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pandas从入门到上楼

数据对象

pandas主要有两种数据对象

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  1. Series
  2. DataFrame

    注: 后面代码使用pandas版本0.20.1,通过import pandas as pd引入

Series

Series是一种带有索引的序列对象

创建方式

简单创建如下

# 通过传入一个序列给pd.Series初始化一个Series对象, 比如list
s1 = pd.Series(list("1234"))
print(s1)
0    1
1    2
2    3
3    4
dtype: object

DataFrame

类似与数据库table有行列的数据对象

创建方式如下
# 通过传入一个numpy的二维数组或者dict对象给pd.DataFrame初始化一个DataFrame对象

# 通过numpy二维数组
import numpy as np
df1 = pd.DataFrame(np.random.randn(6,4))
print(df1)
    0   1   2   3
0   -0.646340   -1.249943   0.393323    -1.561873
1   0.371630    0.069426    1.693097    0.907419
2   -0.328575   -0.256765   0.693798    -0.787343
3   1.875764    -0.416275   -1.028718   0.158259
4   1.644791    -1.321506   -0.337425   0.820689
5   0.006391    -1.447894   0.506203    0.977295

# 通过dict字典
df2 = pd.DataFrame({ 'A' : 1.,
                     'B' : pd.Timestamp('20130102'),
                     'C' : pd.Series(1,index=list(range(4)),dtype='float32'),
                     'D' : np.array([3] * 4,dtype='int32'),
                     'E' : pd.Categorical(["test","train","test","train"]),
                     'F' : 'foo' })
print(df2)

    A   B   C   D   E   F
0   1.0 2013-01-02  1.0 3   test    foo
1   1.0 2013-01-02  1.0 3   train   foo
2   1.0 2013-01-02  1.0 3   test    foo
3   1.0 2013-01-02  1.0 3   train   foo

索引

不管是Series对象还是DataFrame对象都有一个对对象相对应的索引, Series的索引类似于每个元素, DataFrame的索引对应着每一行

查看

在创建对象的时候,每个对象都会初始化一个起始值为0,自增的索引列表, DataFrame同理

# 打印对象的时候,第一列就是索引
print(s1)
0    1
1    2
2    3
3    4
dtype: object

# 或者只查看索引, DataFrame同理
print(s1.index)

增删查改

这里的增删查改主要基于DataFrame对象

为了有足够数据用于展示,这里选择tushare的数据

tushare安装

pip install tushare

创建数据对象如下

import tushare as ts
df = ts.get_k_data("000001")

DataFrame 行列,axis 图解

pandas从入门到上楼

pandas从入门到上楼

查询

查看每列的数据类型

# 查看df数据类型
df.dtypes
date       object
open      float64
close     float64
high      float64
low       float64
volume    float64
code       object
dtype: object

查看指定指定数量的行

head函数默认查看前5行,tail函数默认查看后5行,可以传递指定的数值用于查看指定行数

查看前5行
df.head()
date    open    close   high    low volume  code
0   2015-12-23  9.927   9.935   10.174  9.871   1039018.0   000001
1   2015-12-24  9.919   9.823   9.998   9.744   640229.0    000001
2   2015-12-25  9.855   9.879   9.927   9.815   399845.0    000001
3   2015-12-28  9.895   9.537   9.919   9.537   822408.0    000001
4   2015-12-29  9.545   9.624   9.632   9.529   619802.0    000001
# 查看后5行
df.tail()
date    open    close   high    low volume  code
636 2018-08-01  9.42    9.15    9.50    9.11    814081.0    000001
637 2018-08-02  9.13    8.94    9.15    8.88    931401.0    000001
638 2018-08-03  8.93    8.91    9.10    8.91    476546.0    000001
639 2018-08-06  8.94    8.94    9.11    8.89    554010.0    000001
640 2018-08-07  8.96    9.17    9.17    8.88    690423.0    000001
# 查看前10行
df.head(10)
date    open    close   high    low volume  code
0   2015-12-23  9.927   9.935   10.174  9.871   1039018.0   000001
1   2015-12-24  9.919   9.823   9.998   9.744   640229.0    000001
2   2015-12-25  9.855   9.879   9.927   9.815   399845.0    000001
3   2015-12-28  9.895   9.537   9.919   9.537   822408.0    000001
4   2015-12-29  9.545   9.624   9.632   9.529   619802.0    000001
5   2015-12-30  9.624   9.632   9.640   9.513   532667.0    000001
6   2015-12-31  9.632   9.545   9.656   9.537   491258.0    000001
7   2016-01-04  9.553   8.995   9.577   8.940   563497.0    000001
8   2016-01-05  8.972   9.075   9.210   8.876   663269.0    000001
9   2016-01-06  9.091   9.179   9.202   9.067   515706.0    000001

