我们从Python开源项目中,提取了以下50个代码示例,用于说明如何使用PyQt4.QtCore.QPointF()。
def __init__(self, editor, token, count, qpos, parent=None): '''Create a token. :param editor: DiagramEditor. Editor to show in. :param token: Token value. :param count: Number of Tokens to create. :param qpos: Parent top right position. :param parent=None: Parent Place Element ''' QtGui.QGraphicsEllipseItem.__init__(self, qpos, parent) self.editor = editor self.setZValue(19) self.countToken = count self.countTokenLabel = QtGui.QGraphicsTextItem("%d"%self.countToken, self) self.countTokenLabel.setPos(QtCore.QPointF( qpos.x()-1, qpos.y()-4 )) self.setBrush(QtGui.QBrush(QtCore.Qt.green)) self.token = token self.setToolTip( str(self.token) ) self.setFlags(self.ItemIsSelectable | self.ItemIsMovable ) #------------------------------------------------------------------------------------------------
def deleteItemLocal(self): '''Capture delete event and call editor delete function.''' self.parent.deleteItem([self]) #------------------------------------------------------------------------------------------------ # def itemChange(self, change, value): # if change == self.ItemScenePositionHasChanged: # rect = self.boundingRect() # pos = self.scenePos() # for cb in self.posCallbacks: # for connection in self.parent.visualConnectionList: # if connection[0] is self or connection[2] is self: # inputCoordinates = QtCore.QPointF(connection[0].x(), connection[0].y()) # outputCoordinates = QtCore.QPointF(connection[2].x(), connection[2].y()) # if connection[0] is self: # value = self.determineBorder( connection[1], connection[2], rect, pos, inputCoordinates, outputCoordinates ) # if connection[2] is self: # value = self.determineBorder( connection[1], connection[0], rect, pos, outputCoordinates, inputCoordinates ) # cb(value) # return value # return super(AbstractItem, self).itemChange(change, value) # #----------------------------------------------------------------------------------------------- #========================================================================================================================
def setPolygon(self): '''Calculate position and rotation of the arc arrow head.''' rotDeg = 0 xlength = self.pos1.x() - self.pos2.x() ylength = self.pos1.y() - self.pos2.y() d = math.sqrt( math.pow( xlength , 2) + math.pow( ylength , 2) ) if d > 0: beta = math.acos( xlength / d ) rotDeg = math.degrees( beta ) self.arrowPolygonObject.setPolygon( QtGui.QPolygonF( [ QtCore.QPointF( (self.pos2.x() -10), (self.pos2.y() +5)), QtCore.QPointF( (self.pos2.x() -10) , (self.pos2.y() -5)), QtCore.QPointF( self.pos2.x() , self.pos2.y()) ] ) ) self.arrowPolygonObject.setBrush( QtGui.QBrush(QtCore.Qt.black) ) """ self.angle()!!!!!!!!!""" # self.arcLinePolygon.angle() # self.arcLinePolygon.rotate(rotDeg) # self.arcLinePolygon.setPos( self.pos2 ) #------------------------------------------------------------------------------------------------
def itemChange(self, change, value): '''Item position has changed, calculate new position. :param change: Change value. :param value: QtCore.QPointF(). :return value: QtCore.QPointF(x, y) or super(PortItem, self).itemChange(change, value). ''' if change == self.ItemPositionChange: x, y = value.x(), value.y() # TODO: make this a signal? # This cannot be a signal because this is not a QObject for cb in self.posChangeCallbacks: res = cb(x, y) if res: x, y = res value = QtCore.QPointF(x, y) return value # Call superclass method: return super(PortItem, self).itemChange(change, value) #------------------------------------------------------------------------------------------------ #========================================================================================================================
