通过使用seaborn缺失数据出现频率的可视化
问题描述 投票:0回答:1
我想建立一个24x20矩阵(8个部分各自具有60个细胞6×10或)缺失数据出现频率的可视化通过周期(= 480的每个值)在数据集经由熊猫数据帧和绘制它为每个列'A', 'B','C'。
到目前为止,我可以映射创建CSV文件,并在矩阵映射正道的值,并通过sns.heatmap(df.isnull())后更改了丢失数据绘制它(NAN&INF)到0或类似0.01234这对数据的影响最小另一方面,可以绘制。下面是我的剧本至今:
import numpy as np
import pandas as pd
import os
import seaborn as sns
import matplotlib.pyplot as plt
def mkdf(ListOf480Numbers):
normalMatrix = np.array_split(ListOf480Numbers,8)
fixMatrix = []
for i in range(8):
lines = np.array_split(normalMatrix[i],6)
newMatrix = [0,0,0,0,0,0]
for j in (1,3,5):
newMatrix[j] = lines[j]
for j in (0,2,4):
newMatrix[j] = lines[j][::-1]
fixMatrix.append(newMatrix)
return fixMatrix
def print_df(fixMatrix):
values = []
for i in range(6):
values.append([*fixMatrix[6][i], *fixMatrix[7][i]])
for i in range(6):
values.append([*fixMatrix[4][i], *fixMatrix[5][i]])
for i in range(6):
values.append([*fixMatrix[2][i], *fixMatrix[3][i]])
for i in range(6):
values.append([*fixMatrix[0][i], *fixMatrix[1][i]])
df = pd.DataFrame(values)
return (df)
dft = pd.read_csv('D:\Feryan.TXT', header=None)
id_set = dft[dft.index % 4 == 0].astype('int').values
A = dft[dft.index % 4 == 1].values
B = dft[dft.index % 4 == 2].values
C = dft[dft.index % 4 == 3].values
data = {'A': A[:,0], 'B': B[:,0], 'C': C[:,0]}
df = pd.DataFrame(data, columns=['A','B','C'], index = id_set[:,0])
nan = np.array(df.isnull())
inf = np.array(df.isnull())
df = df.replace([np.inf, -np.inf], np.nan)
df[np.isinf(df)] = np.nan # convert inf to nan
#dff = df[df.isnull().any(axis=1)] # extract sub data frame
#df = df.fillna(0)
#df = df.replace(0,np.nan)
#next iteration create all plots, change the number of cycles
cycles = int(len(df)/480)
print(cycles)
for cycle in range(3):
count = '{:04}'.format(cycle)
j = cycle * 480
new_value1 = df['A'].iloc[j:j+480]
new_value2 = df['B'].iloc[j:j+480]
new_value3 = df['C'].iloc[j:j+480]
df1 = print_df(mkdf(new_value1))
df2 = print_df(mkdf(new_value2))
df3 = print_df(mkdf(new_value3))
for i in df:
try:
os.mkdir(i)
except:
pass
df1.to_csv(f'{i}/norm{i}{count}.csv', header=None, index=None)
df2.to_csv(f'{i}/norm{i}{count}.csv', header=None, index=None)
df3.to_csv(f'{i}/norm{i}{count}.csv', header=None, index=None)
#plotting all columns ['A','B','C'] in-one-window side by side
fig, ax = plt.subplots(nrows=1, ncols=3 , figsize=(20,10))
plt.subplot(131)
ax = sns.heatmap(df1.isnull(), cbar=False)
ax.axhline(y=6, color='w',linewidth=1.5)
ax.axhline(y=12, color='w',linewidth=1.5)
ax.axhline(y=18, color='w',linewidth=1.5)
ax.axvline(x=10, color='w',linewidth=1.5)
plt.title('Missing-data frequency in A', fontsize=20 , fontweight='bold', color='black', loc='center', style='italic')
plt.axis('off')
plt.subplot(132)
ax = sns.heatmap(df2.isnull(), cbar=False)
ax.axhline(y=6, color='w',linewidth=1.5)
ax.axhline(y=12, color='w',linewidth=1.5)
ax.axhline(y=18, color='w',linewidth=1.5)
ax.axvline(x=10, color='w',linewidth=1.5)
plt.title('Missing-data frequency in B', fontsize=20 , fontweight='bold', color='black', loc='center', style='italic')
plt.axis('off')
plt.subplot(133)
ax = sns.heatmap(df3.isnull(), cbar=False)
ax.axhline(y=6, color='w',linewidth=1.5)
ax.axhline(y=12, color='w',linewidth=1.5)
ax.axhline(y=18, color='w',linewidth=1.5)
ax.axvline(x=10, color='w',linewidth=1.5)
