def draw_model_name(painter: QPainter, geom: NodeGeometry, state: NodeState, model: NodeDataModel, node_style: NodeStyle): """ Draw model name Parameters ---------- painter : QPainter geom : NodeGeometry state : NodeState model : NodeDataModel """ if not model.caption_visible: return name = model.caption f = painter.font() f.setBold(True) metrics = QFontMetrics(f) rect = metrics.boundingRect(name) position = QPointF((geom.width - rect.width()) / 2.0, (geom.spacing + geom.entry_height) / 3.0) painter.setFont(f) painter.setPen(node_style.font_color) painter.drawText(position, name) f.setBold(False) painter.setFont(f)
def paint(painter: QPainter, node: NodeBase, scene: FlowSceneBase, node_style: NodeStyle, connection_style: ConnectionStyle): """ Paint Parameters ---------- painter : QPainter node : Node scene : FlowScene node_style : NodeStyle connection_style : ConnectionStyle """ geom = node.geometry state = node.state graphics_object = node.graphics_object geom.recalculate_size(painter.font()) model = node.model NodePainter.draw_node_rect(painter, geom, model, graphics_object, node_style) NodePainter.draw_connection_points(painter, geom, state, model, scene, node_style, connection_style) NodePainter.draw_filled_connection_points(painter, geom, state, model, node_style, connection_style) NodePainter.draw_model_name(painter, geom, state, model, node_style) NodePainter.draw_entry_labels(painter, geom, state, model, node_style) NodePainter.draw_resize_rect(painter, geom, model) NodePainter.draw_validation_rect(painter, geom, model, graphics_object, node_style) # call custom painter painter_delegate = model.painter_delegate() if painter_delegate: painter_delegate.paint(painter, geom, model)
def paintEvent(self, event): super().paintEvent(event) painter = QPainter(self) font_metrics = painter.fontMetrics() text_layout = QTextLayout(self._text, painter.font()) text_layout.beginLayout() y = 0 while True: line = text_layout.createLine() if not line.isValid(): break line.setLineWidth(self.width()) nextLineY = y + font_metrics.lineSpacing() if self.height() >= nextLineY + font_metrics.lineSpacing(): line.draw(painter, QPoint(0, y)) y = nextLineY else: lastLine = self._text[line.textStart():] elidedLastLine = font_metrics.elidedText( lastLine, Qt.ElideRight, self.width()) painter.drawText(QPoint(0, y + font_metrics.ascent()), elidedLastLine) line = text_layout.createLine() break text_layout.endLayout()
def draw_validation_rect(painter: QPainter, geom: NodeGeometry, model: NodeDataModel, graphics_object: NodeGraphicsObject, node_style: NodeStyle): """ Draw validation rect Parameters ---------- painter : QPainter geom : NodeGeometry model : NodeDataModel graphics_object : NodeGraphicsObject node_style : NodeStyle """ model_validation_state = model.validation_state() if model_validation_state == NodeValidationState.valid: return color = (node_style.selected_boundary_color if graphics_object.isSelected() else node_style.normal_boundary_color) if geom.hovered: p = QPen(color, node_style.hovered_pen_width) else: p = QPen(color, node_style.pen_width) painter.setPen(p) # Drawing the validation message background if model_validation_state == NodeValidationState.error: painter.setBrush(node_style.error_color) else: painter.setBrush(node_style.warning_color) radius = 3.0 diam = node_style.connection_point_diameter boundary = QRectF( -diam, -diam + geom.height - geom.validation_height, 2.0 * diam + geom.width, 2.0 * diam + geom.validation_height, ) painter.drawRoundedRect(boundary, radius, radius) painter.setBrush(Qt.gray) # Drawing the validation message itself error_msg = model.validation_message() f = painter.font() metrics = QFontMetrics(f) rect = metrics.boundingRect(error_msg) position = QPointF( (geom.width - rect.width()) / 2.0, geom.height - (geom.validation_height - diam) / 2.0 ) painter.setFont(f) painter.setPen(node_style.font_color) painter.drawText(position, error_msg)