def stackTokens(self): '''Method to order the visual stacking of different tokens.''' self.toolTipString = "" self.setToolTip( self.toolTipString ) self.descCanvas.setCanvasString( self.toolTipString ) pos = self.scenePos() rect = self.boundingRect() lenTok = len( self.tokens ) tokens = list( self.tokens ) for idx in range(0, lenTok): token = tokens.pop() token.setPos( QtCore.QPointF( rect.x() + (lenTok - idx)*10 , rect.y() - (lenTok - idx)*10 ) ) self.toolTipString += "%s' %s ++\n" %(token.countTokenLabel.toPlainText(), token.token) self.setToolTip( self.toolTipString ) self.editor.diagramScene.removeItem( self.descCanvas ) self.descCanvas.setCanvasString( self.toolTipString ) self.editor.diagramScene.addItem( self.descCanvas ) #------------------------------------------------------------------------------------------------
def setPolygon(self): rotDeg = 0 xlength = self.pos1.x() - self.pos2.x() ylength = self.pos1.y() - self.pos2.y() d = math.sqrt( math.pow( xlength , 2) + math.pow( ylength , 2) ) if d > 0: beta = math.acos( xlength / d ) rotDeg = math.degrees( beta ) self.arcLinePolygon.setPolygon( QtGui.QPolygonF( [ QtCore.QPointF( (self.pos2.x() -10), (self.pos2.y() +5)), QtCore.QPointF( (self.pos2.x() -10) , (self.pos2.y() -5)), QtCore.QPointF( self.pos2.x() , self.pos2.y()) ] ) ) self.arcLinePolygon.setBrush( QtGui.QBrush(QtCore.Qt.black) ) """ self.angle()!!!!!!!!!""" # self.arcLinePolygon.angle() # self.arcLinePolygon.rotate(rotDeg) # self.arcLinePolygon.setPos( self.pos2 ) #------------------------------------------------------------------------------------------------
def mouseDoubleClickEvent(self, event): if self._move_grid: p = self.mapToLonLat(event.pos()) self._grid_coord.append([p.y(), p.x()]) self.delStation(self._station_to_move) self._station_to_move.grid_line = '(' + str(self._grid_coord[0][0]) + ',' + str(self._grid_coord[0][1]) + ')' for i in range(1, len(self._grid_coord)): self._station_to_move.grid_line += ',(' + str(self._grid_coord[i][0]) + ',' + str(self._grid_coord[i][1]) + ')' self.scene().addStation(self._station_to_move) if not self.scene().show_station_name: self.scene()._current_name.setText(self._station_to_move.name) pp = self.mapFromLonLat(QtCore.QPointF(self._station_to_move.lon, self._station_to_move.lat)) self.scene()._current_name.setPos(pp + QtCore.QPointF(1.5, -0.5)) if self._station_to_move.technology[:6] == 'Fossil': self.scene()._current_name.setBrush(QtGui.QColor(self.scene().colors['fossil_name'])) else: self.scene()._current_name.setBrush(QtGui.QColor(self.scene().colors['station_name'])) self._move_grid = False self._grid_start = None for itm in self._grid_line: self.scene().removeItem(itm) self._grid_line = None self._grid_coord = None self.scene().refreshGrid()
def go_ToLoad(self): if len(self.view.scene().load_centre) == 1: j = 0 else: menu = QtGui.QMenu() ctrs = [] for ctr in self.view.scene().load_centre: ctrs.append(menu.addAction(ctr[0])) # ctrs[-1].setIconVisibleInMenu(True) x = self.frameGeometry().left() + 50 y = self.frameGeometry().y() + 50 action = menu.exec_(QtCore.QPoint(x, y)) if action is not None: for j in range(len(self.view.scene().load_centre)): if action.text() == self.view.scene().load_centre[j][0]: break if j < len(self.view.scene().load_centre): go_to = self.mapFromLonLat(QtCore.QPointF(self.view.scene().load_centre[j][2], self.view.scene().load_centre[j][1])) self.view.centerOn(go_to) comment = '(%s,%s) Centred on %s Load Centre' % ( '{:0.4f}'.format(self.view.scene().load_centre[j][1]), '{:0.4f}'.format(self.view.scene().load_centre[j][2]), self.view.scene().load_centre[j][0]) self.view.emit(QtCore.SIGNAL('statusmsg'), comment)
def showArea(self, event): if self.ignore: return if self.sender() == self.southSpin or self.sender() == self.eastSpin: if self.southSpin.value() > self.northSpin.value(): y = self.northSpin.value() self.northSpin.setValue(self.southSpin.value()) self.southSpin.setValue(y) if self.eastSpin.value() < self.westSpin.value(): x = self.westSpin.value() self.westSpin.setValue(self.eastSpin.value()) self.eastSpin.setValue(x) if self.worldwindow is None: return approx_area = self.worldwindow.view.drawRect([QtCore.QPointF(self.westSpin.value(), self.northSpin.value()), QtCore.QPointF(self.eastSpin.value(), self.southSpin.value())]) self.approx_area.setText(approx_area) merra_dims = worldwindow.merra_cells(self.northSpin.value(), self.westSpin.value(), self.southSpin.value(), self.eastSpin.value()) self.merra_cells.setText(merra_dims) if event != 'init': self.worldwindow.view.emit(QtCore.SIGNAL('statusmsg'), approx_area + ' ' + merra_dims)
