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# -*- coding: utf-8 -*-
"""
ROI . py - Interactive graphics items for GraphicsView ( ROI widgets )
Copyright 2010 Luke Campagnola
Distributed under MIT / X11 license . See license . txt for more infomation .
Implements a series of graphics items which display movable / scalable / rotatable shapes
for use as region - of - interest markers . ROI class automatically handles extraction
of array data from ImageItems .
The ROI class is meant to serve as the base for more specific types ; see several examples
of how to build an ROI at the bottom of the file .
"""
from pyqtgraph . Qt import QtCore , QtGui
#if not hasattr(QtCore, 'Signal'):
#QtCore.Signal = QtCore.pyqtSignal
import numpy as np
from numpy . linalg import norm
import scipy . ndimage as ndimage
from pyqtgraph . Point import *
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from pyqtgraph . SRTTransform import SRTTransform
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from math import cos , sin
import pyqtgraph . functions as fn
from . GraphicsObject import GraphicsObject
from . UIGraphicsItem import UIGraphicsItem
__all__ = [
' ROI ' ,
' TestROI ' , ' RectROI ' , ' EllipseROI ' , ' CircleROI ' , ' PolygonROI ' ,
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' LineROI ' , ' MultiLineROI ' , ' LineSegmentROI ' , ' PolyLineROI ' , ' SpiralROI ' ,
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]
def rectStr ( r ) :
return " [ %f , %f ] + [ %f , %f ] " % ( r . x ( ) , r . y ( ) , r . width ( ) , r . height ( ) )
class ROI ( GraphicsObject ) :
""" Generic region-of-interest widget.
Can be used for implementing many types of selection box with rotate / translate / scale handles .
"""
sigRegionChangeFinished = QtCore . Signal ( object )
sigRegionChangeStarted = QtCore . Signal ( object )
sigRegionChanged = QtCore . Signal ( object )
sigHoverEvent = QtCore . Signal ( object )
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sigClicked = QtCore . Signal ( object , object )
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sigRemoveRequested = QtCore . Signal ( object )
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def __init__ ( self , pos , size = Point ( 1 , 1 ) , angle = 0.0 , invertible = False , maxBounds = None , snapSize = 1.0 , scaleSnap = False , translateSnap = False , rotateSnap = False , parent = None , pen = None , movable = True , removable = False ) :
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#QObjectWorkaround.__init__(self)
GraphicsObject . __init__ ( self , parent )
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self . setAcceptedMouseButtons ( QtCore . Qt . NoButton )
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pos = Point ( pos )
size = Point ( size )
self . aspectLocked = False
self . translatable = movable
self . rotateAllowed = True
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self . removable = removable
self . menu = None
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self . freeHandleMoved = False ## keep track of whether free handles have moved since last change signal was emitted.
self . mouseHovering = False
if pen is None :
pen = ( 255 , 255 , 255 )
self . setPen ( pen )
self . handlePen = QtGui . QPen ( QtGui . QColor ( 150 , 255 , 255 ) )
self . handles = [ ]
self . state = { ' pos ' : Point ( 0 , 0 ) , ' size ' : Point ( 1 , 1 ) , ' angle ' : 0 } ## angle is in degrees for ease of Qt integration
self . lastState = None
self . setPos ( pos )
self . setAngle ( angle )
self . setSize ( size )
self . setZValue ( 10 )
self . isMoving = False
self . handleSize = 5
self . invertible = invertible
self . maxBounds = maxBounds
self . snapSize = snapSize
self . translateSnap = translateSnap
self . rotateSnap = rotateSnap
self . scaleSnap = scaleSnap
#self.setFlag(self.ItemIsSelectable, True)
def getState ( self ) :
return self . stateCopy ( )
def stateCopy ( self ) :
sc = { }
sc [ ' pos ' ] = Point ( self . state [ ' pos ' ] )
sc [ ' size ' ] = Point ( self . state [ ' size ' ] )
sc [ ' angle ' ] = self . state [ ' angle ' ]
return sc
def saveState ( self ) :
""" Return the state of the widget in a format suitable for storing to disk. (Points are converted to tuple) """
state = { }
state [ ' pos ' ] = tuple ( self . state [ ' pos ' ] )
state [ ' size ' ] = tuple ( self . state [ ' size ' ] )
state [ ' angle ' ] = self . state [ ' angle ' ]
return state
def setState ( self , state , update = True ) :
self . setPos ( state [ ' pos ' ] , update = False )
self . setSize ( state [ ' size ' ] , update = False )
self . setAngle ( state [ ' angle ' ] , update = update )
def setZValue ( self , z ) :
QtGui . QGraphicsItem . setZValue ( self , z )
for h in self . handles :
h [ ' item ' ] . setZValue ( z + 1 )
def parentBounds ( self ) :
return self . mapToParent ( self . boundingRect ( ) ) . boundingRect ( )
def setPen ( self , pen ) :
self . pen = fn . mkPen ( pen )
self . currentPen = self . pen
self . update ( )
def size ( self ) :
return self . getState ( ) [ ' size ' ]
def pos ( self ) :
return self . getState ( ) [ ' pos ' ]
def angle ( self ) :
return self . getState ( ) [ ' angle ' ]
def setPos ( self , pos , update = True , finish = True ) :
""" Set the position of the ROI (in the parent ' s coordinate system).
