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factorizacion.py
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from sympy import *
from sympy.abc import x
import sympy
from algebreb.listas.listas_factorizacion import (ListaFactorComun,
ListaDiferenciaCuadrados,
ListaCuboPerfectoBinomios,
ListaTrinomioCuadradoPerfecto,
ListaTrinomioFormaI,
ListaTrinomioFormaII)
def lista_factor_comun(json):
caracteristicas = {}
cant = json['cantidad']
variables = json['variables']
completo = json['completo']
gmin = json['gmin']
gmax = json['gmax']
cmin = json['cmin']
cmax = json['cmax']
vars_as_symbols = [sympy.symbols(v) for v in variables]
caracteristicas = {}
caracteristicas['cantidad'] = cant
caracteristicas['variables'] = vars_as_symbols
caracteristicas['completo'] = completo
caracteristicas['gmin'] = gmin
caracteristicas['gmax'] = gmax
caracteristicas['cmin'] = cmin
caracteristicas['cmax'] = cmax
lbc = ListaFactorComun(caracteristicas)
lista_dicc = lbc.as_str_latex()
return lista_dicc
def lista_diferencia_cuadrados(json):
caracteristicas = {}
cant = json['cantidad']
variables = json['variables']
gmin = json['gmin']
gmax = json['gmax']
cmin = json['cmin']
cmax = json['cmax']
vars_as_symbols = [sympy.symbols(v) for v in variables]
caracteristicas = {}
caracteristicas['cantidad'] = cant
caracteristicas['variables'] = vars_as_symbols
caracteristicas['gmin'] = gmin
caracteristicas['gmax'] = gmax
caracteristicas['cmin'] = cmin
caracteristicas['cmax'] = cmax
lbc = ListaDiferenciaCuadrados(caracteristicas)
lista_dicc = lbc.as_str_latex()
return lista_dicc
def lista_trinomio_cuadrado_perfecto(json):
caracteristicas = {}
cant = json['cantidad']
variables = json['variables']
dom = json['dominio']
fracc = json['fraccion']
gmin = json['gmin']
gmax = json['gmax']
cmin = json['cmin']
cmax = json['cmax']
vars_as_symbols = [sympy.symbols(v) for v in variables]
caracteristicas = {}
caracteristicas['cantidad'] = cant
caracteristicas['variables'] = vars_as_symbols
caracteristicas['dominio'] = dom
caracteristicas['fraccion'] = fracc
caracteristicas['gmin'] = gmin
caracteristicas['gmax'] = gmax
caracteristicas['cmin'] = cmin
caracteristicas['cmax'] = cmax
lbc = ListaTrinomioCuadradoPerfecto(caracteristicas)
lista_dicc = lbc.as_str_latex()
return lista_dicc
def lista_cubo_perfecto_binomios(json):
caracteristicas = {}
cant = json['cantidad']
variables = json['variables']
dom = json['dominio']
fracc = json['fraccion']
gmin = json['gmin']
gmax = json['gmax']
cmin = json['cmin']
cmax = json['cmax']
vars_as_symbols = [sympy.symbols(v) for v in variables]
caracteristicas = {}
caracteristicas['cantidad'] = cant
caracteristicas['variables'] = vars_as_symbols
caracteristicas['dominio'] = dom
caracteristicas['fraccion'] = fracc
caracteristicas['gmin'] = gmin
caracteristicas['gmax'] = gmax
caracteristicas['cmin'] = cmin
caracteristicas['cmax'] = cmax
lbc = ListaCuboPerfectoBinomios(caracteristicas)
lista_dicc = lbc.as_str_latex()
return lista_dicc
def lista_trinomios_forma1(json):
caracteristicas = {}
cant = json['cantidad']
variables = json['variables']
cmin = json['cmin']
cmax = json['cmax']
vars_as_symbols = [sympy.symbols(v) for v in variables]
caracteristicas = {}
caracteristicas['cantidad'] = cant
caracteristicas['variables'] = vars_as_symbols
caracteristicas['cmin'] = cmin
caracteristicas['cmax'] = cmax
lbc = ListaTrinomioFormaI(caracteristicas)
lista_dicc = lbc.as_str_latex()
return lista_dicc
def lista_trinomios_forma2(json):
caracteristicas = {}
cant = json['cantidad']
variables = json['variables']
cmin = json['cmin']
cmax = json['cmax']
vars_as_symbols = [sympy.symbols(v) for v in variables]
caracteristicas = {}
caracteristicas['cantidad'] = cant
caracteristicas['variables'] = vars_as_symbols
caracteristicas['cmin'] = cmin
caracteristicas['cmax'] = cmax
lbc = ListaTrinomioFormaII(caracteristicas)
lista_dicc = lbc.as_str_latex()
return lista_dicc