def _setupTowns(self): self._towns = {} self._towns = Towns(ul_lat=self.upper_left[3], ul_lon=self.upper_left[2], lr_lat=self.lower_right[3], lr_lon=self.lower_right[2]) for st in self._towns.towns: p = self.mapFromLonLat(QtCore.QPointF(st.lon, st.lat)) el = QtGui.QGraphicsEllipseItem(p.x() - 1, p.y() - 1, 2, 2) # here to adjust town circles el.setBrush(QtGui.QColor(self.colors['town'])) el.setPen(QtGui.QColor(self.colors['town'])) el.setZValue(0) self._townGroup.addToGroup(el) txt = QtGui.QGraphicsSimpleTextItem(st.name) new_font = txt.font() new_font.setPointSizeF(self.width() / 20) txt.setFont(new_font) txt.setPos(p + QtCore.QPointF(1.5, -0.5)) txt.scale(0.1, 0.1) txt.setBrush(QtGui.QColor(self.colors['town_name'])) txt.setZValue(0) self._townGroup.addToGroup(txt) return
def showArea(self, event): if self.ignore: return if self.sender() == self.southSpin or self.sender() == self.eastSpin: if self.southSpin.value() > self.northSpin.value(): y = self.northSpin.value() self.northSpin.setValue(self.southSpin.value()) self.southSpin.setValue(y) if self.eastSpin.value() < self.westSpin.value(): x = self.westSpin.value() self.westSpin.setValue(self.eastSpin.value()) self.eastSpin.setValue(x) if self.worldwindow is None: return approx_area = self.worldwindow.view.drawRect([QtCore.QPointF(self.westSpin.value(), self.northSpin.value()), QtCore.QPointF(self.eastSpin.value(), self.southSpin.value())]) self.approx_area.setText(approx_area) if event != 'init': self.worldwindow.view.emit(QtCore.SIGNAL('statusmsg'), approx_area)
def drawMany(self): grids = GetMany.getList() if grids is None: return self.clear_Rect() self.rect_items = [] color = QtGui.QColor() color.setNamedColor((self.scene().colors['border'])) pen = QtGui.QPen(color, self.scene().line_width) pen.setJoinStyle(QtCore.Qt.RoundJoin) pen.setCapStyle(QtCore.Qt.RoundCap) for g in range(len(grids)): fromm = self.mapFromLonLat(QtCore.QPointF(grids[g][1], grids[g][0])) too = self.mapFromLonLat(QtCore.QPointF(grids[g][3], grids[g][2])) self.rect_items.append(QtGui.QGraphicsRectItem(fromm.x(), fromm.y(), too.x() - fromm.x(), too.y() - fromm.y())) self.rect_items[-1].setPen(pen) self.rect_items[-1].setZValue(3) self.scene().addItem(self.rect_items[-1]) self.emit(QtCore.SIGNAL('statusmsg'), str(len(grids)) + ' Areas drawn')
def __init__(self, startp=Point(), endp=None, length=60.0, angle=50.0, color=QtCore.Qt.red, pencolor=QtCore.Qt.green, startarrow=True): """ Initialisation of the class. """ self.sc = None super(Arrow, self).__init__() self.startp = QtCore.QPointF(startp.x, -startp.y) self.endp = endp self.length = length self.angle = angle self.startarrow = startarrow self.allwaysshow = False self.arrowHead = QPolygonF() self.setFlag(QGraphicsItem.ItemIsSelectable, False) self.myColor = color self.pen = QPen(pencolor, 1, QtCore.Qt.SolidLine) self.pen.setCosmetic(True) self.arrowSize = 8.0
def contains_point(self, point): """ Method to determine the minimal distance from the point to the shape @param point: a QPointF @return: minimal distance """ min_distance = float(0x7fffffff) ref_point = Point(point.x(), point.y()) t = 0.0 while t < 1.0: per_point = self.path.pointAtPercent(t) spline_point = Point(per_point.x(), per_point.y()) distance = ref_point.distance(spline_point) if distance < min_distance: min_distance = distance t += 0.01 return min_distance
def __init__(self, text='S', startp=Point(x=0.0, y=0.0),): """ Initialisation of the class. """ QGraphicsItem.__init__(self) self.setFlag(QGraphicsItem.ItemIsSelectable, False) self.text = text self.sc = 1.0 self.startp = QtCore.QPointF(startp.x, -startp.y) pencolor = QColor(0, 200, 255) self.brush = QColor(0, 100, 255) self.pen = QPen(pencolor, 1, QtCore.Qt.SolidLine) self.pen.setCosmetic(True) self.path = QPainterPath() self.path.addText(QtCore.QPointF(0, 0), QFont("Arial", 10/self.sc), self.text)
