Example #1
0
    def paintEvent(self, event):
        super().paintEvent(event)
        rect = QLine(self.x0, self.y0, self.x1, self.y1)

        painter = QPainter(self)
        painter.setPen(QPen(Qt.red, 2, Qt.SolidLine))
        painter.drawLine(rect)
    def paintEvent(self, event):
        painter = QPainter(self)
        painter.setRenderHint(QPainter.Antialiasing)

        center = QPointF(self.width() / 2, self.height() / 2)
        radius = self.radius()
        ellipse_line_width = self.radius() * 60 / 512

        # big ellipse
        pen = QPen()
        pen.setWidth(ellipse_line_width)
        pen.setColor(self.color)
        painter.setPen(pen)
        painter.drawEllipse(center, radius - pen.width() / 2,
                            radius - pen.width() / 2)

        # dots
        pen = QPen()
        pen.setColor(QColor(0, 0, 0, 0))
        painter.setPen(pen)
        brush = QBrush()
        brush.setStyle(Qt.SolidPattern)
        dot_size = radius * 200 / 1024
        color = copy.copy(self.color)

        self._change_color(painter, brush, color, 0)
        painter.drawEllipse(
            QPointF((self.width() - radius - ellipse_line_width / 2) / 2,
                    self.height() / 2), dot_size, dot_size)
        self._change_color(painter, brush, color, 15)
        painter.drawEllipse(center, dot_size, dot_size)
        self._change_color(painter, brush, color, 30)
        painter.drawEllipse(
            QPointF((self.width() + radius + ellipse_line_width / 2) / 2,
                    self.height() / 2), dot_size, dot_size)
Example #3
0
    def paint(self, painter: QPainter):

        brush = QBrush(QColor("#007430"))

        painter.setBrush(brush)
        painter.setPen(Qt.NoPen)
        painter.setRenderHint(QPainter.Antialiasing)

        itemSize = self.size()

        painter.drawRoundedRect(0, 0, itemSize.width(), itemSize.height() - 10, 10, 10)

        if self.rightAligned:
            points = [
                QPointF(itemSize.width() - 10.0, itemSize.height() - 10.0),
                QPointF(itemSize.width() - 20.0, itemSize.height()),
                QPointF(itemSize.width() - 30.0, itemSize.height() - 10.0),
            ]
        else:
            points = [
                QPointF(10.0, itemSize.height() - 10.0),
                QPointF(20.0, itemSize.height()),
                QPointF(30.0, itemSize.height() - 10.0),
            ]
        painter.drawConvexPolygon(points)
Example #4
0
    def drawBackground(self, painter: QPainter, rect: QRectF):
        currentColor = self.backgroundBrush().color()
        if currentColor != self.backgroundColor:
            self.setBackgroundBrush(QBrush(self.backgroundColor))

        super().drawBackground(painter, rect)

        if self._zoom <= self.gridZoomThreshold or not self.showGrid:
            return

        painter.setPen(QPen(self.gridColor, self.gridThickness))

        lines = []
        if self.gridSpacing.width() > 0:
            xStart = rect.left() - rect.left() % self.gridSpacing.width()
            while xStart <= rect.right():
                line = QLineF(xStart, rect.bottom(), xStart, rect.top())
                lines.append(line)
                xStart = xStart + self.gridSpacing.width()

        if self.gridSpacing.height() > 0:
            yStart = rect.top() - rect.top() % self.gridSpacing.height()
            while yStart <= rect.bottom():
                line = QLineF(rect.left(), yStart, rect.right(), yStart)
                lines.append(line)
                yStart = yStart + self.gridSpacing.height()

        painter.drawLines(lines)
Example #5
0
 def paintEvent(self, event):
     """ Поскольку это полностью прозрачное фоновое окно, жесткая для поиска
         граница с прозрачностью 1 рисуется в событии перерисовывания, чтобы отрегулировать размер окна. """
     super(FramelessWindow, self).paintEvent(event)
     painter = QPainter(self)
     painter.setPen(QPen(QColor(255, 255, 255, 1), 2 * self.Margins))
     painter.drawRect(self.rect())
Example #6
0
    def paintEvent(self, event):
        rect = QRect(10, 20, 80, 60)

