Esempio n. 1
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    def drawBackground(self, painter, rect):
        super(GridView, self).drawBackground(painter, rect)

        if self._show_grid:
            scene_rect = self.sceneRect()
            left = int(scene_rect.left()) - (int(scene_rect.left()) %
                                             self._draw_grid_size)
            top = int(scene_rect.top()) - (int(scene_rect.top()) %
                                           self._draw_grid_size)
            scale_mult = 1.0

            lines = list()
            left_line = rect.left() - rect.left() % self._grid_size
            top_line = rect.top() - rect.top() % self._grid_size
            i = int(left_line)
            while i < int(rect.right()):
                lines.append(QLineF(i, rect.top(), i, rect.bottom()))
                i += self._grid_size
            u = int(top_line)
            while u < int(rect.bottom()):
                lines.append(QLineF(rect.left(), u, rect.right(), u))
                u += self._grid_size
            # TODO: Change pen to a class variable (avoid to create a pen each drawing frame)
            pen = QPen()
            pen.setWidth(0)
            pen.setColor(QColor(20, 20, 20))
            painter.setPen(pen)
            painter.drawLines(lines)
    def _create_controls(self):
        self._control_points = list()
        points = [
            QPoint(0, 0),
            QPoint(self._base_size / 4.0, 0),
            QPoint(self._base_size - (self._base_size / 4.0), self._base_size),
            QPoint(self._base_size, self._base_size)]
        for point in points:
            control_point = CurveNodeItem()
            self.addItem(control_point)
            control_point.setPos(point - QPoint(5, 5))
            self._control_points.append(control_point)
            self._point_objects.append(control_point)
            control_point.signals.curveUpdated.connect(self.curveUpdated.emit)

        self._control_points[0].lock_x_pos = -5.0
        self._control_points[-1].lock_x_pos = (self._base_size - 5.0)
        self._bezier_curve = BezierCurveItem()
        self._bezier_curve.update_path(points)
        self.addItem(self._bezier_curve)

        start_connector = self.addLine(
            QLineF(40, 40, 80, 80), QPen(Qt.white, 1, Qt.DashLine))
        start_connector.setZValue(-2)
        end_connector = self.addLine(
            QLineF(40, 40, 80, 80), QPen(Qt.white, 1, Qt.DashLine))
        end_connector.setZValue(-2)

        self._control_points[0].add_line(start_connector, is_point1=True)
        self._control_points[1].add_line(start_connector, is_point1=False)
        self._control_points[-1].add_line(end_connector, is_point1=False)
        self._control_points[-2].add_line(end_connector, is_point1=True)
    def _move_line_to_center(self, new_pos):
        if not self._line:
            return

        x_offset = self._rect.x() - self._rect.width() / 2
        y_offset = self._rect.y() - self._rect.height() / 2
        new_center_pos = QPointF(new_pos.x() - x_offset, new_pos.y() - y_offset)
        p1 = new_center_pos if self._is_point1 else self._line.line().p1()
        p2 = self._line.line().p2() if self._is_point1 else new_center_pos
        self._line.setLine(QLineF(p1, p2))
Esempio n. 4
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    def create_drop_indicator_pixmap(palette, size, drop_area):
        border_color = palette.color(QPalette.Active, QPalette.Highlight)
        background_color = palette.color(QPalette.Active, QPalette.Base)
        area_background_color = palette.color(QPalette.Active,
                                              QPalette.Highlight).lighter(150)

        pm = QPixmap(size.width(), size.height())
        pm.fill(QColor(0, 0, 0, 0))

        painter = QPainter(pm)
        pen = painter.pen()
        base_rect = QRectF(pm.rect())

        painter.fillRect(base_rect, background_color)

