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))
class Callout(QGraphicsItem):
def __init__(self, chart):
super().__init__(chart)
self.m_chart = chart
self.m_text = ""
self.m_textRect = QRectF()
self.m_rect = QRectF()
self.m_anchor = QPointF()
self.m_font = QFont()
def boundingRect(self):
anchor = self.mapFromParent(self.m_chart.mapToPosition(self.m_anchor))
rect = QRectF()
rect.setLeft(min(self.m_rect.left(), anchor.x()))
rect.setRight(max(self.m_rect.right(), anchor.x()))
rect.setTop(min(self.m_rect.top(), anchor.y()))
rect.setBottom(max(self.m_rect.bottom(), anchor.y()))
return rect
def paint(self, painter, option, widget=None):
path = QPainterPath()
path.addRoundedRect(self.m_rect, 5, 5)
anchor = self.mapFromParent(self.m_chart.mapToPosition(self.m_anchor))
if not self.m_rect.contains(anchor):
point1 = QPointF()
point2 = QPointF()
# establish the position of the anchor point in relation to m_rect
above = anchor.y() <= self.m_rect.top()
aboveCenter = (anchor.y() > self.m_rect.top()
and anchor.y() <= self.m_rect.center().y())
belowCenter = (anchor.y() > self.m_rect.center().y()
and anchor.y() <= self.m_rect.bottom())
below = anchor.y() > self.m_rect.bottom()
onLeft = anchor.x() <= self.m_rect.left()
leftOfCenter = (anchor.x() > self.m_rect.left()
and anchor.x() <= self.m_rect.center().x())
rightOfCenter = (anchor.x() > self.m_rect.center().x()
and anchor.x() <= self.m_rect.right())
onRight = anchor.x() > self.m_rect.right()
# get the nearest m_rect corner.
x = (onRight + rightOfCenter) * self.m_rect.width()
y = (below + belowCenter) * self.m_rect.height()
cornerCase = ((above and onLeft) or (above and onRight)
or (below and onLeft) or (below and onRight))
vertical = abs(anchor.x() - x) > abs(anchor.y() - y)
x1 = (x + leftOfCenter * 10 - rightOfCenter * 20 +
cornerCase * int(not vertical) *
(onLeft * 10 - onRight * 20))
y1 = (y + aboveCenter * 10 - belowCenter * 20 +
cornerCase * int(vertical) * (above * 10 - below * 20))
point1.setX(x1)
point1.setY(y1)
x2 = (x + leftOfCenter * 20 - rightOfCenter * 10 +
cornerCase * int(not vertical) *
(onLeft * 20 - onRight * 10))
y2 = (y + aboveCenter * 20 - belowCenter * 10 +
cornerCase * int(vertical) * (above * 20 - below * 10))
point2.setX(x2)
point2.setY(y2)
path.moveTo(point1)
path.lineTo(anchor)
path.lineTo(point2)
path = path.simplified()
painter.setBrush(QColor(255, 255, 255))
painter.drawPath(path)
painter.drawText(self.m_textRect, self.m_text)
def mousePressEvent(self, event):
event.setAccepted(True)
def mouseMoveEvent(self, event):
if event.buttons() & Qt.LeftButton:
self.setPos(
self.mapToParent(event.pos() -
event.buttonDownPos(Qt.LeftButton)))
event.setAccepted(True)
else:
event.setAccepted(False)
def setText(self, text):
self.m_text = text
metrics = QFontMetrics(self.m_font)
self.m_textRect = QRectF(
metrics.boundingRect(QRect(0, 0, 150, 150), Qt.AlignLeft,
self.m_text))
self.m_textRect.translate(5, 5)
self.prepareGeometryChange()
self.m_rect = self.m_textRect.adjusted(-5, -5, 5, 5)
def setAnchor(self, point):
self.m_anchor = point
def updateGeometry(self):
self.prepareGeometryChange()
self.setPos(
self.m_chart.mapToPosition(self.m_anchor) + QPoint(10, -50))
class JoyPad(QWidget, object):
xChanged = Signal(float)
yChanged = Signal(float)
def __init__(self, parent=None):