        path = QPainterPath()
        path.moveTo(20, 80)
        path.lineTo(20, 30)
        path.cubicTo(80, 0, 50, 50, 80, 80)

        startAngle = 30 * 16
        arcLength = 120 * 16

        painter = QPainter(self)
        painter.setPen(self.pen)
        painter.setBrush(self.brush)
        if self.antialiased:
            painter.setRenderHint(QPainter.Antialiasing)

        for x in range(0, self.width(), 100):
            for y in range(0, self.height(), 100):
                painter.save()
                painter.translate(x, y)
                if self.transformed:
                    painter.translate(50, 50)
                    painter.rotate(60.0)
                    painter.scale(0.6, 0.9)
                    painter.translate(-50, -50)

                if self.shape == RenderArea.Line:
                    painter.drawLine(rect.bottomLeft(), rect.topRight())
                elif self.shape == RenderArea.Points:
                    painter.drawPoints(RenderArea.points)
                elif self.shape == RenderArea.Polyline:
                    painter.drawPolyline(RenderArea.points)
                elif self.shape == RenderArea.Polygon:
                    painter.drawPolygon(RenderArea.points)
                elif self.shape == RenderArea.Rect:
                    painter.drawRect(rect)
                elif self.shape == RenderArea.RoundedRect:
                    painter.drawRoundedRect(rect, 25, 25, Qt.RelativeSize)
                elif self.shape == RenderArea.Ellipse:
                    painter.drawEllipse(rect)
                elif self.shape == RenderArea.Arc:
                    painter.drawArc(rect, startAngle, arcLength)
                elif self.shape == RenderArea.Chord:
                    painter.drawChord(rect, startAngle, arcLength)
                elif self.shape == RenderArea.Pie:
                    painter.drawPie(rect, startAngle, arcLength)
                elif self.shape == RenderArea.Path:
                    painter.drawPath(path)
                elif self.shape == RenderArea.Text:
                    painter.drawText(rect, Qt.AlignCenter,
                                     "PySide 2\nQt %s" % qVersion())
                elif self.shape == RenderArea.Pixmap:
                    painter.drawPixmap(10, 10, self.pixmap)

                painter.restore()

        painter.setPen(self.palette().dark().color())
        painter.setBrush(Qt.NoBrush)
        painter.drawRect(QRect(0, 0, self.width() - 1, self.height() - 1))
Example #7
0
 def draw(self, painter: QPainter):
     super().draw(painter)
     pen = painter.pen()
     pen.setColor(QColor('darkgrey'))
     painter.setPen(pen)
     w = self.width
     h = self.height
     painter.drawLine(w//2, h*3//4, w*13//14, h*3//12)
 def draw(self, painter: QPainter):
     super().draw(painter)
     pen = painter.pen()
     pen.setColor(QColor('darkgrey'))
     painter.setPen(pen)
     w = self.width
     h = self.height
     x = int(w * 0.71)
     painter.drawLine(x, int(h * 0.48), x, int(h * 0.7))
 def draw(self, painter: QPainter):
     super().draw(painter)
     pen = painter.pen()
     pen.setColor(QColor('darkgrey'))
     painter.setPen(pen)
     w = self.width
     h = self.height
     length = int(w * 0.2)
     x = int(w * 0.4)
     y = int(h * 0.58)
     painter.drawLine(x, y, x + length, y - length)
Example #10
0
    def paintEvent(self, event):
        size = self.size()