        painter.save()
        area_rect = QRectF()
        area_line = QLineF()
        gradient = QLinearGradient()
        if drop_area == DropArea.TopDropArea:
            area_rect = QRectF(base_rect.x(), base_rect.y(), base_rect.width(),
                               base_rect.height() * 0.5)
            area_line = QLineF(area_rect.bottomLeft(), area_rect.bottomRight())
            gradient.setStart(area_rect.topLeft())
            gradient.setFinalStop(area_rect.bottomLeft())
            gradient.setColorAt(0, area_background_color)
            gradient.setColorAt(1, area_background_color.lighter(120))
        elif drop_area == DropArea.RightDropArea:
            area_rect = QRectF(base_rect.width() * 0.5, base_rect.y(),
                               base_rect.width() * 0.5, base_rect.height())
            area_line = QLineF(area_rect.topLeft(), area_rect.bottomLeft())
            gradient.setStart(area_rect.topLeft())
            gradient.setFinalStop(area_rect.topRight())
            gradient.setColorAt(0, area_background_color.lighter(120))
            gradient.setColorAt(1, area_background_color)
        elif drop_area == DropArea.BottomDropArea:
            area_rect = QRectF(base_rect.x(),
                               base_rect.height() * 0.5, base_rect.width(),
                               base_rect.height() * 0.5)
            area_line = QLineF(area_rect.topLeft(), area_rect.topRight())
            gradient.setStart(area_rect.topLeft())
            gradient.setFinalStop(area_rect.bottomLeft())
            gradient.setColorAt(0, area_background_color.lighter(120))
            gradient.setColorAt(1, area_background_color)
        elif drop_area == DropArea.LeftDropArea:
            area_rect = QRectF(base_rect.x(), base_rect.y(),
                               base_rect.width() * 0.5, base_rect.height())
            area_line = QLineF(area_rect.topRight(), area_rect.bottomRight())
            gradient.setStart(area_rect.topLeft())
            gradient.setFinalStop(area_rect.topRight())
            gradient.setColorAt(0, area_background_color)
            gradient.setColorAt(1, area_background_color.lighter(120))

        if area_rect.isValid():
            painter.fillRect(area_rect, gradient)
            pen = painter.pen()
            pen.setColor(border_color)
            pen.setStyle(Qt.DashLine)
            painter.setPen(pen)
            painter.drawLine(area_line)

        painter.restore()

        painter.save()
        pen = painter.pen()
        pen.setColor(border_color)
        pen.setWidth(1)

        painter.setPen(pen)
        painter.drawRect(base_rect.adjusted(0, 0, -pen.width(), -pen.width()))
        painter.restore()

        return pm
Esempio n. 5
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    def drawOneStep(self, step):
        """
        :type step: tuple
        """
        if step[0] == ACTION_RECT:
            self.graphicsScene.addRect(
                QRectF(QPointF(step[1], step[2]), QPointF(step[3], step[4])),
                step[5])
        elif step[0] == ACTION_ELLIPSE:
            self.graphicsScene.addEllipse(
                QRectF(QPointF(step[1], step[2]), QPointF(step[3], step[4])),
                step[5])
        elif step[0] == ACTION_ARROW:
            arrow = QPolygonF()

            linex = float(step[1] - step[3])
            liney = float(step[2] - step[4])
            line = sqrt(pow(linex, 2) + pow(liney, 2))

            # in case to divided by 0
            if line == 0:
                return

            sinAngel = liney / line
            cosAngel = linex / line

            # sideLength is the length of bottom side of the body of an arrow
            # arrowSize is the size of the head of an arrow, left and right
            # sides' size is arrowSize, and the bottom side's size is arrowSize / 2
            sideLength = step[5].width()
            arrowSize = 8
            bottomSize = arrowSize / 2

            tmpPoint = QPointF(step[3] + arrowSize * sideLength * cosAngel,
                               step[4] + arrowSize * sideLength * sinAngel)

            point1 = QPointF(step[1] + sideLength * sinAngel,
                             step[2] - sideLength * cosAngel)
            point2 = QPointF(step[1] - sideLength * sinAngel,
                             step[2] + sideLength * cosAngel)
            point3 = QPointF(tmpPoint.x() - sideLength * sinAngel,
                             tmpPoint.y() + sideLength * cosAngel)
            point4 = QPointF(tmpPoint.x() - bottomSize * sideLength * sinAngel,
                             tmpPoint.y() + bottomSize * sideLength * cosAngel)
            point5 = QPointF(step[3], step[4])
            point6 = QPointF(tmpPoint.x() + bottomSize * sideLength * sinAngel,
                             tmpPoint.y() - bottomSize * sideLength * cosAngel)
            point7 = QPointF(tmpPoint.x() + sideLength * sinAngel,
                             tmpPoint.y() - sideLength * cosAngel)

            arrow.append(point1)
            arrow.append(point2)
            arrow.append(point3)
            arrow.append(point4)
            arrow.append(point5)
            arrow.append(point6)
            arrow.append(point7)
            arrow.append(point1)

