def mousePressEvent(self, ev): if PYQT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == Qt.LeftButton: if self.drawing(): if self.current: # print("[DEBUG] Points b4 drawing: {} ".format(len(self.current.points))) self.current.addPoint(self.line[1]) # print("[DEBUG] Points after drawing: {} ".format(len(self.current.points))) self.line[0] = self.current[-1] if self.current.isClosed(): # print("[DEBUG] Points b4 finalising: {} ".format(len(self.current.points))) self.finalise() self.vertexUpdated.emit() elif not self.outOfPixmap(pos): self.current = Shape() self.current.addPoint(pos) self.vertexUpdated.emit() self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(self.id, True) self.update() elif self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif self.matching(): self.selectShapeEdgeByPoint(pos) elif ev.button() == Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint()
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif not self.outOfPixmap(pos): self.current = Shape() self.current.addPoint(pos) self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint()
def __init__(self, *args, **kwargs): super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.shapesBackups = [] self.current = None self.selectedShape = None # save the selected shape here self.selectedShapeCopy = None self.lineColor = QtGui.QColor(0, 0, 255) # self.line represents # if createMode == 'polygon': edge from last point to current # if createMode == 'rectangle': the rectangle self.line = Shape(line_color=self.lineColor) self.prevPoint = QtCore.QPoint() self.prevMovePoint = QtCore.QPoint() self.offsets = QtCore.QPoint(), QtCore.QPoint() self.scale = 1.0 self.pixmap = QtGui.QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self.hEdge = None self.movingShape = False self._painter = QtGui.QPainter() self._cursor = CURSOR_DEFAULT # Menus: self.menus = (QtWidgets.QMenu(), QtWidgets.QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(QtCore.Qt.WheelFocus)
def predict_mask_to_labelme(img_path=None, score_threshold=0.29): img = cv2.imread(img_path) img = cv2.cvtColor(img, cv2.COLOR_BGR2RGB) ny, nx, nc = img.shape img_tensor = torch.from_numpy(img) img_tensor = img_tensor.permute(2, 0, 1) / 255.0 preds = predict_coco(img_tensor) labels = preds[0]["labels"] scores = preds[0]["scores"] labels = labels.numpy() label_list = [] coco_labels = get_coco_labels() for i, i_mask in enumerate((preds[0]['masks'])): i_mask = i_mask[0].mul(255).cpu().numpy() score = scores[i].cpu().numpy() if score >= score_threshold: polys, has_holes = mask_to_polygons(i_mask) polys = polys[0] shape = Shape(label=coco_labels[labels[i]], shape_type='polygon', flags={}) for x, y in zip(polys[0::2], polys[1::2]): shape.addPoint((x, y)) label_list.append(shape) save_labels( img_path.replace('.jpg', '.json'), img_path, label_list, ny, nx, )
def __init__(self, *args, **kwargs): super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.current = None self.selectedShape = None # save the selected shape here self.selectedShapeCopy = None self.lineColor = QColor(0, 0, 255) self.line = Shape(line_color=self.lineColor) self.prevPoint = QPointF() self.offsets = QPointF(), QPointF() self.scale = 1.0 self.pixmap = QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self._painter = QPainter() self._cursor = CURSOR_DEFAULT # Menus: self.menus = (QMenu(), QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(Qt.WheelFocus)
def createLine(p0, p1, pt_scale, color=(0, 127, 0)): shape = Shape() shape.shape_type = "line" shape.addPoint(p0) shape.addPoint(p1) shape.setColor(color[0], color[1], color[2]) shape.scale = pt_scale shape.close() return shape
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.localPos()) else: pos = self.transformPos(ev.posF()) if self.isHoldSpace: if ev.button() == QtCore.Qt.LeftButton: self.prevPointDragImage = pos self.repaint() else: if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: # Add point to existing shape. if self.createMode == "polygon": self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif self.createMode in [ "rectangle", "circle", "line" ]: assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == "linestrip": self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if int(ev.modifiers() ) == QtCore.Qt.ControlModifier: self.finalise() elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape(shape_type=self.createMode) self.current.addPoint(pos) if self.createMode == "point": self.finalise() else: if self.createMode == "circle": self.current.shape_type = "circle" self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: group_mode = int( ev.modifiers()) == QtCore.Qt.ControlModifier self.selectShapePoint(pos, multiple_selection_mode=group_mode) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): group_mode = int(ev.modifiers()) == QtCore.Qt.ControlModifier self.selectShapePoint(pos, multiple_selection_mode=group_mode) self.prevPoint = pos self.repaint()
def finalise(self): if self.state == self.EDIT and self.contours: for contour in self.contours: shape = Shape(shape_type='polygon') for p in contour: shape.addPoint(p) self.canvas.finalise(shape) self.reset()
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.localPos()) else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: # Add point to existing shape. if self.createMode == "polygon": self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif self.createMode in ["rectangle", "circle", "line"]: assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == "linestrip": self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if int(ev.modifiers()) == QtCore.Qt.ControlModifier: self.finalise() elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape(shape_type=self.createMode) self.current.addPoint(pos) if self.createMode == "point": self.finalise() else: if self.createMode == "circle": self.current.shape_type = "circle" self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() elif self.editing(): if self.selectedEdge(): self.addPointToEdge() elif (self.selectedVertex() and int(ev.modifiers()) == QtCore.Qt.ShiftModifier): # Delete point if: left-click + SHIFT on a point self.removeSelectedPoint() group_mode = int(ev.modifiers()) == QtCore.Qt.ControlModifier self.selectShapePoint(pos, multiple_selection_mode=group_mode) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): group_mode = int(ev.modifiers()) == QtCore.Qt.ControlModifier if not self.selectedShapes or (self.hShape is not None and self.hShape not in self.selectedShapes): self.selectShapePoint(pos, multiple_selection_mode=group_mode) self.repaint() self.prevPoint = pos
def __init__(self, *args, **kwargs): self.epsilon = kwargs.pop("epsilon", 10.0) self.double_click = kwargs.pop("double_click", "close") if self.double_click not in [None, "close"]: raise ValueError( "Unexpected value for double_click event: {}".format( self.double_click)) super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.shapesBackups = [] self.current = None self.selectedShapes = [] # save the selected shapes here self.selectedShapesCopy = [] # self.line represents: # - createMode == 'polygon': edge from last point to current # - createMode == 'rectangle': diagonal line of the rectangle # - createMode == 'line': the line # - createMode == 'point': the point self.line = Shape() self.prevPoint = QtCore.QPoint() self.prevMovePoint = QtCore.QPoint() self.offsets = QtCore.QPoint(), QtCore.QPoint() self.scale = 1.0 self.pixmap = QtGui.QPixmap() self.visible = {} self.visibleLabel = { "Bubble": True, "Bubble-Content": True, "Onomatopoeia": True, "Onomatopoeia-Content": True, } self._hideBackround = False self.hideBackround = False self.hShape = None self.prevhShape = None self.hVertex = None self.prevhVertex = None self.hEdge = None self.prevhEdge = None self.movingShape = False self._painter = QtGui.QPainter() self._cursor = CURSOR_DEFAULT # Menus: # 0: right-click without selection and dragging of shapes # 1: right-click with selection and dragging of shapes self.menus = (QtWidgets.QMenu(), QtWidgets.QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(QtCore.Qt.WheelFocus) # self.setFocusPolicy(QtCore.Qt.WheelFocus) # self.minArea = 900 self.minArea = 6 self.ccRegion = None
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.localPos()) else: pos = self.transformPos(ev.posF()) if self.createMode == 'autocontour': self.autocontour.mousePressEvent(ev) return if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: # Add point to existing shape. if self.createMode == 'polygon': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif self.createMode in ['rectangle', 'circle', 'line']: assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == 'linestrip': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if int(ev.modifiers()) == QtCore.Qt.ControlModifier: self.finalise() elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape(shape_type=self.createMode) self.current.addPoint(pos) if self.createMode == 'point': self.finalise() else: if self.createMode == 'circle': self.current.shape_type = 'circle' self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: group_mode = (int(ev.modifiers()) == QtCore.Qt.ControlModifier) self.selectShapePoint(pos, multiple_selection_mode=group_mode) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): group_mode = (int(ev.modifiers()) == QtCore.Qt.ControlModifier) self.selectShapePoint(pos, multiple_selection_mode=group_mode) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.MiddleButton and self.editing(): group_mode = 0 #(int(ev.modifiers()) == QtCore.Qt.ControlModifier) self.selectShapePoint(pos, multiple_selection_mode=group_mode) self.prevPoint = pos self.repaint()
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: # Add point to existing shape. if self.createMode == 'polygon': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif self.createMode in ['rectangle', 'circle', 'line']: assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == 'linestrip': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if int(ev.modifiers()) == QtCore.Qt.ControlModifier: self.finalise() #added by lihaodong elif self.createMode == 'car': if len(self.current.points) < 4: self.current.addPoint(self.line[1]) self.line[0] = self.current[0] elif len(self.current.points) <= 6: self.current.addPoint(self.line[-1]) if len(self.current.points) == 6: self.finalise() ## elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape(shape_type=self.createMode) self.current.addPoint(pos) if self.createMode == 'point': self.finalise() else: if self.createMode == 'circle': self.current.shape_type = 'circle' self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint()
def to_labelme(img_folder, anno_file, multiple_animals=True ): """Convert keypoints format to labelme json files. Args: img_folder (path): folder where images are located anno_file (h5): keypoints annotation file. multiple_animals: labeled with multiple animals(default True) """ df = pd.read_hdf(os.path.join(img_folder, anno_file)) scorer = df.columns.get_level_values(0)[0] if multiple_animals: individuals = df.columns.get_level_values(1) bodyparts = df.columns.get_level_values(2) for ind, imname in enumerate(df.index): img_path = os.path.join(img_folder, imname) image = cv2.imread(img_path) ny, nx, nc = np.shape(image) image_height = ny image_width = nx label_list = [] for idv in set(individuals): for b in set(bodyparts): s = Shape(label=f"{idv}_{b}", shape_type='point', flags={}) x = df.iloc[ind][scorer][idv][b]['x'] y = df.iloc[ind][scorer][idv][b]['y'] if np.isfinite(x) and np.isfinite(y): s.addPoint((x, y)) label_list.append(s) save_labels(img_path.replace('.png', '.json'), img_path, label_list, image_height, image_width) else: bodyparts = df.columns.get_level_values(1) for ind, imname in enumerate(df.index): img_path = os.path.join(img_folder, imname) print(img_folder, imname) image = cv2.imread(img_path) try: ny, nx, nc = np.shape(image) except: ny, ny = np.shape(image) image_height = ny image_width = nx label_list = [] for b in set(bodyparts): s = Shape(label=f"{b}", shape_type='point', flags={}) x = df.iloc[ind][scorer][b]['x'] y = df.iloc[ind][scorer][b]['y'] if np.isfinite(x) and np.isfinite(y): s.addPoint((x, y)) label_list.append(s) save_labels(img_path.replace('.png', '.json'), img_path, label_list, image_height, image_width)
def __init__(self, *args, **kwargs): self.epsilon = kwargs.pop('epsilon', 10.0) self.double_click = kwargs.pop('double_click', 'close') if self.double_click not in [None, 'close']: raise ValueError( 'Unexpected value for double_click event: {}'.format( self.double_click)) super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.shapesBackups = [] self.current = None self.selectedShapes = [] # save the selected shapes here self.selectedShapesCopy = [] # self.line represents: # - createMode == 'polygon': edge from last point to current # - createMode == 'rectangle': diagonal line of the rectangle # - createMode == 'line': the line # - createMode == 'point': the point self.line = Shape() self.prevPoint = QtCore.QPoint() self.prevMovePoint = QtCore.QPoint() self.offsets = QtCore.QPoint(), QtCore.QPoint() self.scale = 1.0 self.pixmap = QtGui.QPixmap() self.auxpixmap = QtGui.QPixmap() self.blendpixmap = QtGui.QPixmap() self.aux_image_opacity = 0.5 self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.prevhShape = None self.hVertex = None self.prevhVertex = None self.hEdge = None self.prevhEdge = None self.movingShape = False self._painter = QtGui.QPainter() self._cursor = CURSOR_DEFAULT self.autocontour = AutoContour(self) # Menus: # 0: right-click without selection and dragging of shapes # 1: right-click with selection and dragging of shapes self.menus = (QtWidgets.QMenu(), QtWidgets.QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(QtCore.Qt.WheelFocus)
def __init__(self, *args, **kwargs): super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.current = None self.selectedShape=None # save the selected shape here self.selectedShapeCopy=None self.lineColor = QColor(0, 0, 255) self.line = Shape(line_color=self.lineColor) self.prevPoint = QPointF() self.offsets = QPointF(), QPointF() self.scale = 1.0 self.pixmap = QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self._painter = QPainter() self._cursor = CURSOR_DEFAULT # Menus: self.menus = (QMenu(), QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(Qt.WheelFocus)