        # draw background
        painter = QPainter()
        painter.begin(self)
        painter.setRenderHint(QPainter.Antialiasing)
        painter.setPen(QColor(255, 255, 255, 255))
        painter.setBrush(self.fill_color)
        painter.drawRect(0, 0, size.width(), size.height())
        painter.end()
Example #11
0
    def assert_equal(self):
        __tracebackhide__ = True
        self.end()
        self.different_pixels = 0
        actual_image: QImage = self.actual.device().toImage()
        expected_image: QImage = self.expected.device().toImage()
        diff_pixmap = QPixmap(actual_image.width(), actual_image.height())
        diff = QPainter(diff_pixmap)
        try:
            white = QColor('white')
            diff.fillRect(0, 0, actual_image.width(), actual_image.height(),
                          white)
            for x in range(actual_image.width()):
                for y in range(actual_image.height()):
                    actual_colour = actual_image.pixelColor(x, y)
                    expected_colour = expected_image.pixelColor(x, y)
                    diff.setPen(
                        self.diff_colour(actual_colour, expected_colour, x, y))
                    diff.drawPoint(x, y)
        finally:
            diff.end()
        diff_image: QImage = diff.device().toImage()

        display_diff(actual_image, diff_image, expected_image,
                     self.different_pixels)

        if self.different_pixels == 0:
            return
        actual_image.save(str(self.work_dir / (self.name + '_actual.png')))
        expected_image.save(str(self.work_dir / (self.name + '_expected.png')))
        diff_path = self.work_dir / (self.name + '_diff.png')
        is_saved = diff_image.save(str(diff_path))
        diff_width = self.diff_max_x - self.diff_min_x + 1
        diff_height = self.diff_max_y - self.diff_min_y + 1
        diff_section = QImage(diff_width, diff_height, QImage.Format_RGB32)
        diff_section_painter = QPainter(diff_section)
        try:
            diff_section_painter.drawPixmap(0, 0, diff_width, diff_height,
                                            QPixmap.fromImage(diff_image),
                                            self.diff_min_x, self.diff_min_y,
                                            diff_width, diff_height)
        finally:
            diff_section_painter.end()
        # To see an image dumped in the Travis CI log, copy the text from the
        # log, and paste it in test_pixmap_differ.test_decode_image.
        print(f'Encoded image of differing section '
              f'({self.diff_min_x}, {self.diff_min_y}) - '
              f'({self.diff_max_x}, {self.diff_max_y}):')
        print(encode_image(diff_section))
        message = f'Found {self.different_pixels} different pixels, '
        message += f'see' if is_saved else 'could not write'
        message += f' {diff_path.relative_to(Path(__file__).parent.parent)}.'
        assert self.different_pixels == 0, message
Example #12
0
 def create_icon(player_colour: QColor) -> QPixmap:
     size = 200
     icon = QPixmap(size, size)
     icon.fill(Qt.transparent)
     painter = QPainter(icon)
     try:
         painter.setBrush(player_colour)
         pen = QPen()
         pen.setWidth(3)
         painter.setPen(pen)
         painter.drawEllipse(1, 1, size - 2, size - 2)
     finally:
         painter.end()
     return icon
Example #13
0
 def draw(self, painter: QPainter):
     super().draw(painter)
     pen = painter.pen()
     pen.setColor(QColor('darkgrey'))
     painter.setPen(pen)
     w = self.width
     h = self.height
     size = int(w * 0.06)
     x = int(w * 0.49)
     y = int(h * 0.47)
     painter.drawLine(x, y - size, x, y + size)
     painter.drawLine(x - size, y, x + size, y)
     x = int(w * 0.6)
     y = int(h * 0.37)
     painter.drawLine(x, y - size, x, y + size)
     painter.drawLine(x - size, y, x + size, y)
Example #14
0
    def paintEvent(self, event: QtGui.QPaintEvent) -> None:
        painter = QPainter(self)
        #painter.setPen(QPen(Qt.blue, 1, Qt.DashLine))

        # Create transformation for text and other things that will be drawn
        transform = QTransform()
        # Rotation
        shiftX = self.width() // 2
        shiftY = self.height() // 2
        transform.translate(shiftX, shiftY)
        transform.rotate(self._rotate)
        transform.translate(-shiftX, -shiftY)

        # Scale, NOTICE! Scale change position of the text, i. e. size of frame (?)
        scale_x = self._scale[0] / 100
        scale_y = self._scale[1] / 100
        transform.scale(scale_x, scale_y)