            self.graphicsScene.addPolygon(arrow, step[5], step[6])
        elif step[0] == ACTION_LINE:
            self.graphicsScene.addLine(
                QLineF(QPointF(step[1], step[2]), QPointF(step[3], step[4])),
                step[5])
        elif step[0] == ACTION_FREEPEN:
            self.graphicsScene.addPath(step[1], step[2])
        elif step[0] == ACTION_TEXT:
            textAdd = self.graphicsScene.addSimpleText(step[1], step[2])
            textAdd.setPos(step[3])
            textAdd.setBrush(QBrush(step[4]))
            self.textRect = textAdd.boundingRect()
Esempio n. 6
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    def drawMagnifier(self):
        # First, calculate the magnifier position due to the mouse position
        watchAreaWidth = 16
        watchAreaHeight = 16
        watchAreaPixmap = QPixmap()

        cursor_pos = self.mousePoint

        watchArea = QRect(
            QPoint(cursor_pos.x() - watchAreaWidth / 2,
                   cursor_pos.y() - watchAreaHeight / 2),
            QPoint(cursor_pos.x() + watchAreaWidth / 2,
                   cursor_pos.y() + watchAreaHeight / 2))
        if watchArea.left() < 0:
            watchArea.moveLeft(0)
            watchArea.moveRight(watchAreaWidth)
        if self.mousePoint.x() + watchAreaWidth / 2 >= self.screenPixel.width(
        ):
            watchArea.moveRight(self.screenPixel.width() - 1)
            watchArea.moveLeft(watchArea.right() - watchAreaWidth)
        if self.mousePoint.y() - watchAreaHeight / 2 < 0:
            watchArea.moveTop(0)
            watchArea.moveBottom(watchAreaHeight)
        if self.mousePoint.y(
        ) + watchAreaHeight / 2 >= self.screenPixel.height():
            watchArea.moveBottom(self.screenPixel.height() - 1)
            watchArea.moveTop(watchArea.bottom() - watchAreaHeight)

        # tricks to solve the hidpi impact on QCursor.pos()
        watchArea.setTopLeft(
            QPoint(watchArea.topLeft().x() * self.scale,
                   watchArea.topLeft().y() * self.scale))
        watchArea.setBottomRight(
            QPoint(watchArea.bottomRight().x() * self.scale,
                   watchArea.bottomRight().y() * self.scale))
        watchAreaPixmap = self.screenPixel.copy(watchArea)

        # second, calculate the magnifier area
        magnifierAreaWidth = watchAreaWidth * 10
        magnifierAreaHeight = watchAreaHeight * 10
        fontAreaHeight = 40

        cursorSize = 24
        magnifierArea = QRectF(
            QPoint(QCursor.pos().x() + cursorSize,
                   QCursor.pos().y() + cursorSize),
            QPoint(QCursor.pos().x() + cursorSize + magnifierAreaWidth,
                   QCursor.pos().y() + cursorSize + magnifierAreaHeight))
        if magnifierArea.right() >= self.screenPixel.width():
            magnifierArea.moveLeft(QCursor.pos().x() - magnifierAreaWidth -
                                   cursorSize / 2)
        if magnifierArea.bottom() + fontAreaHeight >= self.screenPixel.height(
        ):
            magnifierArea.moveTop(QCursor.pos().y() - magnifierAreaHeight -
                                  cursorSize / 2 - fontAreaHeight)

        # third, draw the watch area to magnifier area
        watchAreaScaled = watchAreaPixmap.scaled(
            QSize(magnifierAreaWidth * self.scale,
                  magnifierAreaHeight * self.scale))
        magnifierPixmap = self.graphicsScene.addPixmap(watchAreaScaled)
        magnifierPixmap.setOffset(magnifierArea.topLeft())

        # then draw lines and text
        self.graphicsScene.addRect(QRectF(magnifierArea),
                                   QPen(QColor(255, 255, 255), 2))
        self.graphicsScene.addLine(
            QLineF(QPointF(magnifierArea.center().x(), magnifierArea.top()),
                   QPointF(magnifierArea.center().x(),
                           magnifierArea.bottom())),
            QPen(QColor(0, 255, 255), 2))
        self.graphicsScene.addLine(
            QLineF(QPointF(magnifierArea.left(),
                           magnifierArea.center().y()),
                   QPointF(magnifierArea.right(),
                           magnifierArea.center().y())),
            QPen(QColor(0, 255, 255), 2))

