraction(2, 3)
>>> f
<MOFraction 2 / 3>
>>> print(f.__txt__)
2 / 3
>>> print(f.__tex__)
\\dfrac{2}{3}
>>> print(f.tree)
/
> 2
> 3
>>> print(f)
2 / 3
>>> f = MOFraction(2, 3, negative = True)
@ -44,11 +46,13 @@ class MOFraction(Molecule):
"""
_numerator = MO.factory(numerator)
_denominator = MO.factory(denominator)
base_tree = Tree("/", _numerator, _denominator)
if negative:
tree = Tree("-", None, base_tree)
else:
tree = base_tree
Molecule.__init__(self, tree)
self._numerator = _numerator
@ -68,6 +72,10 @@ class MOFraction(Molecule):
def denominator(self):
return self._denominator
@property
def _value(self):
return Decimal(self._numerator._value) / Decimal(self._denominator._value)
def inverse(self):
""" return the inverse fraction """
return MOFraction(self._denominator, self._numerator, self.negative)
@ -88,6 +96,37 @@ class MOFraction(Molecule):
else:
raise NotImplementedError
def simplified(self):
""" Simplified version of self
:examplex
>>> f = MOFraction(2, 3)
>>> f
<MOFraction 2 / 3>
>>> f.simplified()
<MOFraction 2 / 3>
>>> f = MOFraction(2, 6)
>>> f
<MOFraction 2 / 6>
>>> f.simplified()
<MOFraction 1 / 3>
>>> f = MOFraction(32, 24)
>>> f.simplified()
<MOFraction 4 / 3>
>>> f = MOFraction(32, 8)
>>> f.simplified()
<MOnumber 4>
"""
frac_gcd = gcd(self.numerator._value, self.denominator._value)
new_num = self.numerator._value / frac_gcd
new_denom = self.denominator._value / frac_gcd
if new_denom == 1:
return MOnumber(new_num)
return MOFraction(new_num, new_denom)
# -----------------------------
# Reglages pour 'vim'

View File

@ -57,20 +57,12 @@ class MO(ABC):
pass
def __repr__(self):
return f"<{self.__class__.__name__} {self.__txt__}>"
return f"<{self.__class__.__name__} {self.__str__()}>"
@abstractmethod
def __str__(self):
pass
@abstractmethod
def __txt__(self):
pass
@abstractmethod
def __tex__(self):
pass
def __hash__(self):
try:
return self._tree.__hash__()
@ -161,21 +153,21 @@ class Molecule(MO):
It is a wrapping of tree
Its wrapping tree can be access throw .tree property
Its wrapping tree can be access through .tree property
"""
MAINOP = None
def __init__(self, value):
def __init__(self, tree):
""" Initiate the MO
It should be idempotent.
"""
try:
self._tree = value._tree
self._tree = tree._tree
except AttributeError:
self._tree = value
self._tree = tree
self.is_scalar = True
self._signature = None
@ -186,18 +178,10 @@ class Molecule(MO):
@property
def content(self):
return self._tree
return self.tree
def __str__(self):
return str(self.__txt__)
@property
def __txt__(self):
return tree2txt(self._tree)
@property
def __tex__(self):
return tree2tex(self._tree)
return tree2txt(self.tree)
# -----------------------------

View File

@ -31,10 +31,10 @@ class MOstrPower(Molecule):
<MOstrPower x^2>
>>> print(s)
x^2
>>> print(s.__txt__)
x^2
>>> print(s.__tex__)
x^{2}
>>> print(s.tree)
^
> x
> 2
>>> MOstrPower(3, 1)
Traceback (most recent call last):
...
@ -59,7 +59,8 @@ class MOstrPower(Molecule):
"""
_variable = MO.factory(variable)
if not isinstance(_variable, MOstr):
raise MOError("The variable of a monomial should be convertible into MOstr")
raise MOError(
"The variable of a monomial should be convertible into MOstr")
self._variable = _variable
_power = MO.factory(power)
@ -123,7 +124,8 @@ class MOstrPower(Molecule):
"""
if self._power > 2:
return Tree(
"*", self.power, MOstrPower(self.variable, self._power._value - 1)
"*", self.power, MOstrPower(self.variable,
self._power._value - 1)
)
return Tree("*", self.power, MOstr(self.variable))
@ -147,22 +149,20 @@ class MOMonomial(Molecule):
<MOMonomial 4x>
>>> print(m)
4x
>>> print(m.__txt__)
4x
>>> print(m.__tex__)
4x
>>> print(m.tree)
*
> 4
> x
>>> x = MOstrPower('x', 2)
>>> MOMonomial(4, x)
<MOMonomial 4x^2>
>>> m = MOMonomial(4, 'x')
>>> m = MOMonomial(-1, 'x')
>>> m
<MOMonomial 4x>
>>> print(m)
4x
>>> print(m.__txt__)
4x
>>> print(m.__tex__)
4x
<MOMonomial - x>
>>> print(m.tree)
-
> None
> x
>>> MOMonomial(4, 'x', 1)
<MOMonomial 4x>
>>> MOMonomial(4, 'x', 2)
@ -170,6 +170,13 @@ class MOMonomial(Molecule):
>>> x2 = MOstrPower('x', 2)
>>> MOMonomial(4, x2, 3)
<MOMonomial 4x^6>
>>> m = MOMonomial(-1, 'x', 2)
>>> m
<MOMonomial - x^2>
>>> print(m.tree)
-
> None
> x^2
>>> MOMonomial(0, x)
Traceback (most recent call last):
...
@ -199,34 +206,21 @@ class MOMonomial(Molecule):
self._power = _power
try:
if self._coefficient.value != 1:
_tree = Tree("*", self._coefficient, self.strpower)
else:
if self.coefficient.value == 1:
_tree = self.strpower
else:
_tree = Tree("*", self.coefficient, self.strpower)
except AttributeError:
_tree = Tree("*", self._coefficient, self.strpower)
_tree = Tree("*", self.coefficient, self.strpower)
Molecule.__init__(self, _tree)
def __str__(self):
if self._coefficient != -1:
return super(MOMonomial, self).__str__()
else:
return "- " + self.strpower.__str__()
@property
def __txt__(self):
if self._coefficient != -1:
return super(MOMonomial, self).__txt__
else:
return "- " + self.strpower.__txt__
def tree(self):
if self._coefficient == -1:
return Tree("-", None, self.strpower)
@property
def __tex__(self):
if self._coefficient != -1:
return super(MOMonomial, self).__tex__
else:
return "- " + self.strpower.__tex__
return Tree("*", self.coefficient, self.strpower)
@property
def coefficient(self):

