def paintEvent(self, pe) -> None: if not self.inhibit_paint: extent = 1.5 * np.pi offset = 1.25 * np.pi painter = QPainter(self) # So that we can use the background color painter.setBackgroundMode(Qt.OpaqueMode) # Smooth out the circle painter.setRenderHint(QPainter.Antialiasing) # Use background color bgColor = painter.background().color() painter.setBrush(painter.background()) if self._text not in implementedKnobs: painter.setBrush(QtGui.QBrush(QtGui.QColor(int("0xcccccc", 0)))) # Store color from stylesheet, pen will be overridden pointColor = QColor(painter.pen().color()) # print(QDial.width(self), QDial.height(self)) # draw widget borders pen = QPen(QColor(self._ringColor), 1) pen.setCapStyle(Qt.SquareCap) painter.setPen(pen) # uncomment the following line to draw outer rect # painter.drawRect(0, 0, np.floor(QDial.width(self)), QDial.height(self)) # No border painter.setPen(QPen(Qt.NoPen)) # the heignt of the widget is 2*radius + 2*fontsize1 + 2*fontsize2 # where fontsize1 = .4radius and fontsize2 = .9*.4*radius # so QDial.height = radius * (2+.4*2+.4*.9*2) # fontsize1factor = .4 fontsize2reduction = .9 fontsize2factor = fontsize1factor * fontsize2reduction center_x = QDial.width(self) / 2.0 center_y = QDial.height(self) / 2.0 if not self._hasFixedSize: if not self._hasFixedFontSize: radius = np.min( (QDial.width(self) / 2. - self._knobMargin, QDial.height(self) / (2. + 2 * fontsize1factor + 2 * fontsize2factor) - self._knobMargin)) radius = np.max((radius, 1)) # print("Radius = ", radius, ", height = ", QDial.height(self), ", width = ", QDial.width(self)) center_y = center_y - radius * (fontsize1factor + fontsize2factor) else: radius = np.min( (QDial.width(self) / 2. - self._knobMargin, (QDial.height(self) - 4 * self._fixedFontSize) / 2. - self._knobMargin)) radius = np.max((radius, 1)) center_y = center_y - (self._fixedFontSize * (1 + fontsize2reduction)) else: radius = self._fixedSize / 2. radius = np.max((radius, 1)) center_y = center_y - radius * (fontsize1factor + fontsize2factor) self.radius = radius # Draw arc rectangle = QtCore.QRectF(center_x - radius, center_y - radius, 2 * radius, 2 * radius) """The startAngle and spanAngle must be specified in 1/16th of a degree, i.e. a full circle equals 5760 (16 * 360). Positive values for the angles mean counter-clockwise while negative values mean the clockwise direction. Zero degrees is at the 3 o'clock position.""" linewidth = radius / 30. * 2 # linewidth = 1 pen = QPen(QColor(self._ringColor), linewidth) pen.setCapStyle(Qt.RoundCap) # pen.setCapStyle(Qt.FlatCap) painter.setPen(pen) # adapt to linewidth to make it more pleasant to the eye capRadius = linewidth / 4 angleCap = np.arcsin(capRadius / radius) start_deg = (90 - np.rad2deg(extent / 2)) + np.rad2deg(angleCap) start_16deg = start_deg * 16 extent_deg = np.rad2deg(extent) - 2 * np.rad2deg(angleCap) extent_16deg = extent_deg * 16 painter.drawArc(rectangle, start_16deg, extent_16deg) #draw inner circle pen = QPen(QColor(pointColor), linewidth) pen.setCapStyle(Qt.RoundCap) painter.setPen(pen) painter.setBrush(QtGui.QColor(bgColor)) radius_inner = 15. / 20. * radius painter.drawEllipse(QtCore.QPointF(center_x, center_y), radius_inner, radius_inner) self.center = QtCore.QPointF(center_x, center_y) """ # Get ratio between current value and maximum to calculate angle if (param != NULL): if (param->value != this->value()) param->setValue(this->value()) """ ratio = (QDial.value(self) - QDial.minimum(self)) / ( QDial.maximum(self) - QDial.minimum(self)) # The