def paintEvent(self, event): """Override Qt method. Painting line number area """ painter = QPainter(self) painter.fillRect(event.rect(), self.editor.sideareas_color) # This is needed to make that the font size of line numbers # be the same as the text one when zooming # See Issue 2296 if sys.platform == 'darwin': font = self.editor.font() else: font = painter.font() font_height = self.editor.fontMetrics().height() active_block = self.editor.textCursor().block() active_line_number = active_block.blockNumber() + 1 def draw_pixmap(ytop, pixmap): painter.drawPixmap(0, ytop + (font_height-pixmap.height()) / 2, pixmap) for top, line_number, block in self.editor.visible_blocks: if self._margin: if line_number == active_line_number: font.setWeight(font.Bold) painter.setFont(font) painter.setPen(self.editor.normal_color) else: font.setWeight(font.Normal) painter.setFont(font) painter.setPen(self.linenumbers_color) painter.drawText(0, top, self.width(), font_height, Qt.AlignRight | Qt.AlignBottom, to_text_string(line_number)) data = block.userData() if self._markers_margin and data: if data.code_analysis: for _message, error in data.code_analysis: if error: break if error: draw_pixmap(top, self.error_pixmap) else: draw_pixmap(top, self.warning_pixmap) if data.todo: draw_pixmap(top, self.todo_pixmap) if data.breakpoint: if data.breakpoint_condition is None: draw_pixmap(top, self.bp_pixmap) else: draw_pixmap(top, self.bpc_pixmap)
def paint(self, painter: QtGui.QPainter, option: 'QStyleOptionViewItem', index: QtCore.QModelIndex) -> None: viewOption = QStyleOptionViewItem(option) self.initStyleOption(viewOption, index) QStyledItemDelegate.paint(self, painter, viewOption, index) item = index.model().data(index, Qt.UserRole) if isinstance(item, QVariant): return value = item['value'] type = item['type'] if type == 'checkbox': # 数据转换 value = True if value == 1 else 0 # 绘制单选框 checkBoxStyle = QStyleOptionButton() checkBoxStyle.state = QStyle.State_On if value else QStyle.State_Off checkBoxStyle.state |= QStyle.State_Enabled # 计算位置 size = item['size'] rect = calculate_middle_rect(option.rect, size, size) checkBoxStyle.rect = rect checkBox = QCheckBox() QApplication.style().drawPrimitive(QStyle.PE_IndicatorCheckBox, checkBoxStyle, painter, checkBox) if type == 'tag': painter.setRenderHint(QPainter.Antialiasing, True) painter.setRenderHints(QPainter.SmoothPixmapTransform) path = QPainterPath() # 绘制文本 self.font = ResourceLoader().qt_font_text_tag text_color = item['text_color'] border_color = item['border_color'] text = value padding_v = 2 padding_h = 4 border_radius = 2 border_width = 1 painter.setFont(item['font']) painter.setPen(text_color) fm = QFontMetrics(painter.font()) w = fm.width(text) h = fm.height() # 计算位置 rect = calculate_middle_rect(option.rect, w + padding_h * 2, h + padding_v * 2) rectf = QRectF(rect.x(), rect.y(), rect.width(), rect.height()) painter.drawText( QRect(rectf.x() + padding_h, rectf.y() + padding_v, w, h), Qt.TextWordWrap, text) # 绘制边框 path.addRoundedRect(rectf, border_radius, border_radius) painter.strokePath(path, QPen(border_color, border_width))