def mousePressEvent(self, ev): if PYQT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == Qt.LeftButton: if self.drawing(): if self.current: try: self.current.addPoint(self.line[1]) except Exception as e: print(e, file=sys.stderr) return self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif not self.outOfPixmap(pos): self.current = Shape() self.current.addPoint(pos) self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint()
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.localPos()) #### 获取坐标 两个类型都是<class 'PyQt5.QtCore.QPointF'> 此函数用于变换坐标到对应控件? t_str = time.strftime('%m-%d %H:%M:%S', time.localtime(time.time())) ## 添加记录时间 汉化文件行数变化 else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: # 左键则绘制, 一边添加 if self.drawing(): if self.current: # 如果当前的shape不为空(points内有点) # Add point to existing shape. if self.createMode == 'polygon': self.current.addPoint(self.line[1]) # 添加点 此时pointsNew也变化 self.line[0] = self.current[-1] # 等于最后一个点line[0] if self.current.isClosed(): # 通过此函数找到了self.current的类别,即Shape self.finalise() # 敲定 elif self.createMode in ['rectangle', 'circle', 'line']: assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == 'linestrip': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if int(ev.modifiers()) == QtCore.Qt.ControlModifier: self.finalise() elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape(shape_type=self.createMode) self.current.addPoint(pos) # 这里添加的两个坐标的点了 看下位置 加入哪里的 if self.createMode == 'point': self.finalise() else: if self.createMode == 'circle': self.current.shape_type = 'circle' # 圆 self.line.points = [pos, pos] # 两点 self.setHiding() # self.drawingPolygon.emit(True) # 绘制 self.update() # 刷新 else: # 没有点,起始 group_mode = (int(ev.modifiers()) == QtCore.Qt.ControlModifier) # 鼠标信息的修改器 与 控制器修改器 self.selectShapePoint(pos, multiple_selection_mode=group_mode) # 选择点 self.prevPoint = pos # 更新点 self.repaint() # 重绘 elif ev.button() == QtCore.Qt.RightButton and self.editing(): # 右键 group_mode = (int(ev.modifiers()) == QtCore.Qt.ControlModifier) self.selectShapePoint(pos, multiple_selection_mode=group_mode) self.prevPoint = pos self.repaint()
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: # Add point to existing shape. if self.createMode == 'polygon': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif self.createMode == 'rectangle': assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == 'line': assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == 'poses': assert len(self.current.points) == 1 self.current.points = self.line.points # Only for pose the bnr_type is set to avoid drawing vertex on arrows. self.current.bnr_type = 'poses' self.finalise() else: raise ValueError elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape() self.current.addPoint(pos) self.line.bnr_type = '' self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint()
def __init__(self, *args, **kwargs): self.epsilon = kwargs.pop('epsilon', 10.0) # 把字典中的epsilon删除,如果此键不存在则返回10.0。存在则删除此键的键值对,并返回键对应的值 self.double_click = kwargs.pop('double_click', 'close') #双击 if self.double_click not in [None, 'close']: #如果双击 的值不是None也不是关闭 raise ValueError( 'Unexpected value for double_click event: {}' .format(self.double_click) # 非期望值 ) super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT # 模式选择 self.shapes = [] # shapes self.shapesBackups = [] # shapes backup self.current = None # 当前的什么 None值 self.selectedShapes = [] # save the selected shapes here self.selectedShapesCopy = [] # 上一个成员的copy # self.line represents: # - createMode == 'polygon': edge from last point to current # - createMode == 'rectangle': diagonal line of the rectangle # - createMode == 'line': the line # - createMode == 'point': the point self.line = Shape() # 一个Shape类对象,用于在图像绘制多边形 self.prevPoint = QtCore.QPoint() # baocun self.prevMovePoint = QtCore.QPoint() # 保存当前点位置 self.offsets = QtCore.QPoint(), QtCore.QPoint() #偏移是两个空点,出事为0 self.scale = 1.0 #放缩比例 self.pixmap = QtGui.QPixmap() # pixmap绘图设备的图像显示 self.visible = {} # 可见的 self._hideBackround = False # 是否隐藏背景 self.hideBackround = False self.hShape = None # 当前shape? self.prevhShape = None # 上一个shape self.hVertex = None #当前顶点 self.prevhVertex = None # 上一个顶点 self.hEdge = None # 当前边 self.prevhEdge = None # 上一条边 self.movingShape = False # 移动形状 self._painter = QtGui.QPainter() # 绘制控件 在父类上绘制 self._cursor = CURSOR_DEFAULT #光标样式设置 # Menus: # 0: right-click without selection and dragging of shapes # 1: right-click with selection and dragging of shapes self.menus = (QtWidgets.QMenu(), QtWidgets.QMenu()) #0:右键没有选择 1:拖拽形状 # Set widget options. self.setMouseTracking(True) # 设置部件选择 鼠标跟踪设为真(此时可以重载几个鼠标的槽函数),参数为鼠标的信号 self.setFocusPolicy(QtCore.Qt.WheelFocus) # 设置焦点策略 轮子焦点
def createRectangle(p0, p1): shape = Shape() shape.shape_type = "rectangle" shape.addPoint(p0) shape.addPoint(p1) shape.close() return shape
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: # Add point to existing shape. # Start modified by Minming Qian modify line to multi-line if self.createMode in ['polygon', 'line']: self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif self.createMode == 'rectangle': assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() # End modified elif not self.outOfPixmap(pos): # Mod by Minming Qian, Create new shape, # pass the type to the shape to log line self.current = Shape(type=self.createMode) # End Mod self.current.addPoint(pos) if self.createMode == 'point': self.finalise() else: self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint()
def __init__(self, *args, **kwargs): self.epsilon = kwargs.pop('epsilon', 10.0) super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.shapesBackups = [] self.current = None self.selectedShapes = [] # save the selected shapes here self.selectedShapesCopy = [] self.lineColor = QtGui.QColor(0, 0, 255) # self.line represents: # - createMode == 'polygon': edge from last point to current # - createMode == 'rectangle': diagonal line of the rectangle # - createMode == 'line': the line # - createMode == 'point': the point self.line = Shape(line_color=self.lineColor) self.prevPoint = QtCore.QPoint() self.prevMovePoint = QtCore.QPoint() self.offsets = QtCore.QPoint(), QtCore.QPoint() self.scale = 1.0 self.pixmap = QtGui.QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self.hEdge = None self.movingShape = False self._painter = QtGui.QPainter() self._cursor = CURSOR_DEFAULT self.clickModule = loggingClicks() print("canvas") print(self.clickModule) # Menus: # 0: right-click without selection and dragging of shapes # 1: right-click with selection and dragging of shapes self.menus = (QtWidgets.QMenu(), QtWidgets.QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(QtCore.Qt.WheelFocus)
def __init__(self, *args, **kwargs): self.epsilon = kwargs.pop('epsilon', 11.0) super(Canvas, self).__init__(*args, **kwargs) # *args allows to input unknown numbers of args ; **args stores undefined parameters like dd=18 # Initialise local state. self.mode = self.EDIT self.shapes = [] self.filename = [] self.image = [] self.pre_mask = [] self.roi = [] self.test_mask = [] self.shapesBackups = [] self.current = None self.selectedShape = None # save the selected shape here self.selectedShapeCopy = None self.lineColor = QtGui.QColor(0, 0, 255) # self.line represents: # - createMode == 'polygon': edge from last point to current # - createMode == 'rectangle': diagonal line of the rectangle # - createMode == 'line': the line # - createMode == 'point': the point self.line = Shape(line_color=self.lineColor) self.prevPoint = QtCore.QPoint() self.prevMovePoint = QtCore.QPoint() self.offsets = QtCore.QPoint(), QtCore.QPoint() self.scale = 1.0 self.pixmap = QtGui.QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self.hEdge = None self.movingShape = False self._painter = QtGui.QPainter() self._cursor = CURSOR_DEFAULT # Menus: self.menus = (QtWidgets.QMenu(), QtWidgets.QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(QtCore.Qt.WheelFocus)
def loadLabels(self, shapes): s = [] for label, points, line_color, fill_color in shapes: shape = Shape(label=label) for x, y in points: shape.addPoint(QtCore.QPointF(x, y)) shape.close() s.append(shape) if line_color: shape.line_color = QtGui.QColor(*line_color) if fill_color: shape.fill_color = QtGui.QColor(*fill_color) self.loadShapes(s)
def mousePressEvent(self, ev): if PYQT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == Qt.LeftButton: if self.drawing(): if self.current: try: self.current.addPoint(self.line[1]) except Exception as e: print(e, file=sys.stderr) return self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif not self.outOfPixmap(pos): self.current = Shape() self.current.addPoint(pos) #self.current.person_box = bbox self.current.imgCnt = self.imgCnt self.current.person_bbox = self.person_bbox # choose color self.current.line_color = Qt.red self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() if self.current.isClosed(): self.finalise() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint()
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: # Add point to existing shape. if self.createMode == 'polygon': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif self.createMode in ['rectangle', 'circle', 'line']: assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == 'linestrip': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if int(ev.modifiers()) == QtCore.Qt.ControlModifier: self.finalise() elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape(shape_type=self.createMode) self.current.addPoint(pos) if self.createMode == 'point': self.finalise() else: if self.createMode == 'circle': self.current.shape_type = 'circle' self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint()
def __init__(self, *args, **kwargs): self.epsilon = kwargs.pop('epsilon', 11.0) super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.shapesBackups = [] self.current = None self.selectedShape = None # save the selected shape here self.selectedShapeCopy = None self.lineColor = QtGui.QColor(0, 0, 255) # self.line represents: # - createMode == 'polygon': edge from last point to current # - createMode == 'rectangle': diagonal line of the rectangle # - createMode == 'line': the line # - createMode == 'point': the point self.line = Shape(line_color=self.lineColor) self.prevPoint = QtCore.QPoint() self.prevMovePoint = QtCore.QPoint() self.offsets = QtCore.QPoint(), QtCore.QPoint() self.scale = 1.0 self.pixmap = QtGui.QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self.hEdge = None self.movingShape = False self._painter = QtGui.QPainter() self._cursor = CURSOR_DEFAULT # Menus: self.menus = (QtWidgets.QMenu(), QtWidgets.QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(QtCore.Qt.WheelFocus)
def get_hull_fromimg(img, K, offset): ''' 通过kmeans聚类,以及一些二值化处理,提取图片中的目标区域。 ''' gray_img = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY) Z = gray_img.reshape((-1, 1)) # convert to np.float32 Z = np.float32(Z) # define criteria, number of clusters(K) and apply kmeans() criteria = (cv2.TERM_CRITERIA_EPS + cv2.TERM_CRITERIA_MAX_ITER, 15, 1.0) ret, label, center = cv2.kmeans(Z, K, None, criteria, 10, cv2.KMEANS_RANDOM_CENTERS) # Now convert back into uint8, and make original image center = np.uint8(center) res = center[label.flatten()] quant_img = res.reshape((gray_img.shape)) thre, bin_img = cv2.threshold(gray_img, int(min(center.reshape((-1, 1)))), 255, cv2.THRESH_BINARY_INV) bin_img = cv2.erode(bin_img, None, iterations=1) bin_img = cv2.dilate(bin_img, None, iterations=4) contours, hierarchy = cv2.findContours(bin_img, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_NONE, offset=offset) shapes_list = [] for contour in contours: if ((cv2.arcLength(contour, False) < 50 and len(contours) > 1) or cv2.arcLength(contour, False) > 1000): continue hull = cv2.convexHull(contour, False) cur_shape = Shape(shape_type="polygon") for point in hull: cur_shape.addPoint(QtCore.QPoint(point[0][0], point[0][1])) cur_shape.addPoint(QtCore.QPoint(hull[0][0][0], hull[0][0][1])) shapes_list.append(cur_shape) return shapes_list, quant_img
class Canvas(QtWidgets.QWidget): zoomRequest = QtCore.Signal(int, QtCore.QPoint) scrollRequest = QtCore.Signal(int, int) newShape = QtCore.Signal() selectionChanged = QtCore.Signal(bool) shapeMoved = QtCore.Signal() drawingPolygon = QtCore.Signal(bool) edgeSelected = QtCore.Signal(bool) CREATE, EDIT = 0, 1 # polygon, rectangle, line, or point _createMode = 'polygon' _fill_drawing = False def __init__(self, *args, **kwargs): self.epsilon = kwargs.pop('epsilon', 10.0) super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.shapesBackups = [] self.current = None self.selectedShape = None # save the selected shape here self.selectedShapeCopy = None self.lineColor = QtGui.QColor(0, 0, 255) # self.line represents: # - createMode == 'polygon': edge from last point to current # - createMode == 'rectangle': diagonal line of the rectangle # - createMode == 'line': the line # - createMode == 'point': the point self.line = Shape(line_color=self.lineColor) self.prevPoint = QtCore.QPoint() self.prevMovePoint = QtCore.QPoint() self.offsets = QtCore.QPoint(), QtCore.QPoint() self.scale = 1.0 self.pixmap = QtGui.QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self.hEdge = None self.movingShape = False self._painter = QtGui.QPainter() self._cursor = CURSOR_DEFAULT # Menus: self.menus = (QtWidgets.QMenu(), QtWidgets.QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(QtCore.Qt.WheelFocus) def fillDrawing(self): return self._fill_drawing def setFillDrawing(self, value): self._fill_drawing = value @property def createMode(self): return self._createMode @createMode.setter def createMode(self, value): if value not in [ 'polygon', 'rectangle', 'circle', 'line', 'point', 'linestrip' ]: raise ValueError('Unsupported createMode: %s' % value) self._createMode = value def storeShapes(self): shapesBackup = [] for shape in self.shapes: shapesBackup.append(shape.copy()) if len(self.shapesBackups) >= 10: self.shapesBackups = self.shapesBackups[-9:] self.shapesBackups.append(shapesBackup) @property def isShapeRestorable(self): if len(self.shapesBackups) < 2: return False return True def restoreShape(self): if not self.isShapeRestorable: return self.shapesBackups.pop() # latest shapesBackup = self.shapesBackups.pop() self.shapes = shapesBackup self.storeShapes() self.repaint() def enterEvent(self, ev): self.overrideCursor(self._cursor) def leaveEvent(self, ev): self.restoreCursor() def focusOutEvent(self, ev): self.restoreCursor() def isVisible(self, shape): return self.visible.get(shape, True) def drawing(self): return self.mode == self.CREATE def editing(self): return self.mode == self.EDIT def setEditing(self, value=True): self.mode = self.EDIT if value else self.CREATE if not value: # Create