我正在阅读一个大型的csv,它有大约1000万行和20个不同的列(带有标题名称).
我有值,2列有日期和一些字符串.
目前,我需要大约1.5分钟来加载数据,如下所示:
df = pd.read_csv('data.csv',index_col='date',parse_dates = 'date')
我想问一下,如何才能显着提高速度,一旦读取数据就拥有相同的数据帧.
我尝试过使用HDF5数据库,但速度一样慢.
我试图读取的数据的子集(我选择了8列,从实际的20列和几百万行中得到3行):
Date Comp Rating Price Estprice Dividend? Date_earnings Returns
3/12/2017 Apple Buy 100 114 Yes 4/4/2017 0.005646835
3/12/2017 Blackberry Sell 120 97 No 4/25/2017 0.000775331
3/12/2017 Microsoft Hold 140 100 Yes 5/28/2017 0.003028423
感谢您的建议.
最佳答案
我们来试试吧!
原文链接:https://www.f2er.com/python/438713.html数据生成:
sz = 10**3
df = pd.DataFrame(np.random.randint(0,10**6,(sz,2)),columns=['i1','i2'])
df['date'] = pd.date_range('2000-01-01',freq='1S',periods=len(df))
df['dt2'] = pd.date_range('1980-01-01',freq='999S',periods=len(df))
df['f1'] = np.random.rand(len(df))
df['f2'] = np.random.rand(len(df))
# generate 10 string columns
for i in range(1,11):
df['s{}'.format(i)] = pd.util.testing.rands_array(10,len(df))
df = pd.concat([df] * 10**3,ignore_index=True).sample(frac=1)
df = df.set_index(df.pop('date').sort_values())
我们已经生成了以下DF
In [59]: df
Out[59]:
i1 i2 dt2 f1 ... s7 s8 s9 s10
date ...
2000-01-01 00:00:00 216625 4179 1980-01-04 04:35:24 0.679989 ... 7G8rLnoocA E7Ot7oPsJ6 puQamLn0I2 zxHrATQn0m
2000-01-01 00:00:00 374740 967991 1980-01-09 11:07:48 0.202064 ... wLETO2g8uL MhtzNLPXCH PW1uKxY0df wTakdCe6nK
2000-01-01 00:00:00 152181 627451 1980-01-10 11:49:39 0.956117 ... mXOsfUPqOy 6IIst7UFDT nL6XZxrT3r BxPCFNdZTK
2000-01-01 00:00:00 915732 730737 1980-01-06 10:25:30 0.854145 ... Crh94m085p M1tbrorxGT XWSKk3b8Pv M9FWQtPzaa
2000-01-01 00:00:00 590262 248378 1980-01-06 11:48:45 0.307373 ... wRnMPxeopd JF24uTUwJC 2CRrs9yB2N hxYrXFnT1H
2000-01-01 00:00:00 161183 620876 1980-01-08 21:48:36 0.207536 ... cyN0AExPO2 POaldI6Y0l TDc13rPdT0 xgoDOW8Y1L
2000-01-01 00:00:00 589696 784856 1980-01-12 02:07:21 0.909340 ... GIRAAVBRpj xwcnpwFohz wqcoTMjQ4S GTcIWXElo7
... ... ... ... ... ... ... ... ... ...
2000-01-01 00:16:39 773606 205714 1980-01-12 07:40:21 0.895944 ... HEkXfD7pku 1ogy12wBom OT3KmQRFGz Dp1cK5R4Gq
2000-01-01 00:16:39 915732 730737 1980-01-06 10:25:30 0.854145 ... Crh94m085p M1tbrorxGT XWSKk3b8Pv M9FWQtPzaa
2000-01-01 00:16:39 990722 567886 1980-01-03 05:50:06 0.676511 ... gVO3g0I97R yCqOhTVeEi imCCeQa0WG 9tslOJGWDJ
2000-01-01 00:16:39 531778 438944 1980-01-04 20:07:48 0.190714 ... rbLmkbnO5G ATm3BpWLC0 moLkyY2Msc 7A2UJERrBG
2000-01-01 00:16:39 880791 245911 1980-01-02 15:57:36 0.014967 ... bZuKNBvrEF K84u9HyAmG 4yy2bsUVNn WZQ5Vvl9zD
2000-01-01 00:16:39 239866 425516 1980-01-10 05:26:42 0.667183 ... 6xukg6TVah VEUz4d92B8 zHDxty6U3d ItztnI5LmJ
2000-01-01 00:16:39 338368 804695 1980-01-12 05:27:09 0.084818 ... NM4fdjKBuW LXGUbLIuw9 SHdpnttX6q 4oXKMsaOJ5
[1000000 rows x 15 columns]
In [60]: df.shape
Out[60]: (1000000,15)
In [61]: df.info()
让我们以不同的格式将它写入磁盘:( CSV,HDF5固定,HDF5表,羽毛):
# CSV
df.to_csv('c:/tmp/test.csv')
# HDF5 table format
df.to_hdf('c:/tmp/test.h5','test',format='t')
# HDF5 fixed format
df.to_hdf('c:/tmp/test_fix.h5','test')
# Feather format
import feather
feather.write_dataframe(df,'c:/tmp/test.feather')
定时:
现在我们可以测量从磁盘读取:
In [54]: # CSV
...: %timeit pd.read_csv('c:/tmp/test.csv',parse_dates=['date','dt2'],index_col=0)
1 loop,best of 3: 12.3 s per loop # 3rd place
In [55]: # HDF5 fixed format
...: %timeit pd.read_hdf('c:/tmp/test_fix.h5','test')
1 loop,best of 3: 1.85 s per loop # 1st place
In [56]: # HDF5 table format
...: %timeit pd.read_hdf('c:/tmp/test.h5',best of 3: 24.2 s per loop # 4th place
In [57]: # Feather
...: %timeit feather.read_dataframe('c:/tmp/test.feather')
1 loop,best of 3: 3.21 s per loop # 2nd place
如果您不总是需要读取所有数据,那么将数据存储为HDF5表格格式是有意义的(并使用data_columns参数来索引那些将用于过滤的列).