View File

@ -66,7 +66,6 @@ from .tree import Tree, AssocialTree
from .compute import compute
from .typing import typing, TypingError
from .renders import tree2txt, tree2tex
from .random import list_generator as random_list
# -----------------------------

View File

@ -40,7 +40,7 @@ def compute(node, left_v, right_v):
>>> compute("+", MOnumber(1), MOnumber(2))
<MOnumber 3>
>>> compute("-", None, MOnumber(2))
<MOnumber - 2>
<MOnumber -2>
>>> compute("*", MOnumber(1), MOnumber(2))
<MOnumber 2>
>>> compute("~", MOnumber(1), MOnumber(2))
@ -70,7 +70,8 @@ def compute_capacities(node):
op = OPERATIONS[node]
lines = [[node] + [mo.__name__ for mo in MOS]]
for left_mo in MOS:
lines.append([left_mo.__name__] + [(left_mo, i) in op.funcs for i in MOS])
lines.append([left_mo.__name__] +
[(left_mo, i) in op.funcs for i in MOS])
return lines

View File

@ -35,7 +35,7 @@ def monumber(_, right):
>>> a = MOnumber(4)
>>> minus(None, a)
<MOnumber - 4>
<MOnumber -4>
"""
return MO.factory(-right.value)

View File

@ -1,288 +0,0 @@
#! /usr/bin/env python
# -*- coding: utf-8 -*-
# vim:fenc=utf-8
#
# Copyright © 2017 lafrite <lafrite@Poivre>
#
# Distributed under terms of the MIT license.
"""
Tools to extract random leafs, random variables, generate random values and
fill new trees
Flow
----
Tree with RdLeaf
|
| Extract rdLeaf
|
List of leafs to generate
|
| extract_rv
|
List random variables to generate
|
| Generate
|
Dictionnary of generated random variables
|
| Compute leafs
|
Dictionnary of computed leafs
|
| Replace
|
Tree with RdLeaf replaced by generated values
:example:
>>> from ..tree import Tree
>>> rd_t = Tree("/", RdLeaf("a"), RdLeaf("a*k"))
>>> print(rd_t)
/
> {a}
> {a*k}
>>> leafs = extract_rdleaf(rd_t)
>>> leafs
['a', 'a*k']
>>> rd_varia = extract_rv(leafs)
>>> sorted(list(rd_varia))
['a', 'k']
>>> generated = random_generator(rd_varia, conditions=['a%2+1'])
>>> generated # doctest: +SKIP
{'a': 7, 'k': 4}
>>> computed = compute_leafs(leafs, generated)
>>> computed # doctest: +SKIP
{'a': 7, 'a*k': 28}
>>> replaced = replace_rdleaf(rd_t, computed)
>>> print(replaced) # doctest: +SKIP
/
> 7
> 28
List generator
--------------
This function ignores tree structure and works with lists
>>> values = list_generator(["a", "a*b", "b", "c"], conditions=["b%c==1"])
>>> values # doctest: +SKIP
{'a': -8, 'a*b': -40, 'b': 5, 'c': 4}
"""
__all__ = ["list_generator"]
from random import choice
from functools import reduce
from .leaf import RdLeaf
def extract_rdleaf(tree):
""" Extract rdLeaf in a Tree
:example:
>>> from ..tree import Tree
>>> rd_t = Tree("+", RdLeaf("a"), RdLeaf("a*k"))
>>> extract_rdleaf(rd_t)
['a', 'a*k']
>>> rd_t = Tree("+", RdLeaf("a"), 2)
>>> extract_rdleaf(rd_t)
['a']
"""
rd_leafs = []
for leaf in tree.get_leafs():
try:
leaf.rdleaf
except AttributeError:
pass
else:
rd_leafs.append(leaf.name)
return rd_leafs
def extract_rv(leafs):
""" Extract the set of random values from the leaf list
:param leafs: list of leafs
:return: set of random values
:example:
>>> leafs = ["a", "a*k"]
>>> extract_rv(leafs) == {'a', 'k'}
True
"""
rd_values = set()
for leaf in leafs:
for c in leaf:
if c.isalpha():
rd_values.add(c)
return rd_values
def compute_leafs(leafs, generated_values):
""" Compute leafs from generated random values
:param generated_values: Dictionnary of name:generated value
:param leafs: list of leafs
:return: Dictionnary of evaluated leafs from generated values
:example:
>>> leafs = ["a", "a*k"]
>>> generated_values = {"a":2, "k":3}
>>> compute_leafs(leafs, generated_values)
{'a': 2, 'a*k': 6}
"""
return {leaf: eval(leaf, generated_values) for leaf in leafs}
def replace_rdleaf(tree, computed_leafs):
""" Replace RdLeaf by the corresponding computed value
>>> from ..tree import Tree
>>> rd_t = Tree("+", RdLeaf("a"), RdLeaf("a*k"))
>>> computed_leafs = {'a': 2, 'a*k': 6}
>>> print(replace_rdleaf(rd_t, computed_leafs))
+
> 2
> 6
"""
def replace(leaf):
try:
return leaf.replace(computed_leafs)
except AttributeError:
return leaf
return tree.map_on_leaf(replace)
def random_generator(
rd_variables, conditions=[], rejected=[0], min_max=(-10, 10), variables_scope={}
):
""" Generate random variables
:param rd_variables: list of random variables to generate
:param conditions: condition over variables
:param rejected: Rejected values for the generator (default [0])
:param min_max: (min, max) limits in between variables will be generated
:param variables_scope: rejected and min_max define for individual variables
:return: dictionnary of generated variables
:example:
>>> gene = random_generator(["a", "b"],
... ["a > 0"],
... [0], (-10, 10),
... {"a": {"rejected": [0, 1]},
... "b": {"min_max": (-5, 0)}})
>>> gene["a"] > 0
True
>>> gene["a"] != 0
True
>>> gene["b"] < 0
True
>>> gene = random_generator(["a", "b"],
... ["a % b == 0"],
... [0, 1], (-10, 10))
>>> gene["a"] not in [0, 1]
True
>>> gene["b"] in list(range(-10, 11))
True
>>> gene["a"] % gene["b"]
0
"""
complete_scope = build_variable_scope(
rd_variables, rejected, min_max, variables_scope
)
choices_list = {
v: list(
set(
range(
complete_scope[v]["min_max"][0], complete_scope[v]["min_max"][1] + 1
)
).difference(complete_scope[v]["rejected"])
)
for v in rd_variables
}
# quantity_choices = reduce(lambda x,y : x*y,
# [len(choices_list[v]) for v in choices_list])
# TODO: améliorer la méthode de rejet avec un cache |dim. mai 12 17:04:11 CEST 2019
generate_variable = {v: choice(choices_list[v]) for v in rd_variables}
while not all([eval(c, __builtins__, generate_variable) for c in conditions]):
generate_variable = {v: choice(choices_list[v]) for v in rd_variables}
return generate_variable
def build_variable_scope(rd_variables, rejected, min_max, variables_scope):
""" Build variables scope from incomplete one
:param rd_variables: list of random variables to generate
:param rejected: Rejected values for the generator
:param min_max: (min, max) limits in between variables will be generated
:param variables_scope: rejected and min_max define for individual variables
:return: complete variable scope
:example:
>>> completed = build_variable_scope(["a", "b", "c", "d"], [0], (-10, 10),
... {"a": {"rejected": [0, 1]},
... "b": {"min_max": (-5, 0)},
... "c": {"rejected": [2], "min_max": (0, 5)}})
>>> complete = {'a': {'rejected': [0, 1], 'min_max': (-10, 10)},
... 'b': {'rejected': [0], 'min_max': (-5, 0)},
... 'c': {'rejected': [2], 'min_max': (0, 5)},
... 'd': {'rejected': [0], 'min_max': (-10, 10)}}
>>> completed == complete
True
"""
complete_scope = variables_scope.copy()
for v in rd_variables:
try:
complete_scope[v]
except KeyError:
complete_scope[v] = {"rejected": rejected, "min_max": min_max}
else:
try:
complete_scope[v]["rejected"]
except KeyError:
complete_scope[v]["rejected"] = rejected
try:
complete_scope[v]["min_max"]
except KeyError:
complete_scope[v]["min_max"] = min_max
return complete_scope
def list_generator(var_list, conditions=[], rejected=[0], min_max=(-10, 10), variables_scope={}, dictionnary=False):
""" Generate random computed values from the list
:param rd_variables: list of random variables to generate (can be computed value - "a*b")
:param conditions: condition over variables
:param rejected: Rejected values for the generator (default [0])
:param min_max: (min, max) limits in between variables will be generated
:param variables_scope: rejected and min_max define for individual variables
:param dictionnary: the return value will be a dictionnary with var_list as keys (default False)
:return: dictionnary of generated variables
:example:
>>> a, ab, b, c = list_generator(["a", "a*b", "b", "c"])
>>> a, ab, b, c # doctest: +SKIP
(5, -20, -4, -3)
>>> a * b == ab
True
>>> ab # doctest: +SKIP
-20
>>> a, b # doctest: +SKIP
5, -4
>>> list_generator(["a", "a*b", "b", "c"], dictionnary=True) # doctest: +SKIP
{'a': -3, 'a*b': 18, 'b': -6, 'c': -4}
"""
rv = extract_rv(var_list)
rv_gen = random_generator(rv, conditions, rejected, min_max, variables_scope)
generated = compute_leafs(var_list, rv_gen)
if dictionnary:
return generated
return [generated[v] for v in var_list]