self.unHighlight() self.deSelectShape() def unHighlight(self): if self.hShape: self.hShape.highlightClear() self.hVertex = self.hShape = None def selectedVertex(self): return self.hVertex is not None def mouseMoveEvent(self, ev): """Update line with last point and current coordinates.""" try: if QT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) except AttributeError: return self.prevMovePoint = pos self.restoreCursor() # Polygon drawing. if self.drawing(): self.line.shape_type = self.createMode self.overrideCursor(CURSOR_DRAW) if not self.current: return color = self.lineColor if self.outOfPixmap(pos): # Don't allow the user to draw outside the pixmap. # Project the point to the pixmap's edges. pos = self.intersectionPoint(self.current[-1], pos) elif len(self.current) > 1 and self.createMode == 'polygon' and\ self.closeEnough(pos, self.current[0]): # Attract line to starting point and # colorise to alert the user. pos = self.current[0] color = self.current.line_color self.overrideCursor(CURSOR_POINT) self.current.highlightVertex(0, Shape.NEAR_VERTEX) if self.createMode in ['polygon', 'linestrip']: self.line[0] = self.current[-1] self.line[1] = pos elif self.createMode == 'rectangle': self.line.points = [self.current[0], pos] self.line.close() elif self.createMode == 'circle': self.line.points = [self.current[0], pos] self.line.shape_type = "circle" elif self.createMode == 'line': self.line.points = [self.current[0], pos] self.line.close() elif self.createMode == 'point': self.line.points = [self.current[0]] self.line.close() self.line.line_color = color self.repaint() self.current.highlightClear() return # Polygon copy moving. if QtCore.Qt.RightButton & ev.buttons(): if self.selectedShapeCopy and self.prevPoint: self.overrideCursor(CURSOR_MOVE) self.boundedMoveShape(self.selectedShapeCopy, pos) self.repaint() elif self.selectedShape: self.selectedShapeCopy = self.selectedShape.copy() self.repaint() return # Polygon/Vertex moving. self.movingShape = False if QtCore.Qt.LeftButton & ev.buttons(): if self.selectedVertex(): self.boundedMoveVertex(pos) self.repaint() self.movingShape = True elif self.selectedShape and self.prevPoint: self.overrideCursor(CURSOR_MOVE) self.boundedMoveShape(self.selectedShape, pos) self.repaint() self.movingShape = True return # Just hovering over the canvas, 2 posibilities: # - Highlight shapes # - Highlight vertex # Update shape/vertex fill and tooltip value accordingly. self.setToolTip("Image") for shape in reversed([s for s in self.shapes if self.isVisible(s)]): # Look for a nearby vertex to highlight. If that fails, # check if we happen to be inside a shape. index = shape.nearestVertex(pos, self.epsilon / self.scale) index_edge = shape.nearestEdge(pos, self.epsilon / self.scale) if index is not None: if self.selectedVertex(): self.hShape.highlightClear() self.hVertex = index self.hShape = shape self.hEdge = index_edge shape.highlightVertex(index, shape.MOVE_VERTEX) self.overrideCursor(CURSOR_POINT) self.setToolTip("Click & drag to move point") self.setStatusTip(self.toolTip()) self.update() break elif shape.containsPoint(pos): if self.selectedVertex(): self.hShape.highlightClear() self.hVertex = None self.hShape = shape self.hEdge = index_edge self.setToolTip("Click & drag to move shape '%s'" % shape.label) self.setStatusTip(self.toolTip()) self.overrideCursor(CURSOR_GRAB) self.update() break else: # Nothing found, clear highlights, reset state. if self.hShape: self.hShape.highlightClear() self.update() self.hVertex, self.hShape, self.hEdge = None, None, None self.edgeSelected.emit(self.hEdge is not None) def addPointToEdge(self): if (self.hShape is None and self.hEdge is None and self.prevMovePoint is None): return shape = self.hShape index = self.hEdge point = self.prevMovePoint shape.insertPoint(index, point) shape.highlightVertex(index, shape.MOVE_VERTEX) self.hShape = shape self.hVertex = index self.hEdge = None def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: # Add point to existing shape. if self.createMode == 'polygon': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif self.createMode in ['rectangle', 'circle', 'line']: assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == 'linestrip': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if int(ev.modifiers()) == QtCore.Qt.ControlModifier: self.finalise() elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape(shape_type=self.createMode) self.current.addPoint(pos) if self.createMode == 'point': self.finalise() else: if self.createMode == 'circle': self.current.shape_type = 'circle' self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint() def mouseReleaseEvent(self, ev): if ev.button() == QtCore.Qt.RightButton: menu = self.menus[bool(self.selectedShapeCopy)] self.restoreCursor() if not menu.exec_(self.mapToGlobal(ev.pos()))\ and self.selectedShapeCopy: # Cancel the move by deleting the shadow copy. self.selectedShapeCopy = None self.repaint() elif ev.button() == QtCore.Qt.LeftButton and self.selectedShape: self.overrideCursor(CURSOR_GRAB) if self.movingShape: self.storeShapes() self.shapeMoved.emit() def endMove(self, copy=False): assert self.selectedShape and self.selectedShapeCopy shape = self.selectedShapeCopy # del shape.fill_color # del shape.line_color if copy: self.shapes.append(shape) self.selectedShape.selected = False self.selectedShape = shape self.repaint() else: shape.label = self.selectedShape.label self.deleteSelected() self.shapes.append(shape) self.storeShapes() self.selectedShapeCopy = None def hideBackroundShapes(self, value): self.hideBackround = value if self.selectedShape: # Only hide other shapes if there is a current selection. # Otherwise the user will not be able to select a shape. self.setHiding(True) self.repaint() def setHiding(self, enable=True): self._hideBackround = self.hideBackround if enable else False def canCloseShape(self): return self.drawing() and self.current and len(self.current) > 2 def mouseDoubleClickEvent(self, ev): # We need at least 4 points here, since the mousePress handler # adds an extra one before this handler is called. if self.canCloseShape() and len(self.current) > 3: self.current.popPoint() self.finalise() def selectShape(self, shape): self.deSelectShape() shape.selected = True self.selectedShape = shape self.setHiding() self.selectionChanged.emit(True) self.update() def selectShapePoint(self, point): """Select the first shape created which contains this point.""" self.deSelectShape() if self.selectedVertex(): # A vertex is marked for selection. index, shape = self.hVertex, self.hShape shape.highlightVertex(index, shape.MOVE_VERTEX) return for shape in reversed(self.shapes): if self.isVisible(shape) and shape.containsPoint(point): shape.selected = True self.selectedShape = shape self.calculateOffsets(shape, point) self.setHiding() self.selectionChanged.emit(True) return def calculateOffsets(self, shape, point): rect = shape.boundingRect() x1 = rect.x() - point.x() y1 = rect.y() - point.y() x2 = (rect.x() + rect.width() - 1) - point.x() y2 = (rect.y() + rect.height() - 1) - point.y() self.offsets = QtCore.QPoint(x1, y1), QtCore.QPoint(x2, y2) def boundedMoveVertex(self, pos): index, shape = self.hVertex, self.hShape point = shape[index] if self.outOfPixmap(pos): pos = self.intersectionPoint(point, pos) shape.moveVertexBy(index, pos - point) def boundedMoveShape(self, shape, pos): if self.outOfPixmap(pos): return False # No need to move o1 = pos + self.offsets[0] if self.outOfPixmap(o1): pos -= QtCore.QPoint(min(0, o1.x()), min(0, o1.y())) o2 = pos + self.offsets[1] if self.outOfPixmap(o2): pos += QtCore.QPoint(min(0, self.pixmap.width() - o2.x()), min(0, self.pixmap.height() - o2.y())) # XXX: The next line tracks the new position of the cursor # relative to the shape, but also results in making it # a bit "shaky" when nearing the border and allows it to # go outside of the shape's area for some reason. # self.calculateOffsets(self.selectedShape, pos) dp = pos - self.prevPoint if dp: shape.moveBy(dp) self.prevPoint = pos return True return False def deSelectShape(self): if self.selectedShape: self.selectedShape.selected = False self.selectedShape = None self.setHiding(False) self.selectionChanged.emit(False) self.update() def deleteSelected(self): if self.selectedShape: shape = self.selectedShape self.shapes.remove(self.selectedShape) self.storeShapes() self.selectedShape = None self.update() return shape def copySelectedShape(self): if self.selectedShape: shape = self.selectedShape.copy() self.deSelectShape() self.shapes.append(shape) self.storeShapes() shape.selected = True self.selectedShape = shape self.boundedShiftShape(shape) return shape def boundedShiftShape(self, shape): # Try to move in one direction, and if it fails in another. # Give up if both fail. point = shape[0] offset = QtCore.QPoint(2.0, 2.0) self.calculateOffsets(shape, point) self.prevPoint = point if not self.boundedMoveShape(shape, point - offset): self.boundedMoveShape(shape, point + offset) def paintEvent(self, event): if not self.pixmap: return super(Canvas, self).paintEvent(event) p = self._painter p.begin(self) p.setRenderHint(QtGui.QPainter.Antialiasing) p.setRenderHint(QtGui.QPainter.HighQualityAntialiasing) p.setRenderHint(QtGui.QPainter.SmoothPixmapTransform) p.scale(self.scale, self.scale) p.translate(self.offsetToCenter()) p.drawPixmap(0, 0, self.pixmap) Shape.scale = self.scale for shape in self.shapes: if (shape.selected or not self._hideBackround) and \ self.isVisible(shape): shape.fill = shape.selected or shape == self.hShape shape.paint(p) if self.current: self.current.paint(p) self.line.paint(p) if self.selectedShapeCopy: self.selectedShapeCopy.paint(p) if (self.fillDrawing() and self.createMode == 'polygon' and self.current is not None and len(self.current.points) >= 2): drawing_shape = self.current.copy() drawing_shape.addPoint(self.line[1]) drawing_shape.fill = True drawing_shape.fill_color.setAlpha(64) drawing_shape.paint(p) p.end() def transformPos(self, point): """Convert from widget-logical coordinates to painter-logical ones.""" return point / self.scale - self.offsetToCenter() def offsetToCenter(self): s = self.scale area = super(Canvas, self).size() w, h = self.pixmap.width() * s, self.pixmap.height() * s aw, ah = area.width(), area.height() x = (aw - w) / (2 * s) if aw > w else 0 y = (ah - h) / (2 * s) if ah > h else 0 return QtCore.QPoint(x, y) def outOfPixmap(self, p): w, h = self.pixmap.width(), self.pixmap.height() return not (0 <= p.x() < w and 0 <= p.y() < h) def finalise(self): assert self.current self.current.close() self.shapes.append(self.current) self.storeShapes() self.current = None self.setHiding(False) self.newShape.emit() self.update() def closeEnough(self, p1, p2): # d = distance(p1 - p2) # m = (p1-p2).manhattanLength() # print "d %.2f, m %d, %.2f" % (d, m, d - m) # divide by scale to allow more precision when zoomed in return labelme.utils.distance(p1 - p2) < (self.epsilon / self.scale) def intersectionPoint(self, p1, p2): # Cycle through each image edge in clockwise fashion, # and find the one intersecting the current line segment. # http://paulbourke.net/geometry/lineline2d/ size = self.pixmap.size() points = [(0, 0), (size.width() - 1, 0), (size.width() - 1, size.height() - 1), (0, size.height() - 1)] x1, y1 = p1.x(), p1.y() x2, y2 = p2.x(), p2.y() d, i, (x, y) = min(self.intersectingEdges((x1, y1), (x2, y2), points)) x3, y3 = points[i] x4, y4 = points[(i + 1) % 4] if (x, y) == (x1, y1): # Handle cases where previous point is on one of the edges. if x3 == x4: return QtCore.QPoint(x3, min(max(0, y2), max(y3, y4))) else: # y3 == y4 return QtCore.QPoint(min(max(0, x2), max(x3, x4)), y3) return QtCore.QPoint(x, y) def intersectingEdges(self, point1, point2, points): """Find intersecting edges. For each edge formed by `points', yield the intersection with the line segment `(x1,y1) - (x2,y2)`, if it exists. Also return the distance of `(x2,y2)' to the middle of the edge along with its index, so that the one closest can be chosen. """ (x1, y1) = point1 (x2, y2) = point2 for i in range(4): x3, y3 = points[i] x4, y4 = points[(i + 1) % 4] denom = (y4 - y3) * (x2 - x1) - (x4 - x3) * (y2 - y1) nua = (x4 - x3) * (y1 - y3) - (y4 - y3) * (x1 - x3) nub = (x2 - x1) * (y1 - y3) - (y2 - y1) * (x1 - x3) if denom == 0: # This covers two cases: # nua == nub == 0: Coincident # otherwise: Parallel continue ua, ub = nua / denom, nub / denom if 0 <= ua <= 1 and 0 <= ub <= 1: x = x1 + ua * (x2 - x1) y = y1 + ua * (y2 - y1) m = QtCore.QPoint((x3 + x4) / 2, (y3 + y4) / 2) d = labelme.utils.distance(m - QtCore.QPoint(x2, y2)) yield d, i, (x, y) # These two, along with a call to adjustSize are required for the # scroll area. def sizeHint(self): return self.minimumSizeHint() def minimumSizeHint(self): if self.pixmap: return self.scale * self.pixmap.size() return super(Canvas, self).minimumSizeHint() def wheelEvent(self, ev): if QT5: mods = ev.modifiers() delta = ev.angleDelta() if QtCore.Qt.ControlModifier == int(mods): # with Ctrl/Command key # zoom self.zoomRequest.emit(delta.y(), ev.pos()) else: # scroll self.scrollRequest.emit(delta.x(), QtCore.Qt.Horizontal) self.scrollRequest.emit(delta.y(), QtCore.Qt.Vertical) else: if ev.orientation() == QtCore.Qt.Vertical: mods = ev.modifiers() if QtCore.Qt.ControlModifier == int(mods): # with Ctrl/Command key self.zoomRequest.emit(ev.delta(), ev.pos()) else: self.scrollRequest.emit( ev.delta(), QtCore.Qt.Horizontal if (QtCore.Qt.ShiftModifier == int(mods)) else QtCore.Qt.Vertical) else: self.scrollRequest.emit(ev.delta(), QtCore.Qt.Horizontal) ev.accept() def keyPressEvent(self, ev): key = ev.key() if key == QtCore.Qt.Key_Escape and self.current: self.current = None self.drawingPolygon.emit(False) self.update() elif key == QtCore.Qt.Key_Return and self.canCloseShape(): self.finalise() def setLastLabel(self, text, flags): assert text self.shapes[-1].label = text self.shapes[-1].flags = flags self.shapesBackups.pop() self.storeShapes() return self.shapes[-1] def undoLastLine(self): assert self.shapes self.current = self.shapes.pop() self.current.setOpen() if self.createMode in ['polygon', 'linestrip']: self.line.points = [self.current[-1], self.current[0]] elif self.createMode in ['rectangle', 'line', 'circle']: self.current.points = self.current.points[0:1] elif self.createMode == 'point': self.current = None self.drawingPolygon.emit(True) def undoLastPoint(self): if not self.current or self.current.isClosed(): return self.current.popPoint() if len(self.current) > 0: self.line[0] = self.current[-1] else: self.current = None self.drawingPolygon.emit(False) self.repaint() def loadPixmap(self, pixmap): self.pixmap = pixmap self.shapes = [] self.repaint() def loadShapes(self, shapes, replace=True): if replace: self.shapes = list(shapes) else: self.shapes.extend(shapes) self.storeShapes() self.current = None self.repaint() def setShapeVisible(self, shape, value): self.visible[shape] = value self.repaint() def overrideCursor(self, cursor): self.restoreCursor() self._cursor = cursor QtWidgets.QApplication.setOverrideCursor(cursor) def restoreCursor(self): QtWidgets.QApplication.restoreOverrideCursor() def resetState(self): self.restoreCursor() self.pixmap = None self.shapesBackups = [] self.update()