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By default , this will cause both sigRegionChanged and sigRegionChangeFinished to be emitted .
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If finish is False , then sigRegionChangeFinished will not be emitted . You can then use
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stateChangeFinished ( ) to cause the signal to be emitted after a series of state changes .
If update is False , the state change will be remembered but not processed and no signals
will be emitted . You can then use stateChanged ( ) to complete the state change . This allows
multiple change functions to be called sequentially while minimizing processing overhead
and repeated signals . Setting update = False also forces finish = False .
"""
pos = Point ( pos )
self . state [ ' pos ' ] = pos
QtGui . QGraphicsItem . setPos ( self , pos )
if update :
self . stateChanged ( finish = finish )
def setSize ( self , size , update = True , finish = True ) :
""" Set the size of the ROI. May be specified as a QPoint, Point, or list of two values.
See setPos ( ) for an explanation of the update and finish arguments .
"""
size = Point ( size )
self . prepareGeometryChange ( )
self . state [ ' size ' ] = size
if update :
self . stateChanged ( finish = finish )
def setAngle ( self , angle , update = True , finish = True ) :
""" Set the angle of rotation (in degrees) for this ROI.
See setPos ( ) for an explanation of the update and finish arguments .
"""
self . state [ ' angle ' ] = angle
tr = QtGui . QTransform ( )
#tr.rotate(-angle * 180 / np.pi)
tr . rotate ( angle )
self . setTransform ( tr )
if update :
self . stateChanged ( finish = finish )
def scale ( self , s , center = [ 0 , 0 ] , update = True , finish = True ) :
"""
Resize the ROI by scaling relative to * center * .
See setPos ( ) for an explanation of the * update * and * finish * arguments .
"""
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c = self . mapToParent ( Point ( center ) * self . state [ ' size ' ] )
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self . prepareGeometryChange ( )
newSize = self . state [ ' size ' ] * s
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c1 = self . mapToParent ( Point ( center ) * newSize )
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newPos = self . state [ ' pos ' ] + c - c1
self . setSize ( newSize , update = False )
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self . setPos ( newPos , update = update , finish = finish )
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def translate ( self , * args , * * kargs ) :
"""
Move the ROI to a new position .
Accepts either ( x , y , snap ) or ( [ x , y ] , snap ) as arguments
If the ROI is bounded and the move would exceed boundaries , then the ROI
is moved to the nearest acceptable position instead .
snap can be :
None ( default ) : use self . translateSnap and self . snapSize to determine whether / how to snap
False : do not snap
Point ( w , h ) snap to rectangular grid with spacing ( w , h )
True : snap using self . snapSize ( and ignoring self . translateSnap )
Also accepts * update * and * finish * arguments ( see setPos ( ) for a description of these ) .