View File

@ -91,9 +91,11 @@ def mul2tex(left, right):
'- 3x'
>>> mul2tex(a, a)
'x \\times x'
>>> mul2tex(a, MO.factory(-3))
'x(- 3)'
"""
left_ = render_with_parenthesis(left, "*")
right_ = render_with_parenthesis(right, "*")
right_ = render_with_parenthesis(right, "*", is_at_right=True)
display_time = True
# if (right_[0].isalpha() and (left_.isnumeric() or left_.isdecimal())) or right_[
@ -183,23 +185,17 @@ def pow2tex(left, right):
return f"{left_}^{{{right_}}}"
def render_with_parenthesis(subtree, operator):
def render_with_parenthesis(subtree, operator, is_at_right=False):
subtree_need_parenthesis = False
try:
subtree.node
except AttributeError:
try:
if (
OPERATORS[subtree.MAINOP]["precedence"]
< OPERATORS[operator]["precedence"]
):
subtree_need_parenthesis = True
except (AttributeError, KeyError):
pass
try:
subtree_ = subtree.__tex__
except AttributeError:
subtree_ = str(subtree)
if subtree_.startswith("-") and OPERATORS["-"]["precedence"] < OPERATORS[operator]["precedence"] and is_at_right:
subtree_need_parenthesis = True
else:
if OPERATORS[subtree.node]["precedence"] < OPERATORS[operator]["precedence"]:
subtree_need_parenthesis = True
@ -210,7 +206,8 @@ def render_with_parenthesis(subtree, operator):
return subtree_
OPERATOR2TEX = {"+": plus2tex, "-": minus2tex, "*": mul2tex, "/": div2tex, "^": pow2tex}
OPERATOR2TEX = {"+": plus2tex, "-": minus2tex,
"*": mul2tex, "/": div2tex, "^": pow2tex}
def tree2tex(tree):
@ -230,8 +227,17 @@ def tree2tex(tree):
from ..tree import Tree
if not isinstance(tree, Tree):
raise ValueError(f"Can only render a Tree (got {type(tree).__name__}: {tree})")
return OPERATOR2TEX[tree.node](tree.left_value, tree.right_value)
raise ValueError(
f"Can only render a Tree (got {type(tree).__name__}: {tree})")
def expand(leaf):
try:
return leaf.tree
except AttributeError:
return leaf
expanded_tree = tree.map_on_leaf(expand)
return OPERATOR2TEX[expanded_tree.node](expanded_tree.left_value, expanded_tree.right_value)
# -----------------------------