查看某一行或多行,某一列或多列

# 查看第一行
df[0:1]
    date    open    close   high    low volume  code
0   2015-12-23  9.927   9.935   10.174  9.871   1039018.0   000001

# 查看 10到20行
df[10:21]
    date    open    close   high    low volume  code
10  2016-01-07  9.083   8.709   9.083   8.685   174761.0    000001
11  2016-01-08  8.924   8.852   8.987   8.677   747527.0    000001
12  2016-01-11  8.757   8.566   8.820   8.502   732013.0    000001
13  2016-01-12  8.621   8.605   8.685   8.470   561642.0    000001
14  2016-01-13  8.669   8.526   8.709   8.518   391709.0    000001
15  2016-01-14  8.430   8.574   8.597   8.343   666314.0    000001
16  2016-01-15  8.486   8.327   8.597   8.295   448202.0    000001
17  2016-01-18  8.231   8.287   8.406   8.199   421040.0    000001
18  2016-01-19  8.319   8.526   8.582   8.287   501109.0    000001
19  2016-01-20  8.518   8.390   8.597   8.311   603752.0    000001
20  2016-01-21  8.343   8.215   8.558   8.215   606145.0    000001

# 查看看Date列前5个数据
df["date"].head() # 或者df.date.head()
0    2015-12-23
1    2015-12-24
2    2015-12-25
3    2015-12-28
4    2015-12-29
Name: date, dtype: object

# 查看看Date列,code列, open列前5个数据
df[["date","code", "open"]].head()
    date    code    open
0   2015-12-23  000001  9.927
1   2015-12-24  000001  9.919
2   2015-12-25  000001  9.855
3   2015-12-28  000001  9.895
4   2015-12-29  000001  9.545

使用行列组合条件查询

# 查看date, code列的第10行
df.loc[10, ["date", "code"]]

date    2016-01-07
code        000001
Name: 10, dtype: object

# 查看date, code列的第10行到20行
df.loc[10:20, ["date", "code"]]

    date    code
10  2016-01-07  000001
11  2016-01-08  000001
12  2016-01-11  000001
13  2016-01-12  000001
14  2016-01-13  000001
15  2016-01-14  000001
16  2016-01-15  000001
17  2016-01-18  000001
18  2016-01-19  000001
19  2016-01-20  000001
20  2016-01-21  000001

# 查看第一行,open列的数据
df.loc[0, "open"]
9.9269999999999996

通过==位置==查询

值得注意的是上面的索引值就是特定的位置

# 查看第1行()
df.iloc[0]
date      2015-12-24
open           9.919
close          9.823
high           9.998
low            9.744
volume        640229
code          000001
Name: 0, dtype: object

# 查看最后一行
df.iloc[-1]
date      2018-08-08
open            9.16
close           9.12
high            9.16
low              9.1
volume         29985
code          000001
Name: 640, dtype: object

# 查看第一列,前5个数值
df.iloc[:,0].head()
0    2015-12-24
1    2015-12-25
2    2015-12-28
3    2015-12-29
4    2015-12-30
Name: date, dtype: object