"""
if len ( args ) == 1 :
pt = args [ 0 ]
else :
pt = args
newState = self . stateCopy ( )
newState [ ' pos ' ] = newState [ ' pos ' ] + pt
## snap position
#snap = kargs.get('snap', None)
#if (snap is not False) and not (snap is None and self.translateSnap is False):
snap = kargs . get ( ' snap ' , None )
if snap is None :
snap = self . translateSnap
if snap is not False :
newState [ ' pos ' ] = self . getSnapPosition ( newState [ ' pos ' ] , snap = snap )
#d = ev.scenePos() - self.mapToScene(self.pressPos)
if self . maxBounds is not None :
r = self . stateRect ( newState )
#r0 = self.sceneTransform().mapRect(self.boundingRect())
d = Point ( 0 , 0 )
if self . maxBounds . left ( ) > r . left ( ) :
d [ 0 ] = self . maxBounds . left ( ) - r . left ( )
elif self . maxBounds . right ( ) < r . right ( ) :
d [ 0 ] = self . maxBounds . right ( ) - r . right ( )
if self . maxBounds . top ( ) > r . top ( ) :
d [ 1 ] = self . maxBounds . top ( ) - r . top ( )
elif self . maxBounds . bottom ( ) < r . bottom ( ) :
d [ 1 ] = self . maxBounds . bottom ( ) - r . bottom ( )
newState [ ' pos ' ] + = d
#self.state['pos'] = newState['pos']
update = kargs . get ( ' update ' , True )
finish = kargs . get ( ' finish ' , True )
self . setPos ( newState [ ' pos ' ] , update = update , finish = finish )
#if 'update' not in kargs or kargs['update'] is True:
#self.stateChanged()
def rotate ( self , angle , update = True , finish = True ) :
self . setAngle ( self . angle ( ) + angle , update = update , finish = finish )
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def handleMoveStarted ( self ) :
self . preMoveState = self . getState ( )
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def addTranslateHandle ( self , pos , axes = None , item = None , name = None , index = None ) :
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pos = Point ( pos )
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return self . addHandle ( { ' name ' : name , ' type ' : ' t ' , ' pos ' : pos , ' item ' : item } , index = index )
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def addFreeHandle ( self , pos = None , axes = None , item = None , name = None , index = None ) :
if pos is not None :
pos = Point ( pos )
return self . addHandle ( { ' name ' : name , ' type ' : ' f ' , ' pos ' : pos , ' item ' : item } , index = index )
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def addScaleHandle ( self , pos , center , axes = None , item = None , name = None , lockAspect = False , index = None ) :
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pos = Point ( pos )
center = Point ( center )
info = { ' name ' : name , ' type ' : ' s ' , ' center ' : center , ' pos ' : pos , ' item ' : item , ' lockAspect ' : lockAspect }
if pos . x ( ) == center . x ( ) :
info [ ' xoff ' ] = True
if pos . y ( ) == center . y ( ) :
info [ ' yoff ' ] = True
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return self . addHandle ( info , index = index )
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def addRotateHandle ( self , pos , center , item = None , name = None , index = None ) :
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pos = Point ( pos )
center = Point ( center )
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return self . addHandle ( { ' name ' : name , ' type ' : ' r ' , ' center ' : center , ' pos ' : pos , ' item ' : item } , index = index )
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def addScaleRotateHandle ( self , pos , center , item = None , name = None , index = None ) :
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pos = Point ( pos )
center = Point ( center )
if pos [ 0 ] != center [ 0 ] and pos [ 1 ] != center [ 1 ] :
raise Exception ( " Scale/rotate handles must have either the same x or y coordinate as their center point. " )
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return self . addHandle ( { ' name ' : name , ' type ' : ' sr ' , ' center ' : center , ' pos ' : pos , ' item ' : item } , index = index )
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def addRotateFreeHandle ( self , pos , center , axes = None , item = None , name = None , index = None ) :
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pos = Point ( pos )
center = Point ( center )
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return self . addHandle ( { ' name ' : name , ' type ' : ' rf ' , ' center ' : center , ' pos ' : pos , ' item ' : item } , index = index )
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def addHandle ( self , info , index = None ) :
## If a Handle was not supplied, create it now
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if ' item ' not in info or info [ ' item ' ] is None :
h = Handle ( self . handleSize , typ = info [ ' type ' ] , pen = self . handlePen , parent = self )
h . setPos ( info [ ' pos ' ] * self . state [ ' size ' ] )
info [ ' item ' ] = h
else :
h = info [ ' item ' ]
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if info [ ' pos ' ] is None :
info [ ' pos ' ] = h . pos ( )
## connect the handle to this ROI
#iid = len(self.handles)
h . connectROI ( self )
if index is None :
self . handles . append ( info )
else :
self . handles . insert ( index , info )
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h . setZValue ( self . zValue ( ) + 1 )
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self . stateChanged ( )
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return h
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def indexOfHandle ( self , handle ) :
if isinstance ( handle , Handle ) :
index = [ i for i , info in enumerate ( self . handles ) if info [ ' item ' ] is handle ]
if len ( index ) == 0 :
raise Exception ( " Cannot remove handle; it is not attached to this ROI " )
return index [ 0 ]
else :
return handle
def removeHandle ( self , handle ) :
""" Remove a handle from this ROI. Argument may be either a Handle instance or the integer index of the handle. """
index = self . indexOfHandle ( handle )
handle = self . handles [ index ] [ ' item ' ]
self . handles . pop ( index )
handle . disconnectROI ( self )
if len ( handle . rois ) == 0 :
self . scene ( ) . removeItem ( handle )
self . stateChanged ( )
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def replaceHandle ( self , oldHandle , newHandle ) :
""" Replace one handle in the ROI for another. This is useful when connecting multiple ROIs together.