View File

@ -91,11 +91,13 @@ def mul2txt(left, right):
'- 3x'
>>> mul2txt(a, a)
'x * x'
>>> mul2txt(a, MO.factory(-3))
'x(- 3)'
"""
display_time = True
left_ = render_with_parenthesis(left, "*")
right_ = render_with_parenthesis(right, "*")
right_ = render_with_parenthesis(right, "*", is_at_right=True)
if right_[0].isalpha():
# TODO: C'est bien beurk en dessous... |ven. déc. 21 12:03:07 CET 2018
@ -187,23 +189,22 @@ def pow2txt(left, right):
return f"{left_}^{right_}"
def render_with_parenthesis(subtree, operator):
def tree_with_parenthesis(subtree, operator):
""" Assuming the subtree is a tree, then have .node """
pass
def render_with_parenthesis(subtree, operator, is_at_right=False):
subtree_need_parenthesis = False
try:
subtree.node
except AttributeError:
try:
if (
OPERATORS[subtree.MAINOP]["precedence"]
< OPERATORS[operator]["precedence"]
):
subtree_need_parenthesis = True
except (AttributeError, KeyError):
pass
try:
subtree_ = subtree.__txt__
except AttributeError:
subtree_ = str(subtree)
if subtree_.startswith("-") and OPERATORS["-"]["precedence"] < OPERATORS[operator]["precedence"] and is_at_right:
subtree_need_parenthesis = True
else:
if OPERATORS[subtree.node]["precedence"] < OPERATORS[operator]["precedence"]:
subtree_need_parenthesis = True
@ -214,7 +215,8 @@ def render_with_parenthesis(subtree, operator):
return subtree_
OPERATOR2TXT = {"+": plus2txt, "-": minus2txt, "*": mul2txt, "/": div2txt, "^": pow2txt}
OPERATOR2TXT = {"+": plus2txt, "-": minus2txt,
"*": mul2txt, "/": div2txt, "^": pow2txt}
def tree2txt(tree):
@ -234,8 +236,17 @@ def tree2txt(tree):
from ..tree import Tree
if not isinstance(tree, Tree):
raise ValueError(f"Can only render a Tree (got {type(tree).__name__}: {tree})")
return OPERATOR2TXT[tree.node](tree.left_value, tree.right_value)
raise ValueError(
f"Can only render a Tree (got {type(tree).__name__}: {tree})")
def expand(leaf):
try:
return leaf.tree
except AttributeError:
return leaf
expanded_tree = tree.map_on_leaf(expand)
return OPERATOR2TXT[expanded_tree.node](expanded_tree.left_value, expanded_tree.right_value)
# -----------------------------

View File

@ -15,7 +15,6 @@ from decimal import Decimal, InvalidOperation
from .coroutine import *
from .operator import is_operator
from .MO import moify_cor
from .random.leaf import look_for_rdleaf, RdLeaf
__all__ = ["str2"]
@ -395,11 +394,7 @@ def missing_times(target):
elif not is_operator(tok) and tok != ")":
target_.send("*")
if (
isinstance(tok, int)
or (isinstance(tok, str) and not is_operator(tok) and not tok == "(")
or (isinstance(tok, RdLeaf))
):
if not ( is_operator(tok) or tok =="(" ):
previous = tok
target_.send(tok)
@ -484,7 +479,8 @@ def lookforNumbers(target):
if current.replace("-", "", 1).isdigit():
current += tok
else:
raise ParsingError(f"Can't build decimal with '{current}'")
raise ParsingError(
f"Can't build decimal with '{current}'")
elif tok == "-":
if current == "":
current = tok
@ -802,7 +798,8 @@ def str2(sink, convert_to_mo=True):
operator_corout(missing_times(moify_cor(pparser(sink))))
)
else:
str2_corout = lookforNumbers(operator_corout(missing_times(pparser(sink))))
str2_corout = lookforNumbers(
operator_corout(missing_times(pparser(sink))))
for i in expression.replace(" ", ""):
str2_corout.send(i)
@ -812,37 +809,7 @@ def str2(sink, convert_to_mo=True):
return pipeline
def rdstr2(sink):
""" Return a pipeline which parse random expression and with sink as endpoint
:example:
>>> rdstr2list = rdstr2(list_sink)
>>> rdstr2list("{a}+{a*b}-2")
[<RdLeaf a>, '+', <RdLeaf a*b>, '+', <MOnumber - 2>]
>>> rdstr2list("{a}({b}x+{c})")
[<RdLeaf a>, '*', [<RdLeaf b>, '*', <MOstr x>, '+', <RdLeaf c>]]
"""
lfop = lookfor(is_operator)
operator_corout = partial(concurent_broadcast, lookfors=[lfop])
def pipeline(expression):
str2_corout = look_for_rdleaf(
lookforNumbers(operator_corout(missing_times(moify_cor(pparser(sink)))))
)
for i in expression.replace(" ", ""):
str2_corout.send(i)
a = str2_corout.throw(STOOOP)
return a
return pipeline
str2nestedlist = str2(list_sink)
# -----------------------------
# Reglages pour 'vim'
# vim:set autoindent expandtab tabstop=4 shiftwidth=4:

View File

@ -11,7 +11,7 @@ Tree class
from .tree_tools import to_nested_parenthesis, postfix_concatenate, show_tree
from .coroutine import coroutine, STOOOP
from .str2 import str2, rdstr2
from .str2 import str2
from .operator import OPERATORS, is_operator
__all__ = ["Tree", "MutableTree"]
@ -51,7 +51,7 @@ class Tree:
self.right_value = right_value
@classmethod
def from_str(cls, expression, convert_to_mo=True, random=False):
def from_str(cls, expression, convert_to_mo=True):
""" Initiate a tree from an string expression
:example:
@ -77,26 +77,8 @@ class Tree:
> *
| > 3
| > n
>>> t = Tree.from_str("2+{n}x", random=True)
>>> print(t)
+
> 2
> *
| > {n}
| > x
>>> t = Tree.from_str("{a}({b}x+{c})", random=True)
>>> print(t)
*
> {a}
> +
| > *
| | > {b}
| | > x
| > {c}
"""
t = MutableTree.from_str(expression, convert_to_mo, random)
t = MutableTree.from_str(expression, convert_to_mo)
return cls.from_any_tree(t)
@classmethod
@ -907,7 +889,7 @@ class MutableTree(Tree):
self.right_value = right_value
@classmethod
def from_str(cls, expression, convert_to_mo=True, random=False):
def from_str(cls, expression, convert_to_mo=True):
""" Initiate the MutableTree
:example:
@ -963,29 +945,9 @@ class MutableTree(Tree):
| | > 8
| | > 3
| > x
>>> t = MutableTree.from_str("{b}*x+{c}", random=True)
>>> print(t)
+
> *
| > {b}
| > x
> {c}
>>> t = MutableTree.from_str("{a}*({b}*x+{c})", random=True)
>>> print(t)
*
> {a}
> +
| > *
| | > {b}
| | > x
| > {c}
"""
if random:
str_2_mut_tree = rdstr2(cls.sink)
return str_2_mut_tree(expression)
else:
str_2_mut_tree = str2(cls.sink, convert_to_mo)
return str_2_mut_tree(expression)
str_2_mut_tree = str2(cls.sink, convert_to_mo)
return str_2_mut_tree(expression)
@classmethod
@coroutine

View File

@ -0,0 +1,19 @@
from .list import list_generator as list
from .expression import expression_generator as expression
__all__ = ["list", "expression"]
"""
Generate random stuffs
======================
list_generator
==============
Generate random lists
expression_generator
====================
Generate random Expression
"""

View File

@ -0,0 +1,65 @@
#! /usr/bin/env python
# -*- coding: utf-8 -*-
# vim:fenc=utf-8
#
# Copyright © 2017 lafrite <lafrite@Poivre>
#
# Distributed under terms of the MIT license.
"""
Tools to extract random leaves, random variables, generate random values and
fill new trees
Flow
----
Tree with RdLeaf
|
| Extract rdLeaf
|
List of leaves to generate
|
| extract_rv
|
List random variables to generate
|
| Generate
|
Dictionnary of generated random variables
|
| Compute leaves
|
Dictionnary of computed leaves
|
| Replace
|
Tree with RdLeaf replaced by generated values
:example:
>>> from .random_tree import RandomTree
>>> from .leaf import RdLeaf
>>> from .generate import random_generator
>>> from .grammar import extract_letters, eval_words
>>> rd_t = RandomTree("/", RdLeaf("a"), RdLeaf("a*k"))
>>> print(rd_t)
/
> {a}
> {a*k}
>>> leaves = rd_t.random_leaves
>>> leaves = ['a', 'a*k']
>>> rd_varia = extract_letters(leaves)
>>> sorted(list(rd_varia))
['a', 'k']
>>> generated = random_generator(rd_varia, conditions=['a%2+1'], global_config={"min_max": (-10, 10), "rejected":[0, 1]})
>>> generated # doctest: +SKIP
{'a': 7, 'k': 4}
>>> computed = eval_words(leaves, generated)
>>> computed # doctest: +SKIP
{'a': 7, 'a*k': 28}
>>> replaced = rd_t.eval_random_leaves(computed)
>>> print(replaced) # doctest: +SKIP
/
> 7
> 28
"""

View File

@ -0,0 +1,116 @@
#! /usr/bin/env python
# -*- coding: utf-8 -*-
# vim:fenc=utf-8
#
# Copyright © 2017 lafrite <lafrite@Poivre>
#
# Distributed under terms of the MIT license.
from random import choice
import math
EVAL_FUN = {**math.__dict__}
def complete_variable_configs(
variables, global_config: dict = {}, configs: dict = {}
) -> dict:
"""Completes variables configurations with the global configuration
:param variables: list of random variables to generate
:param global_config: global parameters
:param configs: global parameters
:return: complete variable scope
:example:
>>> completed = complete_variable_configs(["a", "b", "c", "d"],
... global_config={"rejected": [], "min_max": (-10, 10)},
... configs={
... "a": {"rejected": [0, 1]},
... "b": {"min_max": (-5, 0)},
... "c": {"rejected": [2], "min_max": (0, 5)}
... })
>>> completed["a"] == {'rejected': [0, 1], 'min_max': (-10, 10)}
True
>>> completed["b"] == {'rejected': [], 'min_max': (-5, 0)}
True
>>> completed['c'] == {'rejected': [2], 'min_max': (0, 5)}
True
>>> completed['d'] == {'rejected': [], 'min_max': (-10, 10)}
True
"""
complete_configs = configs.copy()
for variable in variables:
try:
complete_configs[variable]
except KeyError:
complete_configs[variable] = global_config
else:
complete_configs[variable] = dict(global_config, **configs[variable])
return complete_configs
def random_generator(
variables: list[str],
conditions: list[str] = [],
global_config: dict = {},
configs: dict = {},
) -> dict[str, int]:
"""Generate random variables
:param variables: list of random variables to generate
:param conditions: condition over variables
:param global_config: global parameters
:param configs: global parameters
:return: dictionnary of generated variables
In variables and configurations, you have access to all math module functions
:example:
>>> gene = random_generator(["a", "b"],
... ["a > 0"],
... {"rejected": [0], "min_max":(-10, 10)},
... {"a": {"rejected": [0, 1]},
... "b": {"min_max": (-5, 0)},
... })
>>> gene["a"] > 0
True
>>> gene["a"] != 0
True
>>> gene["b"] < 0
True
>>> gene = random_generator(["a", "b"],
... ["a % b == 0"],
... {"rejected": [0, 1], "min_max":(-10, 10)}
... )
>>> gene["a"] not in [0, 1]
True
>>> gene["b"] in list(range(-10, 11))
True
>>> gene["a"] % gene["b"]
0
"""
complete_scope = complete_variable_configs(variables, global_config, configs)
choices_list = {
v: list(
set(
range(
complete_scope[v]["min_max"][0], complete_scope[v]["min_max"][1] + 1
)
).difference(complete_scope[v]["rejected"])
)
for v in variables
}
# quantity_choices = reduce(lambda x,y : x*y,
# [len(choices_list[v]) for v in choices_list])
# TODO: améliorer la méthode de rejet avec un cache |dim. mai 12 17:04:11 CEST 2019
generate_variable = {v: choice(choices_list[v]) for v in variables}
while not all([eval(c, EVAL_FUN, generate_variable) for c in conditions]):
generate_variable = {v: choice(choices_list[v]) for v in variables}
return generate_variable