        # Apply transformation
        painter.setTransform(transform)

        # Draw text
        painter.setFont(QFont('Times', 20, QFont.Bold))
        painter.setPen(
            QPen(
                QColor(random.randint(0, 255), random.randint(0, 255), random.randint(0, 255)),
                1
            )
        )
        # Because of the scale size of the frame is changed, recalculate size according to scale
        width_tr = int(self.width() * (1 / scale_x))
        height_tr = int(self.height() * (1 / scale_y))
        painter.drawText(0, 0, width_tr, height_tr, Qt.AlignCenter | Qt.AlignTop, self._text)

        # Update transformation variables
        self._rotate += self._addRotation
        self._scale[0] += self._addScale[0]
        self._scale[1] += self._addScale[1]
        # Check bounds and keep variable in the loop
        if self._rotate >= max(self._rotationBounds) or self._rotate <= min(self._rotationBounds):
            self._addRotation *= (-1)

        if self._scale[0] >= max(self._scaleBounds[0]) or self._scale[0] <= min(self._scaleBounds[0]):
            self._addScale[0] *= (-1)

        if self._scale[1] >= max(self._scaleBounds[1]) or self._scale[1] <= min(self._scaleBounds[1]):
            self._addScale[1] *= (-1)
Example #15
0
	def __init__(self):
		# Sidebar icons are 28x28 points. Should be at least 56x56 pixels for
		# HiDPI display compatibility. They will be automatically made theme
		# aware, so you need only provide a grayscale image, where white is
		# the color of the shape.
		icon = QImage(56, 56, QImage.Format_RGB32)
		icon.fill(0)

		# Render an "H" as the example icon
		p = QPainter()
		p.begin(icon)
		p.setFont(QFont("Open Sans", 56))
		p.setPen(QColor(255, 255, 255, 255))
		p.drawText(QRectF(0, 0, 56, 56), Qt.AlignCenter, "H")
		p.end()

		SidebarWidgetType.__init__(self, icon, "Hello")
Example #16
0
    def paintEvent(self, event):
        super(QtBubbleLabel, self).paintEvent(event)
        painter = QPainter(self)
        painter.setRenderHint(QPainter.Antialiasing)  # 抗锯齿

        rectPath = QPainterPath()  # 圆角矩形

        height = self.height() - 8  # 往上偏移8
        rectPath.addRoundedRect(QRectF(0, 0, self.width(), height), 5, 5)
        x = self.width() / 5 * 4
        # 边框画笔
        painter.setPen(
            QPen(self.BorderColor, 1, Qt.SolidLine, Qt.RoundCap, Qt.RoundJoin))
        # 背景画刷
        painter.setBrush(self.BackgroundColor)
        # 绘制形状
        painter.drawPath(rectPath)
Example #17
0
    def assert_equal(self):
        __tracebackhide__ = True
        self.end()
        self.different_pixels = 0
        actual_image: QImage = self.actual.device().toImage()
        expected_image: QImage = self.expected.device().toImage()
        diff_pixmap = QPixmap(actual_image.width(), actual_image.height())
        diff = QPainter(diff_pixmap)
        try:
            white = QColor('white')
            diff.fillRect(0, 0, actual_image.width(), actual_image.height(),
                          white)
            for x in range(actual_image.width()):
                for y in range(actual_image.height()):
                    actual_colour = actual_image.pixelColor(x, y)
                    expected_colour = expected_image.pixelColor(x, y)
                    diff.setPen(
                        self.diff_colour(actual_colour, expected_colour, x, y))
                    diff.drawPoint(x, y)
        finally:
            diff.end()
        diff_image: QImage = diff.device().toImage()

        display_diff(actual_image, diff_image, expected_image,
                     self.different_pixels)