super(JoyPad, self).__init__(parent=parent)
self._x = 0
self._y = 0
self._bounds = QRectF()
self._knop_bounds = QRectF()
self._last_pos = QPoint()
self._knop_pressed = False
self._return_animation = QParallelAnimationGroup(self)
self._x_anim = QPropertyAnimation(self, 'x')
self._y_anim = QPropertyAnimation(self, 'y')
self._alignment = Qt.AlignTop | Qt.AlignLeft
self._x_anim.setEndValue(0.0)
self._x_anim.setDuration(400)
self._x_anim.setEasingCurve(QEasingCurve.OutSine)
self._y_anim.setEndValue(0.0)
self._y_anim.setDuration(400)
self._y_anim.setEasingCurve(QEasingCurve.OutSine)
self._return_animation.addAnimation(self._x_anim)
self._return_animation.addAnimation(self._y_anim)
# region Static Functions
@staticmethod
def constraint(value, min_value, max_value):
return min_value if value < min_value else max_value if value > max_value else value
# endregion
# region Properties
def get_x(self):
return self._x
def set_x(self, x):
self._x = self.constraint(x, -1.0, 1.0)
radius = (self._bounds.width() - self._knop_bounds.width()) * 0.5
self._knop_bounds.moveCenter(
QPointF(self._bounds.center().x() + self._x * radius,
self._knop_bounds.center().y()))
self.update()
self.xChanged.emit(self._x)
def get_y(self):
return self._y
def set_y(self, y):
self._y = self.constraint(y, -1.0, 1.0)
radius = (self._bounds.width() - self._knop_bounds.width()) * 0.5
self._knop_bounds.moveCenter(
QPointF(self._knop_bounds.center().x(),
self._bounds.center().y() - self._y * radius))
self.update()
self.yChanged.emit(self._x)
def get_alignment(self):
return self._alignment
def set_alignment(self, alignment):
self._alignment = alignment
x = property(get_x, set_x)
y = property(get_y, set_y)
alignment = property(get_alignment, set_alignment)
# endregion
# region Override Functions
def resizeEvent(self, event):
a = min(self.width(), self.height())
top_left = QPointF()
if self._alignment & Qt.AlignTop:
top_left.setY(0)
elif self._alignment & Qt.AlignVCenter:
top_left.setY((self.height() - a) * 0.5)
elif self._alignment & Qt.AlignBottom:
top_left.setY(self.height() - a)
if self._alignment & Qt.AlignLeft:
top_left.setX(0)
elif self._alignment & Qt.AlignHCenter:
top_left.setX((self.width() - a) * 0.5)
elif self._alignment & Qt.AlignRight:
top_left.setX(self.width() - a)
self._bounds = QRectF(top_left, QSize(a, a))
self._knop_bounds.setWidth(a * 0.3)
self._knop_bounds.setHeight(a * 0.3)
radius = (self._bounds.width() - self._knop_bounds.height()) * 0.5
self._knop_bounds.moveCenter(
QPointF(self._bounds.center().x() + self._x * radius,
self._bounds.center().y() - self._y * radius))
def mousePressEvent(self, event):
if self._knop_bounds.contains(event.pos()):
# self._return_animation.stop()
self._last_pos = event.pos()
self._knop_pressed = True
def mouseReleaseEvent(self, event):
self._knop_pressed = False
self.x = 0.0
self.y = 0.0
# self._return_animation.start()
def mouseMoveEvent(self, event):
if not self._knop_pressed:
return
delta_pos = QPointF(event.pos() - self._last_pos)
delta_pos += 0.5 * (QPointF(event.pos()) - self._knop_bounds.center())
from_center_to_knop = self._knop_bounds.center(
) + delta_pos - self._bounds.center()
radius = (self._bounds.width() - self._knop_bounds.width()) * 0.5
from_center_to_knop.setX(