        # get the rgb of mouse point
        pointRgb = QColor(self.screenPixel.toImage().pixel(self.mousePoint))

        # draw information
        self.graphicsScene.addRect(
            QRectF(
                magnifierArea.bottomLeft(),
                magnifierArea.bottomRight() + QPoint(0, fontAreaHeight + 30)),
            QPen(Qt.black), QBrush(Qt.black))
        rgbInfo = self.graphicsScene.addSimpleText(
            ' Rgb: ({0}, {1}, {2})'.format(pointRgb.red(), pointRgb.green(),
                                           pointRgb.blue()))
        rgbInfo.setPos(magnifierArea.bottomLeft() + QPoint(0, 5))
        rgbInfo.setPen(QPen(QColor(255, 255, 255), 2))

        rect = self.selectedArea.normalized()
        sizeInfo = self.graphicsScene.addSimpleText(' Size: {0} x {1}'.format(
            rect.width() * self.scale,
            rect.height() * self.scale))
        sizeInfo.setPos(magnifierArea.bottomLeft() + QPoint(0, 15) +
                        QPoint(0, fontAreaHeight / 2))
        sizeInfo.setPen(QPen(QColor(255, 255, 255), 2))
Esempio n. 7
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    def paint(self, painter, option, widget):
        fillColor = self.color
        if option.state & QStyle.State_Selected:
            fillColor = self.color.darker(150)
        if option.state & QStyle.State_MouseOver:
            fillColor = fillColor.lighter(125)

        lod = option.levelOfDetailFromTransform(painter.worldTransform())
        if lod < 0.2:
            if lod < 0.125:
                painter.fillRect(QRectF(0, 0, 110, 70), fillColor)
                return
            b = painter.brush()
            painter.setBrush(fillColor)
            painter.drawRect(13, 13, 97, 57)
            painter.setBrush(b)
            return

        oldPen = painter.pen()
        pen = oldPen
        width = 0
        if option.state & QStyle.State_Selected:
            width += 2

        pen.setWidth(width)
        b = painter.brush()
        painter.setBrush(
            QBrush(
                fillColor.darker(120 if (option.state
                                         & QStyle.State_Sunken) else 100)))

        painter.drawRect(QRect(14, 14, 79, 39))
        painter.setBrush(b)

        if lod >= 1:
            painter.setPen(QPen(Qt.gray, 1))
            painter.drawLine(15, 54, 94, 54)
            painter.drawLine(94, 53, 94, 15)
            painter.setPen(QPen(Qt.black, 0))

        # Draw text
        if lod >= 2:
            font = QFont("Times", 10)
            font.setStyleStrategy(QFont.ForceOutline)
            painter.setFont(font)
            painter.save()
            painter.scale(0.1, 0.1)
            painter.drawText(
                170, 180, "Model: VSC-2000 (Very Small Chip) at {}x{}".format(
                    self.x, self.y))
            painter.drawText(170, 200,
                             "Serial number: DLWR-WEER-123L-ZZ33-SDSJ")
            painter.drawText(170, 220, "Manufacturer: Chip Manufacturer")
            painter.restore()

        # Draw lines
        lines = []  # QVarLengthArray < QLineF, 36 >
        if lod >= 0.5:
            for i in range(
                    0, 11, 1 if lod > 0.5 else
                    2):  # (int i = 0 i <= 10 i += (1 if lod > 0.5 else 2)):
                lines.append(QLineF(18 + 7 * i, 13, 18 + 7 * i, 5))
                lines.append(QLineF(18 + 7 * i, 54, 18 + 7 * i, 62))

            for i in range(0, 6, 1 if lod > 0.5 else
                           2):  # (int i = 0 i <= 6 i += (lod > 0.5 ? 1: 2)) {
                lines.append(QLineF(5, 18 + i * 5, 13, 18 + i * 5))
                lines.append(QLineF(94, 18 + i * 5, 102, 18 + i * 5))

        if lod >= 0.4:
            lineData = [
                QLineF(25, 35, 35, 35),
                QLineF(35, 30, 35, 40),
                QLineF(35, 30, 45, 35),
                QLineF(35, 40, 45, 35),
                QLineF(45, 30, 45, 40),
                QLineF(45, 35, 55, 35)
            ]
            lines.extend(lineData)

        painter.drawLines(lines)

        # Draw red ink
        if len(self.stuff) > 1:
            p = painter.pen()
            painter.setPen(
                QPen(Qt.red, 1, Qt.SolidLine, Qt.RoundCap, Qt.RoundJoin))
            painter.setBrush(Qt.NoBrush)

            path = QPainterPath
            path.moveTo(self.stuff[0])
            for i in range(1, len(self.stuff)):
                path.lineTo(self.stuff[i])
                painter.drawPath(path)
                painter.setPen(p)
        """