        if self.different_pixels == 0:
            return
        actual_image.save(str(self.work_dir / (self.name + '_actual.png')))
        expected_image.save(str(self.work_dir / (self.name + '_expected.png')))
        diff_path = self.work_dir / (self.name + '_diff.png')
        is_saved = diff_image.save(str(diff_path))
        diff_width = self.diff_max_x - self.diff_min_x + 1
        diff_height = self.diff_max_y - self.diff_min_y + 1
        diff_section = QImage(diff_width, diff_height, QImage.Format_RGB32)
        diff_section_painter = QPainter(diff_section)
        try:
            diff_section_painter.drawPixmap(0, 0, diff_width, diff_height,
                                            QPixmap.fromImage(diff_image),
                                            self.diff_min_x, self.diff_min_y,
                                            diff_width, diff_height)
        finally:
            diff_section_painter.end()
        message = f'Found {self.different_pixels} different pixels.'
        assert self.different_pixels == 0, message
Example #18
0
    def drawText(self, p: QPainter, innerRect: QRectF, innerRadius: float,
                 value: float):
        if not self.m_format:
            return

        f = QFont(self.font())
        f.setPixelSize(10)

        fm = QFontMetricsF(f)
        maxWidth = fm.width(self.valueToText(self.m_max))
        delta = innerRadius / maxWidth
        fontSize = f.pixelSize() * delta * 0.75
        f.setPixelSize(int(fontSize))
        p.setFont(f)

        textRect = QRectF(innerRect)
        p.setPen(self.palette().text().color())
        p.drawText(textRect, Qt.AlignCenter, self.valueToText(value))
Example #19
0
    def paintEvent(self, event):
        painter = QPainter(self)
        painter.setRenderHint(QPainter.Antialiasing, self.antialiased)
        painter.translate(self.width() / 2, self.height() / 2)

        for diameter in range(0, 256, 9):
            delta = abs((self.frameNo % 128) - diameter / 2)
            alpha = 255 - (delta * delta) / 4 - diameter
            if alpha > 0:
                painter.setPen(QPen(QColor(0, diameter / 2, 127, alpha), 3))

                if self.floatBased:
                    painter.drawEllipse(
                        QRectF(-diameter / 2.0, -diameter / 2.0, diameter,
                               diameter))
                else:
                    painter.drawEllipse(
                        QRect(-diameter / 2, -diameter / 2, diameter,
                              diameter))
Example #20
0
    def paint(self, painter: QPainter, option: QStyleOptionViewItem,
              index: QModelIndex) -> None:
        itemOption = QStyleOptionViewItem(option)

        # disable focus outline
        if itemOption.state & QStyle.State_HasFocus:
            itemOption.state ^= QStyle.State_HasFocus
        # hover whole row
        if index.row() == option.styleObject.hoverIndexRow:
            itemOption.state |= QStyle.State_MouseOver

        super().paint(painter, itemOption, index)

        # draw lines around numeric columns
        if index.column() in (5, 12):
            oldpen = painter.pen()
            painter.setPen(self.linepen)
            painter.drawLine(itemOption.rect.topRight() + QPoint(0, 0),
                             itemOption.rect.bottomRight() + QPoint(0, 0))
            painter.setPen(oldpen)
Example #21
0
    def paintEvent(self, event):
        sineTable = [
            0, 38, 71, 92, 100, 92, 71, 38, 0, -38, -71, -92, -100, -92, -71,
            -38
        ]

        metrics = QFontMetrics(self.font())
        x = (self.width() - metrics.horizontalAdvance(self.text)) / 2
        y = (self.height() + metrics.ascent() - metrics.descent()) / 2
        color = QColor()