class Canvas(QWidget): zoomRequest = pyqtSignal(int) scrollRequest = pyqtSignal(int, int) newShape = pyqtSignal() selectionChanged = pyqtSignal(bool) shapeMoved = pyqtSignal() drawingPolygon = pyqtSignal(bool) CREATE, EDIT = range(2) epsilon = 11.0 def __init__(self, *args, **kwargs): super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.current = None self.selectedShape = None # save the selected shape here self.selectedShapeCopy = None self.lineColor = QColor(0, 0, 255) self.line = Shape(line_color=self.lineColor) self.prevPoint = QPointF() self.offsets = QPointF(), QPointF() self.scale = 1.0 self.pixmap = QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self._painter = QPainter() self._cursor = CURSOR_DEFAULT # Menus: self.menus = (QMenu(), QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(Qt.WheelFocus) def enterEvent(self, ev): self.overrideCursor(self._cursor) def leaveEvent(self, ev): self.restoreCursor() def focusOutEvent(self, ev): self.restoreCursor() def isVisible(self, shape): return self.visible.get(shape, True) def drawing(self): return self.mode == self.CREATE def editing(self): return self.mode == self.EDIT def setEditing(self, value=True): self.mode = self.EDIT if value else self.CREATE if not value: # Create self.unHighlight() self.deSelectShape() def unHighlight(self): if self.hShape: self.hShape.highlightClear() self.hVertex = self.hShape = None def selectedVertex(self): return self.hVertex is not None def mouseMoveEvent(self, ev): """Update line with last point and current coordinates.""" pos = self.transformPos(ev.localPos()) self.restoreCursor() # Polygon drawing. if self.drawing(): self.overrideCursor(CURSOR_DRAW) if self.current: color = self.lineColor if self.outOfPixmap(pos): # Don't allow the user to draw outside the pixmap. # Project the point to the pixmap's edges. pos = self.intersectionPoint(self.current[-1], pos) elif len(self.current) > 1 and self.closeEnough( pos, self.current[0]): # Attract line to starting point and colorise to alert the user: pos = self.current[0] color = self.current.line_color self.overrideCursor(CURSOR_POINT) self.current.highlightVertex(0, Shape.NEAR_VERTEX) self.line[1] = pos self.line.line_color = color self.repaint() self.current.highlightClear() return # Polygon copy moving. if Qt.RightButton & ev.buttons(): if self.selectedShapeCopy and self.prevPoint: self.overrideCursor(CURSOR_MOVE) self.boundedMoveShape(self.selectedShapeCopy, pos) self.repaint() elif self.selectedShape: self.selectedShapeCopy = self.selectedShape.copy() self.repaint() return # Polygon/Vertex moving. if Qt.LeftButton & ev.buttons(): if self.selectedVertex(): self.boundedMoveVertex(pos) self.shapeMoved.emit() self.repaint() elif self.selectedShape and self.prevPoint: self.overrideCursor(CURSOR_MOVE) self.boundedMoveShape(self.selectedShape, pos) self.shapeMoved.emit() self.repaint() return # Just hovering over the canvas, 2 posibilities: # - Highlight shapes # - Highlight vertex # Update shape/vertex fill and tooltip value accordingly. self.setToolTip("Image") for shape in reversed([s for s in self.shapes if self.isVisible(s)]): # Look for a nearby vertex to highlight. If that fails, # check if we happen to be inside a shape. index = shape.nearestVertex(pos, self.epsilon) if index is not None: if self.selectedVertex(): self.hShape.highlightClear() self.hVertex, self.hShape = index, shape shape.highlightVertex(index, shape.MOVE_VERTEX) self.overrideCursor(CURSOR_POINT) self.setToolTip("Click & drag to move point") self.setStatusTip(self.toolTip()) self.update() break elif shape.containsPoint(pos): if self.selectedVertex(): self.hShape.highlightClear() self.hVertex, self.hShape = None, shape self.setToolTip("Click & drag to move shape '%s'" % shape.label) self.setStatusTip(self.toolTip()) self.overrideCursor(CURSOR_GRAB) self.update() break else: # Nothing found, clear highlights, reset state. if self.hShape: self.hShape.highlightClear() self.update() self.hVertex, self.hShape = None, None def mousePressEvent(self, ev): pos = self.transformPos(ev.localPos()) if ev.button() == Qt.LeftButton: if self.drawing(): if self.current: self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif not self.outOfPixmap(pos): self.current = Shape() self.current.addPoint(pos) self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint() def mouseReleaseEvent(self, ev): if ev.button() == Qt.RightButton: menu = self.menus[bool(self.selectedShapeCopy)] self.restoreCursor() if not menu.exec_(self.mapToGlobal(ev.pos()))\ and self.selectedShapeCopy: # Cancel the move by deleting the shadow copy. self.selectedShapeCopy = None self.repaint() elif ev.button() == Qt.LeftButton and self.selectedShape: self.overrideCursor(CURSOR_GRAB) def endMove(self, copy=False): assert self.selectedShape and self.selectedShapeCopy shape = self.selectedShapeCopy #del shape.fill_color #del shape.line_color if copy: self.shapes.append(shape) self.selectedShape.selected = False self.selectedShape = shape self.repaint() else: shape.label = self.selectedShape.label self.deleteSelected() self.shapes.append(shape) self.selectedShapeCopy = None def hideBackroundShapes(self, value): self.hideBackround = value if self.selectedShape: # Only hide other shapes if there is a current selection. # Otherwise the user will not be able to select a shape. self.setHiding(True) self.repaint() def setHiding(self, enable=True): self._hideBackround = self.hideBackround if enable else False def canCloseShape(self): return self.drawing() and self.current and len(self.current) > 2 def mouseDoubleClickEvent(self, ev): # We need at least 4 points here, since the mousePress handler # adds an extra one before this handler is called. if self.canCloseShape() and len(self.current) > 3: self.current.popPoint() self.finalise() def selectShape(self, shape): self.deSelectShape() shape.selected = True self.selectedShape = shape self.setHiding() self.selectionChanged.emit(True) self.update() def selectShapePoint(self, point): """Select the first shape created which contains this point.""" self.deSelectShape() if self.selectedVertex(): # A vertex is marked for selection. index, shape = self.hVertex, self.hShape shape.highlightVertex(index, shape.MOVE_VERTEX) return for shape in reversed(self.shapes): if self.isVisible(shape) and shape.containsPoint(point): shape.selected = True self.selectedShape = shape self.calculateOffsets(shape, point) self.setHiding() self.selectionChanged.emit(True) return def calculateOffsets(self, shape, point): rect = shape.boundingRect() x1 = rect.x() - point.x() y1 = rect.y() - point.y() x2 = (rect.x() + rect.width()) - point.x() y2 = (rect.y() + rect.height()) - point.y() self.offsets = QPointF(x1, y1), QPointF(x2, y2) def boundedMoveVertex(self, pos): index, shape = self.hVertex, self.hShape point = shape[index] if self.outOfPixmap(pos): pos = self.intersectionPoint(point, pos) shape.moveVertexBy(index, pos - point) def boundedMoveShape(self, shape, pos): if self.outOfPixmap(pos): return False # No need to move o1 = pos + self.offsets[0] if self.outOfPixmap(o1): pos -= QPointF(min(0, o1.x()), min(0, o1.y())) o2 = pos + self.offsets[1] if self.outOfPixmap(o2): pos += QPointF(min(0, self.pixmap.width() - o2.x()), min(0, self.pixmap.height() - o2.y())) # The next line tracks the new position of the cursor # relative to the shape, but also results in making it # a bit "shaky" when nearing the border and allows it to # go outside of the shape's area for some reason. XXX #self.calculateOffsets(self.selectedShape, pos) dp = pos - self.prevPoint if dp: shape.moveBy(dp) self.prevPoint = pos return True return False def deSelectShape(self): if self.selectedShape: self.selectedShape.selected = False self.selectedShape = None self.setHiding(False) self.selectionChanged.emit(False) self.update() def deleteSelected(self): if self.selectedShape: shape = self.selectedShape self.shapes.remove(self.selectedShape) self.selectedShape = None self.update() return shape def copySelectedShape(self): if self.selectedShape: shape = self.selectedShape.copy() self.deSelectShape() self.shapes.append(shape) shape.selected = True self.selectedShape = shape self.boundedShiftShape(shape) return shape def boundedShiftShape(self, shape): # Try to move in one direction, and if it fails in another. # Give up if both fail. point = shape[0] offset = QPointF(2.0, 2.0) self.calculateOffsets(shape, point) self.prevPoint = point if not self.boundedMoveShape(shape, point - offset): self.boundedMoveShape(shape, point + offset) def paintEvent(self, event): if not self.pixmap: return super(Canvas, self).paintEvent(event) p = self._painter p.begin(self) p.setRenderHint(QPainter.Antialiasing) p.setRenderHint(QPainter.HighQualityAntialiasing) p.setRenderHint(QPainter.SmoothPixmapTransform) p.scale(self.scale, self.scale) p.translate(self.offsetToCenter()) p.drawPixmap(0, 0, self.pixmap) Shape.scale = self.scale for shape in self.shapes: if (shape.selected or not self._hideBackround) and self.isVisible(shape): shape.fill = shape.selected or shape == self.hShape shape.paint(p) if self.current: self.current.paint(p) self.line.paint(p) if self.selectedShapeCopy: self.selectedShapeCopy.paint(p) p.end() def transformPos(self, point): """Convert from widget-logical coordinates to painter-logical coordinates.""" return point / self.scale - self.offsetToCenter() def offsetToCenter(self): s = self.scale area = super(Canvas, self).size() w, h = self.pixmap.width() * s, self.pixmap.height() * s aw, ah = area.width(), area.height() x = (aw - w) / (2 * s) if aw > w else 0 y = (ah - h) / (2 * s) if ah > h else 0 return QPointF(x, y) def outOfPixmap(self, p): w, h = self.pixmap.width(), self.pixmap.height() return not (0 <= p.x() <= w and 0 <= p.y() <= h) def finalise(self): assert self.current self.current.close() self.shapes.append(self.current) self.current = None self.setHiding(False) self.newShape.emit() self.update() def closeEnough(self, p1, p2): #d = distance(p1 - p2) #m = (p1-p2).manhattanLength() #print "d %.2f, m %d, %.2f" % (d, m, d - m) return distance(p1 - p2) < self.epsilon def intersectionPoint(self, p1, p2): # Cycle through each image edge in clockwise fashion, # and find the one intersecting the current line segment. # http://paulbourke.net/geometry/lineline2d/ size = self.pixmap.size() points = [(0, 0), (size.width(), 0), (size.width(), size.height()), (0, size.height())] x1, y1 = p1.x(), p1.y() x2, y2 = p2.x(), p2.y() d, i, (x, y) = min(self.intersectingEdges((x1, y1), (x2, y2), points)) x3, y3 = points[i] x4, y4 = points[(i + 1) % 4] if (x, y) == (x1, y1): # Handle cases where previous point is on one of the edges. if x3 == x4: return QPointF(x3, min(max(0, y2), max(y3, y4))) else: # y3 == y4 return QPointF(min(max(0, x2), max(x3, x4)), y3) return QPointF(x, y) def intersectingEdges(self, (x1, y1), (x2, y2), points): """For each edge formed by `points', yield the intersection with the line segment `(x1,y1) - (x2,y2)`, if it exists. Also return the distance of `(x2,y2)' to the middle of the edge along with its index, so that the one closest can be chosen.""" for i in xrange(4): x3, y3 = points[i] x4, y4 = points[(i + 1) % 4] denom = (y4 - y3) * (x2 - x1) - (x4 - x3) * (y2 - y1) nua = (x4 - x3) * (y1 - y3) - (y4 - y3) * (x1 - x3) nub = (x2 - x1) * (y1 - y3) - (y2 - y1) * (x1 - x3) if denom == 0: # This covers two cases: # nua == nub == 0: Coincident # otherwise: Parallel continue ua, ub = nua / denom, nub / denom if 0 <= ua <= 1 and 0 <= ub <= 1: x = x1 + ua * (x2 - x1) y = y1 + ua * (y2 - y1) m = QPointF((x3 + x4) / 2, (y3 + y4) / 2) d = distance(m - QPointF(x2, y2)) yield d, i, (x, y)
class Canvas(QWidget): zoomRequest = pyqtSignal(int) scrollRequest = pyqtSignal(int, int, int) newShape = pyqtSignal(int) selectionChanged = pyqtSignal(int, bool) shapeMoved = pyqtSignal() drawingPolygon = pyqtSignal(int, bool) vertexUpdated = pyqtSignal() CREATE, EDIT, MATCH = 0, 1, 2 epsilon = 11.0 lineEps = 2.0 def __init__(self, id, *args, **kwargs): super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.id = id assert(self.id >= 0) self.mode = self.EDIT self.shapes = [] self.current = None self.selectedShape=None # save the selected shape here self.selectedShapeCopy=None self.selectedEdge=None self.lineColor = QColor(0, 0, 255) self.line = Shape(line_color=self.lineColor) self.prevPoint = QPointF() self.offsets = QPointF(), QPointF() self.scale = 1.0 self.pixmap = QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self.hEdge = None self._painter = QPainter() self._cursor = CURSOR_DEFAULT # Menus: self.menus = (QMenu(), QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(Qt.WheelFocus) self.vertexUpdated.connect(self.updateCanvasLinesAndPoints) def enterEvent(self, ev): self.overrideCursor(self._cursor) def leaveEvent(self, ev): self.restoreCursor() def focusOutEvent(self, ev): self.restoreCursor() def isVisible(self, shape): return self.visible.get(shape, True) def drawing(self): return self.mode == self.CREATE def editing(self): return self.mode == self.EDIT def matching(self): return self.mode == self.MATCH # def setEditing(self, value=True): # self.mode = self.EDIT if value else self.CREATE # if not value: # Create # self.unHighlight() # self.deSelectShape() def setEditing(self, mode): self.mode = mode # if mode is self.CREATE or mode is self.MATCH: # Create self.unHighlight() self.deSelectShape() def unHighlight(self): if self.hShape: self.hShape.highlightClear() self.hVertex = self.hShape = None def selectedVertex(self): return self.hVertex is not None def findEdgeByPoints(self, p1, p2): for shape in reversed([s for s in self.shapes if self.isVisible(s)]): try: id1 = shape.points.index(p1) if shape.points[id1+1] == p2: return (shape, id1) if shape.points[id1-1] == p2: return (shape, id1-1) except: continue return (None, None) def findEdgeByText(self, text): for shape in reversed([s for s in self.shapes]): #FIXME: should show hidden shapes if text in shape.correspondence: return (shape, shape.correspondence[text]) return (None, None) def mouseMoveEvent(self, ev): """Update line with last point and current coordinates.""" if PYQT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) self.restoreCursor() # Polygon drawing. if self.drawing(): self.overrideCursor(CURSOR_DRAW) if self.current: color = self.lineColor if self.outOfPixmap(pos): # Don't allow the user to draw outside the pixmap. # Project the point to the pixmap's edges. pos = self.intersectionPoint(self.current[-1], pos) # elif len(self.current) > 1 and self.closeEnough(pos, self.current[0]): # # Attract line to starting point and colorise to alert the user: # pos = self.current[0] # color = self.current.line_color # self.overrideCursor(CURSOR_POINT) # self.current.highlightVertex(0, Shape.NEAR_VERTEX) else: idx_local = None if len(self.current) > 0: idx_local = self.closeEnoughPoints(pos, points=self.current.points) if idx_local is not None: pos = self.current[idx_local] self.overrideCursor(CURSOR_POINT) self.current.highlightVertex(idx_local, Shape.NEAR_VERTEX) # elif len(self.points) > 0: # idx_canvas = self.closeEnoughPoints(pos, points=self.points) # if idx_canvas is not None: # pos = self.xy2QPointF(self.points[idx_canvas]) # #color = self.current.line_color # self.overrideCursor(CURSOR_POINT) # #self.current.highlightVertex(idx_1, Shape.NEAR_VERTEX) # elif len(self.lines) > 0: # p1 = self.current.lastPoint() # intersection = self.intersectionWithCanvasLines(pos, p1) # if intersection is not None: # pos = self.xy2QPointF(intersection) # self.overrideCursor(CURSOR_ONLINE) self.line[1] = pos self.line.line_color = color self.repaint() self.current.highlightClear() return # Polygon copy moving. if Qt.RightButton & ev.buttons(): if self.selectedShapeCopy and self.prevPoint: self.overrideCursor(CURSOR_MOVE) self.boundedMoveShape(self.selectedShapeCopy, pos) self.repaint() elif self.selectedShape: self.selectedShapeCopy = self.selectedShape.copy() self.repaint() return # Polygon/Vertex moving. if self.editing(): if Qt.LeftButton & ev.buttons(): if self.selectedVertex(): # self.boundedMoveVertex(pos) # self.shapeMoved.emit() # self.repaint() idx_local = None if len(self.hShape.points) > 0: idx_local = self.closeEnoughPoints(pos, points=self.hShape.points, index=self.hVertex) assert idx_local != self.hVertex if idx_local is not None: pos = self.hShape.points[idx_local] self.overrideCursor(CURSOR_POINT) self.hShape.highlightVertex(idx_local, Shape.NEAR_VERTEX) self.hShape.points[self.hVertex] = pos self.shapeMoved.emit() self.vertexUpdated.emit() self.repaint() self.hShape.highlightClear() elif self.selectedShape and self.prevPoint: self.overrideCursor(CURSOR_MOVE) self.boundedMoveShape(self.selectedShape, pos) self.shapeMoved.emit() self.vertexUpdated.emit() self.repaint() return # Just hovering over the canvas, 2 posibilities: # - Highlight shapes # - Highlight vertex # Update shape/vertex fill and tooltip value accordingly. self.setToolTip("Image") for shape in reversed([s for s in self.shapes if self.isVisible(s)]): # Look for a nearby vertex to highlight. If that fails, # check if we happen to be inside a shape. index = shape.nearestVertex(pos, self.epsilon) if index is not None: if self.selectedVertex(): self.hShape.highlightClear() self.hVertex, self.hShape = index, shape shape.highlightVertex(index, shape.MOVE_VERTEX) self.overrideCursor(CURSOR_POINT) self.setToolTip("Click & drag to move point") self.setStatusTip(self.toolTip()) self.update() break elif shape.containsPoint(pos): if self.selectedVertex(): self.hShape.highlightClear() self.hVertex, self.hShape = None, shape self.setToolTip("Click & drag to move shape '%s'" % shape.label) self.setStatusTip(self.toolTip()) self.overrideCursor(CURSOR_GRAB) self.update() break else: # Nothing found, clear highlights, reset state. if self.hShape: self.hShape.highlightClear() self.update() self.hVertex, self.hShape = None, None return if self.matching(): self.setToolTip("Image") index = self.pointOnLine(pos) if index is not None: # print(self.points[index[0]]) # print(self.points[index[1]]) (shape, idLine) = self.findEdgeByPoints(self.points[index[0]], self.points[index[1]]) self.hShape, self.hEdge = shape, idLine if shape is not None: shape.highlightEdge(idLine) self.setToolTip("Click to select the line") self.setStatusTip(self.toolTip()) self.overrideCursor(CURSOR_GRAB) self.update() else: print('wtf, there is not corresponding edge, check here plz') else: if self.hShape: self.hShape.highlightClear() self.update() self.hEdge, self.hShape = None, None return def mousePressEvent(self, ev): if PYQT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == Qt.LeftButton: if self.drawing(): if self.current: # print("[DEBUG] Points b4 drawing: {} ".format(len(self.current.points))) self.current.addPoint(self.line[1]) # print("[DEBUG] Points after drawing: {} ".format(len(self.current.points))) self.line[0] = self.current[-1] if self.current.isClosed(): # print("[DEBUG] Points b4 finalising: {} ".format(len(self.current.points))) self.finalise() self.vertexUpdated.emit() elif not self.outOfPixmap(pos): self.current = Shape() self.current.addPoint(pos) self.vertexUpdated.emit() self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(self.id, True) self.update() elif self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif self.matching(): self.selectShapeEdgeByPoint(pos) elif ev.button() == Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint() def mouseReleaseEvent(self, ev): if ev.button() == Qt.RightButton: menu = self.menus[bool(self.selectedShapeCopy)] self.restoreCursor() if not menu.exec_(self.mapToGlobal(ev.pos()))\ and self.selectedShapeCopy: # Cancel the move by deleting the shadow copy. self.selectedShapeCopy = None self.repaint() elif ev.button() == Qt.LeftButton and self.selectedShape: self.overrideCursor(CURSOR_GRAB) def endMove(self, copy=False): assert self.selectedShape and self.selectedShapeCopy shape = self.selectedShapeCopy #del shape.fill_color #del shape.line_color if copy: self.shapes.append(shape) self.selectedShape.selected = False self.selectedShape = shape self.repaint() else: shape.label = self.selectedShape.label self.deleteSelected() self.shapes.append(shape) self.selectedShapeCopy = None def hideBackroundShapes(self, value): self.hideBackround = value if self.selectedShape: # Only hide other shapes if there is a current selection. # Otherwise the user will not be able to select a shape. self.setHiding(True) self.repaint() def setHiding(self, enable=True): self._hideBackround = self.hideBackround if enable else False def canCloseShape(self): return self.drawing() and self.current and len(self.current) >= 2 def mouseDoubleClickEvent(self, ev): # We need at least 4 points here, since the mousePress handler # adds an extra one before this handler is called. if self.canCloseShape() and len(self.current) >= 2: # self.current.popPoint() self.finalise() self.vertexUpdated.emit() def selectShape(self, shape): self.deSelectShape() shape.selected = True self.selectedShape = shape self.setHiding() self.selectionChanged.emit(self.id, True) self.update() def selectShapePoint(self, point): """Select the first shape created which contains this point.""" self.deSelectShape() if self.selectedVertex(): # A vertex is marked for selection. index, shape = self.hVertex, self.hShape shape.highlightVertex(index, shape.MOVE_VERTEX) return for shape in reversed(self.shapes): if self.isVisible(shape) and shape.containsPoint(point): shape.selected = True self.selectedShape = shape self.calculateOffsets(shape, point) self.setHiding() self.selectionChanged.emit(self.id, True) return def selectShapeEdge(self, shape, idLine): shape.highlightEdge(idLine, True) self.selectedShape = shape self.selectedEdge = idLine self.selectionChanged.emit(self.id, True) self.update() def selectShapeEdgeByPoint(self, point): self.deSelectShape() index = self.pointOnLine(point) if index is not None: # print(self.points[index[0]]) # print(self.points[index[1]]) (shape, idLine) = self.findEdgeByPoints(self.points[index[0]], self.points[index[1]]) self.hShape, self.hEdge = shape, idLine if shape is not None: self.selectShapeEdge(shape, idLine) return def calculateOffsets(self, shape, point): rect = shape.boundingRect() x1 = rect.x() - point.x() y1 = rect.y() - point.y() x2 = (rect.x() + rect.width()) - point.x() y2 = (rect.y() + rect.height()) - point.y() self.offsets = QPointF(x1, y1), QPointF(x2, y2) def boundedMoveVertex(self, pos): index, shape = self.hVertex, self.hShape point = shape[index] if self.outOfPixmap(pos): pos = self.intersectionPoint(point, pos) shape.moveVertexBy(index, pos - point) def boundedMoveShape(self, shape, pos): if self.outOfPixmap(pos): return False # No need to move o1 = pos + self.offsets[0] if self.outOfPixmap(o1): pos -= QPointF(min(0, o1.x()), min(0, o1.y())) o2 = pos + self.offsets[1] if self.outOfPixmap(o2): pos += QPointF(min(0, self.pixmap.width() - o2.x()), min(0, self.pixmap.height()- o2.y())) # The next line tracks the new position of the cursor # relative to the shape, but also results in making it # a bit "shaky" when nearing the border and allows it to # go outside of the shape's area for some reason. XXX #self.calculateOffsets(self.selectedShape, pos) dp = pos - self.prevPoint if dp: shape.moveBy(dp) self.prevPoint = pos return True return False def deSelectShape(self): if self.selectedShape: self.selectedShape.selected = False self.selectedShape._selectedEdgeIndex = None self.selectedShape._highlightEdgeIndex = None self.selectedShape = None self.selectedEdge = None self.setHiding(False) self.selectionChanged.emit(self.id, False) self.update() def deleteSelected(self): if self.selectedShape: shape = self.selectedShape self.shapes.remove(self.selectedShape) self.selectedShape = None self.update() self.vertexUpdated.emit() return shape def copySelectedShape(self): if self.selectedShape: shape = self.selectedShape.copy() self.deSelectShape() self.shapes.append(shape) shape.selected = True self.selectedShape = shape self.boundedShiftShape(shape) return shape def boundedShiftShape(self, shape): # Try to move in one direction, and if it fails in another. # Give up if both fail. point = shape[0] offset = QPointF(2.0, 2.0) self.calculateOffsets(shape, point) self.prevPoint = point if not self.boundedMoveShape(shape, point - offset): self.boundedMoveShape(shape, point + offset) def paintEvent(self, event): if not self.pixmap: return super(Canvas, self).paintEvent(event) p = self._painter p.begin(self) p.setRenderHint(QPainter.Antialiasing) p.setRenderHint(QPainter.HighQualityAntialiasing) p.setRenderHint(QPainter.SmoothPixmapTransform) p.scale(self.scale, self.scale) p.translate(self.offsetToCenter()) p.drawPixmap(0, 0, self.pixmap) Shape.scale = self.scale for shape in self.shapes: if (shape.selected or not self._hideBackround) and self.isVisible(shape): # shape.fill = shape.selected or shape == self.hShape shape.paint(p) if self.current: self.current.paint(p) self.line.paint(p) if self.selectedShapeCopy: self.selectedShapeCopy.paint(p) p.end() def transformPos(self, point): """Convert from widget-logical coordinates to painter-logical coordinates.""" return point / self.scale - self.offsetToCenter() def offsetToCenter(self): s = self.scale area = super(Canvas, self).size() w, h = self.pixmap.width() * s, self.pixmap.height() * s aw, ah = area.width(), area.height() x = (aw-w)/(2*s) if aw > w else 0 y = (ah-h)/(2*s) if ah > h else 0 return QPointF(x, y) def outOfPixmap(self, p): w, h = self.pixmap.width(), self.pixmap.height() return not (0 <= p.x() <= w and 0 <= p.y() <= h) def finalise(self): assert self.current self.current.close() self.shapes.append(self.current) self.current = None self.setHiding(False) self.newShape.emit(self.id) self.update() def updateCanvasLinesAndPoints(self): self.points = [] self.lines = [] for shape_idx, shape in enumerate(self.shapes): if self.hShape is not None and shape is self.hShape and not shape.isClosed(): continue idxList = {} for idx, point in enumerate(shape.points): if point not in self.points: self.points.append(point) idxList[idx] = len(self.points) - 1 else: idxList[idx] = self.points.index(point) for i in range(len(shape.points)-1): try: if (idxList[i], idxList[i+1]) not in self.lines: self.lines.append((idxList[i], idxList[i+1])) except KeyError: print ("keyError ", len(shape.points), len(shape.lines)) # print(self.points) # print(self.lines) def pointOnLine(self, pos): for line in self.lines: e1 = pos - self.points[line[0]] e2 = pos - self.points[line[1]] e3 = self.points[line[0]] - self.points[line[1]] len3 = e3.manhattanLength() len1 = e1.manhattanLength() len2 = e2.manhattanLength() theta = np.arccos(QPointF.dotProduct(e1, e2)/(len1*len2 + self.lineEps)) / pi * 180 dist = np.fabs(e1.x()*e2.y()-e1.y()*e2.x()) / (len3 + self.lineEps) # print('theta: {}, dist: {}'.format(theta, dist)) # if theta > min(150+len3/10., 170) and dist < len3 / 40.0: if theta > 90 and dist < 2.0: return line return None # point = self.points[t] # # lines = [[self.points[i][0], self.points[i][1], self.points[j][0], # self.points[j][1]] for i, j in self.lines if i != t and j != t] # associated_lines = [(self.points[t][0], self.points[t][1], self.points[j][0], self.points[j][1]) for j in self.adj[t]] # # lengths = [sqrt((x1 - x2)**2 + (y1 - y2)**2) for x1, y1, x2, y2 in associated_lines] # max_idx = lengths.index(max(lengths)) # # point = np.array(point) # pol = False # # for line in lines: # line = np.array(line) # # x = point - line[:2] # y = point - line[2:4] # lenxy = np.linalg.norm(line[:2] - line[2:4]) # lenx = np.sqrt(np.sum(np.square(x))) # leny = np.sqrt(np.sum(np.square(y))) # # theta = np.arccos(np.divide( # np.inner(x, y), np.multiply(lenx, leny) + eps)) / pi * 180 # dist = np.linalg.norm(np.cross(x, y)) / (lenxy + eps) # # if theta > min(150 +lenxy/10., 170) and dist < lenxy/40.0: # pol = True # else: # pol = False # return pol def closeEnoughPoints(self, p1, points, index=None): assert(len(points) >= 1) idx = None # print(type(p1)) # print(points[0].x()) for i in range(len(points)): if i != index and distance(p1-points[i]) < self.epsilon: return i return None def closeEnough(self, p1, p2): #d = distance(p1 - p2) #m = (p1-p2).manhattanLength() #print "d %.2f, m %d, %.2f" % (d, m, d - m) return distance(p1 - p2) < self.epsilon def intersectionPoint(self, p1, p2): # Cycle through each image edge in clockwise fashion, # and find the one intersecting the current line