python数据分析——人口分析实例

• 需求：
  • 导入文件，查看原始数据
  • 将人口数据和各州简称数据进行合并
  • 将合并的数据中重复的abbreviation列进行删除
  • 查看存在缺失数据的列
  • 找到有哪些state/region使得state的值为NaN，进行去重操作
  • 为找到的这些state/region的state项补上正确的值，从而去除掉state这一列的所有NaN
  • 合并各州面积数据areas
  • 我们会发现area(sq.mi)这一列有缺失数据，找出是哪些行
  • 去除含有缺失数据的行
  • 找出2010年的全民人口数据
  • 计算各州的人口密度
  • 排序，并找出人口密度最高的五个州 df.sort_values()

In [1]:

import numpy as np
from pandas import DataFrame,Series
import pandas as pd

In [3]:

abb = pd.read_csv('./data/state-abbrevs.csv')
pop = pd.read_csv('./data/state-population.csv')
area = pd.read_csv('./data/state-areas.csv')

In [8]:

#将人口数据和各州简称数据进行合并
display(abb.head(1),pop.head(1))
abb_pop = pd.merge(abb,pop,left_on='abbreviation',right_on='state/region',how='outer')
abb_pop.head()

 

	state	abbreviation
0	Alabama	AL

 

	state/region	ages	year	population
0	AL	under18	2012	1117489.0

Out[8]:

	state	abbreviation	state/region	ages	year	population
0	Alabama	AL	AL	under18	2012	1117489.0
1	Alabama	AL	AL	total	2012	4817528.0
2	Alabama	AL	AL	under18	2010	1130966.0
3	Alabama	AL	AL	total	2010	4785570.0
4	Alabama	AL	AL	under18	2011	1125763.0

In [9]:

#将合并的数据中重复的abbreviation列进行删除
abb_pop.drop(labels='abbreviation',axis=1,inplace=True)
abb_pop.head()

Out[9]:

	state	state/region	ages	year	population
0	Alabama	AL	under18	2012	1117489.0
1	Alabama	AL	total	2012	4817528.0
2	Alabama	AL	under18	2010	1130966.0
3	Alabama	AL	total	2010	4785570.0
4	Alabama	AL	under18	2011	1125763.0

In [10]:

#查看存在缺失数据的列
abb_pop.isnull().any(axis=0)

Out[10]:

state            True
state/region    False
ages            False
year            False
population       True
dtype: bool

In [11]:

#找到有哪些state/region使得state的值为NaN，进行去重操作

In [13]:

#1.检测state列中的空值
abb_pop['state'].isnull()

Out[13]:

0       False
1       False
2       False
3       False
4       False
5       False
6       False
7       False
8       False
9       False
10      False
11      False
12      False
13      False
14      False
15      False
16      False
17      False
18      False
19      False
20      False
21      False
22      False
23      False
24      False
25      False
26      False
27      False
28      False
29      False
        ...  
2514     True
2515     True
2516     True
2517     True
2518     True
2519     True
2520     True
2521     True
2522     True
2523     True
2524     True
2525     True
2526     True
2527     True
2528     True
2529     True
2530     True
2531     True
2532     True
2533     True
2534     True
2535     True
2536     True
2537     True
2538     True
2539     True
2540     True
2541     True
2542     True
2543     True
Name: state, Length: 2544, dtype: bool

In [15]:

#2.将1的返回值作用的state_region这一列中
abb_pop['state/region'][abb_pop['state'].isnull()]

Out[15]:

2448     PR
2449     PR
2450     PR
2451     PR
2452     PR
2453     PR
2454     PR
2455     PR
2456     PR
2457     PR
2458     PR
2459     PR
2460     PR
2461     PR
2462     PR
2463     PR
2464     PR
2465     PR
2466     PR
2467     PR
2468     PR
2469     PR
2470     PR
2471     PR
2472     PR
2473     PR
2474     PR
2475     PR
2476     PR
2477     PR
       ... 
2514    USA
2515    USA
2516    USA
2517    USA
2518    USA
2519    USA
2520    USA
2521    USA
2522    USA
2523    USA
2524    USA
2525    USA
2526    USA
2527    USA
2528    USA
2529    USA
2530    USA
2531    USA
2532    USA
2533    USA
2534    USA
2535    USA
2536    USA
2537    USA
2538    USA
2539    USA
2540    USA
2541    USA
2542    USA
2543    USA
Name: state/region, Length: 96, dtype: object