        painter = QPainter(self)
        for i in range(len(self.text)):
            index = (self.step + i) % 16
            color.setHsv((15 - index) * 16, 255, 191)
            painter.setPen(color)
            painter.drawText(x,
                             y - ((sineTable[index] * metrics.height()) / 400),
                             str(self.text[i]))
            x += metrics.horizontalAdvance(self.text[i])
 def shape_to_pixelmap(item_type, pen, brush, shape) -> QPixmap:
     pixmap = QPixmap(50, 50)
     pixmap.fill(Qt.transparent)
     painter = QPainter(pixmap)
     painter.setRenderHint(QPainter.Antialiasing)
     painter.setPen(pen)
     painter.setBrush(brush)
     if item_type == QGraphicsRectItem.type(QGraphicsRectItem()):
         painter.drawRect(QRect(10, 15, 30, 20))
     elif item_type == QGraphicsEllipseItem.type(QGraphicsEllipseItem()):
         painter.drawEllipse(QRect(10, 10, 30, 30))
     elif item_type == QGraphicsPolygonItem.type(QGraphicsPolygonItem()):
         if shape.polygon().size() == 3:
             painter.drawPolygon(QPolygon([QPoint(10, 40), QPoint(40, 40), QPoint(25, 10)]))
         else:
             painter.drawPolygon(QPolygon([QPoint(12, 40), QPoint(23, 36),
                                           QPoint(37, 24), QPoint(23, 12), QPoint(7, 16)]))
     elif item_type == QGraphicsLineItem.type(QGraphicsLineItem()):
         painter.drawLine(QLine(10, 40, 40, 10))
     return pixmap
Example #23
0
    def lineNumberAreaPaintEvent(self, event):
        painter = QPainter(self.line_number_area)
        painter.fillRect(event.rect(), Qt.lightGray)
        block = self.firstVisibleBlock()
        block_number = block.blockNumber()
        offset = self.contentOffset()
        top = self.blockBoundingGeometry(block).translated(offset).top()
        bottom = top + self.blockBoundingRect(block).height()

        while block.isValid() and top <= event.rect().bottom():
            if block.isVisible() and bottom >= event.rect().top():
                number = str(block_number + 1)
                painter.setPen(Qt.black)
                width = self.line_number_area.width()
                height = self.fontMetrics().height()
                painter.drawText(0, top, width, height, Qt.AlignRight, number)

            block = block.next()
            top = bottom
            bottom = top + self.blockBoundingRect(block).height()
            block_number += 1
Example #24
0
        def paintEvent(self, event):
            painter = QPainter(self)
            painter.fillRect(event.rect(), self.numberBarColor)

            block = self.editor.firstVisibleBlock()

            # Iterate over all visible text blocks in the document.
            while block.isValid():
                blockNumber = block.blockNumber()
                block_top = self.editor.blockBoundingGeometry(
                    block).translated(self.editor.contentOffset()).top()

                # Check if the position of the block is out side of the visible area.
                if not block.isVisible() or block_top >= event.rect().bottom():
                    break

                # We want the line number for the selected line to be bold.
                if blockNumber == self.editor.textCursor().blockNumber():
                    self.font.setBold(True)
                    painter.setPen(bnstyles["blockSelected"])
                else:
                    self.font.setBold(False)
                    painter.setPen(bnstyles["blockNormal"])
                painter.setFont(self.font)

                # Draw the line number right justified at the position of the line.
                paint_rect = QRect(0, block_top, self.width(),
                                   self.editor.fontMetrics().height())
                painter.drawText(paint_rect, Qt.AlignLeft,
                                 str(blockNumber + 1))

                block = block.next()

            painter.end()

            QWidget.paintEvent(self, event)
Example #25
0
    def drawValue(self, p: QPainter, baseRect: QRectF, value: float,
                  delta: float):
        if value == self.m_min:
            return

        if self.m_barStyle == self.BarStyle.EXPAND:
            p.setBrush(self.palette().highlight())
            p.setPen(QPen(self.palette().shadow().color(),
                          self.m_dataPenWidth))
            radius = (baseRect.height() / 2) / delta
            p.drawEllipse(baseRect.center(), radius, radius)
            return
        elif self.m_barStyle == self.BarStyle.LINE:
            p.setPen(
                QPen(self.palette().highlight().color(), self.m_dataPenWidth))
            p.setBrush(Qt.NoBrush)