plt.title('Missing-data frequency in C', fontsize=20 , fontweight='bold', color='black', loc='center', style='italic')
plt.axis('off')
plt.suptitle(f'Missing-data visualization', color='yellow', backgroundcolor='black', fontsize=15, fontweight='bold')
plt.subplots_adjust(top=0.92, bottom=0.02, left=0.05, right=0.96, hspace=0.2, wspace=0.2)
fig.text(0.035, 0.93, 'dataset1' , fontsize=19, fontweight='bold', rotation=42., ha='center', va='center',bbox=dict(boxstyle="round",ec=(1., 0.5, 0.5),fc=(1., 0.8, 0.8)))
#fig.tight_layout()
plt.savefig(f'{i}/result{count}.png')
#plt.show()
问题是我不知道我怎么能缺少绘制数据出现的频率正确地理解其中的部分和细胞它频繁发生。
注1多个丢失的值的颜色应该是通过周期亮和100%缺失数据应该由白色和黑色固体颜色来呈现指示非缺失值。有可能是从黑色0%至100%的白色条形图开始。
注2我还提供数据集的示例文本文件为3个周期包括几个缺失数据,但它可以被手动修改和增加:dataset
预期结果应该是象下面这样:
1个回答
1
投票
投票
你可以存储你的男/ INF数据在一个单独的阵列,你可以在每个楠/ INF周期加起来。
你的阵列似乎总是有相同的大小,所以我有一个固定大小的定义他们。您可以更改以匹配您的数据:
df1MissingDataFrequency = np.zeros((24,20))
然后你可以把它们加起来,你得到一个nan值(你已经与inf取代nan在你的代码):
df1MissingDataFrequency = df1MissingDataFrequency + np.isnan(df1).astype(int)
在所有的周期。
你似乎有一些问题,你的缩进。我不知道这是否是只为你在这里张贴或代码的情况下,如果这是在您的实际代码相同,但此刻你犯了一个新的情节每个周期,你redifine df1, df2, df3每个i。
有了您丢失的频率数据,你的代码应该是这样的:
import numpy as np
import pandas as pd
import os
import seaborn as sns
import matplotlib.pyplot as plt
def mkdf(ListOf480Numbers):
normalMatrix = np.array_split(ListOf480Numbers,8)
fixMatrix = []
for i in range(8):
lines = np.array_split(normalMatrix[i],6)
newMatrix = [0,0,0,0,0,0]
for j in (1,3,5):
newMatrix[j] = lines[j]
for j in (0,2,4):
newMatrix[j] = lines[j][::-1]
fixMatrix.append(newMatrix)
return fixMatrix
def print_df(fixMatrix):
values = []
for i in range(6):
values.append([*fixMatrix[6][i], *fixMatrix[7][i]])
for i in range(6):
values.append([*fixMatrix[4][i], *fixMatrix[5][i]])
for i in range(6):
values.append([*fixMatrix[2][i], *fixMatrix[3][i]])
for i in range(6):
values.append([*fixMatrix[0][i], *fixMatrix[1][i]])
df = pd.DataFrame(values)
return (df)
dft = pd.read_csv('D:/Feryan2.txt', header=None)
id_set = dft[dft.index % 4 == 0].astype('int').values
A = dft[dft.index % 4 == 1].values
B = dft[dft.index % 4 == 2].values
C = dft[dft.index % 4 == 3].values
data = {'A': A[:,0], 'B': B[:,0], 'C': C[:,0]}
df = pd.DataFrame(data, columns=['A','B','C'], index = id_set[:,0])
nan = np.array(df.isnull())
inf = np.array(df.isnull())
df = df.replace([np.inf, -np.inf], np.nan)
df[np.isinf(df)] = np.nan # convert inf to nan
df1MissingDataFrequency = np.zeros((24,20))
df2MissingDataFrequency = np.zeros((24,20))
df3MissingDataFrequency = np.zeros((24,20))
#next iteration create all plots, change the number of cycles
cycles = int(len(df)/480)
print(cycles)
for cycle in range(3):
count = '{:04}'.format(cycle)
j = cycle * 480
new_value1 = df['A'].iloc[j:j+480]
new_value2 = df['B'].iloc[j:j+480]
new_value3 = df['C'].iloc[j:j+480]
df1 = print_df(mkdf(new_value1))
df2 = print_df(mkdf(new_value2))
df3 = print_df(mkdf(new_value3))
for i in df:
try:
os.mkdir(i)
except:
pass
df1.to_csv(f'{i}/norm{i}{count}.csv', header=None, index=None)
df2.to_csv(f'{i}/norm{i}{count}.csv', header=None, index=None)
df3.to_csv(f'{i}/norm{i}{count}.csv', header=None, index=None)
df1MissingDataFrequency = df1MissingDataFrequency + np.isnan(df1).astype(int)
df2MissingDataFrequency = df2MissingDataFrequency + np.isnan(df2).astype(int)
df3MissingDataFrequency = df3MissingDataFrequency + np.isnan(df3).astype(int)
