python opencv实现图片旋转矩形分割

有时候需要对有角度的矩形框内图像从原图片中分割出来。这里的程序思想是，先将图片进行矩形角度的旋转，使有角度的矩形处于水平状态后，根据原来坐标分割图片。
参考：python opencv实现旋转矩形框裁减功能

修改原来的程序：

1.旋转函数的输入仅为矩形的四点坐标
2.角度由公式计算出来
3.矩形四点pt1,pt2,pt3,pt4由txt文件读入
4.在旋转程序中还处理了顺时针和逆时针及出现矩形框翻转的问题。

代码：

# -*- coding:utf-8 -*-import cv2from math import *import numpy as npimport time,mathimport osimport re'''旋转图像并剪裁'''def rotate(    img, # 图片    pt1, pt2, pt3, pt4):  print pt1,pt2,pt3,pt4  withRect = math.sqrt((pt4[0] - pt1[0]) ** 2 + (pt4[1] - pt1[1]) ** 2) # 矩形框的宽度  heightRect = math.sqrt((pt1[0] - pt2[0]) ** 2 + (pt1[1] - pt2[1]) **2)  print withRect,heightRect  angle = acos((pt4[0] - pt1[0]) / withRect) * (180 / math.pi) # 矩形框旋转角度  print angle  if pt4[1]>pt1[1]:    print "顺时针旋转"  else:    print "逆时针旋转"    angle=-angle  height = img.shape[0] # 原始图像高度  width = img.shape[1]  # 原始图像宽度  rotateMat = cv2.getRotationMatrix2D((width / 2, height / 2), angle, 1) # 按angle角度旋转图像  heightNew = int(width * fabs(sin(radians(angle))) + height * fabs(cos(radians(angle))))  widthNew = int(height * fabs(sin(radians(angle))) + width * fabs(cos(radians(angle))))  rotateMat[0, 2] += (widthNew - width) / 2  rotateMat[1, 2] += (heightNew - height) / 2  imgRotation = cv2.warpAffine(img, rotateMat, (widthNew, heightNew), borderValue=(255, 255, 255))  cv2.imshow('rotateImg2', imgRotation)  cv2.waitKey(0)  # 旋转后图像的四点坐标  [[pt1[0]], [pt1[1]]] = np.dot(rotateMat, np.array([[pt1[0]], [pt1[1]], [1]]))  [[pt3[0]], [pt3[1]]] = np.dot(rotateMat, np.array([[pt3[0]], [pt3[1]], [1]]))  [[pt2[0]], [pt2[1]]] = np.dot(rotateMat, np.array([[pt2[0]], [pt2[1]], [1]]))  [[pt4[0]], [pt4[1]]] = np.dot(rotateMat, np.array([[pt4[0]], [pt4[1]], [1]]))  # 处理反转的情况  if pt2[1]>pt4[1]:    pt2[1],pt4[1]=pt4[1],pt2[1]  if pt1[0]>pt3[0]:    pt1[0],pt3[0]=pt3[0],pt1[0]  imgOut = imgRotation[int(pt2[1]):int(pt4[1]), int(pt1[0]):int(pt3[0])]  cv2.imshow("imgOut", imgOut) # 裁减得到的旋转矩形框  cv2.waitKey(0)  return imgRotation # rotated image＃　根据四点画原矩形def drawRect(img,pt1,pt2,pt3,pt4,color,lineWidth):  cv2.line(img, pt1, pt2, color, lineWidth)  cv2.line(img, pt2, pt3, color, lineWidth)  cv2.line(img, pt3, pt4, color, lineWidth)  cv2.line(img, pt1, pt4, color, lineWidth)#　读出文件中的坐标值def ReadTxt(directory,imageName,last):  fileTxt=directory+"//rawLabel//"+imageName[:7]+last # txt文件名  getTxt=open(fileTxt, 'r') # 打开txt文件  lines = getTxt.readlines()  length=len(lines)  for i in range(0,length,4):    pt2=list(map(float,lines[i].split(' ')[:2]))    pt1=list(map(float,lines[i+1].split(' ')[:2]))    pt4=list(map(float,lines[i+2].split(' ')[:2]))    pt3=list(map(float,re.split('/n| ',lines[i+3])[:2]))    # float转int    pt2=list(map(int,pt2))    pt1=list(map(int,pt1))    pt4=list(map(int,pt4))    pt3=list(map(int,pt3))    imgSrc = cv2.imread(imageName)    drawRect(imgSrc, tuple(pt1),tuple(pt2),tuple(pt3),tuple(pt4), (0, 0, 255), 2)    cv2.imshow("img", imgSrc)    cv2.waitKey(0)    rotate(imgSrc,pt1,pt2,pt3,pt4)if __name__=="__main__":  directory = "G://grasp//grapCode//trainImage//jpg//4"  last = 'cneg.txt'  imageName="pcd0247r.png"  ReadTxt(directory,imageName,last)