RuntimeWarning:在ubyte_scalars中遇到溢出 [英] RuntimeWarning: overflow encountered in ubyte_scalars
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问题描述
我是Python的新手,这是我编写的第一本书,我只是想知道如何删除此警告:
I'm new to Python and this is my first ever thing I've scripted and I'm just wondering what I can do to remove this warning:
Warning (from warnings module):
File "C:\Users\Luri\Desktop\Bot Stuff\ImageSaver.py", line 76
currentdiff=abs(anread[w,h])-abs(bnread[w,h])
RuntimeWarning: overflow encountered in ubyte_scalars
我尝试使用谷歌搜索答案,但解决这个问题对我来说并不清楚.
I've tried Googling the answer and nothing that was clear to me came up as far as fixing this.
我正在尝试编写一个程序,该程序会将在光标周围的矩形中获取的不断更新的图像与正在搜索的参考图像进行比较.
I'm trying to write a program that will compare a continuously updating image that is taken from a rectangle around my cursor with a reference image that I'm searching for.
然后根据光标相对于目标图像的区域,相应地进行调整.
Then depending on what region the cursor is in relative to the target image, it will adjust accordingly.
感谢您提供的任何帮助!
Thank you for any help you can give!
-J
代码如下:
import os
import sys
import time
import Image
import ImageGrab
import win32api
import numpy, scipy
def mousePos():
#---------------------------------------------------------
#User Settings:
SaveDirectory=r'C:\Users\Luri\Desktop\Bot Stuff'
ImageEditorPath=r'C:\WINDOWS\system32\mspaint.exe'
#Here is another example:
#ImageEditorPath=r'C:\Program Files\IrfanView\i_view32.exe'
#---------------------------------------------------------
i,j = win32api.GetCursorPos()
print 'Your Cusor Position is:', i,j
time.sleep(1)
size = 112, 58
#-------------------
#data is defined as | x0y0 = [0,0] = (xpos-56,ypos-29) | x0y1 = [0,1] = (xpos-56,ypos+29) | x1y1 = [1,1] = (xpos+56,ypos+29) | x1y0 = [1,0] = (xpos+56,ypos-29)
#Take In Image In Rectangle around cursor position to locate text of name
pixeldiff=0
currentdiff=0
NQ1=193395
NQ2=166330
NQ3=171697
NQ4=168734
NAC=190253
NBC=205430
x0=i-56
y0=j-29
x1=i+56
y1=j+29
box=[x0, y0, x1, y1]
img=ImageGrab.grab()
saveas=os.path.join(SaveDirectory,'fullscreen.jpg')
img.save(saveas)
editorstring='""%s" "%s"'% (ImageEditorPath,saveas)
#Crop box around cursor
cursorbox=img.crop(box)
saveas=os.path.join(SaveDirectory,'cursorbox.jpg')
cursorbox.save(saveas)
#Converts the given cursor rectangle to 8bit grayscale from RGB
out = cursorbox.convert("L")
saveas=os.path.join(SaveDirectory,'lmodecurbox.jpg')
out.save(saveas)
#Takes the converted grayscale picture and converts it to an array
a=numpy.asarray(out)
aarray=Image.fromarray(a)
sizea = a.shape
# print sizea
# print a
anread=a[:]
#Loads the reference image
reference=Image.open("referencecold.png")
#Converts the given cursor rectangle to 8bit grayscale from RGB
refout = reference.convert("L")
saveas=os.path.join(SaveDirectory,'lmoderefbox.jpg')
refout.save(saveas)
#Takes the converted grayscale picture and converts it to an array
b=numpy.asarray(refout)
barray=Image.fromarray(b)
sizeb = b.shape
# print sizeb
# print b
# print size
bnread=b[:]
# print bnread
#Realized you can determine position based on this single quadrant
#Loop Quadrant 1 x0y1 to xmym
for h in range(0,29):
for w in range(0,55):
#currentdiff=0
currentdiff=abs(anread[w,h])-abs(bnread[w,h])
pixeldiff=pixeldiff+currentdiff
# print pixeldiff
#Test Above
if pixeldiff<198559 and pixeldiff>190253:
#Test Left
if pixeldiff > 175000:
#Move Above and Left
print ('Go Up and Left')
else:
#Move Above Right
print ('Go Up and Right')
if pixeldiff>198559 and pixeldiff<205430:
if pixeldiff < 185000:
#Move Below and Left
print ('Go Down and Left')
else:
#Move Below and Right
print ('Go Down and Right')
"""
#Nominal Q1=193395 Variance low = 188408 Variance high = 203194
#Nominal Q2=166330 Variance low = 181116 Variance high = 199208
#Nominal Q3=171697 Variance low = 172279 Variance high = 201816
#Nominal Q4=168734 Variance low = 190644 Variance high = 191878
#Nominal Center = 198559
#Nominal Above Center = 190253
#Nominal Below Center = 205430
#Loop Quadrant 2 xmy1 to x1ym
for h in range(0,29):
for w in range(55,111):
difference=abs(a(w,h)-b(w,h))
currentdiff=abs(anread[w,h])-abs(bnread[w,h])
pixeldiff=pixeldiff+currentdiff
#Loop Quadrant 3 x0ym to xmy0
for h in range(29,57):
for w in range(0,55):
difference=abs(a(w,h)-b(w,h))
currentdiff=abs(anread[w,h])-abs(bnread[w,h])
pixeldiff=pixeldiff+currentdiff
#Loop Quadrant 4 xmym to x1y0
for h in range(29,57):
for w in range(55,111):
difference=abs(a(w,h)-b(w,h))
currentdiff=abs(anread[w,h])-abs(bnread[w,h])
pixeldiff=pixeldiff+currentdiff
#Fine Nominal Values for Each quadrant pixeldiff
#Compare which is similar and then move cursor in center of that quadrant
"""
def main():
# while True:
mousePos()
if __name__ == "__main__":
main()
#Compare image to constantly updating image of rectangle around cursor (maybe per second?) by searching for the quadrant with most similarity
#-------------------
#Based on comparison, move cursor to middle (x and y value) of matched quadrant by population of similar features and repeat
推荐答案
您正在将两个uint8值加在一起,得到一个uint8值.您需要在计算中转换数据类型.我建议您尝试一下:
You are adding two uint8 values together resulting in an uint8 value. You need to transform your data types in the calculation. I suggest you try this:
pixeldiff = (int(ipxeldiff)+int(currentdiff))/2
这应该有效.
平衡包围
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