# 查看前2到4行,第1,3列
df.iloc[2:4,[0,2]]

date    close
2   2015-12-28  9.537
3   2015-12-29  9.624

通过条件筛选

查看open列大于10的前5行
df[df.open > 10].head()

    date    open    close   high    low volume  code
378 2017-07-14  10.483  10.570  10.609  10.337  1722570.0   000001
379 2017-07-17  10.619  10.483  10.987  10.396  3273123.0   000001
380 2017-07-18  10.425  10.716  10.803  10.299  2349431.0   000001
381 2017-07-19  10.657  10.754  10.851  10.551  1933075.0   000001
382 2017-07-20  10.745  10.638  10.880  10.580  1537338.0   000001

# 查看open列大于10且open列小于10.6的前五行
df[(df.open > 10) & (df.open < 10.6)].head()

    date    open    close   high    low volume  code
378 2017-07-14  10.483  10.570  10.609  10.337  1722570.0   000001
380 2017-07-18  10.425  10.716  10.803  10.299  2349431.0   000001
387 2017-07-27  10.550  10.422  10.599  10.363  1194490.0   000001
388 2017-07-28  10.441  10.569  10.638  10.412  819195.0    000001
390 2017-08-01  10.471  10.865  10.904  10.432  2035709.0   000001

# 查看open列大于10或open列小于10.6的前五行
df[(df.open > 10) | (df.open < 10.6)].head()

    date    open    close   high    low volume  code
0   2015-12-24  9.919   9.823   9.998   9.744   640229.0    000001
1   2015-12-25  9.855   9.879   9.927   9.815   399845.0    000001
2   2015-12-28  9.895   9.537   9.919   9.537   822408.0    000001
3   2015-12-29  9.545   9.624   9.632   9.529   619802.0    000001
4   2015-12-30  9.624   9.632   9.640   9.513   532667.0    000001

增加

在前面已经简单的说明Series, DataFrame的创建,这里说一些常用有用的创建方式

# 创建2018-08-08到2018-08-15的时间序列,默认时间间隔为Day
s2 = pd.date_range("20180808", periods=7)
print(s2)

DatetimeIndex(['2018-08-08', '2018-08-09', '2018-08-10', '2018-08-11',
               '2018-08-12', '2018-08-13', '2018-08-14'],
              dtype='datetime64[ns]', freq='D')

# 指定2018-08-08 00:00 到2018-08-09 00:00 时间间隔为小时
# freq参数可使用参数, 参考: http://pandas.pydata.org/pandas-docs/stable/timeseries.html#offset-aliases
s3 = pd.date_range("20180808", "20180809", freq="H")
print(s2)

DatetimeIndex(['2018-08-08 00:00:00', '2018-08-08 01:00:00',
               '2018-08-08 02:00:00', '2018-08-08 03:00:00',
               '2018-08-08 04:00:00', '2018-08-08 05:00:00',
               '2018-08-08 06:00:00', '2018-08-08 07:00:00',
               '2018-08-08 08:00:00', '2018-08-08 09:00:00',
               '2018-08-08 10:00:00', '2018-08-08 11:00:00',
               '2018-08-08 12:00:00', '2018-08-08 13:00:00',
               '2018-08-08 14:00:00', '2018-08-08 15:00:00',
               '2018-08-08 16:00:00', '2018-08-08 17:00:00',
               '2018-08-08 18:00:00', '2018-08-08 19:00:00',
               '2018-08-08 20:00:00', '2018-08-08 21:00:00',
               '2018-08-08 22:00:00', '2018-08-08 23:00:00',
               '2018-08-09 00:00:00'],
              dtype='datetime64[ns]', freq='H')

# 通过已有序列创建时间序列
s4 = pd.to_datetime(df.date.head())
print(s4)

0   2015-12-24
1   2015-12-25
2   2015-12-28
3   2015-12-29
4   2015-12-30
Name: date, dtype: datetime64[ns]