def paintEvent(self, event): QPushButton.paintEvent(self, event) qp = QPainter() qp.begin(self) font = qp.font() font.setPixelSize(self.font().pixelSize() * 0.6) font.setWeight(QFont.Normal) qp.setFont(font) #qp.drawText(event.rect().translated(2, 2), str(self._atomic_number)) qp.end()
def paintEvent(self, event: QtGui.QPaintEvent): bar_width = 30 if self.image is None: return rect = self.rect() number_of_marks = self.number_of_marks(rect.height()) image_rect = QRect(rect.topLeft(), QSize(bar_width, rect.size().height())) painter = QPainter(self) old_font = painter.font() new_font = painter.font() new_font.setPointSizeF(new_font.pointSizeF() / 1.1) painter.setFont(new_font) painter.drawImage(image_rect, self.image) if self.range[1] == self.range[0]: painter.drawText(bar_width + 5, 20, f"{self.range[1]}") painter.drawText(bar_width + 5, rect.size().height(), f"{self.range[1]}") painter.setFont(old_font) return start_prop = 1 - (self.round_range[0] - self.range[0]) / (self.range[1] - self.range[0]) end_prop = 1 - (self.round_range[1] - self.range[0]) / (self.range[1] - self.range[0]) for pos, val in zip( np.linspace(10 + end_prop * rect.size().height(), start_prop * rect.size().height(), number_of_marks), np.linspace(self.round_range[1], self.round_range[0], number_of_marks, dtype=np.uint32), ): painter.drawText(bar_width + 5, int(pos), f"{val}") painter.setFont(old_font)
class BaseCanvas(QWidget, metaclass=QABCMeta): """The subclass can draw a blank canvas more easier.""" @abstractmethod def __init__(self, parent: QWidget): """Set the parameters for drawing.""" super(BaseCanvas, self).__init__(parent) self.setSizePolicy( QSizePolicy(QSizePolicy.Expanding, QSizePolicy.Expanding)) self.setFocusPolicy(Qt.StrongFocus) self.setMouseTracking(True) self.painter = QPainter() # Origin coordinate self.ox = self.width() / 2 self.oy = self.height() / 2 # Canvas zoom rate self.zoom = 1. # Joint size self.joint_size = 5 # Canvas line width self.link_width = 3 self.path_width = 3 # Font size self.font_size = 15 # Show point mark or dimension self.show_ticks = _TickMark.SHOW self.show_point_mark = True self.show_dimension = True # Path track self.path = _PathOption() # Path solving self.ranges: Dict[str, QRectF] = {} self.target_path: Dict[int, Sequence[_Coord]] = {} self.show_target_path = False # Background self.background = QImage() self.background_opacity = 1. self.background_scale = 1. self.background_offset = QPointF(0, 0) # Monochrome mode self.monochrome = False # Grab mode self.__grab_mode = False def switch_grab(self) -> None: """Start grab mode.""" self.__grab_mode = not self.__grab_mode @staticmethod def zoom_factor(width: int, height: int, x_right: float, x_left: float, y_top: float, y_bottom: float) -> float: """Calculate the zoom factor.""" x_diff = x_left - x_right y_diff = y_top - y_bottom x_diff = x_diff if x_diff else 1. y_diff = y_diff if y_diff else 1. if width / x_diff < height / y_diff: return width / x_diff else: return height / y_diff @abstractmethod def paintEvent(self, event: QPaintEvent) -> None: """Using a QPainter under 'self', so just change QPen or QBrush before painting. """ if not self.__grab_mode: self.painter.begin(self) self.painter.fillRect(event.rect(), QBrush(Qt.white)) # Translation self.painter.translate(self.ox, self.oy) # Background if not self.background.isNull(): rect = self.background.rect() self.painter.setOpacity(self.background_opacity) self.painter.drawImage( QRectF( self.background_offset * self.zoom, QSizeF(rect.width(), rect.height()) * self.background_scale * self.zoom), self.background, QRectF(rect)) self.painter.setOpacity(1) # Show frame pen = QPen(Qt.blue) pen.setWidth(1) self.painter.setPen(pen) self.painter.setFont(QFont("Arial", self.font_size)) # Draw