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ImageRegistration.py
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# -*- coding: utf-8 -*-
# @FileName: ImageRegistration.py
# @Time : 2021-03-10 15:07
# @Author : Dorad, [email protected]
# @Blog :https://blog.cuger.cn
import datetime
import os
import matplotlib
from PyQt5.QtCore import pyqtSignal, QThread
from PyQt5.QtGui import QIcon
from PyQt5.QtWidgets import QWidget, QVBoxLayout, QTabWidget, QPushButton, QComboBox, QGroupBox, QSpinBox, QSizePolicy, \
QFormLayout, QHBoxLayout, QFileDialog, QMessageBox, QApplication
matplotlib.use('Qt5Agg')
from matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg as FigureCanvas
from matplotlib.figure import Figure
from skimage import io
from ImageTool import *
import cv2 as cv2
class ImageRegWidget(QWidget):
finish = pyqtSignal([np.ndarray], name='sub image')
def __init__(self):
QWidget.__init__(self)
self.setWindowTitle('Image Registration for Rock Joint')
self.setWindowIcon(QIcon('res/icons/logo.ico'))
self.leftLayout = QVBoxLayout()
self.tabWidget = QTabWidget()
self.preImageCanvas = Canvas()
self.damageImageCanvas = Canvas()
self.featureMatchsCanvas = Canvas()
self.resultCanvas = Canvas()
self.tabWidget.addTab(self.preImageCanvas, 'Pre Image')
self.tabWidget.addTab(self.damageImageCanvas, 'Damage Image')
self.tabWidget.addTab(self.featureMatchsCanvas, 'Feature Matching')
self.tabWidget.addTab(self.resultCanvas, 'Result')
self.buttonLoadPreImage = QPushButton('Load Pre Image')
self.buttonLoadPreImage.clicked.connect(self.loadPreImage)
self.buttonLoadDamageImage = QPushButton('Load Damage Image')
self.buttonLoadDamageImage.clicked.connect(self.loadDamageImage)
self.selectFeatureBox = QComboBox()
self.selectFeatureBox.addItems([
'ORB',
'SIFT',
])
self.diskRadiusOfMedianFilterBox = QSpinBox(self)
self.diskRadiusOfMedianFilterBox.setRange(3, 20)
self.diskRadiusOfMedianFilterBox.setValue(3)
self.diskRadiusOfMedianFilterBox.setSingleStep(2)
self.buttonAnalysis = QPushButton('Analysis')
self.buttonAnalysis.clicked.connect(self.__analysis)
groupBoxImageReg = QGroupBox('Image Registration')
groupBoxImageReg.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Preferred)
vBox = QVBoxLayout()
vBox.addWidget(self.buttonLoadDamageImage)
vBox.addWidget(self.buttonLoadPreImage)
formBox = QFormLayout()
formBox.addRow('Feature Detection Algorithm', self.selectFeatureBox)
formBox.addRow('Disk Radius of Median Filter', self.diskRadiusOfMedianFilterBox)
vBox.addLayout(formBox)
vBox.addWidget(self.buttonAnalysis)
groupBoxImageReg.setLayout(vBox)
groupBoxExport = QGroupBox('Export')
self.selectSubType = QComboBox()
self.selectSubType.addItems([
'Damage-Pre',
'Pre-Damage',
'Both',
])
self.selectSubType.currentTextChanged.connect(self.__updateSubImage)
self.channelType = QComboBox()
self.channelType.addItems([
'Gray',
'Red',
'Green',
'Blue'
])
self.channelType.currentTextChanged.connect(self.__updateSubImage)
# export button
self.buttonLoadImageToSDZM = QPushButton('Load subimage to SDZM toolbox')
self.buttonLoadImageToSDZM.clicked.connect(self.__exportToDZMTtoolbox)
self.buttonExportAsPng = QPushButton('Export subimage as *.png')
self.buttonExportAsPng.clicked.connect(self.__exportAsPng)
self.buttonExportAlignedImageAspng = QPushButton('Export aligned image as *.png')
self.buttonExportAlignedImageAspng.clicked.connect(self.__exportAlignedImage)
exportFormBox = QFormLayout()
exportFormBox.addRow('Sub Type', self.selectSubType)
exportFormBox.addRow('Channel', self.channelType)
exportVBox = QVBoxLayout()
exportVBox.addLayout(exportFormBox)
exportVBox.addWidget(self.buttonExportAsPng)
exportVBox.addWidget(self.buttonLoadImageToSDZM)
exportVBox.addWidget(self.buttonExportAlignedImageAspng)
groupBoxExport.setLayout(exportVBox)
self.leftLayout.addWidget(groupBoxImageReg)
self.leftLayout.addStretch()
self.leftLayout.addWidget(groupBoxExport)
hBox = QHBoxLayout()
hBox.addLayout(self.leftLayout)
hBox.addWidget(self.tabWidget)
self.setLayout(hBox)
self.setMinimumSize(800, 600)
self.initUi()
def initUi(self):
if not (hasattr(self, 'projectWorkPath') and self.projectWorkPath):
self.projectWorkPath = os.getcwd()
self.preImage = None
self.damageImage = None
self.alignedImage = None
self.subImage = None
self.cropPolygon = None # polygon as list type
self.__updateActionsStatus()
def loadPreImage(self, image=False):
if image is False:
filePath, fileType = QFileDialog.getOpenFileName(self, caption='Choose the image',
directory=self.projectWorkPath,
filter='Image (*.jpg);;Image (*.png);;Image (*.tif)')
if not filePath:
QMessageBox.warning(self, 'No File Selected', 'No image file is selected.')
