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ViewingWindow.py
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ViewingWindow.py
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from math import pi
from time import clock
from pickle import dump, load
from PyQt4.QtCore import *
from PyQt4.QtGui import *
from BridgeConceptGraph import BridgeConceptGraph
from cursor import Cursor
from SignalSlotObject import SignalSlotObject
from Utility import *
from Nodes import Bridge,Concept
from Arrow import getArrowPath
class ViewingWindow(QWidget):
def __init__(self,*args):
super(ViewingWindow,self).__init__(*args)
self.graph = BridgeConceptGraph()
self.nodeSelected = SignalSlotObject()
self.nodeUnselected = SignalSlotObject()
self.cursor = Cursor()
self.cursor.leftClick.connect(self.onLeftClick)
self.cursor.leftHover.connect(self.onHover)
self.cursor.leftDrag.connect(self.onLeftDrag)
self.cursor.leftPress.connect(self.onLeftPress)
self.cursor.leftRelease.connect(self.onLeftRelease)
self.cursor.rightClick.connect(self.onRightClick)
self.cursor.rightDrag.connect(self.onRightDrag)
self.cursor.rightPress.connect(self.onRightPress)
self.cursor.rightRelease.connect(self.onRightRelease)
self.cursor.rightPull.connect(self.onRightPull)
self.cursor.rightHover.connect(self.onHover)
self.worldCursor = QPointF(0,0)
self.leftClickB = False
self.leftDragB = False
self.HoverB = False
self.leftPressB = False
self.leftReleaseB = False
self.rightClickB = False
self.rightDragB = False
self.rightPressB = False
self.rightReleaseB = False
self.rightPullB = False
self.selectedNode = None
self.heldNode = None
self.hoverNode = None
self.edgeDragNode = None
self.fps = 30
self.translation = QPointF(0.0,0.0)
self.scale = 1.0
self.minScale = 0.1
self.maxScale = 10.0
self.initUI()
def initUI(self):
self.setAutoFillBackground(True)
self.setMouseTracking(True)
palette = QPalette()
palette.setColor(QPalette.Window,QColor(0,100,0))
self.setPalette(palette)
def sizeHint(self):
return QSize(800,500)
def minimumSizeHint(self):
return QSize(300,300)
def paintEvent(self,event):
qp = QPainter()
qp.begin(self)
qp.scale(self.scale,self.scale)
qp.translate(self.translation)
qp.setRenderHint(QPainter.Antialiasing)
self.drawGraph(qp)
self.drawUI(qp)
qp.end()
def wheelEvent(self,event):
self.cursor.update(event,'o')
d = float(event.delta())
self.updateWorldCursor()
p = self.worldCursor
oldScale = self.scale
oldTranslation = self.translation
self.scale += d/360
self.scale = min(self.maxScale,self.scale)
self.scale = max(self.minScale,self.scale)
self.translation=((self.translation+p)*(oldScale/self.scale))-p
def drawUI(self,qp):
pen = QPen()
brush = QBrush(QColor(0,100,0,200))
qp.setPen(pen)
qp.setBrush(brush)
p = self.worldCursor
if self.edgeDragNode != None:
qp.drawPath(
getArrowPath(self.edgeDragNode.position,
p,
4,
40,
20,
pi/3,
0,
0
)
)
#qp.drawText(0,20,str(self.translation))
#qp.drawText(0,50,str(self.cursor.x)+','+str(self.cursor.y))
#qp.drawText(0,110,str(self.scale))
#qp.drawEllipse(QPointF(0,0),10,10)
#qp.drawEllipse(QPointF(0,100),10,10)
#qp.drawEllipse(QPointF(100,100),10,10)
#qp.drawEllipse(QPointF(100,0),10,10)
#print self.scale
def drawGraph(self, qp):
for index, concept in self.graph.concepts.items():
self.drawConceptToBridgeEdges(qp,
concept,
self.graph.ForwardEdges[index])
for index, bridge in self.graph.bridges.items():
self.drawBridgeToConceptEdges(qp,
bridge,
self.graph.ForwardEdges[index])
for index in self.graph.concepts:
self.drawConcept(qp,self.graph.concepts[index])