            if value == self.m_max:
                p.drawEllipse(
                    baseRect.adjusted(self.m_outlinePenWidth / 2,
                                      self.m_outlinePenWidth / 2,
                                      -self.m_outlinePenWidth / 2,
                                      -self.m_outlinePenWidth / 2))
            else:
                arcLength = 360 / delta
                p.drawArc(
                    baseRect.adjusted(self.m_outlinePenWidth / 2,
                                      self.m_outlinePenWidth / 2,
                                      -self.m_outlinePenWidth / 2,
                                      -self.m_outlinePenWidth / 2),
                    int(self.m_nullPosition * 16), int(-arcLength * 16))

            return

        dataPath = QPainterPath()
        dataPath.setFillRule(Qt.WindingFill)

        if value == self.m_max:
            dataPath.addEllipse(baseRect)
        else:
            arcLength = 360 / delta
            dataPath.moveTo(baseRect.center())
            dataPath.arcTo(baseRect, self.m_nullPosition, -arcLength)
            dataPath.lineTo(baseRect.center())

        p.setBrush(self.palette().highlight())
        p.setPen(QPen(self.palette().shadow().color(), self.m_dataPenWidth))
        p.drawPath(dataPath)
Example #26
0
 def drawBase(self, p: QPainter, baseRect: QRectF):
     if self.m_barStyle == self.BarStyle.DONUT:
         p.setPen(
             QPen(self.palette().shadow().color(), self.m_outlinePenWidth))
         p.setBrush(self.palette().base())
         p.drawEllipse(baseRect)
     elif self.m_barStyle == self.BarStyle.LINE:
         p.setPen(
             QPen(self.palette().base().color(), self.m_outlinePenWidth))
         p.setBrush(Qt.NoBrush)
         p.drawEllipse(
             baseRect.adjusted(self.m_outlinePenWidth / 2,
                               self.m_outlinePenWidth / 2,
                               -self.m_outlinePenWidth / 2,
                               -self.m_outlinePenWidth / 2))
     elif self.m_barStyle in (self.BarStyle.PIE, self.BarStyle.EXPAND):
         p.setPen(
             QPen(self.palette().base().color(), self.m_outlinePenWidth))
         p.setBrush(self.palette().base())
         p.drawEllipse(baseRect)
Example #27
0
    def paintEvent(self, event):
        painter = QPainter(self)
        painter.fillRect(self.rect(), Qt.black)

        if self.pixmap.isNull():
            painter.setPen(Qt.white)
            painter.drawText(self.rect(), Qt.AlignCenter,
                             "Rendering initial image, please wait...")
            return

        if self.curScale == self.pixmapScale:
            painter.drawPixmap(self.pixmapOffset, self.pixmap)
        else:
            scaleFactor = self.pixmapScale / self.curScale
            newWidth = int(self.pixmap.width() * scaleFactor)
            newHeight = int(self.pixmap.height() * scaleFactor)
            newX = self.pixmapOffset.x() + (self.pixmap.width() - newWidth) / 2
            newY = self.pixmapOffset.y() + (self.pixmap.height() -
                                            newHeight) / 2

            painter.save()
            painter.translate(newX, newY)
            painter.scale(scaleFactor, scaleFactor)
            exposed, _ = painter.transform().inverted()
            exposed = exposed.mapRect(self.rect()).adjusted(-1, -1, 1, 1)
            painter.drawPixmap(exposed, self.pixmap, exposed)
            painter.restore()

        text = "Use mouse wheel or the '+' and '-' keys to zoom. Press and " \
                "hold left mouse button to scroll."
        metrics = painter.fontMetrics()
        textWidth = metrics.horizontalAdvance(text)

        painter.setPen(Qt.NoPen)
        painter.setBrush(QColor(0, 0, 0, 127))
        painter.drawRect((self.width() - textWidth) / 2 - 5, 0, textWidth + 10,
                         metrics.lineSpacing() + 5)
        painter.setPen(Qt.white)
        painter.drawText((self.width() - textWidth) / 2,
                         metrics.leading() + metrics.ascent(), text)
Example #28
0
    def DrawWidget(self, Painter: QtGui.QPainter, Option, Index):
        state = Option.state