View File

@ -0,0 +1,43 @@
import math
EVAL_FUN = {**math.__dict__}
def extract_letters(words: list[str]) -> set[str]:
"""Extracts unique letters from a list of words
:param words: list of leafs
:return: set of letters
:example:
>>> leafs = ["a", "a*k"]
>>> extract_letters(leafs) == {'a', 'k'}
True
"""
letters = set()
for word in words:
for c in word:
if c.isalpha():
letters.add(c)
return letters
def eval_words(words: list[str], values: dict[str, int]) -> dict[str, int]:
"""Evaluate words replacing letters with values
:param words: list of words
:param values: Dictionary of letters:value
:return: Dictionary of evaluated words from generated values
In words, you have access to all math module functions
:example:
>>> leafs = ["a", "a*k"]
>>> generated_values = {"a":2, "k":3}
>>> eval_words(leafs, generated_values)
{'a': 2, 'a*k': 6}
>>> leafs = ["exp(a)", "gcd(a, k)"]
>>> generated_values = {"a":2, "k":3}
>>> eval_words(leafs, generated_values)
{'exp(a)': 7.38905609893065, 'gcd(a, k)': 1}
"""
return {word: eval(word, EVAL_FUN, values) for word in words}

View File

@ -16,38 +16,38 @@ __all__ = ["reject_random", "filter_random", "FilterRandom"]
def reject_random(min_value=-10, max_value=10, rejected=[0, 1], accept_callbacks=[]):
""" Generate a random integer with the rejection method
"""Generate a random integer with the rejection method
:param name: name of the Integer
:param min_value: minimum value
:param max_value: maximum value
:param rejected: rejected values
:param accept_callbacks: list of function for value rejection
:param name: name of the Integer
:param min_value: minimum value
:param max_value: maximum value
:param rejected: rejected values
:param accept_callbacks: list of function for value rejection
:example:
>>> a = reject_random()
>>> a not in [0, 1]
True
>>> a >= -10
True
>>> a <= 10
True
>>> a = reject_random(min_value=3, max_value=11, rejected=[5, 7])
>>> a not in [5, 7]
True
>>> a >= 3
True
>>> a <= 11
True
>>> a = reject_random(accept_callbacks=[lambda x: x%2])
>>> a%2
1
>>> random.seed(0)
>>> reject_random()
2
>>> random.seed(1)
>>> reject_random()
-6
:example:
>>> a = reject_random()
>>> a not in [0, 1]
True
>>> a >= -10
True
>>> a <= 10
True
>>> a = reject_random(min_value=3, max_value=11, rejected=[5, 7])
>>> a not in [5, 7]
True
>>> a >= 3
True
>>> a <= 11
True
>>> a = reject_random(accept_callbacks=[lambda x: x%2])
>>> a%2
1
>>> random.seed(0)
>>> reject_random()
2
>>> random.seed(1)
>>> reject_random()
-6
"""
conditions = [lambda x: x not in rejected] + accept_callbacks
@ -60,38 +60,38 @@ def reject_random(min_value=-10, max_value=10, rejected=[0, 1], accept_callbacks
def filter_random(min_value=-10, max_value=10, rejected=[0, 1], accept_callbacks=[]):
""" Generate a random integer by filtering then choosing a candidate
"""Generate a random integer by filtering then choosing a candidate
:param name: name of the Integer
:param min_value: minimum value
:param max_value: maximum value
:param rejected: rejected values
:param accept_callbacks: list of function for value rejection
:param name: name of the Integer
:param min_value: minimum value
:param max_value: maximum value
:param rejected: rejected values
:param accept_callbacks: list of function for value rejection
:example:
>>> a = filter_random()
>>> a not in [0, 1]
True
>>> a >= -10
True
>>> a <= 10
True
>>> a = filter_random(min_value=3, max_value=11, rejected=[5, 7])
>>> a not in [5, 7]
True
>>> a >= 3
True
>>> a <= 11
True
>>> a = filter_random(accept_callbacks=[lambda x: x%2])
>>> a%2
1
>>> random.seed(0)
>>> filter_random()
-7
>>> random.seed(1)
>>> filter_random()
6
:example:
>>> a = filter_random()
>>> a not in [0, 1]
True
>>> a >= -10
True
>>> a <= 10
True
>>> a = filter_random(min_value=3, max_value=11, rejected=[5, 7])
>>> a not in [5, 7]
True
>>> a >= 3
True
>>> a <= 11
True
>>> a = filter_random(accept_callbacks=[lambda x: x%2])
>>> a%2
1
>>> random.seed(0)
>>> filter_random()
-7
>>> random.seed(1)
>>> filter_random()
6
"""
candidates = set(range(min_value, max_value + 1))
candidates = {c for c in candidates if c not in rejected}
@ -111,8 +111,7 @@ def filter_random(min_value=-10, max_value=10, rejected=[0, 1], accept_callbacks
class FilterRandom(object):
""" Integer random generator which filter then choose candidate
"""
"""Integer random generator which filter then choose candidate"""
# TODO: Faire un cache pour éviter de reconstruire les listes à chaque fois |ven. déc. 21 19:07:42 CET 2018
@ -133,7 +132,7 @@ class FilterRandom(object):
}
def add_candidates(self, low, high):
""" Add candidates between low and high to _candidates """
"""Add candidates between low and high to _candidates"""
if low < self._min:
self._min = low
useless_low = False
@ -157,11 +156,11 @@ class FilterRandom(object):
)
def candidates(self, min_value=-10, max_value=10):
""" Return candidates between min_value and max_value """
"""Return candidates between min_value and max_value"""
return [c for c in self._candidates if (c > min_value and c < max_value)]
def __call__(self, min_value=-10, max_value=10):
""" Randomly choose on candidate """
"""Randomly choose on candidate"""
self.add_candidates(min_value, max_value)
return random.choice(self.candidates(min_value, max_value))