maximum amount of degrees is 270, offset by 225 angle = ratio * extent - offset # Draw the indicator painter.setBrush(QBrush(pointColor)) a_y = center_y + np.sin(angle) * (radius - .1) a_x = center_x + np.cos(angle) * (radius - .1) pen = QPen(pointColor, linewidth) pen.setCapStyle(Qt.RoundCap) painter.setPen(pen) painter.drawLine(a_x, a_y, np.round(center_x), center_y) if not self._hasFixedFontSize: fontsize1 = radius * fontsize1factor if self.sizeType == 1 and fontsize1 != Knob.fontsize1: Knob.fontsize1 = fontsize1 else: fontsize1 = Knob.fontsize1 fontsize2 = fontsize1 * fontsize2reduction else: fontsize1 = self._fixedFontSize fontsize2 = fontsize1 * fontsize2reduction self.fontsize1 = fontsize1 textRect_ = QtCore.QRectF(0, center_y + radius, QDial.width(self), 2 * fontsize1) if self.coloredTitle: painter.setPen(QColor(int(titleColor, 0))) f = painter.font() f.setPointSizeF(fontsize1) painter.setFont(f) # painter.drawRect(textRect_) painter.drawText(textRect_, Qt.AlignHCenter | Qt.AlignTop, self._text) # painter.drawText(textRect_, Qt.AlignHCenter | Qt.AlignTop, str(fontsize1)) textRect_ = QtCore.QRectF(0, center_y + radius + fontsize1 * 2, QDial.width(self), 2 * fontsize2) if self.hasFocus(): painter.setPen(QtGui.QColor("red")) f.setPointSizeF(fontsize2) painter.setFont(f) # painter.drawRect(textRect_) painter.drawText(textRect_, Qt.AlignHCenter | Qt.AlignTop, str(QDial.value(self))) painter.end()
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
def paintEvent(self, pe) -> None: mainradius, fontsizefactor, center_x, center_y_pp, width = self.computeCenter( ) painter = QPainter(self) # So that we can use the background color painter.setBackgroundMode(Qt.OpaqueMode) # Smooth out the circle painter.setRenderHint(QPainter.Antialiasing) # Use background color textBgColor = QColor(painter.background().color()) # print("bgcolor = ", bgColor) bgColor = QColor("transparent") pointColor = QColor(painter.pen().color()) self.pointColor = pointColor self.bgColor = textBgColor alpha = 150 if self.parent().displayPp == 'all' or self.parent( ).displayPp == self.io: pointColor.setAlpha(255) else: pointColor.setAlpha(alpha) # draw text if not self._hasFixedFontSize: fontsize = mainradius * fontsizefactor else: fontsize = self._fixedFontSize self.fontsize = fontsize textRect_ = QtCore.QRectF(0, center_y_pp - mainradius - 2 * fontsize, width, 2 * fontsize) f = painter.font() f.setPointSizeF(fontsize) # self._io = 'in' if self.io == 'out': fm = QFontMetrics(f).boundingRect(self._text) # print("fm = ", fm) painter.setBrush(pointColor) painter.setPen(QPen(pointColor)) painter.drawRect( QtCore.QRectF(center_x - fm.width() / 2, center_y_pp - mainradius - 2 * fontsize, fm.width(), fm.height())) painter.setPen(QPen(textBgColor)) painter.setFont(f) painter.setBackgroundMode(Qt.TransparentMode) painter.drawText(textRect_, Qt.AlignHCenter | Qt.AlignTop, self._text) # draw hexagon painter.setBrush(bgColor) painter.setPen(pointColor) painter.drawPolygon( self.createPoly(6, mainradius, center_x, center_y_pp)) # draw outer circle radius_outer = mainradius * .8 if self.title not in implementedPatchPoints: painter.setBrush(QtGui.QBrush(QtGui.QColor(int("0x999999", 0)))) painter.drawEllipse(QtCore.QPointF(center_x, center_y_pp), radius_outer, radius_outer) # draw inner circle radius_inner = mainradius * .5 # painter.setBrush(QBrush(pointColor)) painter.setBrush(QColor(self._ppColor)) painter.drawEllipse(QtCore.QPointF(center_x, center_y_pp), radius_inner, radius_inner)