修改

# 将df 的索引修改为date列的数据,并且将类型转换为datetime类型
df.index = pd.to_datetime(df.date)
df.head()

    date    open    close   high    low volume  code
date                            
2015-12-24  2015-12-24  9.919   9.823   9.998   9.744   640229.0    000001
2015-12-25  2015-12-25  9.855   9.879   9.927   9.815   399845.0    000001
2015-12-28  2015-12-28  9.895   9.537   9.919   9.537   822408.0    000001
2015-12-29  2015-12-29  9.545   9.624   9.632   9.529   619802.0    000001
2015-12-30  2015-12-30  9.624   9.632   9.640   9.513   532667.0    000001

# 修改列的字段
df.columns = ["Date", "Open","Close","High","Low","Volume","Code"]
print(df.head())

                  Date   Open  Close   High    Low    Volume    Code
date                                                                
2015-12-24  2015-12-24  9.919  9.823  9.998  9.744  640229.0  000001
2015-12-25  2015-12-25  9.855  9.879  9.927  9.815  399845.0  000001
2015-12-28  2015-12-28  9.895  9.537  9.919  9.537  822408.0  000001
2015-12-29  2015-12-29  9.545  9.624  9.632  9.529  619802.0  000001
2015-12-30  2015-12-30  9.624  9.632  9.640  9.513  532667.0  000001

# 将Open列每个数值加1, apply方法并不直接修改源数据,所以需要将新值复制给df
df.Open = df.Open.apply(lambda x: x+1)
df.head()

    Date    Open    Close   High    Low Volume  Code
date                            
2015-12-24  2015-12-24  10.919  9.823   9.998   9.744   640229.0    000001
2015-12-25  2015-12-25  10.855  9.879   9.927   9.815   399845.0    000001
2015-12-28  2015-12-28  10.895  9.537   9.919   9.537   822408.0    000001
2015-12-29  2015-12-29  10.545  9.624   9.632   9.529   619802.0    000001
2015-12-30  2015-12-30  10.624  9.632   9.640   9.513   532667.0    000001

# 将Open,Close列都数值上加1,如果多列,apply接收的对象是整个列
df[["Open", "Close"]].head().apply(lambda x: x.apply(lambda x: x+1))

            Open    Close
date        
2015-12-24  11.919  10.823
2015-12-25  11.855  10.879
2015-12-28  11.895  10.537
2015-12-29  11.545  10.624
2015-12-30  11.624  10.632

删除

通过drop方法drop指定的行或者列

注意: drop方法并不直接修改源数据,如果需要使源dataframe对象被修改,需要传入inplace=True

通过之前的axis图解,知道行的值(或者说label)在axis=0,列的值(或者说label)在axis=1

# 删除指定列,删除Open列
df.drop("Open", axis=1).head() #或者df.drop(df.columns[1])

    Date    Close   High    Low Volume  Code
date                        
2015-12-24  2015-12-24  9.823   9.998   9.744   640229.0    000001
2015-12-25  2015-12-25  9.879   9.927   9.815   399845.0    000001
2015-12-28  2015-12-28  9.537   9.919   9.537   822408.0    000001
2015-12-29  2015-12-29  9.624   9.632   9.529   619802.0    000001
2015-12-30  2015-12-30  9.632   9.640   9.513   532667.0    000001