origin lines if self.show_ticks not in {_TickMark.SHOW, _TickMark.SHOW_NUM}: return pen.setColor(Qt.gray) self.painter.setPen(pen) x_l = -self.ox x_r = self.width() - self.ox self.painter.drawLine(QPointF(x_l, 0), QPointF(x_r, 0)) y_t = self.height() - self.oy y_b = -self.oy self.painter.drawLine(QPointF(0, y_b), QPointF(0, y_t)) def indexing(v: float) -> int: """Draw tick.""" return int(v / self.zoom - v / self.zoom % 5) # Draw tick for x in range(indexing(x_l), indexing(x_r) + 1, 5): if x == 0: continue is_ten = x % 10 == 0 end = QPointF(x * self.zoom, -10 if is_ten else -5) self.painter.drawLine(QPointF(x, 0) * self.zoom, end) if self.show_ticks == _TickMark.SHOW_NUM and is_ten: self.painter.drawText(end + QPointF(0, 3), f"{x}") for y in range(indexing(y_b), indexing(y_t) + 1, 5): if y == 0: continue is_ten = y % 10 == 0 end = QPointF(10 if is_ten else 5, y * self.zoom) self.painter.drawLine(QPointF(0, y) * self.zoom, end) if self.show_ticks == _TickMark.SHOW_NUM and is_ten: self.painter.drawText(end + QPointF(3, 0), f"{-y}") # Please to call the "end" method when ending paint event. def draw_circle(self, p: QPointF, r: float) -> None: """Draw circle.""" self.painter.drawEllipse(p, r, r) def draw_point(self, i: int, cx: float, cy: float, fixed: bool, color: Optional[Tuple[int, int, int]], mul: int = 1) -> None: """Draw a joint.""" if self.monochrome or color is None: color = Qt.black else: color = QColor(*color) pen = QPen(color) pen.setWidth(2) self.painter.setPen(pen) x = cx * self.zoom y = cy * -self.zoom if fixed: # Draw a triangle below self.painter.drawPolygon( QPointF(x, y), QPointF(x - self.joint_size, y + 2 * self.joint_size), QPointF(x + self.joint_size, y + 2 * self.joint_size)) r = self.joint_size for _ in range(1 if mul < 1 else mul): self.draw_circle(QPointF(x, y), r) r += 5 if not self.show_point_mark: return pen.setColor(Qt.darkGray) pen.setWidth(2) self.painter.setPen(pen) text = f"[Point{i}]" if self.show_dimension: text += f":({cx:.02f}, {cy:.02f})" self.painter.drawText(QPointF(x, y) + QPointF(6, -6), text) def draw_ranges(self) -> None: """Draw rectangle ranges.""" pen = QPen() pen.setWidth(5) for i, (tag, rect) in enumerate(self.ranges.items()): range_color = QColor(color_num(i + 1)) range_color.setAlpha(30) self.painter.setBrush(range_color) range_color.setAlpha(255) pen.setColor(range_color) self.painter.setPen(pen) cx = rect.x() * self.zoom cy = rect.y() * -self.zoom if rect.width(): self.painter.drawRect( QRectF(QPointF(cx, cy), QSizeF(rect.width(), rect.height()) * self.zoom)) else: self.draw_circle(QPointF(cx, cy), 3) range_color.setAlpha(255) pen.setColor(range_color) self.painter.setPen(pen) self.painter.drawText(QPointF(cx, cy) + QPointF(6, -6), tag) self.painter.setBrush(Qt.NoBrush) def draw_target_path(self) -> None: """Draw solving path.""" pen = QPen() pen.setWidth(self.path_width) for i, n in enumerate(sorted(self.target_path)): path = self.target_path[n] if self.monochrome: line, dot = target_path_style(0) else: line, dot = target_path_style(i + 1) pen.setColor(line) self.painter.setPen(pen) if len(path) == 1: x, y = path[0] p = QPointF(x, -y) * self.zoom self.painter.drawText(p + QPointF(6, -6), f"P{n}") pen.setColor(dot) self.painter.setPen(pen) self.draw_circle(p, self.joint_size) else: painter_path = QPainterPath() for j, (x, y) in enumerate(path): p = QPointF(x, -y) * self.zoom self.draw_circle(p, self.joint_size) if j == 0: self.painter.drawText(p + QPointF(6, -6), f"P{n}") painter_path.moveTo(p) else: x2, y2 = path[j - 1] self.