self.constraint(from_center_to_knop.x(), -radius, radius))
from_center_to_knop.setY(
self.constraint(from_center_to_knop.y(), -radius, radius))
self._knop_bounds.moveCenter(from_center_to_knop +
self._bounds.center())
self._last_pos = event.pos()
self.update()
if radius == 0:
return
x = (self._knop_bounds.center().x() -
self._bounds.center().x()) / radius
y = (-self._knop_bounds.center().y() +
self._bounds.center().y()) / radius
if self._x != x:
self._x = x
self.xChanged.emit(self._x)
if self._y != y:
self._y = y
self.yChanged.emit(self._y)
def paintEvent(self, event):
painter = QPainter(self)
painter.setRenderHint(QPainter.Antialiasing)
painter.setRenderHint(QPainter.HighQualityAntialiasing)
gradient = QRadialGradient(self._bounds.center(),
self._bounds.width() * 0.5,
self._bounds.center())
gradient.setFocalRadius(self._bounds.width() * 0.3)
gradient.setCenterRadius(self._bounds.width() * 0.7)
gradient.setColorAt(0, Qt.white)
gradient.setColorAt(1, Qt.lightGray)
painter.setPen(QPen(QBrush(Qt.gray), self._bounds.width() * 0.005))
painter.setBrush(QBrush(gradient))
painter.drawEllipse(self._bounds)
painter.setPen(QPen(QBrush(Qt.gray), self._bounds.width() * 0.005))
painter.drawLine(
QPointF(self._bounds.left(),
self._bounds.center().y()),
QPointF(self._bounds.center().x() - self._bounds.width() * 0.35,
self._bounds.center().y()))
painter.drawLine(
QPointF(self._bounds.center().x() + self._bounds.width() * 0.35,
self._bounds.center().y()),
QPointF(self._bounds.right(),
self._bounds.center().y()))
painter.drawLine(
QPointF(self._bounds.center().x(), self._bounds.top()),
QPointF(self._bounds.center().x(),
self._bounds.center().y() - self._bounds.width() * 0.35))
painter.drawLine(
QPointF(self._bounds.center().x(),
self._bounds.center().y() + self._bounds.width() * 0.35),
QPointF(self._bounds.center().x(), self._bounds.bottom()))
if not self.isEnabled():
return
gradient = QRadialGradient(self._knop_bounds.center(),
self._knop_bounds.width() * 0.5,
self._knop_bounds.center())
gradient.setFocalRadius(self._knop_bounds.width() * 0.2)
gradient.setCenterRadius(self._knop_bounds.width() * 0.5)
gradient.setColorAt(0, Qt.gray)
gradient.setColorAt(1, Qt.darkGray)
painter.setPen(QPen(QBrush(Qt.darkGray), self._bounds.width() * 0.005))
painter.setBrush(QBrush(gradient))
painter.drawEllipse(self._knop_bounds)
# endregion
# region Public Functions
def add_x_animation(self):
# Abort if the animation is already added
if self._x_anim.parent() == self._return_animation:
return
self._return_animation.addAnimation(self._x_anim)
def remove_x_animation(self):
# Abort if the animation is already removed
if self._x_anim.parent() != self._return_animation:
return
self._return_animation.removeAnimation(self._x_anim)
# Take ownership of the animation (parent is 0 after removeAnimation())
self._x_anim.setParent(self)
def add_y_animation(self):
# Abort if the animation is already added
if self._y_anim.parent() == self._return_animation:
return
self._return_animation.addAnimation(self._y_anim)
def remove_y_animation(self):
# Abort if the animation is already removed
if self._y_anim.parent() != self._return_animation:
return
self._return_animation.removeAnimation(self._y_anim)
# Take ownership of the animation (parent is 0 after removeAnimation())
self._y_anim.setParent(self)