# 删除第1,3列. 即Open,High列
df.drop(df.columns[[1,3]], axis=1).head() # 或df.drop(["Open", "High], axis=1).head()

        Date    Close   Low Volume  Code
date                    
2015-12-24  2015-12-24  9.823   9.744   640229.0    000001
2015-12-25  2015-12-25  9.879   9.815   399845.0    000001
2015-12-28  2015-12-28  9.537   9.537   822408.0    000001
2015-12-29  2015-12-29  9.624   9.529   619802.0    000001
2015-12-30  2015-12-30  9.632   9.513   532667.0    000001

pandas常用参数

数值显示格式

当数值很大的时候pandas默认会使用科学计数法

# float数据类型以{:.4f}格式显示,即显示完整数据且保留后四位
pd.options.display.float_format = '{:.4f}'.format

常用函数

统计

# descibe方法会计算每列数据对象是数值的count, mean, std, min, max, 以及一定比率的值
df.describe()

        Open    Close   High    Low Volume
count   641.0000    641.0000    641.0000    641.0000    641.0000
mean    10.7862 9.7927  9.8942  9.6863  833968.6162
std 1.5962  1.6021  1.6620  1.5424  607731.6934
min 8.6580  7.6100  7.7770  7.4990  153901.0000
25% 9.7080  8.7180  8.7760  8.6500  418387.0000
50% 10.0770 9.0960  9.1450  8.9990  627656.0000
75% 11.8550 10.8350 10.9920 10.7270 1039297.0000
max 15.9090 14.8600 14.9980 14.4470 4262825.0000

# 单独统计Open列的平均值
df.Open.mean()
10.786248049922001

# 查看居于95%的值, 默认线性拟合
df.Open.quantile(0.95)
14.187

# 查看Open列每个值出现的次数
df.Open.value_counts().head()

9.8050    12
9.8630    10
9.8440    10
9.8730    10
9.8830     8
Name: Open, dtype: int64

缺失值处理

删除或者填充缺失值

# 删除含有NaN的任意行
df.dropna(how='any')

# 删除含有NaN的任意列
df.dropna(how='any', axis=1)

# 将NaN的值改为5
df.fillna(value=5)

排序

按行或者列排序, 默认也不修改源数据

# 按列排序
df.sort_index(axis=1).head()

    Close   Code    Date    High    Low Open    Volume
date                            
2015-12-24  9.8230  000001  2015-12-24  9.9980  9.7440  10.9190 640229.0000
2015-12-25  1.0000  000001  2015-12-25  1.0000  9.8150  10.8550 399845.0000
2015-12-28  1.0000  000001  2015-12-28  1.0000  9.5370  10.8950 822408.0000
2015-12-29  9.6240  000001  2015-12-29  9.6320  9.5290  10.5450 619802.0000
2015-12-30  9.6320  000001  2015-12-30  9.6400  9.5130  10.6240 532667.0000

# 按行排序,不递增
df.sort_index(ascending=False).head()

        Date    Open    Close   High    Low Volume  Code
date                            
2018-08-08  2018-08-08  10.1600 9.1100  9.1600  9.0900  153901.0000 000001
2018-08-07  2018-08-07  9.9600  9.1700  9.1700  8.8800  690423.0000 000001
2018-08-06  2018-08-06  9.9400  8.9400  9.1100  8.8900  554010.0000 000001
2018-08-03  2018-08-03  9.9300  8.9100  9.1000  8.9100  476546.0000 000001
2018-08-02  2018-08-02  10.1300 8.9400  9.1500  8.8800  931401.0000 000001

安装某一列的值排序

# 按照Open列的值从小到大排序
df.sort_values(by="Open")
        Date    Open    Close   High    Low Volume  Code
date                            
2016-03-01  2016-03-01  8.6580  7.7220  7.7770  7.6260  377910.0000 000001
2016-02-15  2016-02-15  8.6900  7.7930  7.8410  7.6820  278499.0000 000001
2016-01-29  2016-01-29  8.7540  7.9610  8.0240  7.7140  544435.0000 000001
2016-03-02  2016-03-02  8.7620  8.0400  8.0640  7.7380  676613.0000 000001
2016-02-26  2016-02-26  8.7770  7.7930  7.8250  7.6900  392154.0000 000001