for index in self.graph.bridges:
self.drawBridge(qp,self.graph.bridges[index])
def drawBridgeToConceptEdges(self,qp,bridge,edges):
pen = QPen()
brush = QBrush(QColor(100,0,0,200))
qp.setPen(pen)
qp.setBrush(brush)
for e in edges:
qp.drawPath(
getArrowPath(bridge.position,
self.graph.concepts[e].position,10,65,30, pi/3,0,self.graph.concepts[e].radius))
def drawConceptToBridgeEdges(self,qp,concept,edges):
pen = QPen()
brush = QBrush(QColor(0,0,100,200))
qp.setPen(pen)
qp.setBrush(brush)
for e in edges:
qp.drawPath(
getArrowPath(concept.position,
self.graph.bridges[e].position,6,40,20, pi/3,0,self.graph.bridges[e].radius))
def drawBridge(self,qp,bridge):
self.drawNode(qp,bridge)
pen = QPen(QColor(0,0,0))
font = QFont()
font.setPointSizeF(12.0/(self.scale**(3.0/4)))
font.setItalic(True)
font.setBold(True)
qp.setPen(pen)
qp.setFont(font)
bTitle = bridge.title
pos = bridge.position + QPointF(1,-1)*bridge.radius
qp.drawText(pos,bTitle)
def drawConcept(self,qp,concept):
self.drawNode(qp,concept)
pen = QPen(QColor(0,0,0))
bgBrush = QBrush(QColor(255,255,255,20))
font = QFont()
font.setPointSizeF(12.0/(self.scale**(3.0/4)))
font.setBold(True)
qp.setPen(pen)
qp.setFont(font)
qp.setBackgroundMode(Qt.OpaqueMode)
qp.setBackground(bgBrush)
cTitle = concept.title
pos = concept.position + QPointF(1,-1)*concept.radius
qp.drawText(pos,cTitle)
def drawNode(self,qp,node):
ring = False
ringRadius = 5
if node.selected:
pen = QPen(node.palette[2])
brush = QBrush(node.palette[2])
elif node.held:
pen = QPen(node.palette[0])
brush = QBrush(node.palette[0])
elif node.hovered:
pen = QPen(node.palette[1])
brush = QBrush(node.palette[1])
elif node.highlighted:
ring = True
pen = QPen(node.palette[3])
brush = QBrush(node.palette[3])
else:
pen = QPen(node.palette[3])
brush = QBrush(node.palette[3])
qp.setPen(pen)
qp.setBrush(brush)
qp.drawEllipse(node.position,node.radius,node.radius)
if ring:
pen = QPen(node.palette[2])
brush = QBrush()
qp.setPen(pen)
qp.setBrush(brush)
qp.drawEllipse(node.position,\
node.radius + ringRadius,\
node.radius + ringRadius)
def setGraph(self,graph):
self.graph = graph
def mousePressEvent(self,event):
self.cursor.update(event,'p')
def mouseReleaseEvent(self,event):
self.cursor.update(event,'r')
def mouseMoveEvent(self,event):
self.cursor.update(event,'m')
def onLeftClick(self):
self.leftClickB = True
def onLeftDrag(self):
self.leftDragB = True
def onHover(self):
self.HoverB = True
def onLeftPress(self):
self.leftPressB = True
def onLeftRelease(self):
self.leftReleaseB = True
def onRightClick(self):
self.rightClickB = True
def onRightDrag(self):
self.rightDragB = True
def onRightPress(self):
self.rightPressB = True
def onRightRelease(self):
self.rightReleaseB = True
def onRightPull(self):
self.rightPullB = True
def getClosestNode(self,pos):
try:
G = self.graph
distances=[(node,norm(pos - node.position)) for node in G.Nodes()]
r = reduce(ltIndex(1),distances)
return r
except:
return (None,None)
def updateWorldCursor(self):
c = self.cursor
s = QPointF(self.scale,self.scale)
t = self.translation
self.worldCursor = QPointF((c.x/s.x())-t.x(),(c.y/s.y())-t.y())
def readCursorEvents(self):
c = self.cursor
self.cursor.resetPrevious = True
s = QPointF(self.scale,self.scale)
t = self.translation
self.updateWorldCursor()
pos = self.worldCursor
prevPos = QPointF((c._px/s.x())-t.x(),(c._py/s.y())-t.y())
(node,dist) = self.getClosestNode(pos)
#Due to the ascynchronous design, it's necessary to order these
#properly
if (self.leftDragB):
try:
self.heldNode.position = pos
except:
self.translation += pos - prevPos
self.leftDragB = False
if (self.HoverB):
if node == None: pass
elif (dist < node.radius):
self.unhover()
self.hover(node)
else:
self.unhover()
self.leftHoverB = False
if (self.leftPressB):
if node == None: pass
elif (dist < node.radius):
self.unhold()
self.unhover()
self.hold(node)
self.leftPressB = False
if (self.leftReleaseB):
self.unhold()
self.leftReleaseB = False
if (self.leftClickB):
if node == None: pass
elif (dist < node.radius):
self.unhover()
self.unhold()
if not self.selectedNode == node:
self.unselect()
self.select(node)
else:
self.unselect()
else:
self.unselect()
self.leftClickB = False
if (self.rightClickB):
if node == None: self.addConcept(pos)
elif (dist < node.radius):
self.deleteNode(node)
else:
self.addConcept(pos)
self.rightClickB = False
if (self.rightPullB):
if node == None:
pass
elif dist < node.radius:
self.edgeDragNode = node
elif self.selectedNode != None:
self.edgeDragNode = self.selectedNode
else:
pass
self.rightPullB = False
if (self.rightDragB):
pass
if (self.rightPressB):
pass
if (self.rightReleaseB):
if self.edgeDragNode != None and self.edgeDragNode != node:
if dist < node.radius:
if isinstance(self.edgeDragNode,Bridge):
if isinstance(node,Concept):
self.graph.ConnectBridgeToConcept(
self.edgeDragNode.key,
node.key)
elif isinstance(self.edgeDragNode,Concept):
if isinstance(node,Bridge):
self.graph.ConnectConceptToBridge(
self.edgeDragNode.key,
node.key)
elif isinstance(node,Concept):
k =self.addBridge((pos + self.edgeDragNode.position)/2)
self.graph.ConnectConceptToBridge(self.edgeDragNode.key,k)
self.graph.ConnectBridgeToConcept(k,node.key)
self.edgeDragNode = None
self.rightReleaseB = False
def update(self):
self.readCursorEvents()
#print "Held Node: ",self.heldNode
#print "Selected Node: ",self.selectedNode
#print "Hovered Node: ",self.hoverNode
self.repaint()
def animate(self):
t1 = clock()
self.update()
QTimer.singleShot(max(0,1000/self.fps-(clock()-t1)),self.animate)
def select(self,node):
self.selectedNode = node
self.selectedNode.selected = True
for pn in self.graph.ReverseEdges[node.key]:
try:
self.graph.bridges[pn].highlighted = True
except:
self.graph.concepts[pn].highlighted = True
self.nodeSelected.emit()
def unselect(self,node=None):
if self.selectedNode == node or node == None:
try:
self.selectedNode.selected = False
for pn in self.graph.ReverseEdges[self.selectedNode.key]:
try:
self.graph.bridges[pn].highlighted = False
except:
self.graph.concepts[pn].highlighted = False
self.selectedNode = None
self.nodeUnselected.emit()
except:
pass
def hold(self, node):
self.heldNode = node
self.heldNode.held = True
def unhold(self, node=None):
if self.heldNode == node or node == None:
try:
self.heldNode.held = False
self.heldNode = None
except:
pass
def hover(self,node):
self.hoverNode = node
self.hoverNode.hovered = True
def unhover(self, node=None):
if self.hoverNode == node or node == None:
try:
self.hoverNode.hovered = False
self.hoverNode = None
except:
pass
def deleteNode(self,node):
self.unselect(node)
self.unhold(node)
self.unhover(node)
try:
self.graph.RemoveBridge(node.key)
except:
self.graph.RemoveConcept(node.key)
def addConcept(self,pos):
C = Concept()
C.position = pos
k = self.graph.AddConcept(C)
C.key = k
return k
def addBridge(self,pos):
B = Bridge()
B.position = pos
k = self.graph.AddBridge(B)
B.key = k
return k
def writeTo(self, filename):
f = open(filename,'w')
dump(self.graph,f)
f.close()
def readFrom(self,filename):
f = open(str(filename),'r')
self.graph = load(f)
f.close()