Python3+OpenCV2实现图像的几何变换(平移、镜像、缩放、旋转、仿射)_Python

前言

总结一下最近看的关于opencv图像几何变换的一些笔记.

这是原图:

Python3+OpenCV2实现图像的几何变换(平移、镜像、缩放、旋转、仿射)

1.平移

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									import cv2

									import numpy as np

									img = cv2.imread("image0.jpg", 1)

									imginfo = img.shape

									height = imginfo[0]

									width = imginfo[1]

									mode = imginfo[2]

									dst = np.zeros(imginfo, np.uint8)

									for i in range( height ):

									  for j in range( width - 100 ):

									    dst[i, j + 100] = img[i, j]

									cv2.imshow('image', dst)

									cv2.waitkey(0)

demo很简单,就是将图像向右平移了100个像素.如图:

Python3+OpenCV2实现图像的几何变换(平移、镜像、缩放、旋转、仿射)

2.镜像

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									import cv2

									import numpy as np

									img = cv2.imread('image0.jpg', 1)

									cv2.imshow('src', img)

									imginfo = img.shape

									height= imginfo[0]

									width = imginfo[1]

									deep = imginfo[2]

									dst = np.zeros([height*2, width, deep], np.uint8)

									for i in range( height ):

									  for j in range( width ):

									    dst[i,j] = img[i,j]

									    dst[height*2-i-1,j] = img[i,j]

									for i in range(width):

									  dst[height, i] = (0, 0, 255)

									cv2.imshow('image', dst)

									cv2.waitkey(0)

demo生成一个如下效果:

Python3+OpenCV2实现图像的几何变换(平移、镜像、缩放、旋转、仿射)

3.缩放

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									import cv2

									img = cv2.imread("image0.jpg", 1)

									imginfo = img.shape

									print( imginfo )

									height = imginfo[0]

									width = imginfo[1]

									mode = imginfo[2]

									# 1 放大 缩小 2 等比例 非等比例

									dstheight = int(height * 0.5)

									dstweight = int(width * 0.5)

									# 最近邻域插值 双线性插值 像素关系重采样 立方插值

									dst = cv2.resize(img, (dstweight,dstheight))

									print(dst.shape)

									cv2.imshow('image', dst)

									cv2.waitkey(0)

使用resize直接进行缩放操作,同时还可以使用邻域插值法进行缩放,代码如下:

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									# 1 info 2 空白模板 3 重新计算x, y

									import cv2

									import numpy as np

									img = cv2.imread('image0.jpg', 1)

									imginfo = img.shape # 先高度,后宽度

									height = imginfo[0]

									width = imginfo[1]

									dstheight = int(height/2)

									dstwidth = int(width/2)

									dstimage = np.zeros([dstheight, dstwidth, 3], np.uint8)

									for i in range( dstheight ):

									  for j in range(dstwidth):

									    inew = i * ( height * 1.0 / dstheight )

									    jnew = j * ( width * 1.0 / dstwidth )

									    dstimage[i,j] = img[int(inew),int(jnew)]

									cv2.imshow('image', dstimage)

									cv2.waitkey(0)

4.旋转

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									import cv2

									img = cv2.imread('image0.jpg', 1)

									cv2.imshow('src', img)

									imginfo = img.shape

									height= imginfo[0]

									width = imginfo[1]

									deep = imginfo[2]

									# 定义一个旋转矩阵

									matrotate = cv2.getrotationmatrix2d((height*0.5, width*0.5), 45, 0.7) # mat rotate 1 center 2 angle 3 缩放系数

									dst = cv2.warpaffine(img, matrotate, (height, width))

									cv2.imshow('image',dst)

									cv2.waitkey(0)

旋转需要先定义一个旋转矩阵,cv2.getrotationmatrix2d(),参数1:需要旋转的中心点.参数2:需要旋转的角度.参数三:需要缩放的比例.效果如下图:

Python3+OpenCV2实现图像的几何变换(平移、镜像、缩放、旋转、仿射)

5.仿射

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									import cv2

									import numpy as np

									img = cv2.imread('image0.jpg', 1)

									cv2.imshow('src', img)

									imginfo = img.shape

									height= imginfo[0]

									width = imginfo[1]

									deep = imginfo[2]

									# src 3 -> dst 3 (左上角, 左下角,右上角)

									matsrc = np.float32([[0,0],[0,height-1],[width-1, 0]]) # 需要注意的是 行列 和 坐标 是不一致的

									matdst = np.float32([[50,50],[100, height-50],[width-200,100]])

									mataffine = cv2.getaffinetransform(matsrc,matdst) #mat 1 src 2 dst 形成组合矩阵

									dst = cv2.warpaffine(img, mataffine,(height, width))

									cv2.imshow('image',dst)

									cv2.waitkey(0)