合并

concat, 按照行方向或者列方向合并

# 分别取0到2行,2到4行,4到9行组成一个列表,通过concat方法按照axis=0,行方向合并, axis参数不指定,默认为0
split_rows = [df.iloc[0:2,:],df.iloc[2:4,:], df.iloc[4:9]]
pd.concat(split_rows)

    Date    Open    Close   High    Low Volume  Code
date                            
2015-12-24  2015-12-24  10.9190 9.8230  9.9980  9.7440  640229.0000 000001
2015-12-25  2015-12-25  10.8550 1.0000  1.0000  9.8150  399845.0000 000001
2015-12-28  2015-12-28  10.8950 1.0000  1.0000  9.5370  822408.0000 000001
2015-12-29  2015-12-29  10.5450 9.6240  9.6320  9.5290  619802.0000 000001
2015-12-30  2015-12-30  10.6240 9.6320  9.6400  9.5130  532667.0000 000001
2015-12-31  2015-12-31  10.6320 9.5450  9.6560  9.5370  491258.0000 000001
2016-01-04  2016-01-04  10.5530 8.9950  9.5770  8.9400  563497.0000 000001
2016-01-05  2016-01-05  9.9720  9.0750  9.2100  8.8760  663269.0000 000001
2016-01-06  2016-01-06  10.0910 9.1790  9.2020  9.0670  515706.0000 000001

# 分别取2到3列,3到5列,5列及以后列数组成一个列表,通过concat方法按照axis=1,列方向合并
split_columns = [df.iloc[:,1:2], df.iloc[:,2:4], df.iloc[:,4:]]
pd.concat(split_columns, axis=1).head()

    Open    Close   High    Low Volume  Code
date                        
2015-12-24  10.9190 9.8230  9.9980  9.7440  640229.0000 000001
2015-12-25  10.8550 1.0000  1.0000  9.8150  399845.0000 000001
2015-12-28  10.8950 1.0000  1.0000  9.5370  822408.0000 000001
2015-12-29  10.5450 9.6240  9.6320  9.5290  619802.0000 000001
2015-12-30  10.6240 9.6320  9.6400  9.5130  532667.0000 000001

追加行, 相应的还有insert, 插入插入到指定位置

# 将第一行追加到最后一行
df.append(df.iloc[0,:], ignore_index=True).tail()

Date    Open    Close   High    Low Volume  Code
637 2018-08-03  9.9300  8.9100  9.1000  8.9100  476546.0000 000001
638 2018-08-06  9.9400  8.9400  9.1100  8.8900  554010.0000 000001
639 2018-08-07  9.9600  9.1700  9.1700  8.8800  690423.0000 000001
640 2018-08-08  10.1600 9.1100  9.1600  9.0900  153901.0000 000001
641 2015-12-24  10.9190 9.8230  9.9980  9.7440  640229.0000 000001

对象复制

由于dataframe是引用对象,所以需要显示调用copy方法用以复制整个dataframe对象

绘图

pandas的绘图是使用matplotlib,如果想要画的更细致, 可以使用matplotplib,不过简单的画一些图还是不错的

因为上图太麻烦,这里就不配图了,可以在资源文件里面查看pandas-blog.ipynb文件或者自己敲一遍代码。

# 这里使用notbook,为了直接在输出中显示,需要以下配置
%matplotlib inline
# 绘制Open,Low,Close.High的线性图
df[["Open", "Low", "High", "Close"]].plot()

# 绘制面积图
df[["Open", "Low", "High", "Close"]].plot(kind="area")

数据读写

读写常见文件格式,如csv,excel,json等, 甚至是读取==系统的剪切板==.这个功能有时候很有用。直接将鼠标选中复制的内容读取创建dataframe对象。