segment. # http://paulbourke.net/geometry/lineline2d/ size = self.pixmap.size() points = [(0,0), (size.width(), 0), (size.width(), size.height()), (0, size.height())] x1, y1 = p1.x(), p1.y() x2, y2 = p2.x(), p2.y() d, i, (x, y) = min(self.intersectingEdges((x1, y1), (x2, y2), points)) x3, y3 = points[i] x4, y4 = points[(i+1)%4] if (x, y) == (x1, y1): # Handle cases where previous point is on one of the edges. if x3 == x4: return QPointF(x3, min(max(0, y2), max(y3, y4))) else: # y3 == y4 return QPointF(min(max(0, x2), max(x3, x4)), y3) return QPointF(x, y) def intersectingEdges(self, point1, point2, points): """For each edge formed by `points', yield the intersection with the line segment `(x1,y1) - (x2,y2)`, if it exists. Also return the distance of `(x2,y2)' to the middle of the edge along with its index, so that the one closest can be chosen.""" (x1, y1) = point1 (x2, y2) = point2 for i in range(4): x3, y3 = points[i] x4, y4 = points[(i+1) % 4] denom = (y4-y3) * (x2 - x1) - (x4 - x3) * (y2 - y1) nua = (x4-x3) * (y1-y3) - (y4-y3) * (x1-x3) nub = (x2-x1) * (y1-y3) - (y2-y1) * (x1-x3) if denom == 0: # This covers two cases: # nua == nub == 0: Coincident # otherwise: Parallel continue ua, ub = nua / denom, nub / denom if 0 <= ua <= 1 and 0 <= ub <= 1: x = x1 + ua * (x2 - x1) y = y1 + ua * (y2 - y1) m = QPointF((x3 + x4)/2, (y3 + y4)/2) d = distance(m - QPointF(x2, y2)) yield d, i, (x, y) # These two, along with a call to adjustSize are required for the # scroll area. def sizeHint(self): return self.minimumSizeHint() def minimumSizeHint(self): if self.pixmap: return self.scale * self.pixmap.size() return super(Canvas, self).minimumSizeHint() def wheelEvent(self, ev): if PYQT5: mods = ev.modifiers() delta = ev.pixelDelta() if Qt.ControlModifier == int(mods): # with Ctrl/Command key # zoom self.zoomRequest.emit(delta.y()) else: # scroll self.scrollRequest.emit(self.id, delta.x(), Qt.Horizontal) self.scrollRequest.emit(self.id, delta.y(), Qt.Vertical) else: if ev.orientation() == Qt.Vertical: mods = ev.modifiers() if Qt.ControlModifier == int(mods): # with Ctrl/Command key self.zoomRequest.emit(ev.delta()) else: self.scrollRequest.emit(self.id, ev.delta(), Qt.Horizontal if (Qt.ShiftModifier == int(mods))\ else Qt.Vertical) else: self.scrollRequest.emit(self.id, ev.delta(), Qt.Horizontal) ev.accept() def keyPressEvent(self, ev): key = ev.key() if key == Qt.Key_Escape and self.current: self.current = None self.drawingPolygon.emit(self.id, False) self.update() elif key == Qt.Key_Return and self.canCloseShape(): self.finalise() self.vertexUpdated.emit() def setLastLabel(self, text): assert text self.shapes[-1].label = text return self.shapes[-1] def undoLastLine(self): assert self.shapes self.current = self.shapes.pop() self.current.setOpen() self.line.points = [self.current[-1], self.current[0]] self.drawingPolygon.emit(self.id, True) def loadPixmap(self, pixmap): self.pixmap = pixmap self.shapes = [] self.repaint() def loadShapes(self, shapes): self.shapes = list(shapes) self.current = None self.repaint() self.vertexUpdated.emit() def setShapeVisible(self, shape, value): self.visible[shape] = value self.repaint() def overrideCursor(self, cursor): self.restoreCursor() self._cursor = cursor QApplication.setOverrideCursor(cursor) def restoreCursor(self): QApplication.restoreOverrideCursor() def resetState(self): self.restoreCursor() self.pixmap = None self.update()
def growShape(self): im = self.image.convertToFormat(QtGui.QImage.Format_RGB888) width = im.width() height = im.height() ptr = im.constBits() ptr.setsize(height * width * 3) np_img = np.array(ptr, dtype=np.uint8).reshape(height, width, 3) cv2.imwrite('/tmp/bus.jpg', np_img) contour = None for shapenum, shape in enumerate(self.selectedShapes): #contour=shape. try: mask = np.ones(np_img.shape[:2], dtype=np.uint8) * cv2.GC_PR_BGD mask1 = np.zeros(np_img.shape[:2], dtype=np.uint8) testcontour = [] if (shape.shape_type == 'polygon'): contour = shape.getNpPath() cv2.fillPoly(mask1, pts=[np.array(contour, dtype=np.int32)], color=(255, 255, 255)) testcontour = contour elif (shape.shape_type == 'rectangle'): line = shape.getNpPath() print("Rectangle line:", line) #contour=line[0], cv2.fillPoly(mask1, contour, color=(255, 255, 255)) testcontour = contour elif (shape.shape_type == 'circle'): #cv2.fillEllipse() ##??? pass except Exception as e: #import code #code.interact(local=locals()) print("Exception:", e) print("img:", np_img.shape) print(contour) mask[mask1 == 255] = cv2.GC_FGD bgdmodel = np.zeros((1, 65), np.float64) fgdmodel = np.zeros((1, 65), np.float64) cv2.grabCut(np_img, mask, (0, 0, width, height), bgdmodel, fgdmodel, 1, cv2.GC_INIT_WITH_MASK) mask3 = np.where((mask == 1) + (mask == 3), 255, 0).astype(np.uint8) contours, hierarchy = cv2.findContours(mask3, cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_TC89_L1) for cont in contours: flag = True for p in testcontour: if cv2.pointPolygonTest(cont, tuple(p), True) < 0: flag = False if flag: #cv2.drawContours(np_img,[cont],0,(255,0,0),2) #cv2.imwrite('/tmp/contours.jpg',np_img) ## Simplify contour curve_len = cv2.arcLength(cont, True) new_contour = cv2.approxPolyDP(cont, 0.002 * curve_len, True) new_shape = Shape(label=shape.label, shape_type='polygon') for point in new_contour: print("Point=", point) x, y = tuple(point[0]) new_shape.addPoint(QtCore.QPointF(x, y)) if (shape.line_color): new_shape.line_color = shape.line_color new_shape.close() self.selectedShapesCopy.append(new_shape) break if (not flag): # We found no good contour self.selectedShapesCopy.append(self.selectedShapes[shapenum]) self.endMove(copy=False)
class Canvas(QWidget): zoomRequest = pyqtSignal(int) scrollRequest = pyqtSignal(int, int) newShape = pyqtSignal() selectionChanged = pyqtSignal(bool) shapeMoved = pyqtSignal() drawingPolygon = pyqtSignal(bool) CREATE, EDIT = 0, 1 epsilon = 11.0 def __init__(self, *args, **kwargs): super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT self.shapes = [] self.current = None self.selectedShape=None # save the selected shape here self.selectedShapeCopy=None self.lineColor = QColor(0, 0, 255) self.line = Shape(line_color=self.lineColor) self.prevPoint = QPointF() self.offsets = QPointF(), QPointF() self.scale = 1.0 self.pixmap = QPixmap() self.visible = {} self._hideBackround = False self.hideBackround = False self.hShape = None self.hVertex = None self._painter = QPainter() self._cursor = CURSOR_DEFAULT # Menus: self.menus = (QMenu(), QMenu()) # Set widget options. self.setMouseTracking(True) self.setFocusPolicy(Qt.WheelFocus) def enterEvent(self, ev): self.overrideCursor(self._cursor) def leaveEvent(self, ev): self.restoreCursor() def focusOutEvent(self, ev): self.restoreCursor() def isVisible(self, shape): return self.visible.get(shape, True) def drawing(self): return self.mode == self.CREATE def editing(self): return self.mode == self.EDIT def setEditing(self, value=True): self.mode = self.EDIT if value else self.CREATE if not value: # Create self.unHighlight() self.deSelectShape() def unHighlight(self): if self.hShape: self.hShape.highlightClear() self.hVertex = self.hShape = None def selectedVertex(self): return self.hVertex is not None def mouseMoveEvent(self, ev): """Update line with last point and current coordinates.""" if PYQT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) self.restoreCursor() # Polygon drawing. if self.drawing(): self.overrideCursor(CURSOR_DRAW) if self.current: color = self.lineColor if self.outOfPixmap(pos): # Don't allow the user to draw outside the pixmap. # Project the point to the pixmap's edges. pos = self.intersectionPoint(self.current[-1], pos) elif len(self.current) > 1 and self.closeEnough(pos, self.current[0]): # Attract line to starting point and colorise to alert the user: pos = self.current[0] color = self.current.line_color self.overrideCursor(CURSOR_POINT) self.current.highlightVertex(0, Shape.NEAR_VERTEX) self.line[1] = pos self.line.line_color = color self.repaint() self.current.highlightClear() return # Polygon copy moving. if Qt.RightButton & ev.buttons(): if self.selectedShapeCopy and self.prevPoint: self.overrideCursor(CURSOR_MOVE) self.boundedMoveShape(self.selectedShapeCopy, pos) self.repaint() elif self.selectedShape: self.selectedShapeCopy = self.selectedShape.copy() self.repaint() return # Polygon/Vertex moving. if Qt.LeftButton & ev.buttons(): if self.selectedVertex(): self.boundedMoveVertex(pos) self.shapeMoved.emit() self.repaint() elif self.selectedShape and self.prevPoint: self.overrideCursor(CURSOR_MOVE) self.boundedMoveShape(self.selectedShape, pos) self.shapeMoved.emit() self.repaint() return # Just hovering over the canvas, 2 posibilities: # - Highlight shapes # - Highlight vertex # Update shape/vertex fill and tooltip value accordingly. self.setToolTip("Image") for shape in reversed([s for s in self.shapes if self.isVisible(s)]): # Look for a nearby vertex to highlight. If that fails, # check if we happen to be inside a shape. index = shape.nearestVertex(pos, self.epsilon) if index is not None: if self.selectedVertex(): self.hShape.highlightClear() self.hVertex, self.hShape = index, shape shape.highlightVertex(index, shape.MOVE_VERTEX) self.overrideCursor(CURSOR_POINT) self.setToolTip("Click & drag to move point") self.setStatusTip(self.toolTip()) self.update() break elif shape.containsPoint(pos): if self.selectedVertex(): self.hShape.highlightClear() self.hVertex, self.hShape = None, shape self.setToolTip("Click & drag to move shape '%s'" % shape.label) self.setStatusTip(self.toolTip()) self.overrideCursor(CURSOR_GRAB) self.update() break else: # Nothing found, clear highlights, reset state. if self.hShape: self.hShape.highlightClear() self.update() self.hVertex, self.hShape = None, None def mousePressEvent(self, ev): if PYQT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == Qt.LeftButton: if self.drawing(): if self.current: try: self.current.addPoint(self.line[1]) except Exception as e: print(e, file=sys.stderr) return self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif not self.outOfPixmap(pos): self.current = Shape() self.current.addPoint(pos) self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint() def mouseReleaseEvent(self, ev): if ev.button() == Qt.RightButton: menu = self.menus[bool(self.selectedShapeCopy)] self.restoreCursor() if not menu.exec_(self.mapToGlobal(ev.pos()))\ and self.selectedShapeCopy: # Cancel the move by deleting the shadow copy. self.selectedShapeCopy = None self.repaint() elif ev.button() == Qt.LeftButton and self.selectedShape: self.overrideCursor(CURSOR_GRAB) def endMove(self, copy=False): assert self.selectedShape and self.selectedShapeCopy shape = self.selectedShapeCopy #del shape.fill_color #del shape.line_color if copy: self.shapes.append(shape) self.selectedShape.selected = False self.selectedShape = shape self.repaint() else: shape.label = self.selectedShape.label self.deleteSelected() self.shapes.append(shape) self.selectedShapeCopy = None def hideBackroundShapes(self, value): self.hideBackround = value if self.selectedShape: # Only hide other shapes if there is a current selection. # Otherwise the user will not be able to select a shape. self.setHiding(True) self.repaint() def setHiding(self, enable=True): self._hideBackround = self.hideBackround if enable else False def canCloseShape(self): return self.drawing() and self.current and len(self.current) > 2 def mouseDoubleClickEvent(self, ev): # We need at least 4 points here, since the mousePress handler # adds an extra one before this handler is called. if self.canCloseShape() and len(self.current) > 3: self.current.popPoint() self.finalise() def selectShape(self, shape): self.deSelectShape() shape.selected = True self.selectedShape = shape self.setHiding() self.selectionChanged.emit(True) self.update() def selectShapePoint(self, point): """Select the first shape created which contains this point.""" self.deSelectShape() if self.selectedVertex(): # A vertex is marked for selection. index, shape = self.hVertex, self.hShape shape.highlightVertex(index, shape.MOVE_VERTEX) return for shape in reversed(self.shapes): if self.isVisible(shape) and shape.containsPoint(point): shape.selected = True self.selectedShape = shape self.calculateOffsets(shape, point) self.setHiding() self.selectionChanged.emit(True) return def calculateOffsets(self, shape, point): rect = shape.boundingRect() x1 = rect.x() - point.x() y1 = rect.y() - point.y() x2 = (rect.x() + rect.width()) - point.x() y2 = (rect.y() + rect.height()) - point.y() self.offsets = QPointF(x1, y1), QPointF(x2, y2) def boundedMoveVertex(self, pos): index, shape = self.hVertex, self.hShape point = shape[index] if self.outOfPixmap(pos): pos = self.intersectionPoint(point, pos) shape.moveVertexBy(index, pos - point) def boundedMoveShape(self, shape, pos): if self.outOfPixmap(pos): return False # No need to move o1 = pos + self.offsets[0] if self.outOfPixmap(o1): pos -= QPointF(min(0, o1.x()), min(0, o1.y())) o2 = pos + self.offsets[1] if self.outOfPixmap(o2): pos += QPointF(min(0, self.pixmap.width() - o2.x()), min(0, self.pixmap.height()- o2.y())) # The next line tracks the new position of the cursor # relative to the shape, but also results in making it # a bit "shaky" when nearing the border and allows it to # go outside of the shape's area for some reason. XXX #self.calculateOffsets(self.selectedShape, pos) dp = pos - self.prevPoint if dp: shape.moveBy(dp) self.prevPoint = pos return True return False def deSelectShape(self): if self.selectedShape: self.selectedShape.selected = False self.selectedShape = None self.setHiding(False) self.selectionChanged.emit(False) self.update() def deleteSelected(self): if self.selectedShape: shape = self.selectedShape self.shapes.remove(self.selectedShape) self.selectedShape = None self.update() return shape def copySelectedShape(self): if self.selectedShape: shape = self.selectedShape.copy() self.deSelectShape() self.shapes.append(shape) shape.selected = True self.selectedShape = shape self.boundedShiftShape(shape) return shape def boundedShiftShape(self, shape): # Try to move in one direction, and if it fails in another. # Give up if both fail. point = shape[0] offset = QPointF(2.0, 2.0) self.calculateOffsets(shape, point) self.prevPoint = point if not self.boundedMoveShape(shape, point - offset): self.boundedMoveShape(shape, point + offset) def paintEvent(self, event): if not self.pixmap: return super(Canvas, self).paintEvent(event) p = self._painter