        if state & self._style.State_Enabled and state & self._style.State_Selected:
            # Selected
            color = QtGui.QColor(self._theme.get("ui-02"))
            border = QtGui.QColor(self._theme.get("ui-01"))

        elif state & self._style.State_Enabled and state & self._style.State_Active:
            # Normal
            color = QtGui.QColor(self._theme.get("ui-01"))
            border = QtGui.QColor(self._theme.get("ui-02"))

        elif state & self._style.State_Enabled:
            # Inactive
            color = QtGui.QColor(self._theme.get("ui-01"))
            border = QtGui.QColor(self._theme.get("ui-02"))

        else:
            # Disabled
            color = QtGui.QColor(self._theme.get("disabled-02"))
            border = QtGui.QColor(self._theme.get("disabled-02"))

        Painter.setPen(color)
        self._style.drawPrimitive(self._style.PE_PanelItemViewItem, Option, Painter, Option.widget)
        Painter.fillRect(Option.rect, (color))

        Painter.setPen(QtGui.QColor(self._theme.get("text-02")))
        items = self.getData(Index)
        self.DrawCover(Painter, Option)
        self.DrawTop(Painter, Option, items[0])
        self.DrawMid(Painter, Option, items[1])
        self.DrawBottom(Painter, Option, [items[2], items[3], items[4]])

        Painter.setPen(border)
        Painter.drawLine(QPoint(0, Option.rect.y() + 63), QPoint(Option.rect.width(), Option.rect.y() + 63))
Example #29
0
 def draw(self, painter: QPainter):
     render_display(self.display, painter)
     pen = QPen()
     pen.setWidth(self.width // 50)
     pen.setCapStyle(Qt.PenCapStyle.RoundCap)
     painter.setPen(pen)
Example #30
0
File: Radio.py Project: skpzk/Sharm
    def paintEvent(self, ev):
        # print("Radio paintEventCalled")
        # print("size =", self.paintSize)

        opt = QStyleOption()
        opt.initFrom(self)
        painter = QPainter(self)

        # print("minimum size : ", self.minimumSize())
        # print("radio: hasHforW : ", self.hasHeightForWidth())
        # print("radio: size : ", self.size())
        # print("radio : minimumSizeHint() :", self.minimumSizeHint())

        # s = self.style()

        # s.drawPrimitive(QStyle.PE_Widget, opt, painter, self)

        # self.computeSize()
        size = self.paintSize
        # size = np.min([1/8 * self.width(), self.height()/4])

        fontsizefactor = self.fontsizefactor

        linewidth = 1

        painter.setRenderHint(QPainter.Antialiasing)

        pointColor = QColor(painter.pen().color())
        bgColor = QColor(painter.background().color())
        # bgColor = QColor("white")

        painter.setBrush(QBrush(QColor("transparent")))
        painter.setPen(QPen(QColor(pointColor), linewidth))
        # painter.setBackgroundMode(Qt.TransparentMode)

        center = QtCore.QPoint(int(self.width() / 2), int(self.height() / 2))
        self.center = center
        self.radius = size

        painter.drawEllipse(center, size, size)

        margin = .4 * size

        # painter.drawRect(text_rect)
        # self.text()

        fontsize = size * fontsizefactor
        # self.fontsize = fontsize

        f = painter.font()
        f.setPointSizeF(fontsize)
        painter.setFont(f)

        text_rect = QRectF(center.x() + size + margin,
                           center.y() - fontsize, 100, 2 * fontsize)
        # painter.drawRect(text_rect)
        painter.drawText(text_rect, Qt.AlignLeft | Qt.AlignVCenter,
                         self.text())

        self.textRect = text_rect

        if self.isChecked():
            painter.setBrush(QBrush(QColor(int(colors[self._ID], 0))))
            # painter.setPen(QPen(Qt.NoPen))
            painter.drawEllipse(center, size, size)

        # painter.drawLine(QtCore.QPointF(self.width()/2, 0), QtCore.QPointF(self.width()/2, self.height()))

        pass