我就废话不多说了,直接上代码吧!
#-*- coding:utf-8 _*-
"""
@author:Administrator
@file: standard_process.py
@time: 2018/8/9
"""
import pandas as pd
import numpy as np
import matplotlib.pyplot as plt
import sys
import os
import seaborn as sns
from sklearn.preprocessing import StandardScaler
'''
通过box_plot(盒图来确认)异常值
'''
# 获取项目根目录
input_data_path = os.path.dirname(os.path.dirname(os.getcwd())) + '/input/'
print(input_data_path)
# 获取数据得位置
month_6_train_path = input_data_path +'month_6_1.csv'
month_6_test_path = input_data_path + 'test_data_6_1.csv'
# 读取数据
data_train = pd.read_csv(month_6_train_path)
data_test = pd.read_csv(month_6_test_path)
# print(data_train.head())
# print(data_test.head())
# 暂时不考虑省份城市地址
# 月份只有一个月,暂时不考虑
# bedrooms 需要看成分类型得数据
# 只取出longitude,latitude,price,buildingTypeId,bedrooms,daysOnMarket
# 取出这些数据;
# train = data_train[['longitude', 'latitude', 'price', 'buildingTypeId', 'bedrooms', 'daysOnMarket']]
# train= train.dropna()
train = data_test[['longitude', 'latitude', 'price', 'buildingTypeId', 'bedrooms', 'daysOnMarket']]
print(train.head())
# print(test.head())
# print(train.isna().sum())
# sns.pairplot(train)
# # sns.pairplot(test)
# plt.show()
# 特征清洗:异常值清理用用箱图;
# 分为两步走,一步是单列异常值处理,
# 第二步是多列分组异常值处理
def remove_filers_with_boxplot(data):
p = data.boxplot(return_type='dict')
for index,value in enumerate(data.columns):
# 获取异常值
fliers_value_list = p['fliers'][index].get_ydata()
# 删除异常值
for flier in fliers_value_list:
data = data[data.loc[:,value] != flier]
return data
print(train.shape)
train = remove_filers_with_boxplot(train)
print(train.shape)
'''
以上得异常值处理还不够完善,
完善的异常值处理是分组判断异常值,
也就是他在单独这一列种,还有一种情况是多余不同的分类,他是不是存在异常
所以就需要用到分组获取数据再箱图处理掉异常数据;
'''
train = train[pd.isna(train.buildingTypeId) != True]
print(train.shape)
print(train['bedrooms'].value_counts())
'''
3.0 8760
2.0 5791
4.0 5442
1.0 2056
5.0 1828
6.0 429
0.0 159
7.0 82
由于样本存在不均衡得问题:所以只采用12345数据:也就是说去掉0,7,6,到时候测试数据也要做相同得操作;
还有一种是通过下采样或者是上采样的方式进行,这里暂时不考虑;
'''
# 只取bedrooms 为1,2,3,4,5 得数据
train = train[train['bedrooms'].isin([1,2,3,4,5])]
print(train.shape)
# 利用pivot分组后去掉异常点
def use_pivot_box_to_remove_fliers(data,pivot_columns_list,pivot_value_list):
for column in pivot_columns_list:
for value in pivot_value_list:
# 获取分组的dataframe
new_data = data.pivot(columns=column,values=value)
p = new_data.boxplot(return_type='dict')
for index,value_new in enumerate(new_data.columns):
# 获取异常值
fliers_value_list = p['fliers'][index].get_ydata()
# 删除异常值
for flier in fliers_value_list:
data = data[data.loc[:, value] != flier]
return data
# train = use_pivot_box_to_remove_fliers(train,['buildingTypeId','bedrooms'],['price','daysOnMarket','longitude','latitude'])
print(train.shape)
# print(train.isna().sum())
# 以上就不考虑longitude和latitude的问题了;应为房屋的类型以及房间个数和经纬度关系不大,但是也不一定,
# 实践了一下加上longitude和latitude之后样本数据并没有减少;
# sns.pairplot(train)
# plt.show()
# 先进一步做处理将纬度小于40的去掉
train = train[train.latitude>40]
# --------------------------------》》》
# 对于数值类型得用均值填充,但是在填充之前注意一些原本就是分类型数据得列
# def fill_na(data):
# for column in data.columns:
# if column.dtype != str:
# data[column].fillna(data[column].mean())
# return data
# 以上是异常值,或者是离群点的处理,以及均值填充数据
# 下面将根据catter图或者是hist图来处理数据
# # 标准化数据
# train = StandardScaler().fit_transform(train)
# # 标准化之后画图发现数据分布并没有变
#
# sns.pairplot(pd.DataFrame(train))
# plt.show()
'''
1:循环遍历整个散点图用刚才写好的算法去除点;
'''
# 获取
# def get_outlier(x,y,init_point_count ,distance,least_point_count):
# x_outliers_list = []
# y_outliers_list = []
# for i in range(len(x)):
# for j in range(len(x)):
# d =np.sqrt(np.square(x[i]-x[j])+np.square(y[i]-y[j]))
# # print('距离',d)
# if d <= distance:
# init_point_count +=1
# if init_point_count <least_point_count+1:
# x_outliers_list.append(x[i])
# y_outliers_list.append(y[i])
# print(x[i],y[i])
# init_point_count =0
# return x_outliers_list,y_outliers_list
#
# def circulation_to_remove_outliers(data,list_columns=['longitude','latitude','price','daysOnMarket',]):
# for column_row in list_columns:
# for column_col in list_columns:
# if column_row != column_col:
# x = list(data[column_row])
# y = list(data[column_col])
# x_outliers_list ,y_outliers_list = get_outlier(x,y,0,0.01,2)
# for x_outlier in x_outliers_list:
# data = data[data.loc[:, column_row] != x_outlier]
# for y_outlier in y_outliers_list:
# data = data[data.loc[:, column_col] != y_outlier]
# return data
#
# train = circulation_to_remove_outliers(train)
#
# print(train.shape)
# def get_outlier(x,y,init_point_count ,distance,least_point_count):
# for i in range(len(x)):
# for j in range(len(x)):
# d =np.sqrt(np.square(x[i]-x[j])+np.square(y[i]-y[j]))
# # print('距离',d)
# if d <= distance:
# init_point_count +=1
# if init_point_count <least_point_count+1:
# print(x[i],y[i])
# init_point_count =0
#
# get_outlier(train['longitude'],train['latitude'],0,0.3,1)
# sns.pairplot(train)
# plt.show()
# train = train.dropna()
# print(train.tail())
# train.to_csv('./finnl_processing_train_data_6_no_remove_outliers_test.csv',index=False)
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