#plotting all columns ['A','B','C'] in-one-window side by side
fig, ax = plt.subplots(nrows=1, ncols=3 , figsize=(10,7))
plt.subplot(131)
ax = sns.heatmap(df1MissingDataFrequency, cbar=False, cmap="gray")
ax.axhline(y=6, color='w',linewidth=1.5)
ax.axhline(y=12, color='w',linewidth=1.5)
ax.axhline(y=18, color='w',linewidth=1.5)
ax.axvline(x=10, color='w',linewidth=1.5)
plt.title('Missing-data frequency in A', fontsize=20 , fontweight='bold', color='black', loc='center', style='italic')
plt.axis('off')
plt.subplot(132)
ax = sns.heatmap(df2MissingDataFrequency, cbar=False, cmap="gray")
ax.axhline(y=6, color='w',linewidth=1.5)
ax.axhline(y=12, color='w',linewidth=1.5)
ax.axhline(y=18, color='w',linewidth=1.5)
ax.axvline(x=10, color='w',linewidth=1.5)
plt.title('Missing-data frequency in B', fontsize=20 , fontweight='bold', color='black', loc='center', style='italic')
plt.axis('off')
plt.subplot(133)
ax = sns.heatmap(df3MissingDataFrequency, cbar=False, cmap="gray")
ax.axhline(y=6, color='w',linewidth=1.5)
ax.axhline(y=12, color='w',linewidth=1.5)
ax.axhline(y=18, color='w',linewidth=1.5)
ax.axvline(x=10, color='w',linewidth=1.5)
plt.title('Missing-data frequency in C', fontsize=20 , fontweight='bold', color='black', loc='center', style='italic')
plt.axis('off')
plt.suptitle(f'Missing-data visualization', color='yellow', backgroundcolor='black', fontsize=15, fontweight='bold')
plt.subplots_adjust(top=0.92, bottom=0.02, left=0.05, right=0.96, hspace=0.2, wspace=0.2)
fig.text(0.035, 0.93, 'dataset1' , fontsize=19, fontweight='bold', rotation=42., ha='center', va='center',bbox=dict(boxstyle="round",ec=(1., 0.5, 0.5),fc=(1., 0.8, 0.8)))
#fig.tight_layout()
plt.savefig(f'{i}/result{count}.png')
#plt.show()
它给你你想要的输出:
编辑
在DRY的精神,我编辑你的代码,所以你没有DF1,DF2,DF3,new_values1,...你复制和遍布粘贴同样的事情。你已经遍历i,所以你应该用它来真正解决您的数据帧的三个不同的列:
dft = pd.read_csv('C:/Users/frefra/Downloads/Feryan2.txt', header=None).replace([np.inf, -np.inf], np.nan)
id_set = dft[dft.index % 4 == 0].astype('int').values
A = dft[dft.index % 4 == 1].values
B = dft[dft.index % 4 == 2].values
C = dft[dft.index % 4 == 3].values
data = {'A': A[:,0], 'B': B[:,0], 'C': C[:,0]}
df = pd.DataFrame(data, columns=['A','B','C'], index = id_set[:,0])
new_values = []
dfs = []
nan_frequencies = np.zeros((3,24,20))
#next iteration create all plots, change the number of cycles
cycles = int(len(df)/480)
print(cycles)
for cycle in range(cycles):
count = '{:04}'.format(cycle)
j = cycle * 480
for idx,i in enumerate(df):
try:
os.mkdir(i)
except:
pass
new_value = df[i].iloc[j:j+480]
new_values.append(new_value)
dfi = print_df(mkdf(new_value))
dfs.append(dfi)
dfi.to_csv(f'{i}/norm{i}{count}.csv', header=None, index=None)
nan_frequencies[idx] = nan_frequencies[idx] + np.isnan(dfi).astype(int)
#plotting all columns ['A','B','C'] in-one-window side by side
fig, ax = plt.subplots(nrows=1, ncols=3 , figsize=(10,7))
for idx,i in enumerate(df):
plt.subplot(1,3,idx+1)
ax = sns.heatmap(nan_frequencies[idx], cbar=False, cmap="gray")
ax.axhline(y=6, color='w',linewidth=1.5)
ax.axhline(y=12, color='w',linewidth=1.5)
ax.axhline(y=18, color='w',linewidth=1.5)
ax.axvline(x=10, color='w',linewidth=1.5)
plt.title('Missing-data frequency in ' + i, fontsize=20 , fontweight='bold', color='black', loc='center', style='italic')
plt.axis('off')
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