# 将df数据保存到当前工作目录的stock.csv文件
df.to_csv("stock.csv")

# 查看stock.csv文件前5行
with open("stock.csv") as rf:
    print(rf.readlines()[:5])

['date,Date,Open,Close,High,Low,Volume,Code\n', '2015-12-24,2015-12-24,9.919,9.823,9.998,9.744,640229.0,000001\n', '2015-12-25,2015-12-25,9.855,9.879,9.927,9.815,399845.0,000001\n', '2015-12-28,2015-12-28,9.895,9.537,9.919,9.537,822408.0,000001\n', '2015-12-29,2015-12-29,9.545,9.624,9.632,9.529,619802.0,000001\n']

# 读取stock.csv文件并将第一行作为index
df2 = pd.read_csv("stock.csv", index_col=0)
df2.head()

    Date    Open    Close   High    Low Volume  Code
date                            
2015-12-24  2015-12-24  9.9190  9.8230  9.9980  9.7440  640229.0000 1
2015-12-25  2015-12-25  9.8550  9.8790  9.9270  9.8150  399845.0000 1
2015-12-28  2015-12-28  9.8950  9.5370  9.9190  9.5370  822408.0000 1
2015-12-29  2015-12-29  9.5450  9.6240  9.6320  9.5290  619802.0000 1
2015-12-30  2015-12-30  9.6240  9.6320  9.6400  9.5130  532667.0000 1

# 读取stock.csv文件并将第一行作为index,并且将000001作为str类型读取, 不然会被解析成整数
df2 = pd.read_csv("stock.csv", index_col=0, dtype={"Code": str})
df2.head()

简单实例

这里以处理web日志为例,也许不太实用 ,因为ELK处理这些绰绰有余,不过喜欢什么自己来也未尝不可

分析access.log

日志文件: https://raw.githubusercontent.com/Apache-Labor/labor/master/labor-04/labor-04-example-access.log

日志格式及示例
# 日志格式
# 字段说明, 参考:https://ru.wikipedia.org/wiki/Access.log
%h%l%u%t \“%r \”%> s%b \“%{Referer} i \”\“%{User-Agent} i \”

# 具体示例
75.249.65.145 US - [2015-09-02 10:42:51.003372] "GET /cms/tina-access-editor-for-download/ HTTP/1.1" 200 7113 "-" "Mozilla/5.0 (compatible; Googlebot/2.1; +http://www.google.com/bot.html)" www.example.com 124.165.3.7 443 redirect-handler - + "-" Vea2i8CoAwcAADevXAgAAAAB TLSv1.2 ECDHE-RSA-AES128-GCM-SHA256 701 12118 -% 88871 803 0 0 0 0
读取并解析日志文件

解析日志文件

HOST = r'^(?P.*?)'
SPACE = r'\s'
IDENTITY = r'\S+'
USER = r"\S+"
TIME = r'\[(?P

将数据注入DataFrame对象

COLUMNS = ["Host", "Time", "Method", "Path", "Protocol", "status", "size", "User_Agent"]

field_lis = []
with open("access.log") as rf:
    for line in rf:
        # 由于一些记录不能匹配,所以需要捕获异常, 不能捕获的数据格式如下
        # 80.32.156.105 - - [27/Mar/2009:13:39:51 +0100] "GET  HTTP/1.1" 400 - "-" "-" "-"
        # 由于重点不在写正则表达式这里就略过了
        try:
            fields = reg.match(line).groups()
        except Exception as e:
            #print(e)
            #print(line)
            pass
        field_lis.append(fields)

log_df  = pd.DataFrame(field_lis)
# 修改列名
log_df.columns = COLUMNS

def parse_time(value):
    try:
        return pd.to_datetime(value)
    except Exception as e:
        print(e)
        print(value)

# 将Time列的值修改成pandas可解析的时间格式
log_df.Time = log_df.Time.apply(lambda x: x.replace(":", " ", 1))
log_df.Time = log_df.Time.apply(parse_time)

# 修改index, 将Time列作为index,并drop掉在Time列
log_df.index = pd.to_datetime(log_df.Time)
log_df.drop("Time", inplace=True)
log_df.head()