def resizeEventVertical(self, event): if self.label_pos == TOP: y = self.label_font_metrics.height()+self.spacing height = y self.label_rect = QtCore.QRect(0, 0, self.width(), height) elif self.label_pos == BOTTOM: y = 0 height = self.label_font_metrics.height()+self.spacing self.label_rect = QtCore.QRect(0, self.height()-height, self.width(), height) else: y = height = 0 self.range_rect = QtCore.QRectF((self.width()-self.range_size)/2., self.range_size/2.+y, self.range_size, self.height()-self.range_size-height) self.range_range = self.range_rect.y()+4, self.range_rect.height()-8 pos = QtCore.QPointF(self.range_rect.center().x(), self.get_pos()) self.slider_rect.moveCenter(pos) self.cursor.move(pos.x(), pos.y())
def wheelEvent(self, event): if event.modifiers() & QtCore.Qt.ControlModifier: # center = QtCore.QPointF(self.mapToScene(event.pos()).x(), self.wavepath.boundingRect().center().y()) center = QtCore.QPointF(self.mapToScene(event.pos()).x(), self.mapToScene(self.viewport().rect().center()).y()) if event.delta() > 0: self.zoom = self.zoom - 1 if self.zoom > 0 else 0 else: self.zoom = self.zoom + 1 if self.zoom < len(self.zoom_values) - 1 else self.zoom self.fitInView(0, 0, self.zoom_values[self.zoom], self.current_sampwidth_int) visible = self.mapToScene(self.viewport().rect()).boundingRect() if visible.width() > self.wavepath.boundingRect().width(): self.scene().setSceneRect(-self.left_margin, 0, visible.width(), self.current_sampwidth_int) else: self.scene().setSceneRect(-self.left_margin, 0, self.wavepath.boundingRect().width(), self.current_sampwidth_int) self.centerOn(center) elif event.modifiers() & QtCore.Qt.ShiftModifier: event = QtGui.QWheelEvent(event.pos(), event.delta()*5, event.buttons(), event.modifiers(), QtCore.Qt.Horizontal) QtGui.QGraphicsView.wheelEvent(self, event) self.mouseMoveEvent(event) else: event = QtGui.QWheelEvent(event.pos(), event.delta(), event.buttons(), event.modifiers(), QtCore.Qt.Horizontal) QtGui.QGraphicsView.wheelEvent(self, event) self.mouseMoveEvent(event)
def itemChange(self, change, value): if change == self.ItemPositionChange: pos = value.toPyObject() if self.isVisible(): if QtGui.QApplication.keyboardModifiers() == QtCore.Qt.ShiftModifier: colliding = [i for i in self.collidingItems() if isinstance(i, ControlPoint)] if colliding: if colliding[0].contains(self.mapFromScene(pos)): pos = colliding[0].pos() self.moved.emit(pos.x(), pos.y()) return pos elif QtGui.QApplication.keyboardModifiers() == QtCore.Qt.ControlModifier: if self.wave_path in self.collidingItems(): sample = int(pos.x() / 16384) pos = self.wave_path.path().elementAt(sample) self.moved.emit(pos.x, pos.y) return QtCore.QPointF(pos.x, pos.y) # if not self.move(self, pos.x(), pos.y()): # return self.pos() self.moved.emit(pos.x(), pos.y()) return QtGui.QGraphicsWidget.itemChange(self, change, value)
def itemChange(self, change, value): '''Item position has changed, calculate new position. :param change: Change event. :param value: QtCore.QPointF(). :return value: QtCore.QPointF(x, y) or super(Connector, self).itemChange(change, value). ''' if change == self.ItemScenePositionHasChanged: for cb in self.posCallbacks: cb( value ) return value return super(Connector, self).itemChange(change, value) #------------------------------------------------------------------------------------------------ #========================================================================================================================
def setBeginPos(self, pos1): '''Callback method to keep `pos1` up to date. :param pos1: `QtCore.QPointF()`. ''' rect = self.srcConnector.rect() pos = self.mapFromItem( self.srcConnector, self.srcConnector.position ) self.pos1 = QtCore.QPointF(pos.x() + rect.width()/2, pos.y() + rect.height()/2 ) # self.pos1 = pos1 self.setName(self.name) self.arcLine.setLine(QtCore.QLineF(self.pos1, self.pos2)) #------------------------------------------------------------------------------------------------