View File

@ -9,15 +9,15 @@
"""
"""
from ..coroutine import *
from ...core.coroutine import coroutine, STOOOP
@coroutine
def look_for_rdleaf(target):
""" Coroutine which look to "{...}" which are RdLeaf
"""Coroutine which look to "{...}" which are RdLeaf
:example:
>>> from ..str2 import list_sink
>>> from ...core.str2 import list_sink
>>> str2list = look_for_rdleaf(list_sink)
>>> for i in "{a}+{a*b}-2":
... str2list.send(i)
@ -53,9 +53,7 @@ def look_for_rdleaf(target):
class RdLeaf:
""" Random leaf
"""
"""Random leaf"""
def __init__(self, name):
self._name = name

View File

@ -0,0 +1,118 @@
from ...core.tree import MutableTree, Tree
from ...core.MO import moify
from .grammar import extract_letters, eval_words
from .generate import random_generator
from .str2 import rdstr2
class RandomTree(MutableTree):
"""MutableTree that accept {a} syntax for random generation
:example:
>>> t = RandomTree()
>>> type(t)
<class 'mapytex.calculus.random.core.random_tree.RandomTree'>
"""
@classmethod
def from_str(cls, expression):
"""Initiate a random tree from a string that need to be parsed
:exemple:
>>> t = RandomTree.from_str("{b}*x+{c}")
>>> print(t)
+
> *
| > {b}
| > x
> {c}
>>> t = RandomTree.from_str("{a}*({b}*x+{c})")
>>> print(t)
*
> {a}
> +
| > *
| | > {b}
| | > x
| > {c}
"""
str_2_mut_tree = rdstr2(cls.sink)
return str_2_mut_tree(expression)
@property
def random_leaves(self) -> list[str]:
"""Get list of random leaves
:example:
>>> from .leaf import RdLeaf
>>> random_tree = RandomTree("+", RdLeaf("a"), RdLeaf("a*k"))
>>> random_tree.random_leaves
['a', 'a*k']
>>> random_tree = RandomTree("+", RdLeaf("a"), 2)
>>> random_tree.random_leaves
['a']
"""
rd_leafs = []
for leaf in self.get_leafs():
try:
leaf.rdleaf
except AttributeError:
pass
else:
rd_leafs.append(leaf.name)
return rd_leafs
@property
def random_value(self) -> set[str]:
"""Get set of random values to generate
:example:
>>> from .leaf import RdLeaf
>>> random_tree = RandomTree("+", RdLeaf("a"), RdLeaf("a*k"))
>>> random_tree.random_value == {'a', 'k'}
True
>>> random_tree = RandomTree("+", RdLeaf("a"), 2)
>>> random_tree.random_value
{'a'}
"""
return extract_letters(self.random_leaves)
def eval_random_leaves(self, leaves_value: dict[str, int]):
"""Given random leaves value get the tree
:example:
>>> from .leaf import RdLeaf
>>> rd_t = RandomTree("+", RdLeaf("a"), RdLeaf("a*k"))
>>> leaves_values = {'a': 2, 'a*k': 6}
>>> t = rd_t.eval_random_leaves(leaves_values)
>>> type(t)
<class 'mapytex.calculus.core.tree.Tree'>
>>> print(t)
+
> 2
> 6
"""
def replace(leaf):
try:
return leaf.replace(leaves_value)
except AttributeError:
return leaf
return self.map_on_leaf(replace).map_on_leaf(moify)
def generate(
self, conditions: list[str] = [], global_config: dict = {}, configs: dict = {}
) -> Tree:
"""Generate a random version of self
:param conditions: list of conditions
:param config: global configuration for generated values
:param configs: specific configuration for each generated values
"""
generated_values = random_generator(
self.random_value, conditions, global_config, configs
)
leaves = eval_words(self.random_leaves, generated_values)
return self.eval_random_leaves(leaves)

View File

@ -0,0 +1,40 @@
from ...core.operator import is_operator
from functools import partial
from ...core.str2 import (
concurent_broadcast,
lookforNumbers,
pparser,
missing_times,
lookfor,
)
from ...core.coroutine import STOOOP
from ...core.MO import moify_cor
from .leaf import look_for_rdleaf
def rdstr2(sink):
"""Return a pipeline which parse random expression and with sink as endpoint
:example:
>>> from ...core.str2 import list_sink
>>> rdstr2list = rdstr2(list_sink)
>>> rdstr2list("{a}+{a*b}-2")
[<RdLeaf a>, '+', <RdLeaf a*b>, '+', <MOnumber -2>]
>>> rdstr2list("{a}({b}x+{c})")
[<RdLeaf a>, '*', [<RdLeaf b>, '*', <MOstr x>, '+', <RdLeaf c>]]
"""
lfop = lookfor(is_operator)
operator_corout = partial(concurent_broadcast, lookfors=[lfop])
def pipeline(expression):
str2_corout = look_for_rdleaf(
lookforNumbers(operator_corout(missing_times(moify_cor(pparser(sink)))))
)
for i in expression.replace(" ", ""):
str2_corout.send(i)
a = str2_corout.throw(STOOOP)
return a
return pipeline

View File

@ -0,0 +1,43 @@
from ..API.expression import Expression
from .core.random_tree import RandomTree
DEFAUTL_CONFIG = {
"rejected": [0, 1],
"min_max": (-10, 10),
}
def expression_generator(
template: str,
conditions: list[str] = [],
global_config: dict = {},
configs: dict = {},
):
"""Generate a random expression
:param template: the template of the expression
:param conditions: conditions on randomly generate variable
:param global_config: configuration for all variables
:param configs: configuration for each variables
:return: Expression or Token generated
:example:
>>> e = expression_generator("{a}/{a*k}")
>>> e # doctest: +SKIP
<Exp: -3 / -15>
>>> e = expression_generator("{a}/{a*k} - 3*{b}", configs={'a':{'min_max':(10, 30)}})
>>> e # doctest: +SKIP
<Exp: 18 / 108 - 3 * 9>
>>> e = expression_generator("{a}*x + {b}*x + 3", conditions=["a>b"], global_config={"rejected":[0, 1]})
>>> print(e) # doctest: +SKIP
10x - 6x + 3
>>> ee = e.simplify()
>>> print(ee) # doctest: +SKIP
4x + 3
"""
rd_tree = RandomTree.from_str(template)
generated_tree = rd_tree.generate(
conditions, dict(DEFAUTL_CONFIG, **global_config), configs
)
return Expression._post_processing(generated_tree)

