Mapytex/pymath/stat/dataset.py
2016-02-14 21:00:16 +03:00

200 lines
5.3 KiB
Python

#/usr/bin/env python
# -*- coding:Utf-8 -*-
#
#
# Ensemble de fonction rendant beaucoup plus pratique la résolution et l'élaboration des exercices de stat au lycée
#
#
# TODO: Rendre toutes les réponses Explicable!! |mar. janv. 12 09:41:00
# EAT 2016
from math import sqrt, ceil
from .number_tools import number_factory
from .random_generator import random_generator
class Dataset(list):
""" A dataset (a list) with statistics and latex rendering methods
>>> s = Dataset(range(100))
>>> s.sum()
4950
>>> s.mean()
49.5
>>> s.deviation()
83325
>>> s.variance()
833.25
>>> s.sd()
28.87
"""
@classmethod
def random(cls, length, data_name="Valeurs",
distrib="gauss", rd_args=(0, 1),
nbr_format=lambda x: round(x, 2),
v_min=None, v_max=None,
exact_mean=None):
""" Generate a random list of value
:param length: length of the dataset
:param distrib: Distribution of the data set. It can be a function or string from ["randint", "uniform", "gauss", "choice"]
:param rd_args: arguments to pass to distrib
:param nbr_format: function which format value
:param v_min: minimum accepted value
:param v_max: maximum accepted value
:param exact_mean: if set, the last generated number will be create in order that the computed mean is exacly equal to "exact_mean"
"""
data = random_generator(length,
distrib, rd_args,
nbr_format,
v_min, v_max,
exact_mean)
return cls(data, data_name=data_name)
def __init__(self, data=[], data_name="Valeurs"):
"""
Create a numeric data set
:param data: values of the data set
:param data_name: name of the data set
"""
list.__init__(self, data)
self_name = data_name
def add_data(self, data):
"""Add datas to the data set
:param data: datas
"""
try:
self += data
except TypeError:
self += [data]
# --------------------------
# Stat tools
def effectif_total(self):
return len(self)
@number_factory
def sum(self):
return sum(self)
@number_factory
def mean(self):
return self.sum() / self.effectif_total()
@number_factory
def deviation(self):
""" Compute the deviation (not normalized) """
mean = self.mean()
return sum([(x - mean)**2 for x in self])
@number_factory
def variance(self):
return self.deviation() / self.effectif_total()
@number_factory
def sd(self):
""" Compute the standard deviation """
return sqrt(self.variance())
def quartiles(self):
"""
Calcul les quartiles de la série.
:return: un tuple avec (min, Q1, Me, Q3, Max)
>>> w = Dataset(range(12))
>>> w.quartiles()
(0, 2.5, 5.5, 8.5, 11)
"""
return (
min(self),
self.quartile(1),
self.quartile(2),
self.quartile(3),
max(self))
@number_factory
def quartile(self, quartile=1):
"""
Calcul un quartile de la série.
:param quartile: quartile à calculer (par defaut 1 -> Q1)
:return: le quartile demandé
: Example:
>>> w = Dataset(range(12))
>>> w.quartile(1)
2.5
>>> w.quartile(2)
5.5
>>> w.quartile(3)
8.5
>>> w = Dataset(range(14))
>>> w.quartile(1)
3
>>> w.quartile(2)
6.5
>>> w.quartile(3)
10
"""
# -1 to match with list indexing
position = self.posi_quartile(quartile) - 1
if position.is_integer():
return (self[int(position)] + self[int(position) + 1]) / 2
else:
return self[ceil(position)]
def posi_quartile(self, quartile=1):
"""
Calcul la position du quartile
:param quartile: le quartile concerné
:return : la position du quartile (arondis à l'entier suppérieur, non arrondis)
"""
return quartile * self.effectif_total() / 4
# --------------------------
# Rendu latex
def tabular_latex(self, nbr_lines=1):
""" Latex code to display dataset as a tabular """
d_per_line = self.effectif_total() // nbr_lines
d_last_line = self.effectif_total() % d_per_line
splited_data = [self[x:x + d_per_line]
for x in range(0, self.effectif_total(), d_per_line)]
# On ajoute les éléments manquant pour la dernière line
if d_last_line:
splited_data[-1] += [' '] * (d_per_line - d_last_line)
# Construction du tableau
latex = "\\begin{{tabular}}{{|c|*{{{nbr_col}}}{{c|}}}} \n".format(
nbr_col=d_per_line)
latex += "\t\t \hline \n"
d_lines = [' & '.join(map(str, l)) for l in splited_data]
latex += " \\\\ \n \\hline \n".join(d_lines)
latex += " \\\\ \n \\hline \n"
latex += "\\end{tabular}"
return latex
# -----------------------------
# Reglages pour 'vim'
# vim:set autoindent expandtab tabstop=4 shiftwidth=4:
# cursor: 16 del