def __init__(self, direction, parent=None): '''Create a port :param direction: Port direction: (i)nput, (o)utput, (io) bidirectional. :param parent: Parent port place. ''' super(PortItem, self).__init__(QtCore.QRectF(-4.0,-4.0,17.0,17.0), parent) self.posChangeCallbacks = [] self.setBrush(QtGui.QBrush(QtCore.Qt.white)) self.setFlags(self.ItemIsSelectable | self.ItemIsMovable | self.ItemSendsScenePositionChanges) self.label = QtGui.QGraphicsTextItem("", self) self.label.setPos(QtCore.QPointF( -4, -7)) self.direction = direction self.setZValue(9) #------------------------------------------------------------------------------------------------
def shortcutCreateNode(self): '''Create CPN elements with keyboard shortcuts.''' if "transition" in self.nodeType: if self.diag.checkBox.checkState() == 2: subnet = self.diag.getName() substitutionTransition = True else: subnet = self.subnet substitutionTransition = False self.mainWindow.simulator.uniqueNameBase += 1 b1 = TransitionItem( self, self.diag.getName(),QtCore.QPointF(), guardExpression = "True", substitutionTransition=substitutionTransition, uniqueName="t%d"%self.mainWindow.simulator.uniqueNameBase, subnet=subnet) # b1 = TransitionItem( self, self.diag.getName(), self.mouseScreenPos, net=self.mainWindow.simulator.net, guardExpression = "True", uniqueName="t%d"%self.mainWindow.simulator.uniqueNameBase) self.mainWindow.simulator.uniqueNameBase += 1 elif "place" in self.nodeType: b1 = PlaceItem( self, self.diag.getName(), self.mouseScreenPos, initMarking = [], uniqueName="p%d"%self.mainWindow.simulator.uniqueNameBase, subnet=self.subnet) self.mainWindow.simulator.uniqueNameBase += 1 else: errorString = str( "no valid target, dropping aborted" ) item = QtGui.QListWidgetItem( errorString ) item.setTextColor(QtCore.Qt.yellow) self.logWidget.addItem( item ) logging.warning(errorString) return self.diagramScene.addItem(b1) del self.diag del self.nodeType pass #------------------------------------------------------------------------------------------------
def __init__(self, parent=None, scene=None): super(ArcItem, self).__init__(None) self.scene = scene self.parent = parent self.arcLine = LineItem(self) self.parent.diagramScene.addItem(self.arcLine) arrowPolygon = QtGui.QPolygonF( [ QtCore.QPointF( 0.0, 0.0), QtCore.QPointF( 0.0, 10.0), QtCore.QPointF( 10.0, 5.0) ] ) self.arcLinePolygon = self.parent.diagramScene.addPolygon( arrowPolygon ) self.pos1 = QtCore.QPointF(20,20) self.pos2 = QtCore.QPointF(200,200) # self.setFlags( self.ItemIsSelectable | self.ItemIsMoveable )
def generatePicture(self): ## pre-computing a QPicture object allows paint() to run much more quickly, ## rather than re-drawing the shapes every time. self.picture = QtGui.QPicture() p = QtGui.QPainter(self.picture) p.setPen(pg.mkPen(color='r', width=0.4)) # 0.4 means w*2 # w = (self.data[1][0] - self.data[0][0]) / 3. w = 0.2 for (t, open, close, min, max) in self.data: p.drawLine(QtCore.QPointF(t, min), QtCore.QPointF(t, max)) if open > close: p.setBrush(pg.mkBrush('g')) else: p.setBrush(pg.mkBrush('r')) p.drawRect(QtCore.QRectF(t-w, open, w*2, close-open)) p.end()
def __init__(self): super(MyArrow, self).__init__() self.source = QPointF(0, 250) self.dest = QPointF(120, 120) self.line = QLineF(self.source, self.dest) self.line.setLength(self.line.length() - 20)
def destinationxy(self, lon1, lat1, bearing, distance): """ Given a start point, initial bearing, and distance, calculate the destination point and final bearing travelling along a (shortest distance) great circle arc """ radius = 6367. # km is the radius of the Earth # convert decimal degrees to radians ln1, lt1, baring = map(math.radians, [lon1, lat1, bearing]) # "reverse" haversine formula lat2 = math.asin(math.sin(lt1) * math.cos(distance / radius) + math.cos(lt1) * math.sin(distance / radius) * math.cos(baring)) lon2 = ln1 + math.atan2(math.sin(baring) * math.sin(distance / radius) * math.cos(lt1), math.cos(distance / radius) - math.sin(lt1) * math.sin(lat2)) return QtCore.QPointF(math.degrees(lon2), math.degrees(lat2))