* oldHandle * may be a Handle instance or the index of a handle . """
#print "========================="
#print "replace", oldHandle, newHandle
#print self
#print self.handles
#print "-----------------"
index = self . indexOfHandle ( oldHandle )
info = self . handles [ index ]
self . removeHandle ( index )
info [ ' item ' ] = newHandle
info [ ' pos ' ] = newHandle . pos ( )
self . addHandle ( info , index = index )
#print self.handles
def checkRemoveHandle ( self , handle ) :
## This is used when displaying a Handle's context menu to determine
## whether removing is allowed.
## Subclasses may wish to override this to disable the menu entry.
## Note: by default, handles are not user-removable even if this method returns True.
return True
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def getLocalHandlePositions ( self , index = None ) :
""" Returns the position of a handle in ROI coordinates """
if index == None :
positions = [ ]
for h in self . handles :
positions . append ( ( h [ ' name ' ] , h [ ' pos ' ] ) )
return positions
else :
return ( self . handles [ index ] [ ' name ' ] , self . handles [ index ] [ ' pos ' ] )
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def getSceneHandlePositions ( self , index = None ) :
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if index == None :
positions = [ ]
for h in self . handles :
positions . append ( ( h [ ' name ' ] , h [ ' item ' ] . scenePos ( ) ) )
return positions
else :
return ( self . handles [ index ] [ ' name ' ] , self . handles [ index ] [ ' item ' ] . scenePos ( ) )
def mapSceneToParent ( self , pt ) :
return self . mapToParent ( self . mapFromScene ( pt ) )
def setSelected ( self , s ) :
QtGui . QGraphicsItem . setSelected ( self , s )
#print "select", self, s
if s :
for h in self . handles :
h [ ' item ' ] . show ( )
else :
for h in self . handles :
h [ ' item ' ] . hide ( )
def hoverEvent ( self , ev ) :
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hover = False
if not ev . isExit ( ) :
if self . translatable and ev . acceptDrags ( QtCore . Qt . LeftButton ) :
hover = True
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for btn in [ QtCore . Qt . LeftButton , QtCore . Qt . RightButton , QtCore . Qt . MidButton ] :
if int ( self . acceptedMouseButtons ( ) & btn ) > 0 and ev . acceptClicks ( btn ) :
hover = True
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if self . contextMenuEnabled ( ) :
ev . acceptClicks ( QtCore . Qt . RightButton )
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if hover :
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self . setMouseHover ( True )
self . sigHoverEvent . emit ( self )
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ev . acceptClicks ( QtCore . Qt . LeftButton ) ## If the ROI is hilighted, we should accept all clicks to avoid confusion.