return
self.projectWorkPath, _ = os.path.split(filePath)
image = io.imread(filePath)
self.__setPreImage(image)
self.__updateActionsStatus()
def loadDamageImage(self, image=None):
if image is False:
filePath, fileType = QFileDialog.getOpenFileName(self, caption='Choose the image',
directory=self.projectWorkPath,
filter='Image (*.jpg);;Image (*.png);;Image (*.tif)')
if not filePath:
QMessageBox.warning(self, 'No File Selected', 'No image file is selected.')
return
self.projectWorkPath, _ = os.path.split(filePath)
image = io.imread(filePath)
self.__setDamageImage(image)
self.__updateActionsStatus()
def __analysis(self):
IT = ImageRegThread()
IT.setParameters(self.preImage, self.damageImage, self.selectFeatureBox.currentText())
IT.error.connect(self.__errorHandle)
IT.finish.connect(self.__analysisFinished)
IT.start()
self.IT = IT
self.__updateActionsStatus()
def __setPreImage(self, image):
# plt.close(1)
self.preImage = image
self.preImageCanvas.imshow(self.preImage, 'Image of Undamaged Specimen')
self.tabWidget.setCurrentWidget(self.preImageCanvas)
self.__updateActionsStatus()
def __setDamageImage(self, image):
# plt.close(1)
self.damageImage = image
self.damageImageCanvas.imshow(self.damageImage, 'Image of Damaged Specimen')
self.tabWidget.setCurrentWidget(self.damageImageCanvas)
self.__updateActionsStatus()
def __setMatchesImage(self, image):
self.featureMatchsCanvas.imshow(image, 'Match Result of Features')
self.tabWidget.setCurrentWidget(self.featureMatchsCanvas)
self.__updateActionsStatus()
def __setAlignedImage(self, alignImage):
self.alignedImage = alignImage
self.resultCanvas.imshow(self.preImage, 'Image of Undamaged Specimen', '221')
self.resultCanvas.imshow(self.damageImage, 'Image of Damage Speciimen', '222')
self.resultCanvas.imshow(self.alignedImage, 'Aligned Image of Undamaged Specimen', '223')
self.tabWidget.setCurrentWidget(self.resultCanvas)
self.__updateActionsStatus()
def __updateSubImage(self):
cType = self.selectSubType.currentText()
channel = self.channelType.currentText()
if cType not in [
'Pre-Damage',
'Damage-Pre',
'Both'
]:
return
damageImage = NAImage2GrayByChannel(self.damageImage, channel)
alignedImage = NAImage2GrayByChannel(self.alignedImage, channel)
alignedImage = medianFilter(alignedImage.astype(np.uint8), self.diskRadiusOfMedianFilterBox.value())
alignedImage = alignedImage.astype(np.float32)
# generate the sub image
alignedImage = alignedImage - np.mean(alignedImage)
damageImage = damageImage - np.mean(damageImage)
alignedImage[alignedImage < 0] = 0
damageImage[damageImage < 0] = 0
# align - damage
subImage = alignedImage.astype(np.float) - damageImage.astype(np.float)
if cType == 'Pre-Damage':
subImage[subImage < 0] = 0
elif cType == 'Damage-Pre':
subImage[subImage > 0] = 0
# else:
subImage = np.abs(subImage)
subImage = np.power(subImage, 2) / 40
subImage[subImage > 255] = 255
# self.subImage = imAdjust(subImage, 0, 1, 1)
self.subImage = subImage.astype(np.uint8)
self.subImage = cv2.equalizeHist(self.subImage)
self.resultCanvas.imshow(self.subImage, 'Sub Image', '224', 'gray')
self.__updateActionsStatus()
def __exportAlignedImage(self):
# select path
filePath, fileType = QFileDialog.getSaveFileName(self, 'Choose the path to save the image',
os.path.join(self.projectWorkPath, 'ImageOutput-%s.png' % (
datetime.datetime.now().strftime('%Y%m%d%H%M%S'))),
' png (*.png);;')
if not filePath:
QMessageBox.warning(self, 'No Path Selected', 'No Path is selected.')
return
io.imsave(filePath, self.alignedImage)
self.__updateActionsStatus()
def __exportAsPng(self):
# select path
filePath, fileType = QFileDialog.getSaveFileName(self, 'Choose the path to save the image',
os.path.join(self.projectWorkPath, 'ImageOutput-%s.png' % (
datetime.datetime.now().strftime('%Y%m%d%H%M%S'))),
' png (*.png);;')
if not filePath:
QMessageBox.warning(self, 'No Path Selected', 'No Path is selected.')