In [29]:

#3.去重
abb_pop['state/region'][abb_pop['state'].isnull()].unique()

Out[29]:

array([], dtype=object)

In [19]:

#为找到的这些state/region的state项补上正确的值，从而去除掉state这一列的所有NaN
abb_pop['state/region'] == 'USA'

Out[19]:

0       False
1       False
2       False
3       False
4       False
5       False
6       False
7       False
8       False
9       False
10      False
11      False
12      False
13      False
14      False
15      False
16      False
17      False
18      False
19      False
20      False
21      False
22      False
23      False
24      False
25      False
26      False
27      False
28      False
29      False
        ...  
2514     True
2515     True
2516     True
2517     True
2518     True
2519     True
2520     True
2521     True
2522     True
2523     True
2524     True
2525     True
2526     True
2527     True
2528     True
2529     True
2530     True
2531     True
2532     True
2533     True
2534     True
2535     True
2536     True
2537     True
2538     True
2539     True
2540     True
2541     True
2542     True
2543     True
Name: state/region, Length: 2544, dtype: bool

In [23]:

indexs = abb_pop['state'][abb_pop['state/region'] == 'USA'].index

In [24]:

abb_pop.loc[indexs,'state'] = 'United State'

In [27]:

pr_index = abb_pop['state'][abb_pop['state/region'] == 'PR'].index

In [28]:

abb_pop.loc[pr_index,'state'] = 'PPPRRR'

合并各州面积数据areas 我们会发现area(sq.mi)这一列有缺失数据，找出是哪些行 去除含有缺失数据的行 找出2010年的全民人口数据 计算各州的人口密度 排序，并找出人口密度最高的五个州 df.sort_values()

In [31]:

#合并各州面积数据areas
abb_pop_area = pd.merge(abb_pop,area,how='outer')
abb_pop_area.head()

Out[31]:

	state	state/region	ages	year	population	area (sq. mi)
0	Alabama	AL	under18	2012.0	1117489.0	52423.0
1	Alabama	AL	total	2012.0	4817528.0	52423.0
2	Alabama	AL	under18	2010.0	1130966.0	52423.0
3	Alabama	AL	total	2010.0	4785570.0	52423.0
4	Alabama	AL	under18	2011.0	1125763.0	52423.0

In [32]:

#我们会发现area(sq.mi)这一列有缺失数据，找出是哪些行
abb_pop_area['area (sq. mi)'].isnull()

Out[32]:

0       False
1       False
2       False
3       False
4       False
5       False
6       False
7       False
8       False
9       False
10      False
11      False
12      False
13      False
14      False
15      False
16      False
17      False
18      False
19      False
20      False
21      False
22      False
23      False
24      False
25      False
26      False
27      False
28      False
29      False
        ...  
2515     True
2516     True
2517     True
2518     True
2519     True
2520     True
2521     True
2522     True
2523     True
2524     True
2525     True
2526     True
2527     True
2528     True
2529     True
2530     True
2531     True
2532     True
2533     True
2534     True
2535     True
2536     True
2537     True
2538     True
2539     True
2540     True
2541     True
2542     True
2543     True
2544    False
Name: area (sq. mi), Length: 2545, dtype: bool

In [35]:

a_index = abb_pop_area.loc[abb_pop_area['area (sq. mi)'].isnull()].index

In [36]:

#去除含有缺失数据的行
abb_pop_area.drop(labels=a_index,axis=0,inplace=True)

In [38]:

#找出2010年的全民人口数据
abb_pop_area.query('year == 2010 & ages == "total"')

Out[38]:

	state	state/region	ages	year	population	area (sq. mi)
3	Alabama	AL	total	2010.0	4785570.0	52423.0
91	Alaska	AK	total	2010.0	713868.0	656425.0
101	Arizona	AZ	total	2010.0	6408790.0	114006.0
189	Arkansas	AR	total	2010.0	2922280.0	53182.0
197	California	CA	total	2010.0	37333601.0	163707.0
283	Colorado	CO	total	2010.0	5048196.0	104100.0
293	Connecticut	CT	total	2010.0	3579210.0	5544.0
379	Delaware	DE	total	2010.0	899711.0	1954.0
389	District of Columbia	DC	total	2010.0	605125.0	68.0
475	Florida	FL	total	2010.0	18846054.0	65758.0
485	Georgia	GA	total	2010.0	9713248.0	59441.0
570	Hawaii	HI	total	2010.0	1363731.0	10932.0
581	Idaho	ID	total	2010.0	1570718.0	83574.0
666	Illinois	IL	total	2010.0	12839695.0	57918.0
677	Indiana	IN	total	2010.0	6489965.0	36420.0
762	Iowa	IA	total	2010.0	3050314.0	56276.0
773	Kansas	KS	total	2010.0	2858910.0	82282.0
858	Kentucky	KY	total	2010.0	4347698.0	40411.0
869	Louisiana	LA	total	2010.0	4545392.0	51843.0
954	Maine	ME	total	2010.0	1327366.0	35387.0
965	Montana	MT	total	2010.0	990527.0	147046.0
1050	Nebraska	NE	total	2010.0	1829838.0	77358.0
1061	Nevada	NV	total	2010.0	2703230.0	110567.0
1146	New Hampshire	NH	total	2010.0	1316614.0	9351.0
1157	New Jersey	NJ	total	2010.0	8802707.0	8722.0
1242	New Mexico	NM	total	2010.0	2064982.0	121593.0
1253	New York	NY	total	2010.0	19398228.0	54475.0
1338	North Carolina	NC	total	2010.0	9559533.0	53821.0
1349	North Dakota	ND	total	2010.0	674344.0	70704.0
1434	Ohio	OH	total	2010.0	11545435.0	44828.0
1445	Oklahoma	OK	total	2010.0	3759263.0	69903.0
1530	Oregon	OR	total	2010.0	3837208.0	98386.0
1541	Maryland	MD	total	2010.0	5787193.0	12407.0
1626	Massachusetts	MA	total	2010.0	6563263.0	10555.0
1637	Michigan	MI	total	2010.0	9876149.0	96810.0
1722	Minnesota	MN	total	2010.0	5310337.0	86943.0
1733	Mississippi	MS	total	2010.0	2970047.0	48434.0
1818	Missouri	MO	total	2010.0	5996063.0	69709.0
1829	Pennsylvania	PA	total	2010.0	12710472.0	46058.0
1914	Rhode Island	RI	total	2010.0	1052669.0	1545.0
1925	South Carolina	SC	total	2010.0	4636361.0	32007.0
2010	South Dakota	SD	total	2010.0	816211.0	77121.0
2021	Tennessee	TN	total	2010.0	6356683.0	42146.0
2106	Texas	TX	total	2010.0	25245178.0	268601.0
2117	Utah	UT	total	2010.0	2774424.0	84904.0
2202	Vermont	VT	total	2010.0	625793.0	9615.0
2213	Virginia	VA	total	2010.0	8024417.0	42769.0
2298	Washington	WA	total	2010.0	6742256.0	71303.0
2309	West Virginia	WV	total	2010.0	1854146.0	24231.0
2394	Wisconsin	WI	total	2010.0	5689060.0	65503.0
2405	Wyoming	WY	total	2010.0	564222.0	97818.0

In [40]:

#计算各州的人口密度
abb_pop_area['midu'] = abb_pop_area['population'] / abb_pop_area['area (sq. mi)']
abb_pop_area.head()

Out[40]:

	state	state/region	ages	year	population	area (sq. mi)	midu
0	Alabama	AL	under18	2012.0	1117489.0	52423.0	21.316769
1	Alabama	AL	total	2012.0	4817528.0	52423.0	91.897221
2	Alabama	AL	under18	2010.0	1130966.0	52423.0	21.573851
3	Alabama	AL	total	2010.0	4785570.0	52423.0	91.287603
4	Alabama	AL	under18	2011.0	1125763.0	52423.0	21.474601

In [43]:

#排序，并找出人口密度最高的五个州 df.sort_values()
abb_pop_area.sort_values(by='midu',axis=0,ascending=False).head()

Out[43]:

	state	state/region	ages	year	population	area (sq. mi)	midu
391	District of Columbia	DC	total	2013.0	646449.0	68.0	9506.602941
385	District of Columbia	DC	total	2012.0	633427.0	68.0	9315.102941
387	District of Columbia	DC	total	2011.0	619624.0	68.0	9112.117647
431	District of Columbia	DC	total	1990.0	605321.0	68.0	8901.779412
389	District of Columbia	DC	total	2010.0	605125.0	68.0	8898.897059