__draw_arrow(x, -y, x2, -y2, zoom=True) painter_path.lineTo(p) pen.setColor(line) self.painter.setPen(pen) self.painter.drawPath(painter_path) for x, y in path: pen.setColor(dot) self.painter.setPen(pen) self.draw_circle( QPointF(x, -y) * self.zoom, self.joint_size) self.painter.setBrush(Qt.NoBrush) def __draw_arrow(self, x1: float, y1: float, x2: float, y2: float, *, zoom: bool = False, text: str = '') -> None: """Front point -> Back point""" if zoom: x1 *= self.zoom y1 *= self.zoom x2 *= self.zoom y2 *= self.zoom a = atan2(y2 - y1, x2 - x1) x1 = (x1 + x2) / 2 - 7.5 * cos(a) y1 = (y1 + y2) / 2 - 7.5 * sin(a) first_point = QPointF(x1, y1) self.painter.drawLine( first_point, QPointF(x1 + 15 * cos(a + radians(20)), y1 + 15 * sin(a + radians(20)))) self.painter.drawLine( first_point, QPointF(x1 + 15 * cos(a - radians(20)), y1 + 15 * sin(a - radians(20)))) if not text: return # Font font = self.painter.font() font_copy = QFont(font) font.setBold(True) font.setPointSize(font.pointSize() + 8) self.painter.setFont(font) # Color pen = self.painter.pen() color = pen.color() pen.setColor(color.darker()) self.painter.setPen(pen) self.painter.drawText(first_point, text) pen.setColor(color) self.painter.setPen(pen) self.painter.setFont(font_copy) def draw_curve(self, path: Sequence[_Coord]) -> None: """Draw path as curve.""" if len(set(path)) < 2: return painter_path = QPainterPath() error = False for i, (x, y) in enumerate(path): if isnan(x): error = True self.painter.drawPath(painter_path) painter_path = QPainterPath() else: p = QPointF(x, -y) * self.zoom if i == 0: painter_path.moveTo(p) self.draw_circle(p, 2) continue if error: painter_path.moveTo(p) error = False else: painter_path.lineTo(p) self.painter.drawPath(painter_path) def draw_dot(self, path: Sequence[_Coord]) -> None: """Draw path as dots.""" if len(set(path)) < 2: return for i, (x, y) in enumerate(path): if isnan(x): continue p = QPointF(x, -y) * self.zoom if i == 0: self.draw_circle(p, 2) else: self.painter.drawPoint(p) def solution_polygon( self, func: str, args: Sequence[str], target: str, pos: Sequence[VPoint]) -> Tuple[List[QPointF], QColor]: """Get solution polygon.""" if func == 'PLLP': color = QColor(121, 171, 252) params = [args[0], args[-1]] elif func == 'PLAP': color = QColor(249, 84, 216) params = [args[0]] else: if func == 'PLPP': color = QColor(94, 255, 185) else: # PXY color = QColor(249, 175, 27) params = [args[0]] params.append(target) tmp_list = [] for name in params: try: index = int(name.replace('P', '')) except ValueError: continue else: vpoint = pos[index] tmp_list.append(QPointF(vpoint.cx, -vpoint.cy) * self.zoom) return tmp_list, color def draw_solution(self, func: str, args: Sequence[str], target: str, pos: Sequence[VPoint]) -> None: """Draw the solution triangle.""" points, color = self.solution_polygon(func, args, target, pos) color.setAlpha(150) pen = QPen(color) pen.setWidth(self.joint_size) self.painter.setPen(pen) def draw_arrow(index: int, text: str) -> None: """Draw arrow.""" self.__draw_arrow(points[-1].x(), points[-1].y(), points[index].x(), points[index].y(), text=text) draw_arrow(0, args[1]) if func == 'PLLP': draw_arrow(1, args[2]) color.setAlpha(30) self.painter.setBrush(QBrush(color)) self.painter.drawPolygon(QPolygonF(points)) self.painter.setBrush(Qt.NoBrush) @Slot(int) def set_show_ticks(self, show: int): """Set the appearance of tick mark.""" self.show_ticks = _TickMark(show + 1) self.update() @Slot(bool) def set_monochrome_mode(self, monochrome: bool) -> None: """Set monochrome mode.""" self.monochrome = monochrome self.update()