def destinationx(self, lon1, lat1, distance): radius = 6367. # km is the radius of the Earth # convert decimal degrees to radians lt1 = math.radians(lat1) circum = radius * 2 * math.pi * math.cos(lt1) lon2 = lon1 + distance / circum * 360 return QtCore.QPointF(lon2, lat1)
def go_ToTown(self): # to cater for windows I've created submenus menu = QtGui.QMenu() twns = [] submenus = [] submenus.append(QtGui.QMenu('A...')) titl = '' ctr = 0 for town in sorted(self.view.scene()._towns.towns, key=lambda town: town.name): if titl == '': titl = town.name + ' to ' twns.append(submenus[-1].addAction(town.name)) twns[-1].setIconVisibleInMenu(True) ctr += 1 if ctr > 25: titl += town.name submenus[-1].setTitle(titl) titl = '' menu.addMenu(submenus[-1]) submenus.append(QtGui.QMenu(town.name[0] + '...')) ctr = 0 titl += town.name submenus[-1].setTitle(titl) menu.addMenu(submenus[-1]) x = self.frameGeometry().left() + 50 y = self.frameGeometry().y() + 50 action = menu.exec_(QtCore.QPoint(x, y)) if action is not None: town = self.view.scene()._towns.Get_Town(action.text()) go_to = self.mapFromLonLat(QtCore.QPointF(town.lon, town.lat)) self.view.centerOn(go_to) comment = '(%s,%s) Centred on town %s' % ('{:0.4f}'.format(town.lon), '{:0.4f}'.format(town.lat), town.name) self.view.emit(QtCore.SIGNAL('statusmsg'), comment)
def _setupGrid(self): def do_them(lines, width=self.line_width, grid2=False): for line in lines: color = QtGui.QColor() color.setNamedColor(line.style) pen = QtGui.QPen(color, width) pen.setJoinStyle(QtCore.Qt.RoundJoin) pen.setCapStyle(QtCore.Qt.RoundCap) start = self.mapFromLonLat(QtCore.QPointF(line.coordinates[0][1], line.coordinates[0][0])) for pt in range(1, len(line.coordinates)): end = self.mapFromLonLat(QtCore.QPointF(line.coordinates[pt][1], line.coordinates[pt][0])) ln = QtGui.QGraphicsLineItem(QtCore.QLineF(start, end)) ln.setPen(pen) ln.setZValue(0) self.addItem(ln) if grid2: self._gridGroup2.addToGroup(ln) else: self._gridGroup.addToGroup(ln) start = end return self.lines = Grid() do_them(self.lines.lines) self.grid_lines = len(self.lines.lines) lines = Grid_Boundary() if len(lines.lines) > 0: lines.lines[0].style = self.colors['grid_boundary'] do_them(lines.lines, width=0) if self.existing_grid2: lines2 = Grid(grid2=True) do_them(lines2.lines, grid2=True)
def mapToLonLat(self, p): x = p.x() / self._lon_scale + self._orig_lon y = p.y() / self._lat_scale + self._orig_lat lon, lat = self._proj(x, y, inverse=True) return QtCore.QPointF(round(lon, 4), round(lat, 4))
def mapFromLonLat(self, p): lon, lat = p.x(), p.y() x, y = self._proj(lon, lat) x = (x - self._orig_lon) * self._lon_scale y = (y - self._orig_lat) * self._lat_scale return QtCore.QPointF(x, y)
def destinationxy(self, lon1, lat1, bearing, distance): """ Given a start point, initial bearing, and distance, calculate the destination point and final bearing travelling along a (shortest distance) great circle arc """ radius = RADIUS # km is the radius of the Earth # convert decimal degrees to radians ln1, lt1, baring = map(radians, [lon1, lat1, bearing]) # "reverse" haversine formula lat2 = asin(sin(lt1) * cos(distance / radius) + cos(lt1) * sin(distance / radius) * cos(baring)) lon2 = ln1 + atan2(sin(baring) * sin(distance / radius) * cos(lt1), cos(distance / radius) - sin(lt1) * sin(lat2)) return QtCore.QPointF(degrees(lon2), degrees(lat2))
def destinationx(self, lon1, lat1, distance): radius = RADIUS # km is the radius of the Earth # convert decimal degrees to radians lt1 = radians(lat1) circum = radius * 2 * pi * cos(lt1) lon2 = lon1 + distance / circum * 360 return QtCore.QPointF(lon2, lat1)
