import cx_Oracle
import xlrd
import xlwt
import matplotlib.pyplot as plt
import numpy as np
from matplotlib.ticker import FuncFormatter
plt.rcParams['font.sans-serif']=['SimHei']
plt.rcParams['axes.unicode_minus']=False
#设置坐标轴数值以百分比(%)显示函数
def to_percent(temp, position):
return '%1.0f'%(1*temp) + '%'
#字体设置
font2 = {'family' : 'Times New Roman',
'weight' : 'normal',
'size' : 25,
}
conn=cx_Oracle.connect('用户名/密码@IP:端口/数据库')
c=conn.cursor()
#sql查询语句,多行用()括起来
sql_detail=("select substr(date1,6,10)date1,round(avg(r_qty))r_qty,round(avg(e_qty))e_qty,""round(avg(r_qty)/avg(e_qty),2)*100 userate,round(avg(uptime),2)*100 uptime from 表tp "
"tp where 条件 "
"group by date1 order by date1 ")
x=c.execute(sql_detail)
#获取sql查询数据
data=x.fetchall()
#print(data)
#新建Excel保存数据
xl=xlwt.Workbook()
ws=xl.add_sheet("ROBOT 30 DAYS MOVE ")
#ws.write_merge(0,1,0,4,"ROBOT_30_DAYS_MOVE")
for i,item in enumerate(data):
for j,val in enumerate(item):
ws.write(i,j,val)
xl.save("E:\\ROBOT_30_DAYS_MOVE.xls")
#读取Excel数据
data1 = xlrd.open_workbook( "E:\\ROBOT_30_DAYS_MOVE.xls")
sheet1=data1.sheet_by_index(0)
date1=sheet1.col_values(0)
r_qty=sheet1.col_values(1)
e_qty=sheet1.col_values(2)
userate=sheet1.col_values(3)
uptime=sheet1.col_values(4)
#空值处理
for a in r_qty:
if a=='':
a=0
for a in e_qty:
if a=='':
a=0
for a in userate:
if a=='':
a=0
for a in uptime:
if a=='':
a=0
#将list元素str转int类型
r_qty = list(map(int, r_qty))
e_qty = list(map(int, e_qty))
userate = list(map(int, userate))
uptime = list(map(int, uptime))
#添加平均值mean求平均
r_qty.append(int(np.mean(r_qty)))
e_qty.append(int(np.mean(e_qty)))
userate.append(int(np.mean(userate)))
uptime.append(int(np.mean(uptime)))
date1.append('AVG')
#x轴坐标
x=np.arange(len(date1))
bar_width=0.35
plt.figure(1,figsize=(19,10))
#绘制主坐标轴-柱状图
plt.bar(np.arange(len(date1)),r_qty,label='RBT_MOVE',align='center',alpha=0.8,color='Blue',width=bar_width)
plt.bar(np.arange(len(date1))+bar_width,e_qty,label='EQP_MOVE',align='center',alpha=0.8,color='orange',width=bar_width)
#设置主坐标轴参数
plt.xlabel('')
plt.ylabel('Move',fontsize=18)
plt.legend(loc=1, bbox_to_anchor=(0,0.97),borderaxespad = 0.)
#plt.legend(loc='upper left')
for x,y in enumerate(r_qty):
plt.text(x,y+100,'%s' % y,ha='center',va='bottom')
for x,y in enumerate(e_qty):
plt.text(x+bar_width,y+100,'%s' % y,ha='left',va='top')
plt.ylim([0,8000])
#调用plt.twinx()后可绘制次坐标轴
plt.twinx()
#次坐标轴参考线
target1=[90]*len(date1)
target2=[80]*len(date1)
x=list(range(len(date1)))
plt.xticks(x,date1,rotation=45)
#绘制次坐标轴-折线图
plt.plot(np.arange(len(date1)),userate,label='USE_RATE',color='green',linewidth=1,linestyle='solid',marker='o',markersize=3)
plt.plot(np.arange(len(date1)),uptime,label='UPTIME',color='red',linewidth=1,linestyle='--',marker='o',markersize=3)
plt.plot(np.arange(len(date1)),target1,label='90%target',color='black',linewidth=1,linestyle='dashdot')
plt.plot(np.arange(len(date1)),target2,label='80%target',color='black',linewidth=1,linestyle='dashdot')
#次坐标轴刻度百分比显示
plt.gca().yaxis.set_major_formatter(FuncFormatter(to_percent))
plt.xlabel('')
plt.ylabel('Rate',fontsize=18)
#图列
plt.legend(loc=2, bbox_to_anchor=(1.01,0.97),borderaxespad = 0.)
plt.ylim([0,100])
for x,y in enumerate(userate):
plt.text(x,y-1,'%s' % y,ha='right',va='bottom',fontsize=14)
for x,y in enumerate(uptime):
plt.text(x,y+1,'%s' % y,ha='left',va='top',fontsize=14)
plt.title("ROBOT 30 DAYS MOVE")
#图表Table显示plt.table()
listdata=[r_qty]+[e_qty]+[userate]+[uptime]#数据
table_row=['RBT_MOVE','EQP_MOVE','USE_RATE(%)','UPTIME(%)']#行标签
table_col=date1#列标签
print(listdata)
print(table_row)
print(table_col)
the_table=plt.table(cellText=listdata,cellLoc='center',rowLabels=table_row,colLabels=table_col,rowLoc='center',colLoc='center')
#Table参数设置-字体大小太小,自己设置
the_table.auto_set_font_size(False)
the_table.set_fontsize(12)
#Table参数设置-改变表内字体显示比例,没有会溢出到表格线外面
the_table.scale(1,3)
#plt.show()
plt.savefig(r"E:\\ROBOT_30_DAYS_MOVE.png",bbox_inches='tight')
#关闭SQL连接
c.close()
conn.close()
到此这篇关于Python实现双轴组合图表柱状图和折线图的具体流程的文章就介绍到这了,更多相关python柱状图和折线图内容请搜索脚本之家以前的文章或继续浏览下面的相关文章希望大家以后多多支持脚本之家!