return
io.imsave(filePath, self.subImage)
self.__updateActionsStatus()
def __exportToDZMTtoolbox(self):
self.finish.emit(self.subImage.transpose((1, 0)))
self.__updateActionsStatus()
self.close()
def __errorHandle(self, error):
QMessageBox.warning(self, 'Error', error)
def __analysisFinished(self, imageAligned, matchesImage):
self.__setMatchesImage(matchesImage)
self.__setAlignedImage(imageAligned)
self.__updateSubImage()
def __updateActionsStatus(self):
self.buttonLoadPreImage.setEnabled(type(self.damageImage) == np.ndarray)
# self.buttonLoadDamageImage.setEnabled(type(self.preImage) == np.ndarray)
self.buttonAnalysis.setEnabled(type(self.preImage) == np.ndarray and type(self.damageImage) == np.ndarray)
self.buttonLoadImageToSDZM.setEnabled(type(self.subImage) == np.ndarray)
self.buttonExportAsPng.setEnabled(type(self.subImage) == np.ndarray)
self.buttonExportAlignedImageAspng.setEnabled(type(self.subImage) == np.ndarray)
# matplotlib 绘图
class Canvas(FigureCanvas):
def __init__(self, dpi=200):
self.fig = Figure(dpi=dpi)
FigureCanvas.__init__(self, self.fig)
FigureCanvas.setSizePolicy(self,
QSizePolicy.Expanding,
QSizePolicy.Expanding)
FigureCanvas.updateGeometry(self)
self.fontDict = {
'fontsize': 8
}
def imshow(self, image, title='', mod='111', cmap='viridis'):
axes = self.fig.add_subplot(mod)
axes.imshow(image, cmap)
if len(title):
axes.set_title(title, self.fontDict)
axes.axis('off')
self.draw()
# 图像对齐
class ImageRegThread(QThread):
finish = pyqtSignal([np.ndarray, np.ndarray], name='analysis finished')
error = pyqtSignal([int], name='error')
def __init__(self):
QThread.__init__(self)
def setParameters(self, image, imageRef, algorithm='ORB', maxFeatures=1000):
self.imageRef = imageRef
self.image = image
self.algorithm = algorithm
self.maxFeatures = maxFeatures
def run(self):
self.algorithm = self.algorithm.upper()
if self.algorithm not in ['ORB', 'SIFT']:
self.error.emit('The algorithm not exist.')
return
# select detector
if self.algorithm == 'SIFT':
descExtractor = cv2.SIFT_create()
elif self.algorithm == 'ORB':
descExtractor = cv2.ORB_create(self.maxFeatures)
# check the cropPolygon and
# find keypoints with detector
kpRef, desRef = descExtractor.detectAndCompute(self.imageRef, None)
kp, des = descExtractor.detectAndCompute(self.image, None)
# match features
bf = cv2.BFMatcher(cv2.NORM_L2, crossCheck=True)
matches = bf.match(desRef, des)
matches = sorted(matches, key=lambda x: x.distance)
matches = matches[0:100]
MIN_MATCH_COUNT = 10
# ransac
if len(matches) > MIN_MATCH_COUNT:
dst_pts = np.float32([kpRef[m.queryIdx].pt for m in matches]).reshape(-1, 1, 2)
src_pts = np.float32([kp[m.trainIdx].pt for m in matches]).reshape(-1, 1, 2)
# M, mask = cv2.findHomography(src_pts, dst_pts, cv2.RANSAC, 5.0)
# M, mask = cv2.estimateRigidTransform(src_pts, dst_pts, False)
M, mask = cv2.estimateAffine2D(src_pts, dst_pts, cv2.RANSAC)
matchesMask = mask.ravel().tolist()
else:
self.error.emit("Not enough matches are found - {}/{}".format(len(matches), MIN_MATCH_COUNT))
return
draw_params = dict(matchColor=(0, 255, 0), # draw matches in green color
singlePointColor=None,
matchesMask=matchesMask, # draw only inliers
flags=2)
matchesImage = cv2.drawMatches(self.imageRef, kpRef, self.image, kp, matches, None, **draw_params)
# imageWarped = cv2.warpPerspective(self.image, M, (self.imageRef.shape[1], self.imageRef.shape[0]))
imageWarped = cv2.warpAffine(self.image, M, (self.imageRef.shape[1], self.imageRef.shape[0]))
self.finish.emit(imageWarped, matchesImage)
import sys
if __name__ == '__main__':
app = QApplication(sys.argv)
mainWindow = ImageRegWidget()
mainWindow.show()
sys.exit(app.exec_())
# open('./data/MJ1-1/shear-down.jpg')
# imageRef = io.imread('./data/MJ1-1/origin-down.jpg')
# image = io.imread('./data/MJ1-1/shear-down.jpg')
# IT = ImageRegThread()
# IT.setParameters(imageRef, image)
#
#
# def finish(image, matches):
# fig = plt.figure()
# ax0 = fig.add_subplot(211)
# ax0.imshow(image)
# ax1 = fig.add_subplot(212)
# ax1.imshow(matches)
# plt.show()
#
#
# IT.finish.connect(finish)