def mousePressEvent(self, event): if QtCore.Qt.LeftButton == event.button(): where = self.mapToLonLat(event.pos()) pl = self.mapToLonLat(event.pos()) self.emit(QtCore.SIGNAL('statusmsg'), p2str(pl) + ' ' + p2str(event.pos())) if self._rectangle is None: self._rectangle = [where] hb = self.horizontalScrollBar() vb = self.verticalScrollBar() self._sb_start = QtCore.QPoint(hb.value(), vb.value()) else: self._rectangle.append(where) if self._rectangle[0].x() > self._rectangle[1].x(): x = self._rectangle[0].x() self._rectangle[0] = QtCore.QPointF(self._rectangle[1].x(), self._rectangle[0].y()) self._rectangle[1] = QtCore.QPointF(x, self._rectangle[1].y()) if self._rectangle[0].y() < self._rectangle[1].y(): y = self._rectangle[0].y() self._rectangle[0] = QtCore.QPointF(self._rectangle[0].x(), self._rectangle[1].y()) self._rectangle[1] = QtCore.QPointF(self._rectangle[1].x(), y) approx_area = self.drawRect(self._rectangle) self.emit(QtCore.SIGNAL('statusmsg'), p2str(pl) + ' ' + approx_area) self.emit(QtCore.SIGNAL('tellarea'), self._rectangle, approx_area) self._rectangle = None self._drag_start = QtCore.QPoint(event.pos()) hb = self.horizontalScrollBar() vb = self.verticalScrollBar() self._sb_start = QtCore.QPoint(hb.value(), vb.value())
def show_Grid(self): comment = 'Grid Toggled ' if self.view.scene().show_grid: self.view.scene().show_grid = False self.view.scene()._gridGroup.setVisible(False) self.showGrid.setIcon(QtGui.QIcon('blank.png')) comment += 'Off' else: if self.view.scene()._gridGroup is None: self.view.scene()._gridGroup = QtGui.QGraphicsItemGroup() self.view.scene().addItem(self.view.scene()._gridGroup) color = QtGui.QColor() color.setNamedColor((self.view.scene().colors['grid'])) pen = QtGui.QPen(color, self.view.scene().line_width) pen.setJoinStyle(QtCore.Qt.RoundJoin) pen.setCapStyle(QtCore.Qt.RoundCap) for lat in range(90, -90, -10): if lat == 90: continue fromm = self.mapFromLonLat(QtCore.QPointF(-180, lat)) too = self.mapFromLonLat(QtCore.QPointF(180, lat)) item = QtGui.QGraphicsLineItem(fromm.x(), fromm.y(), too.x(), too.y()) item.setPen(pen) item.setZValue(3) self.view.scene()._gridGroup.addToGroup(item) for lon in range(-180, 181, 10): fromm = self.mapFromLonLat(QtCore.QPointF(lon, self.view.scene().map_upper_left[0])) too = self.mapFromLonLat(QtCore.QPointF(lon, self.view.scene().map_lower_right[0])) item = QtGui.QGraphicsLineItem(fromm.x(), fromm.y(), too.x(), too.y()) item.setPen(pen) item.setZValue(3) self.view.scene()._gridGroup.addToGroup(item) self.view.scene().show_grid = True self.view.scene()._gridGroup.setVisible(True) self.showGrid.setIcon(QtGui.QIcon(self.view.scene().check_icon)) comment += 'On' self.view.emit(QtCore.SIGNAL('statusmsg'), comment)
def getPolygon(self, obj): poly = QtGui.QPolygonF() for pt in obj.polygon: point = QtCore.QPointF(pt.x,pt.y) poly.append( point ) return poly # Draw the labels in the given QPainter qp # optionally provide a list of labels to ignore
def mouseMoveEvent(self,event): if self.image.isNull() or self.w == 0 or self.h == 0: return mousePosOrig = QtCore.QPointF( event.x() , event.y() ) mousePosScaled = QtCore.QPointF( float(mousePosOrig.x() - self.xoff) / self.scale , float(mousePosOrig.y() - self.yoff) / self.scale ) mouseOutsideImage = not self.image.rect().contains( mousePosScaled.toPoint() ) mousePosScaled.setX( max( mousePosScaled.x() , 0. ) ) mousePosScaled.setY( max( mousePosScaled.y() , 0. ) ) mousePosScaled.setX( min( mousePosScaled.x() , self.image.rect().right() ) ) mousePosScaled.setY( min( mousePosScaled.y() , self.image.rect().bottom() ) ) if not self.image.rect().contains( mousePosScaled.toPoint() ): print self.image.rect() print mousePosScaled.toPoint() self.mousePosScaled = None self.mousePosOrig = None self.updateMouseObject() self.update() return self.mousePosScaled = mousePosScaled self.mousePosOrig = mousePosOrig self.mouseOutsideImage = mouseOutsideImage # Redraw self.updateMouseObject() self.update() # Mouse left the widget
def __init__(self, diagramType, contextMenu, parent=None, scene=None): super(DiagramItem, self).__init__(parent, scene) self.arrows = [] self.diagramType = diagramType self.contextMenu = contextMenu path = QtGui.QPainterPath() if self.diagramType == self.StartEnd: path.moveTo(200, 50) path.arcTo(150, 0, 50, 50, 0, 90) path.arcTo(50, 0, 50, 50, 90, 90) path.arcTo(50, 50, 50, 50, 180, 90) path.arcTo(150, 50, 50, 50, 270, 90) path.lineTo(200, 25) self.myPolygon = path.toFillPolygon() elif self.diagramType == self.Conditional: self.myPolygon = QtGui.QPolygonF([ QtCore.QPointF(-100, 0), QtCore.QPointF(0, 100), QtCore.QPointF(100, 0), QtCore.QPointF(0, -100), QtCore.QPointF(-100, 0)]) elif self.diagramType == self.Step: self.myPolygon = QtGui.QPolygonF([ QtCore.QPointF(-100, -100), QtCore.QPointF(100, -100), QtCore.QPointF(100, 100), QtCore.QPointF(-100, 100), QtCore.QPointF(-100, -100)]) else: self.myPolygon = QtGui.QPolygonF([ QtCore.QPointF(-120, -80), QtCore.QPointF(-70, 80), QtCore.QPointF(120, 80), QtCore.QPointF(70, -80), QtCore.QPointF(-120, -80)]) self.setPolygon(self.myPolygon) self.setFlag(QtGui.QGraphicsItem.ItemIsMovable, True) self.setFlag(QtGui.QGraphicsItem.ItemIsSelectable, True)