View File

@ -0,0 +1,64 @@
"""
List generator
--------------
This function ignores tree structure and works with lists
>>> values = list_generator(["a", "a*b", "b", "c"], conditions=["b%c==1"])
>>> values # doctest: +SKIP
{'a': -8, 'a*b': -40, 'b': 5, 'c': 4}
"""
from .core.generate import random_generator
from .core.grammar import extract_letters, eval_words
DEFAUTL_CONFIG = {
"rejected": [0],
"min_max": (-10, 10),
}
def list_generator(
template: list[str],
conditions: list[str] = [],
global_config: dict = {},
configs: dict = {},
) -> list[int]:
"""Generate random computed values from the list
:param rd_variables: list of random variables to generate (can be computed value - "a*b")
:param conditions: condition over variables
:param global_config: configuration for all variables
:param configs: configuration for each variables
:return: list of generated variables
:example:
>>> a, ab, b, c = list_generator(["a", "a*b", "b", "c"])
>>> a, ab, b, c # doctest: +SKIP
(5, -20, -4, -3)
>>> a * b == ab
True
>>> ab # doctest: +SKIP
-20
>>> a, b # doctest: +SKIP
5, -4
>>> a, ab, b, c = list_generator(["a", "a*b", "b", "c"], conditions=["a-b==0"])
>>> a - b == 0
True
>>> a, ab, b, c = list_generator(["a", "a*b", "b", "c"], global_config={"rejected": [2, 3, 5, 7]})
>>> a not in [2, 3, 5, 7]
True
>>> b not in [2, 3, 5, 7]
True
>>> c not in [2, 3, 5, 7]
True
>>> a, ab, b, c = list_generator(["a", "a*b", "b", "c"], configs={"a": {"rejected": [2, 3, 5, 7]}})
>>> a not in [2, 3, 5, 7]
True
"""
rv = extract_letters(template)
rv_gen = random_generator(
rv, conditions, dict(DEFAUTL_CONFIG, **global_config), configs
)
generated = eval_words(template, rv_gen)
return [generated[v] for v in template]

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@ -21,6 +21,6 @@ pyparsing==2.3.0
pytest==3.10.1
simplegeneric==0.8.1
six==1.11.0
tabulate==0.8.2
tabulate==0.8.7
traitlets==4.3.2
wcwidth==0.1.7

0
test/__init__.py Normal file
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@ -0,0 +1,31 @@
import mapytex
def test_default_render():
assert mapytex.render.render_name == "txt"
def test_default_rending():
e = mapytex.Expression("2*3")
assert str(e) == "2*3"
def test_changing_render():
assert mapytex.render.render_name == "txt"
mapytex.render.set_render("tex")
assert mapytex.render.render_name == "tex"
mapytex.render.set_render("txt")
assert mapytex.render.render_name == "txt"
def test_changing_rending():
e = mapytex.Expression.from_str("2*3")
f = mapytex.Expression.from_str("2/3")
assert str(e) == "2 * 3"
assert str(f) == "2 / 3"
mapytex.render.set_render("tex")
assert str(e) == "2 \\times 3"
assert str(f) == "\\dfrac{2}{3}"
mapytex.render.set_render("txt")
assert str(e) == "2 * 3"
assert str(f) == "2 / 3"

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import mapytex
def test_generate_expression():
random_expression = mapytex.random.expression("{a}+{b}")
assert type(random_expression).__name__ == "Expression"
random_expression = mapytex.random.expression("{a}/{b}")
assert type(random_expression).__name__ == "Fraction"
def test_generate_expression_calculus():
random_expression = mapytex.random.expression("{a}+{a*b}")
assert type(random_expression).__name__ == "Expression"
random_expression = mapytex.random.expression("{a}/{a*b}", global_config={"min_max": (2, 10)})
assert type(random_expression).__name__ == "Fraction"
assert random_expression.numerator / random_expression.denominator <= 1

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@ -0,0 +1,55 @@
import mapytex
def test_generate_list():
random_list = mapytex.random.list(["a", "b"])
assert len(random_list) == 2
random_list = mapytex.random.list(["a", "b", "c"])
assert len(random_list) == 3
random_list = mapytex.random.list(["a", "b", "a", "b"])
assert random_list[0] == random_list[2]
assert random_list[1] == random_list[3]
def test_generate_list_calculus():
random_list = mapytex.random.list(["a", "b", "a+b"])
assert random_list[0] + random_list[1] == random_list[2]
random_list = mapytex.random.list(["a", "b", "a-b"])
assert random_list[0] - random_list[1] == random_list[2]
random_list = mapytex.random.list(["a", "b", "a*b"])
assert random_list[0] * random_list[1] == random_list[2]
random_list = mapytex.random.list(["a", "b", "a/b"])
assert random_list[0] / random_list[1] == random_list[2]
def test_generate_list_calculus_math():
import math
a, b, gcd = mapytex.random.list(["a", "b", "gcd(a, b)"])
assert math.gcd(a, b) == gcd
a, b, exp, cos = mapytex.random.list(["a", "b", "exp(a)", "cos(b)"])
assert math.exp(a) == exp
assert math.cos(b) == cos
def test_generate_list_conditions():
a, b = mapytex.random.list(["a", "b"], conditions=["a + b == 10"])
assert a + b == 10
a, b = mapytex.random.list(["a", "b"], conditions=["a * b > 0", "a + b == 10"])
assert a + b == 10
assert a * b > 0
def test_generate_list_conditions_math():
import math
a, b = mapytex.random.list(["a", "b"], conditions=["gcd(a, b) == 3"])
assert math.gcd(a, b) == 3
def test_generate_list_global_config():
global_config = {"rejected": [0, 1, 2, 3]}
a, = mapytex.random.list(["a"], global_config=global_config)
assert a not in global_config["rejected"]
global_config = {"min_max": (20, 30)}
a, = mapytex.random.list(["a"], global_config=global_config)
assert a >= 20
assert a <= 30