ev . acceptClicks ( QtCore . Qt . RightButton )
ev . acceptClicks ( QtCore . Qt . MidButton )
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else :
self . setMouseHover ( False )
def setMouseHover ( self , hover ) :
## Inform the ROI that the mouse is(not) hovering over it
if self . mouseHovering == hover :
return
self . mouseHovering = hover
if hover :
self . currentPen = fn . mkPen ( 255 , 255 , 0 )
else :
self . currentPen = self . pen
self . update ( )
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def contextMenuEnabled ( self ) :
return self . removable
def raiseContextMenu ( self , ev ) :
if not self . contextMenuEnabled ( ) :
return
menu = self . getMenu ( )
menu = self . scene ( ) . addParentContextMenus ( self , menu , ev )
pos = ev . screenPos ( )
menu . popup ( QtCore . QPoint ( pos . x ( ) , pos . y ( ) ) )
def getMenu ( self ) :
if self . menu is None :
self . menu = QtGui . QMenu ( )
self . menu . setTitle ( " ROI " )
remAct = QtGui . QAction ( " Remove ROI " , self . menu )
remAct . triggered . connect ( self . removeClicked )
self . menu . addAction ( remAct )
self . menu . remAct = remAct
return self . menu
def removeClicked ( self ) :
## Send remove event only after we have exited the menu event handler
self . removeTimer = QtCore . QTimer ( )
self . removeTimer . timeout . connect ( lambda : self . sigRemoveRequested . emit ( self ) )
self . removeTimer . start ( 0 )
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def mouseDragEvent ( self , ev ) :
if ev . isStart ( ) :
#p = ev.pos()
#if not self.isMoving and not self.shape().contains(p):
#ev.ignore()
#return
if ev . button ( ) == QtCore . Qt . LeftButton :
self . setSelected ( True )
if self . translatable :
self . isMoving = True
self . preMoveState = self . getState ( )
self . cursorOffset = self . pos ( ) - self . mapToParent ( ev . buttonDownPos ( ) )
self . sigRegionChangeStarted . emit ( self )
ev . accept ( )
else :
ev . ignore ( )
elif ev . isFinish ( ) :
if self . translatable :
if self . isMoving :
self . stateChangeFinished ( )
self . isMoving = False
return
if self . translatable and self . isMoving and ev . buttons ( ) == QtCore . Qt . LeftButton :
snap = True if ( ev . modifiers ( ) & QtCore . Qt . ControlModifier ) else None
newPos = self . mapToParent ( ev . pos ( ) ) + self . cursorOffset
self . translate ( newPos - self . pos ( ) , snap = snap , finish = False )
def mouseClickEvent ( self , ev ) :
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if ev . button ( ) == QtCore . Qt . RightButton and self . isMoving :
ev . accept ( )
self . cancelMove ( )
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if ev . button ( ) == QtCore . Qt . RightButton and self . contextMenuEnabled ( ) :
self . raiseContextMenu ( ev )
ev . accept ( )
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elif int ( ev . button ( ) & self . acceptedMouseButtons ( ) ) > 0 :
ev . accept ( )
self . sigClicked . emit ( self , ev )
else :
ev . ignore ( )
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def cancelMove ( self ) :
self . isMoving = False
self . setState ( self . preMoveState )
#def pointDragEvent(self, pt, ev):
### just for handling drag start/stop.
### drag moves are handled through movePoint()
#if ev.isStart():
#self.isMoving = True
#self.preMoveState = self.getState()
#self.sigRegionChangeStarted.emit(self)
#elif ev.isFinish():
#self.isMoving = False
#self.sigRegionChangeFinished.emit(self)
#return
#def pointPressEvent(self, pt, ev):
##print "press"
#self.isMoving = True
#self.preMoveState = self.getState()
##self.emit(QtCore.SIGNAL('regionChangeStarted'), self)
#self.sigRegionChangeStarted.emit(self)
##self.pressPos = self.mapFromScene(ev.scenePos())
##self.pressHandlePos = self.handles[pt]['item'].pos()
#def pointReleaseEvent(self, pt, ev):
##print "release"
#self.isMoving = False
##self.emit(QtCore.SIGNAL('regionChangeFinished'), self)
#self.sigRegionChangeFinished.emit(self)
#def pointMoveEvent(self, pt, ev):
#self.movePoint(pt, ev.scenePos(), ev.modifiers())
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def checkPointMove ( self , handle , pos , modifiers ) :
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""" When handles move, they must ask the ROI if the move is acceptable.
By default , this always returns True . Subclasses may wish override .
"""
return True
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def movePoint ( self , handle , pos , modifiers = QtCore . Qt . KeyboardModifier ( ) , finish = True ) :
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## called by Handles when they are moved.