p.begin(self) p.setRenderHint(QPainter.Antialiasing) p.setRenderHint(QPainter.HighQualityAntialiasing) p.setRenderHint(QPainter.SmoothPixmapTransform) p.scale(self.scale, self.scale) p.translate(self.offsetToCenter()) p.drawPixmap(0, 0, self.pixmap) Shape.scale = self.scale for shape in self.shapes: if (shape.selected or not self._hideBackround) and self.isVisible(shape): shape.fill = shape.selected or shape == self.hShape shape.paint(p) if self.current: self.current.paint(p) self.line.paint(p) if self.selectedShapeCopy: self.selectedShapeCopy.paint(p) p.end() def transformPos(self, point): """Convert from widget-logical coordinates to painter-logical coordinates.""" return point / self.scale - self.offsetToCenter() def offsetToCenter(self): s = self.scale area = super(Canvas, self).size() w, h = self.pixmap.width() * s, self.pixmap.height() * s aw, ah = area.width(), area.height() x = (aw-w)/(2*s) if aw > w else 0 y = (ah-h)/(2*s) if ah > h else 0 return QPointF(x, y) def outOfPixmap(self, p): w, h = self.pixmap.width(), self.pixmap.height() return not (0 <= p.x() <= w and 0 <= p.y() <= h) def finalise(self): assert self.current self.current.close() self.shapes.append(self.current) self.current = None self.setHiding(False) self.newShape.emit() self.update() def closeEnough(self, p1, p2): #d = distance(p1 - p2) #m = (p1-p2).manhattanLength() #print "d %.2f, m %d, %.2f" % (d, m, d - m) return distance(p1 - p2) < self.epsilon def intersectionPoint(self, p1, p2): # Cycle through each image edge in clockwise fashion, # and find the one intersecting the current line segment. # http://paulbourke.net/geometry/lineline2d/ size = self.pixmap.size() points = [(0,0), (size.width(), 0), (size.width(), size.height()), (0, size.height())] x1, y1 = p1.x(), p1.y() x2, y2 = p2.x(), p2.y() d, i, (x, y) = min(self.intersectingEdges((x1, y1), (x2, y2), points)) x3, y3 = points[i] x4, y4 = points[(i+1)%4] if (x, y) == (x1, y1): # Handle cases where previous point is on one of the edges. if x3 == x4: return QPointF(x3, min(max(0, y2), max(y3, y4))) else: # y3 == y4 return QPointF(min(max(0, x2), max(x3, x4)), y3) return QPointF(x, y) def intersectingEdges(self, point1, point2, points): """For each edge formed by `points', yield the intersection with the line segment `(x1,y1) - (x2,y2)`, if it exists. Also return the distance of `(x2,y2)' to the middle of the edge along with its index, so that the one closest can be chosen.""" (x1, y1) = point1 (x2, y2) = point2 for i in range(4): x3, y3 = points[i] x4, y4 = points[(i+1) % 4] denom = (y4-y3) * (x2 - x1) - (x4 - x3) * (y2 - y1) nua = (x4-x3) * (y1-y3) - (y4-y3) * (x1-x3) nub = (x2-x1) * (y1-y3) - (y2-y1) * (x1-x3) if denom == 0: # This covers two cases: # nua == nub == 0: Coincident # otherwise: Parallel continue ua, ub = nua / denom, nub / denom if 0 <= ua <= 1 and 0 <= ub <= 1: x = x1 + ua * (x2 - x1) y = y1 + ua * (y2 - y1) m = QPointF((x3 + x4)/2, (y3 + y4)/2) d = distance(m - QPointF(x2, y2)) yield d, i, (x, y) # These two, along with a call to adjustSize are required for the # scroll area. def sizeHint(self): return self.minimumSizeHint() def minimumSizeHint(self): if self.pixmap: return self.scale * self.pixmap.size() return super(Canvas, self).minimumSizeHint() def wheelEvent(self, ev): if PYQT5: mods = ev.modifiers() delta = ev.pixelDelta() if Qt.ControlModifier == int(mods): # with Ctrl/Command key # zoom self.zoomRequest.emit(delta.y()) else: # scroll self.scrollRequest.emit(delta.x(), Qt.Horizontal) self.scrollRequest.emit(delta.y(), Qt.Vertical) else: if ev.orientation() == Qt.Vertical: mods = ev.modifiers() if Qt.ControlModifier == int(mods): # with Ctrl/Command key self.zoomRequest.emit(ev.delta()) else: self.scrollRequest.emit(ev.delta(), Qt.Horizontal if (Qt.ShiftModifier == int(mods))\ else Qt.Vertical) else: self.scrollRequest.emit(ev.delta(), Qt.Horizontal) ev.accept() def keyPressEvent(self, ev): key = ev.key() if key == Qt.Key_Escape and self.current: self.current = None self.drawingPolygon.emit(False) self.update() elif key == Qt.Key_Return and self.canCloseShape(): self.finalise() def setLastLabel(self, text): assert text self.shapes[-1].label = text return self.shapes[-1] def undoLastLine(self): assert self.shapes self.current = self.shapes.pop() self.current.setOpen() self.line.points = [self.current[-1], self.current[0]] self.drawingPolygon.emit(True) def loadPixmap(self, pixmap): self.pixmap = pixmap self.shapes = [] self.repaint() def loadShapes(self, shapes): self.shapes = list(shapes) self.current = None self.repaint() def setShapeVisible(self, shape, value): self.visible[shape] = value self.repaint() def overrideCursor(self, cursor): self.restoreCursor() self._cursor = cursor QApplication.setOverrideCursor(cursor) def restoreCursor(self): QApplication.restoreOverrideCursor() def resetState(self): self.restoreCursor() self.pixmap = None self.update()
def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.pos()) else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: if self.drawing(): if self.current: # Add point to existing shape. if self.createMode == 'polygon': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if self.current.isClosed(): self.finalise() elif self.createMode in ['rectangle', 'line']: assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == 'auto': assert len(self.current.points) == 1 self.current.points = self.line.points roi = self.line.auto_segment() img = io.imread(self.filename) row = np.arange(roi[1], roi[3]) col = np.arange(roi[0], roi[2]) roi_image = img[row] roi_image = roi_image[:, col] io.imsave('/devdata/Label2/labelme/output.png', roi_image) # demo.main() det = demo.test() j_det = 0 for i in row: self.pre_mask[i, col] = det[j_det, :] j_det += 1 np.save('/devdata/Label2/labelme/mask.npy', self.pre_mask) assert self.current self.current.close() self.shapes.append(self.current) self.storeShapes() self.current = None self.setHiding(False) self.newautoShape.emit() self.update() elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape() self.current.addPoint(pos) if self.createMode == 'point': self.finalise() else: self.line.points = [pos, pos] self.setHiding() self.drawingPolygon.emit(True) self.update() else: self.selectShapePoint(pos) self.prevPoint = pos self.repaint() elif ev.button() == QtCore.Qt.RightButton and self.editing(): self.selectShapePoint(pos) self.prevPoint = pos self.repaint()
class Canvas(QtWidgets.QWidget): # 显示和绘制图片的控件 zoomRequest = QtCore.Signal(int, QtCore.QPoint) scrollRequest = QtCore.Signal(int, int) newShape = QtCore.Signal() selectionChanged = QtCore.Signal(list) # 选择改变的信号函数 shapeMoved = QtCore.Signal() # shape改变的信号 drawingPolygon = QtCore.Signal(bool) # 绘制多边形的信号 edgeSelected = QtCore.Signal(bool, object) # 选择边的信号 vertexSelected = QtCore.Signal(bool) # 选择顶点的信号 CREATE, EDIT = 0, 1 # 两种模式,绘制模式和编辑模式 # polygon, rectangle, line, or point _createMode = 'polygon' # 绘制模式默认为多边形 _fill_drawing = False # shape填充默认为false def __init__(self, *args, **kwargs): self.epsilon = kwargs.pop('epsilon', 10.0) # 把字典中的epsilon删除,如果此键不存在则返回10.0。存在则删除此键的键值对,并返回键对应的值 self.double_click = kwargs.pop('double_click', 'close') #双击 if self.double_click not in [None, 'close']: #如果双击 的值不是None也不是关闭 raise ValueError( 'Unexpected value for double_click event: {}' .format(self.double_click) # 非期望值 ) super(Canvas, self).__init__(*args, **kwargs) # Initialise local state. self.mode = self.EDIT # 模式选择 self.shapes = [] # shapes self.shapesBackups = [] # shapes backup self.current = None # 当前的什么 None值 self.selectedShapes = [] # save the selected shapes here self.selectedShapesCopy = [] # 上一个成员的copy # self.line represents: # - createMode == 'polygon': edge from last point to current # - createMode == 'rectangle': diagonal line of the rectangle # - createMode == 'line': the line # - createMode == 'point': the point self.line = Shape() # 一个Shape类对象,用于在图像绘制多边形 self.prevPoint = QtCore.QPoint() # baocun self.prevMovePoint = QtCore.QPoint() # 保存当前点位置 self.offsets = QtCore.QPoint(), QtCore.QPoint() #偏移是两个空点,出事为0 self.scale = 1.0 #放缩比例 self.pixmap = QtGui.QPixmap() # pixmap绘图设备的图像显示 self.visible = {} # 可见的 self._hideBackround = False # 是否隐藏背景 self.hideBackround = False self.hShape = None # 当前shape? self.prevhShape = None # 上一个shape self.hVertex = None #当前顶点 self.prevhVertex = None # 上一个顶点 self.hEdge = None # 当前边 self.prevhEdge = None # 上一条边 self.movingShape = False # 移动形状 self._painter = QtGui.QPainter() # 绘制控件 在父类上绘制 self._cursor = CURSOR_DEFAULT #光标样式设置 # Menus: # 0: right-click without selection and dragging of shapes # 1: right-click with selection and dragging of shapes self.menus = (QtWidgets.QMenu(), QtWidgets.QMenu()) #0:右键没有选择 1:拖拽形状 # Set widget options. self.setMouseTracking(True) # 设置部件选择 鼠标跟踪设为真(此时可以重载几个鼠标的槽函数),参数为鼠标的信号 self.setFocusPolicy(QtCore.Qt.WheelFocus) # 设置焦点策略 轮子焦点 def fillDrawing(self): # 是否填充 return self._fill_drawing def setFillDrawing(self, value): # 改变填充方式 self._fill_drawing = value @property def createMode(self): return self._createMode @createMode.setter def createMode(self, value): if value not in ['polygon', 'rectangle', 'circle', 'line', 'point', 'linestrip']: raise ValueError('Unsupported createMode: %s' % value) self._createMode = value def storeShapes(self): ## 完成一个标注,将shape保存到shapes里边 shapesBackup = [] for shape in self.shapes: shapesBackup.append(shape.copy()) # 把所有的shapes保存到这个里面 if len(self.shapesBackups) >= 10: # 如果 self.shapesBackups = self.shapesBackups[-9:] self.shapesBackups.append(shapesBackup) @property def isShapeRestorable(self): if len(self.shapesBackups) < 2: ### 是否可保存 return False return True def restoreShape(self): # 重置(恢复)shape if not self.isShapeRestorable: # 如果不可存 return self.shapesBackups.pop() # latest # 列表弹出末尾元素 shapesBackup = self.shapesBackups.pop() # 形状支持 self.shapes = shapesBackup # shapes就等于这个backup self.selectedShapes = [] # 保存选择的多个shape for shape in self.shapes: # 对于支持的形状shapes,默认选择shape的标志全部设置为False shape.selected = False # 设置为空 self.repaint() # 重绘 def enterEvent(self, ev): # 鼠标进入控件事件 self.overrideCursor(self._cursor) # 返回当前鼠标形状的QCursor 对象 def leaveEvent(self, ev): # 鼠标离开控件事件 self.unHighlight() # 不在高亮 self.restoreCursor() # 取消全局鼠标形状设置 def focusOutEvent(self, ev): # self.restoreCursor() # 取消全局鼠标形状设置 def isVisible(self, shape): return self.visible.get(shape, True) def drawing(self): # 返回bool 是否绘制状态 return self.mode == self.CREATE def editing(self): # 编辑状态 return self.mode == self.EDIT def setEditing(self, value=True): # 设置编辑状态 self.mode = self.EDIT if value else self.CREATE if not value: # Create self.unHighlight() self.deSelectShape() def unHighlight(self): # 取消高亮 if self.hShape: self.hShape.highlightClear() self.update() self.prevhShape = self.hShape self.prevhVertex = self.hVertex self.prevhEdge = self.hEdge self.hShape = self.hVertex = self.hEdge = None def selectedVertex(self): # 顶点 return self.hVertex is not None def mouseMoveEvent(self, ev): # 鼠标移动检测, 每次移动都更新点到self.prevMovePoint """Update line with last point and current coordinates.""" try: if QT5: pos = self.transformPos(ev.localPos()) # 获取坐标 else: pos = self.transformPos(ev.posF()) except AttributeError: return self.prevMovePoint = pos self.restoreCursor() # Polygon drawing. if self.drawing(): self.line.shape_type = self.createMode self.overrideCursor(CURSOR_DRAW) # 重置光标 if not self.current: return if self.outOfPixmap(pos): # 如果坐标在pixmap外 不让用户在pixmap外部绘制 # Don't allow the user to draw outside the pixmap. # Project the point to the pixmap's edges. pos = self.intersectionPoint(self.current[-1], pos) # 将点投影到pixmap控件的边缘 elif len(self.current) > 1 and self.createMode == 'polygon' and\ self.closeEnough(pos, self.current[0]): # 否则,如果当前shape的点个数大于1 并且模式为绘制多边形 并且足够关闭(pos,shape的第一个元素)? # Shape类对象有下标操作?(设定__getitem__函数即可) # Attract line to starting point and # colorise to alert the user. pos = self.current[0] # 提取line到起始点并且用彩色点提醒用户 self.overrideCursor(CURSOR_POINT) # 更改光标样式为点 self.current.highlightVertex(0, Shape.NEAR_VERTEX) # 高亮顶点 if self.createMode in ['polygon', 'linestrip']: # 如果模式为多边形和折线 self.line[0] = self.current[-1] # line[0]为当前shape的最后一个点的元素 self.line[1] = pos # line[1]为当前元素 elif self.createMode == 'rectangle': # 如果绘制矩形 self.line.points = [self.current[0], pos] # line.points为第一个点和当前点 su self.line.close() # 把点保存进矩阵并且加相关信息(类别名) elif self.createMode == 'circle': # 圆形 self.line.points = [self.current[0], pos] # 添加两点 self.line.shape_type = "circle" # 形状设置为圆 elif self.createMode == 'line': # 线段 self.line.points = [self.current[0], pos] # 添加两点 self.line.close() # 关闭保存 elif self.createMode == 'point': # 点 self.line.points = [self.current[0]] # 添加点 self.line.close() # 关闭保存 self.repaint() # 重绘 self.current.highlightClear() # 高亮清除 return # Polygon copy moving. if QtCore.Qt.RightButton & ev.buttons(): # 移动 if self.selectedShapesCopy and self.prevPoint: # 复制 self.overrideCursor(CURSOR_MOVE) # 光标改变 self.boundedMoveShapes(self.selectedShapesCopy, pos) # 框处移动 self.repaint() # 重绘 elif self.selectedShapes: # 选择形状 self.selectedShapesCopy = \ [s.copy() for s in self.selectedShapes] # 形状 self.repaint() return # Polygon/Vertex moving. if QtCore.Qt.LeftButton & ev.buttons(): # 多边形移动 if self.selectedVertex(): self.boundedMoveVertex(pos) self.repaint() self.movingShape = True elif self.selectedShapes and self.prevPoint: self.overrideCursor(CURSOR_MOVE) self.boundedMoveShapes(self.selectedShapes, pos) self.repaint() self.movingShape = True return # Just hovering over the canvas, 2 possibilities: # - Highlight shapes # - Highlight vertex # Update shape/vertex fill and tooltip value accordingly. self.setToolTip(self.tr("Image")) # 设置提示 for shape in reversed([s for s in self.shapes if self.isVisible(s)]): # self.shapes保存的,如果shape是可见的,便执行 # Look for a nearby vertex to highlight. If that fails, # check if we happen to be inside a shape. index = shape.nearestVertex(pos, self.epsilon / self.scale) # 查找最近顶点 index_edge = shape.nearestEdge(pos, self.epsilon / self.scale) # 最近边 if index is not None: # 如果index if self.selectedVertex(): self.hShape.highlightClear() self.prevhVertex = self.hVertex = index # 更新形状 顶点 边 self.prevhShape = self.hShape = shape self.prevhEdge = self.hEdge = index_edge shape.highlightVertex(index, shape.MOVE_VERTEX) # 高亮顶点 self.overrideCursor(CURSOR_POINT) # 光标样式 self.setToolTip(self.tr("Click & drag to move point")) # 点击或拖拽移动点 self.setStatusTip(self.toolTip()) # 设置状态提示 self.update() # 更新窗口部件,速度比repaint更快,闪烁更少 break elif shape.containsPoint(pos): # 如果此形状shape里包含当前点 if self.selectedVertex(): self.hShape.highlightClear() self.prevhVertex = self.hVertex self.hVertex = None self.prevhShape = self.hShape = shape self.prevhEdge = self.hEdge = index_edge self.setToolTip( self.tr("Click & drag to move shape '%s'") % shape.label) self.setStatusTip(self.toolTip()) self.overrideCursor(CURSOR_GRAB) self.update() break