def intersectLineGeometry(self, lineGeo, breakShape): """ Try to break lineGeo with the given breakShape. Will return the intersection points of lineGeo with breakShape. """ # TODO geos should be abs intersections = [] line = QLineF(lineGeo.Ps.x, lineGeo.Ps.y, lineGeo.Pe.x, lineGeo.Pe.y) for breakGeo in breakShape.geos.abs_iter(): if isinstance(breakGeo, LineGeo): breakLine = QLineF(breakGeo.Ps.x, breakGeo.Ps.y, breakGeo.Pe.x, breakGeo.Pe.y) intersection = QPointF(0, 0) # values do not matter res = line.intersect(breakLine, intersection) if res == QLineF.BoundedIntersection: intersections.append(Point(intersection.x(), intersection.y())) return intersections
def draw_wp_zero(self): """ This function is called while the drawing of all items is done. It plots the WPZero to the Point x=0 and y=0. This item will be enabled or disabled to be shown or not. """ self.wpzero = WpZero(QtCore.QPointF(0, 0)) self.addItem(self.wpzero)
def mouseMoveEvent(self, event): if self._pan: self.horizontalScrollBar().setValue(self.horizontalScrollBar().value() - (event.x() - self._panStartX)) self.verticalScrollBar().setValue(self.verticalScrollBar().value() - (event.y() - self._panStartY)) self._panStartX = event.x() self._panStartY = event.y() if self._draw: self.scene.removeItem(self._lstRect) sceneCoord = self.mapToScene(event.pos()) tl = QtCore.QPointF(max(min(self._drawStartX, sceneCoord.x())-2, 0), max(min(self._drawStartY, sceneCoord.y())-2, 0)) br = QtCore.QPointF(min(max(self._drawStartX, sceneCoord.x()-1)+2, self.scene.sceneRect().width()), min(max(self._drawStartY, sceneCoord.y()-1)+2, self.scene.sceneRect().height())) self._lstRect = QStrokeRect(QtCore.QRectF(tl, br)) self._lstRect.setPen(self.pen) self._lstRect.setStrokeWidth(6) self.scene.addItem(self._lstRect) self._moved = True event.accept() QtGui.QGraphicsView.mouseMoveEvent(self, event) sceneCoord = self.mapToScene(event.pos()) sceneRect = self.scene.sceneRect() if sceneRect.contains(sceneCoord): self.emit(QtCore.SIGNAL("sendSceneCoord(QString)"), QtCore.QString('{:04.2f}, {:04.2f}'.format(sceneCoord.x(), sceneCoord.y()))) if not self._pan and not self._draw: self.selItem = self.scene.itemAt(sceneCoord) if self.selItem is not None and self.selItem.type() != 7: # 7 is QGraphicsPixmapItem self.viewport().setCursor(QtCore.Qt.ArrowCursor) self._sel = True else: self.viewport().setCursor(QtCore.Qt.CrossCursor) self._sel = False else: self.emit(QtCore.SIGNAL("sendSceneCoord(QString)"), '')
def mouseMoveEvent(self,event): if self.image.isNull() or self.w == 0 or self.h == 0: return mousePosOrig = QtCore.QPointF( event.x() , event.y() ) mousePosScaled = QtCore.QPointF( float(mousePosOrig.x() - self.xoff) / self.scale , float(mousePosOrig.y() - self.yoff) / self.scale ) mouseOutsideImage = not self.image.rect().contains( mousePosScaled.toPoint() ) mousePosScaled.setX( max( mousePosScaled.x() , 0. ) ) mousePosScaled.setY( max( mousePosScaled.y() , 0. ) ) mousePosScaled.setX( min( mousePosScaled.x() , self.image.rect().right() ) ) mousePosScaled.setY( min( mousePosScaled.y() , self.image.rect().bottom() ) ) if not self.image.rect().contains( mousePosScaled.toPoint() ): print(self.image.rect()) print(mousePosScaled.toPoint()) self.mousePosScaled = None self.mousePosOrig = None self.updateMouseObject() self.update() return self.mousePosScaled = mousePosScaled self.mousePosOrig = mousePosOrig self.mouseOutsideImage = mouseOutsideImage # Redraw self.updateMouseObject() self.update() # Mouse left the widget