## pos is the new position of the handle in scene coords, as requested by the handle.
newState = self . stateCopy ( )
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index = self . indexOfHandle ( handle )
h = self . handles [ index ]
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p0 = self . mapToScene ( h [ ' pos ' ] * self . state [ ' size ' ] )
p1 = Point ( pos )
## transform p0 and p1 into parent's coordinates (same as scene coords if there is no parent). I forget why.
p0 = self . mapSceneToParent ( p0 )
p1 = self . mapSceneToParent ( p1 )
## Handles with a 'center' need to know their local position relative to the center point (lp0, lp1)
if ' center ' in h :
c = h [ ' center ' ]
cs = c * self . state [ ' size ' ]
lp0 = self . mapFromParent ( p0 ) - cs
lp1 = self . mapFromParent ( p1 ) - cs
if h [ ' type ' ] == ' t ' :
snap = True if ( modifiers & QtCore . Qt . ControlModifier ) else None
#if self.translateSnap or ():
#snap = Point(self.snapSize, self.snapSize)
self . translate ( p1 - p0 , snap = snap , update = False )
elif h [ ' type ' ] == ' f ' :
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newPos = self . mapFromScene ( pos )
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h [ ' item ' ] . setPos ( self . mapFromScene ( pos ) )
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h [ ' pos ' ] = newPos
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self . freeHandleMoved = True
#self.sigRegionChanged.emit(self) ## should be taken care of by call to stateChanged()
elif h [ ' type ' ] == ' s ' :
## If a handle and its center have the same x or y value, we can't scale across that axis.
if h [ ' center ' ] [ 0 ] == h [ ' pos ' ] [ 0 ] :
lp1 [ 0 ] = 0
if h [ ' center ' ] [ 1 ] == h [ ' pos ' ] [ 1 ] :
lp1 [ 1 ] = 0
## snap
if self . scaleSnap or ( modifiers & QtCore . Qt . ControlModifier ) :
lp1 [ 0 ] = round ( lp1 [ 0 ] / self . snapSize ) * self . snapSize
lp1 [ 1 ] = round ( lp1 [ 1 ] / self . snapSize ) * self . snapSize
## preserve aspect ratio (this can override snapping)
if h [ ' lockAspect ' ] or ( modifiers & QtCore . Qt . AltModifier ) :
#arv = Point(self.preMoveState['size']) -
lp1 = lp1 . proj ( lp0 )
## determine scale factors and new size of ROI
hs = h [ ' pos ' ] - c
if hs [ 0 ] == 0 :
hs [ 0 ] = 1
if hs [ 1 ] == 0 :
hs [ 1 ] = 1
newSize = lp1 / hs
## Perform some corrections and limit checks
if newSize [ 0 ] == 0 :
newSize [ 0 ] = newState [ ' size ' ] [ 0 ]
if newSize [ 1 ] == 0 :
newSize [ 1 ] = newState [ ' size ' ] [ 1 ]
if not self . invertible :
if newSize [ 0 ] < 0 :
newSize [ 0 ] = newState [ ' size ' ] [ 0 ]
if newSize [ 1 ] < 0 :
newSize [ 1 ] = newState [ ' size ' ] [ 1 ]
if self . aspectLocked :
newSize [ 0 ] = newSize [ 1 ]
## Move ROI so the center point occupies the same scene location after the scale
s0 = c * self . state [ ' size ' ]
s1 = c * newSize
cc = self . mapToParent ( s0 - s1 ) - self . mapToParent ( Point ( 0 , 0 ) )
## update state, do more boundary checks
newState [ ' size ' ] = newSize
newState [ ' pos ' ] = newState [ ' pos ' ] + cc
if self . maxBounds is not None :
r = self . stateRect ( newState )
if not self . maxBounds . contains ( r ) :
return
self . setPos ( newState [ ' pos ' ] , update = False )
self . setSize ( newState [ ' size ' ] , update = False )
elif h [ ' type ' ] in [ ' r ' , ' rf ' ] :
if h [ ' type ' ] == ' rf ' :
self . freeHandleMoved = True
if not self . rotateAllowed :
return
## If the handle is directly over its center point, we can't compute an angle.
if lp1 . length ( ) == 0 or lp0 . length ( ) == 0 :
return
## determine new rotation angle, constrained if necessary
ang = newState [ ' angle ' ] - lp0 . angle ( lp1 )
if ang is None : ## this should never happen..