    Host    Time    Method  Path    Protocol    status  size    User_Agent
Time                                
2009-03-22 06:00:32 88.191.254.20   2009-03-22 06:00:32 GET /   HTTP/1.0    200 8674    "-
2009-03-22 06:06:20 66.249.66.231   2009-03-22 06:06:20 GET /popup.php?choix=-89    HTTP/1.1    200 1870    "Mozilla/5.0 (compatible; Googlebot/2.1; +htt...
2009-03-22 06:11:20 66.249.66.231   2009-03-22 06:11:20 GET /specialiste.php    HTTP/1.1    200 10743   "Mozilla/5.0 (compatible; Googlebot/2.1; +htt...
2009-03-22 06:40:06 83.198.250.175  2009-03-22 06:40:06 GET /   HTTP/1.1    200 8714    "Mozilla/4.0 (compatible; MSIE 7.0; Windows N...
2009-03-22 06:40:06 83.198.250.175  2009-03-22 06:40:06 GET /style.css  HTTP/1.1    200 1692    "Mozilla/4.0 (compatible; MSIE 7.0; Windows N...

查看数据类型

# 查看数据类型
log_df.dtypes

Host                  object
Time          datetime64[ns]
Method                object
Path                  object
Protocol              object
status                object
size                  object
User_Agent            object
dtype: object

由上可知, 除了Time字段是时间类型,其他都是object,但是Size, Status应该为数字

def parse_number(value):
    try:
        return pd.to_numeric(value)
    except Exception as e:
        pass
        return 0

# 将Size,Status字段值改为数值类型
log_df[["Status","Size"]] = log_df[["Status","Size"]].apply(lambda x: x.apply(parse_number))
log_df.dtypes

Host                  object
Time          datetime64[ns]
Method                object
Path                  object
Protocol              object
Status                 int64
Size                   int64
User_Agent            object
dtype: object

统计status数据

# 统计不同status值的次数
log_df.Status.value_counts()

200    5737
304    1540
404    1186
400     251
302      37
403       3
206       2
Name: Status, dtype: int64

绘制pie图

log_df.Status.value_counts().plot(kind="pie", figsize=(10,8))

pandas从入门到上楼

查看日志文件时间跨度

log_df.index.max() - log_df.index.min()

Timedelta('15 days 11:12:03')

分别查看起始,终止时间

print(log_df.index.max())
print(log_df.index.min())

2009-04-06 17:12:35
2009-03-22 06:00:32

按照此方法还可以统计Method, User_Agent字段 ,不过User_Agent还需要额外清洗以下数据

统计top 10 IP地址

91.121.31.184     745
88.191.254.20     441
41.224.252.122    420
194.2.62.185      255
86.75.35.144      184
208.89.192.106    170
79.82.3.8         161
90.3.72.207       157
62.147.243.132    150
81.249.221.143    141
Name: Host, dtype: int64

绘制请求走势图

log_df2 = log_df.copy()
# 为每行加一个request字段,值为1
log_df2["Request"] = 1
# 每一小时统计一次request数量,并将NaN值替代为0,最后绘制线性图,尺寸为16x9
log_df2.Request.resample("H").sum().fillna(0).plot(kind="line",figsize=(16,10))

pandas从入门到上楼

分别绘图

分别对202,304,404状态重新取样,并放在一个列表里面
req_df_lis = [
log_df2[log_df2.Status == 200].Request.resample("H").sum().fillna(0),
log_df2[log_df2.Status == 304].Request.resample("H").sum().fillna(0),
log_df2[log_df2.Status == 404].Request.resample("H").sum().fillna(0)
]

# 将三个dataframe组合起来
req_df = pd.concat(req_df_lis,axis=1)
req_df.columns = ["200", "304", "404"]
# 绘图
req_df.plot(figsize=(16,10))

pandas从入门到上楼

参考链接

https://pandas.pydata.org/pandas-docs/stable/index.html

源代码等资源文件

https://github.com/youerning/blog/tree/master/pandas


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