else: # Nothing found, clear highlights, reset state. self.unHighlight() self.edgeSelected.emit(self.hEdge is not None, self.hShape) self.vertexSelected.emit(self.hVertex is not None) def addPointToEdge(self):# 添加点到边 shape = self.prevhShape # 上一个形状 index = self.prevhEdge # 上一条边的index point = self.prevMovePoint # 上一个移动点 if shape is None or index is None or point is None: #形状不空 或 index 或 点也存在 return shape.insertPoint(index, point) # 插入点 shape.highlightVertex(index, shape.MOVE_VERTEX) self.hShape = shape # 当前形状 self.hVertex = index # index self.hEdge = None # 当前边重置 self.movingShape = True #一同shape设为True def removeSelectedPoint(self): # 删除选择的点 这些都会导致shape内点的变化 都要在这里添加新shape的修改 shape = self.prevhShape point = self.prevMovePoint if shape is None or point is None: return index = shape.nearestVertex(point, self.epsilon) shape.removePoint(index) # 最近点移除 # shape.highlightVertex(index, shape.MOVE_VERTEX) self.hShape = shape self.hVertex = None self.hEdge = None self.movingShape = True # Save changes def mousePressEvent(self, ev): if QT5: pos = self.transformPos(ev.localPos()) #### 获取坐标 两个类型都是<class 'PyQt5.QtCore.QPointF'> 此函数用于变换坐标到对应控件? t_str = time.strftime('%m-%d %H:%M:%S', time.localtime(time.time())) ## 添加记录时间 汉化文件行数变化 else: pos = self.transformPos(ev.posF()) if ev.button() == QtCore.Qt.LeftButton: # 左键则绘制, 一边添加 if self.drawing(): if self.current: # 如果当前的shape不为空(points内有点) # Add point to existing shape. if self.createMode == 'polygon': self.current.addPoint(self.line[1]) # 添加点 此时pointsNew也变化 self.line[0] = self.current[-1] # 等于最后一个点line[0] if self.current.isClosed(): # 通过此函数找到了self.current的类别,即Shape self.finalise() # 敲定 elif self.createMode in ['rectangle', 'circle', 'line']: assert len(self.current.points) == 1 self.current.points = self.line.points self.finalise() elif self.createMode == 'linestrip': self.current.addPoint(self.line[1]) self.line[0] = self.current[-1] if int(ev.modifiers()) == QtCore.Qt.ControlModifier: self.finalise() elif not self.outOfPixmap(pos): # Create new shape. self.current = Shape(shape_type=self.createMode) self.current.addPoint(pos) # 这里添加的两个坐标的点了 看下位置 加入哪里的 if self.createMode == 'point': self.finalise() else: if self.createMode == 'circle': self.current.shape_type = 'circle' # 圆 self.line.points = [pos, pos] # 两点 self.setHiding() # self.drawingPolygon.emit(True) # 绘制 self.update() # 刷新 else: # 没有点,起始 group_mode = (int(ev.modifiers()) == QtCore.Qt.ControlModifier) # 鼠标信息的修改器 与 控制器修改器 self.selectShapePoint(pos, multiple_selection_mode=group_mode) # 选择点 self.prevPoint = pos # 更新点 self.repaint() # 重绘 elif ev.button() == QtCore.Qt.RightButton and self.editing(): # 右键 group_mode = (int(ev.modifiers()) == QtCore.Qt.ControlModifier) self.selectShapePoint(pos, multiple_selection_mode=group_mode) self.prevPoint = pos self.repaint() def mouseReleaseEvent(self, ev): # 鼠标右键释放 编辑状态 if ev.button() == QtCore.Qt.RightButton: menu = self.menus[len(self.selectedShapesCopy) > 0] self.restoreCursor() if not menu.exec_(self.mapToGlobal(ev.pos())) \ and self.selectedShapesCopy: # Cancel the move by deleting the shadow copy. self.selectedShapesCopy = [] self.repaint() elif ev.button() == QtCore.Qt.LeftButton and self.selectedShapes: self.overrideCursor(CURSOR_GRAB) if self.movingShape and self.hShape: index = self.shapes.index(self.hShape) if (self.shapesBackups[-1][index].points != self.shapes[index].points): self.storeShapes() self.shapeMoved.emit() self.movingShape = False def endMove(self, copy): # 结束移动 assert self.selectedShapes and self.selectedShapesCopy assert len(self.selectedShapesCopy) == len(self.selectedShapes) if copy: for i, shape in enumerate(self.selectedShapesCopy): self.shapes.append(shape) self.selectedShapes[i].selected = False self.selectedShapes[i] = shape else: for i, shape in enumerate(self.selectedShapesCopy): self.selectedShapes[i].points = shape.points self.selectedShapesCopy = [] self.repaint() self.storeShapes() return True def hideBackroundShapes(self, value): # 隐藏背景 self.hideBackround = value if self.selectedShapes: # Only hide other shapes if there is a current selection. # Otherwise the user will not be able to select a shape. self.setHiding(True) self.repaint() def setHiding(self, enable=True): self._hideBackround = self.hideBackround if enable else False def canCloseShape(self): return self.drawing() and self.current and len(self.current) > 2 def mouseDoubleClickEvent(self, ev): # 鼠标双击事件 # We need at least 4 points here, since the mousePress handler # adds an extra one before this handler is called. if (self.double_click == 'close' and self.canCloseShape() and len(self.current) > 3): # 双击检测就关闭的标志打开,并且可关闭shape的标志打开,并且当前的shape的点的个数大于3(重载__len__()方法) self.current.popPoint() # 由此可见current类实际是Shape类 用来代表当前shape 弹出点 self.finalise() def selectShapes(self, shapes): self.setHiding() self.selectionChanged.emit(shapes) self.update() def selectShapePoint(self, point, multiple_selection_mode): """Select the first shape created which contains this point.""" if self.selectedVertex(): # A vertex is marked for selection. index, shape = self.hVertex, self.hShape shape.highlightVertex(index, shape.MOVE_VERTEX) else: for shape in reversed(self.shapes): if self.isVisible(shape) and shape.containsPoint(point): self.calculateOffsets(shape, point) self.setHiding() if multiple_selection_mode: if shape not in self.selectedShapes: self.selectionChanged.emit( self.selectedShapes + [shape]) else: self.selectionChanged.emit([shape]) return self.deSelectShape() def calculateOffsets(self, shape, point): rect = shape.boundingRect() x1 = rect.x() - point.x() y1 = rect.y() - point.y() x2 = (rect.x() + rect.width() - 1) - point.x() y2 = (rect.y() + rect.height() - 1) - point.y() self.offsets = QtCore.QPoint(x1, y1), QtCore.QPoint(x2, y2) def boundedMoveVertex(self, pos): index, shape = self.hVertex, self.hShape point = shape[index] if self.outOfPixmap(pos): pos = self.intersectionPoint(point, pos) shape.moveVertexBy(index, pos - point) def boundedMoveShapes(self, shapes, pos): if self.outOfPixmap(pos): return False # No need to move o1 = pos + self.offsets[0] if self.outOfPixmap(o1): pos -= QtCore.QPoint(min(0, o1.x()), min(0, o1.y())) o2 = pos + self.offsets[1] if self.outOfPixmap(o2): pos += QtCore.QPoint(min(0, self.pixmap.width() - o2.x()), min(0, self.pixmap.height() - o2.y())) # XXX: The next line tracks the new position of the cursor # relative to the shape, but also results in making it # a bit "shaky" when nearing the border and allows it to # go outside of the shape's area for some reason. # self.calculateOffsets(self.selectedShapes, pos) dp = pos - self.prevPoint if dp: for shape in shapes: shape.moveBy(dp) self.prevPoint = pos return True return False def deSelectShape(self): if self.selectedShapes: self.setHiding(False) self.selectionChanged.emit([]) self.update() def deleteSelected(self): deleted_shapes = [] if self.selectedShapes: for shape in self.selectedShapes: self.shapes.remove(shape) deleted_shapes.append(shape) self.storeShapes() self.selectedShapes = [] self.update() return deleted_shapes def copySelectedShapes(self): if self.selectedShapes: self.selectedShapesCopy = [s.copy() for s in self.selectedShapes] self.boundedShiftShapes(self.selectedShapesCopy) self.endMove(copy=True) return self.selectedShapes def boundedShiftShapes(self, shapes): # Try to move in one direction, and if it fails in another. # Give up if both fail. point = shapes[0][0] offset = QtCore.QPoint(2.0, 2.0) self.offsets = QtCore.QPoint(), QtCore.QPoint() self.prevPoint = point if not self.boundedMoveShapes(shapes, point - offset): self.boundedMoveShapes(shapes, point + offset) def paintEvent(self, event): # 绘制事件 if not self.pixmap: return super(Canvas, self).paintEvent(event) p = self._painter p.begin(self) # self? p.setRenderHint(QtGui.QPainter.Antialiasing) # 设置样式 p.setRenderHint(QtGui.QPainter.HighQualityAntialiasing) p.setRenderHint(QtGui.QPainter.SmoothPixmapTransform) p.scale(self.scale, self.scale) p.translate(self.offsetToCenter()) # 翻译 p.drawPixmap(0, 0, self.pixmap) # 绘制 Shape.scale = self.scale for shape in self.shapes: # 绘制 if (shape.selected or not self._hideBackround) and \ self.isVisible(shape): shape.fill = shape.selected or shape == self.hShape shape.paint(p) if self.current: self.current.paint(p) self.line.paint(p) if self.selectedShapesCopy: for s in self.selectedShapesCopy: s.paint(p) if (self.fillDrawing() and self.createMode == 'polygon' and self.current is not None and len(self.current.points) >= 2): drawing_shape = self.current.copy() drawing_shape.addPoint(self.line[1]) drawing_shape.fill = True drawing_shape.fill_color.setAlpha(64) drawing_shape.paint(p) p.end() def transformPos(self, point): # 坐标变换函数 根据大小做变换 当前坐标为canvas控件 """Convert from widget-logical coordinates to painter-logical ones.""" return point / self.scale - self.offsetToCenter() # 返回point除以放缩比例减去当前偏离中心的位置 def offsetToCenter(self): s = self.scale area = super(Canvas, self).size() w, h = self.pixmap.width() * s, self.pixmap.height() * s aw, ah = area.width(), area.height() x = (aw - w) / (2 * s) if aw > w else 0 y = (ah - h) / (2 * s) if ah > h else 0 return QtCore.QPoint(x, y) # 返回中心点类 初始化函数为QtCore.QPoint(x, y) def outOfPixmap(self, p): # 在pixmap之外 w, h = self.pixmap.width(), self.pixmap.height() return not (0 <= p.x() <= w - 1 and 0 <= p.y() <= h - 1) def finalise(self): # 敲定(确定方案) assert self.current self.current.close() # Shape类方法,设定close标志位True self.shapes.append(self.current) # shapes添加当前shape 所以更改的保存shape的方法 把data里面的shapes里的shape里的points改成pointsNew self.storeShapes() # 重置shapes self.current = None # 当前设定为空 self.setHiding(False) # 隐藏设为False self.newShape.emit() # 新形状 self.update() # 更新 def closeEnough(self, p1, p2): # d = distance(p1 - p2) # m = (p1-p2).manhattanLength() # print "d %.2f, m %d, %.2f" % (d, m, d - m) # divide by scale to allow more precision when zoomed in return labelme.utils.distance(p1 - p2) < (self.epsilon / self.scale) def intersectionPoint(self, p1, p2): # 交集点 # Cycle through each image edge in clockwise fashion, # and find the one intersecting the current line segment. # http://paulbourke.net/geometry/lineline2d/ # 顺时针循环通过每个图像边缘,并找到与当前线段相交的线段。 size = self.pixmap.size() points = [(0, 0), (size.width() - 1, 0), (size.width() - 1, size.height() - 1), (0, size.height() - 1)] # x1, y1 should be in the pixmap, x2, y2 should be out of the pixmap x1 = min(max(p1.x(), 0), size.width() - 1) y1 = min(max(p1.y(), 0), size.height() - 1) x2, y2 = p2.x(), p2.y() d, i, (x, y) = min(self.intersectingEdges((x1, y1), (x2, y2), points)) x3, y3 = points[i] x4, y4 = points[(i + 1) % 4] if (x, y) == (x1, y1): # Handle cases where previous point is on one of the edges. if x3 == x4: return QtCore.QPoint(x3, min(max(0, y2), max(y3, y4))) else: # y3 == y4 return QtCore.QPoint(min(max(0, x2), max(x3, x4)), y3) return QtCore.QPoint(x, y) def intersectingEdges(self, point1, point2, points): # 找出交集边 每条由点形成的边,返回边长的一般 用来选择最近的边 """Find intersecting edges. For each edge formed by `points', yield the intersection with the line segment `(x1,y1) - (x2,y2)`, if it exists. Also return the distance of `(x2,y2)' to the middle of the edge along with its index, so that the one closest can be chosen. """ (x1, y1) = point1 # (x2, y2) = point2 for i in range(4): x3, y3 = points[i] # 这是Qt点类的列表吗?还能这么用? x4, y4 = points[(i + 1) % 4] denom = (y4 - y3) * (x2 - x1) - (x4 - x3) * (y2 - y1) nua = (x4 - x3) * (y1 - y3) - (y4 - y3) * (x1 - x3) nub = (x2 - x1) * (y1 - y3) - (y2 - y1) * (x1 - x3) if denom == 0: # This covers two cases: # nua == nub == 0: Coincident # otherwise: Parallel continue ua, ub = nua / denom, nub / denom if 0 <= ua <= 1 and 0 <= ub <= 1: x = x1 + ua * (x2 - x1) y = y1 + ua * (y2 - y1) m = QtCore.QPoint((x3 + x4) / 2, (y3 + y4) / 2) d = labelme.utils.distance(m - QtCore.QPoint(x2, y2)) yield d, i, (x, y) # These two, along with a call to adjustSize are required for the # scroll area. def sizeHint(self): return self.minimumSizeHint() def minimumSizeHint(self): if self.pixmap: return self.scale * self.pixmap.size() return super(Canvas, self).minimumSizeHint() def wheelEvent(self, ev): if QT5: mods = ev.modifiers() delta = ev.angleDelta() if QtCore.Qt.ControlModifier == int(mods): # with Ctrl/Command key # zoom self.zoomRequest.emit(delta.y(), ev.pos()) else: # scroll self.scrollRequest.emit(delta.x(), QtCore.Qt.Horizontal) self.scrollRequest.emit(delta.y(), QtCore.Qt.Vertical) else: if ev.orientation() == QtCore.Qt.Vertical: mods = ev.modifiers() if QtCore.Qt.ControlModifier == int(mods): # with Ctrl/Command key self.zoomRequest.emit(ev.delta(), ev.pos()) else: self.scrollRequest.emit( ev.delta(), QtCore.Qt.Horizontal if (QtCore.Qt.ShiftModifier == int(mods)) else QtCore.Qt.Vertical) else: self.scrollRequest.emit(ev.delta(), QtCore.Qt.Horizontal) ev.accept() def keyPressEvent(self, ev): # 键盘事件 key = ev.key() if key == QtCore.Qt.Key_Escape and self.current: # 如果按下的是Esc键 并且当前shape有点存在 self.current = None # 清空current self.drawingPolygon.emit(False) # 绘制退出 self.update() # elif key == QtCore.Qt.Key_Return and self.canCloseShape(): self.finalise() def setLastLabel(self, text, flags): assert text self.shapes[-1].label = text self.shapes[-1].flags = flags self.shapesBackups.pop() self.storeShapes() return self.shapes[-1] def undoLastLine(self): assert self.shapes self.current = self.shapes.pop() self.current.setOpen() if self.createMode in ['polygon', 'linestrip']: self.line.points = [self.current[-1], self.current[0]] elif self.createMode in ['rectangle', 'line', 'circle']: self.current.points = self.current.points[0:1] elif self.createMode == 'point': self.current = None self.drawingPolygon.emit(True) def undoLastPoint(self): if not self.current or self.current.isClosed(): return self.current.popPoint() if len(self.current) > 0: self.line[0] = self.current[-1] else: self.current = None self.drawingPolygon.emit(False) self.repaint() def loadPixmap(self, pixmap): self.pixmap = pixmap self.shapes = [] self.repaint() def loadShapes(self, shapes, replace=True): if replace: self.shapes = list(shapes) else: self.shapes.extend(shapes) self.storeShapes() self.current = None self.hShape = None self.hVertex = None self.hEdge = None self.repaint() def setShapeVisible(self, shape, value): self.visible[shape] = value self.repaint() def overrideCursor(self, cursor): self.restoreCursor() self._cursor = cursor QtWidgets.QApplication.setOverrideCursor(cursor) def restoreCursor(self): QtWidgets.QApplication.restoreOverrideCursor() def resetState(self): self.restoreCursor() self.pixmap = None self.shapesBackups = [] self.update()