return
if self . rotateSnap or ( modifiers & QtCore . Qt . ControlModifier ) :
ang = round ( ang / 15. ) * 15. ## 180/12 = 15
## create rotation transform
tr = QtGui . QTransform ( )
tr . rotate ( ang )
## move ROI so that center point remains stationary after rotate
cc = self . mapToParent ( cs ) - ( tr . map ( cs ) + self . state [ ' pos ' ] )
newState [ ' angle ' ] = ang
newState [ ' pos ' ] = newState [ ' pos ' ] + cc
## check boundaries, update
if self . maxBounds is not None :
r = self . stateRect ( newState )
if not self . maxBounds . contains ( r ) :
return
#self.setTransform(tr)
self . setPos ( newState [ ' pos ' ] , update = False )
self . setAngle ( ang , update = False )
#self.state = newState
## If this is a free-rotate handle, its distance from the center may change.
if h [ ' type ' ] == ' rf ' :
h [ ' item ' ] . setPos ( self . mapFromScene ( p1 ) ) ## changes ROI coordinates of handle
elif h [ ' type ' ] == ' sr ' :
if h [ ' center ' ] [ 0 ] == h [ ' pos ' ] [ 0 ] :
scaleAxis = 1
else :
scaleAxis = 0
if lp1 . length ( ) == 0 or lp0 . length ( ) == 0 :
return
ang = newState [ ' angle ' ] - lp0 . angle ( lp1 )
if ang is None :
return
if self . rotateSnap or ( modifiers & QtCore . Qt . ControlModifier ) :
#ang = round(ang / (np.pi/12.)) * (np.pi/12.)
ang = round ( ang / 15. ) * 15.
hs = abs ( h [ ' pos ' ] [ scaleAxis ] - c [ scaleAxis ] )
newState [ ' size ' ] [ scaleAxis ] = lp1 . length ( ) / hs
#if self.scaleSnap or (modifiers & QtCore.Qt.ControlModifier):
if self . scaleSnap : ## use CTRL only for angular snap here.
newState [ ' size ' ] [ scaleAxis ] = round ( newState [ ' size ' ] [ scaleAxis ] / self . snapSize ) * self . snapSize
if newState [ ' size ' ] [ scaleAxis ] == 0 :
newState [ ' size ' ] [ scaleAxis ] = 1
c1 = c * newState [ ' size ' ]
tr = QtGui . QTransform ( )
tr . rotate ( ang )
cc = self . mapToParent ( cs ) - ( tr . map ( c1 ) + self . state [ ' pos ' ] )
newState [ ' angle ' ] = ang
newState [ ' pos ' ] = newState [ ' pos ' ] + cc
if self . maxBounds is not None :
r = self . stateRect ( newState )
if not self . maxBounds . contains ( r ) :
return
#self.setTransform(tr)
#self.setPos(newState['pos'], update=False)
#self.prepareGeometryChange()
#self.state = newState
self . setState ( newState , update = False )
self . stateChanged ( finish = finish )
def stateChanged ( self , finish = True ) :
""" Process changes to the state of the ROI.
If there are any changes , then the positions of handles are updated accordingly
and sigRegionChanged is emitted . If finish is True , then
sigRegionChangeFinished will also be emitted . """
changed = False
if self . lastState is None :
changed = True
else :
for k in list ( self . state . keys ( ) ) :
if self . state [ k ] != self . lastState [ k ] :
changed = True
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self . prepareGeometryChange ( )
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if changed :
## Move all handles to match the current configuration of the ROI
for h in self . handles :
if h [ ' item ' ] in self . childItems ( ) :
p = h [ ' pos ' ]
h [ ' item ' ] . setPos ( h [ ' pos ' ] * self . state [ ' size ' ] )
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#else:
# trans = self.state['pos']-self.lastState['pos']
# h['item'].setPos(h['pos'] + h['item'].parentItem().mapFromParent(trans))
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self . update ( )
self . sigRegionChanged . emit ( self )
elif self . freeHandleMoved :
self . sigRegionChanged . emit ( self )
self . freeHandleMoved = False
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self . lastState = self . stateCopy ( )
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if finish :
self . stateChangeFinished ( )
def stateChangeFinished ( self ) :
self . sigRegionChangeFinished . emit ( self )
def stateRect ( self , state ) :
r = QtCore . QRectF ( 0 , 0 , state [ ' size ' ] [ 0 ] , state [ ' size ' ] [ 1 ] )
tr = QtGui . QTransform ( )
#tr.rotate(-state['angle'] * 180 / np.pi)
tr . rotate ( - state [ ' angle ' ] )
r = tr . mapRect ( r )
return r . adjusted ( state [ ' pos ' ] [ 0 ] , state [ ' pos ' ] [ 1 ] , state [ ' pos ' ] [ 0 ] , state [ ' pos ' ] [ 1 ] )
def getSnapPosition ( self , pos , snap = None ) :
