Python opencv操作深入详解
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2022-03-31 23:45:39
直接读取图片def display_img(file="p.jpeg"): img = cv.imread(file) print (img.shape) cv.imshow('image',i...
直接读取图片
def display_img(file="p.jpeg"): img = cv.imread(file) print (img.shape) cv.imshow('image',img) cv.waitkey(0) cv.destroyallwindows()
读取灰度图片
def display_gray_img(file="p.jpeg"): img = cv.imread(file,cv.imread_grayscale) print (img.shape) cv.imshow('image',img) cv.waitkey(0) cv.destroyallwindows() cv.imwrite("gray_img.png",img)
读取视频
def display_video(file="sj.mp4"): v = cv.videocapture(file) if v.isopened(): open,frame = v.read() else: open=false while open: ret,frame = v.read() if frame is none: break if ret == true: gray = cv.cvtcolor(frame,cv.color_bgr2gray) cv.imshow("result",gray) if cv.waitkey(10) & 0xff == 27: break v.release() v.waitkey(0) v.destroyallwindows()
截取图片
def get_frame_img(file="p.jpeg"): img = cv.imread(file) print (img.shape) cat = img[0:200,0:200] cv.imshow('get_frame_img',cat) cv.waitkey(0) cv.destroyallwindows()
提取rgb通道
def extrats_rgb_img(file="p.jpeg"): img = cv.imread(file) b,g,r = cv.split(img) print (b.shape,g.shape,r.shape) new_img = cv.merge((b,g,r)) print (new_img.shape) copy_img_r = img.copy() copy_img_r[:,:,0]=0 copy_img_r[:,:,1]=0 cv.imshow("r_img",copy_img_r) copy_img_g = img.copy() copy_img_g[:,:,0]=0 copy_img_g[:,:,2]=0 cv.imshow("g_img",copy_img_g) copy_img_b = img.copy() copy_img_b[:,:,1]=0 copy_img_b[:,:,2]=0 cv.imshow("b_img",copy_img_b)
边界填充
def border_fill_img(file="p.jpeg"): border_type = [ cv.border_replicate,#复制法,复制边缘 cv.border_reflect, #反射法,对感兴趣的图像中的像素在两边进行复制 cv.border_reflect_101,#反射法,以边缘像素为轴,对称 cv.border_wrap,#外包装法 cv.border_constant#常量法,常量填充 ] border_title = [ "replicate", "reflect", "reflect_101", "wrap", "constant" ] img = cv.imread(file) top_size,bottom_size,left_size,right_size = (50,50,50,50) plt.subplot(231) plt.imshow(img,"gray")#原始图像 plt.title("orignal") for i in range(len(border_type)): result = cv.copymakeborder(img,top_size,bottom_size,left_size,right_size,border_type[i]) plt.subplot(232+i) plt.imshow(result,"gray") plt.title(border_title[i]) plt.show()
图像融合,变换
def img_compose(file1="tu.jpeg",file2="gui.jpeg"): img_1 = cv.imread(file1) img_2 = cv.imread(file2) print (img_1.shape) print (img_2.shape) img_1= cv.resize(img_1,(500,500)) img_2= cv.resize(img_2,(500,500)) print (img_1.shape) print (img_2.shape) res = cv.addweighted(img_1,0.4,img_2,0.6,0) plt.imshow(res) plt.show() res = cv.resize(img_1,(0,0),fx=3,fy=1) plt.imshow(res) plt.show() res = cv.resize(img_2,(0,0),fx=1,fy=3) plt.imshow(res) plt.show()
二值化处理
def binarization(filepath): img = cv2.imread(filepath,0) limit = 120 ret,thresh=cv2.threshold(img,limit,255,cv2.thresh_binary_inv) plt.imshow(thresh,'gray') plt.show() return thresh binarization('t1.jpg')
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