## Given that pos has been requested, return the nearest snap-to position
## optionally, snap may be passed in to specify a rectangular snap grid.
## override this function for more interesting snap functionality..
if snap is None or snap is True :
if self . snapSize is None :
return pos
snap = Point ( self . snapSize , self . snapSize )
return Point (
round ( pos [ 0 ] / snap [ 0 ] ) * snap [ 0 ] ,
round ( pos [ 1 ] / snap [ 1 ] ) * snap [ 1 ]
)
def boundingRect ( self ) :
return QtCore . QRectF ( 0 , 0 , self . state [ ' size ' ] [ 0 ] , self . state [ ' size ' ] [ 1 ] ) . normalized ( )
def paint ( self , p , opt , widget ) :
p . save ( )
r = self . boundingRect ( )
p . setRenderHint ( QtGui . QPainter . Antialiasing )
p . setPen ( self . currentPen )
p . translate ( r . left ( ) , r . top ( ) )
p . scale ( r . width ( ) , r . height ( ) )
p . drawRect ( 0 , 0 , 1 , 1 )
p . restore ( )
def getArraySlice ( self , data , img , axes = ( 0 , 1 ) , returnSlice = True ) :
""" Return a tuple of slice objects that can be used to slice the region from data covered by this ROI.
Also returns the transform which maps the ROI into data coordinates .
If returnSlice is set to False , the function returns a pair of tuples with the values that would have
been used to generate the slice objects . ( ( ax0Start , ax0Stop ) , ( ax1Start , ax1Stop ) ) """
#print "getArraySlice"
## Determine shape of array along ROI axes
dShape = ( data . shape [ axes [ 0 ] ] , data . shape [ axes [ 1 ] ] )
#print " dshape", dShape
## Determine transform that maps ROI bounding box to image coordinates
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tr = self . sceneTransform ( ) * fn . invertQTransform ( img . sceneTransform ( ) )
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## Modify transform to scale from image coords to data coords
#m = QtGui.QTransform()
tr . scale ( float ( dShape [ 0 ] ) / img . width ( ) , float ( dShape [ 1 ] ) / img . height ( ) )
#tr = tr * m
## Transform ROI bounds into data bounds
dataBounds = tr . mapRect ( self . boundingRect ( ) )
#print " boundingRect:", self.boundingRect()
#print " dataBounds:", dataBounds
## Intersect transformed ROI bounds with data bounds
intBounds = dataBounds . intersect ( QtCore . QRectF ( 0 , 0 , dShape [ 0 ] , dShape [ 1 ] ) )
#print " intBounds:", intBounds
## Determine index values to use when referencing the array.
bounds = (
( int ( min ( intBounds . left ( ) , intBounds . right ( ) ) ) , int ( 1 + max ( intBounds . left ( ) , intBounds . right ( ) ) ) ) ,
( int ( min ( intBounds . bottom ( ) , intBounds . top ( ) ) ) , int ( 1 + max ( intBounds . bottom ( ) , intBounds . top ( ) ) ) )
)
#print " bounds:", bounds
if returnSlice :
## Create slice objects
sl = [ slice ( None ) ] * data . ndim
sl [ axes [ 0 ] ] = slice ( * bounds [ 0 ] )
sl [ axes [ 1 ] ] = slice ( * bounds [ 1 ] )
return tuple ( sl ) , tr
else :
return bounds , tr
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def getArrayRegion ( self , data , img , axes = ( 0 , 1 ) , returnMappedCoords = False , * * kwds ) :
""" Use the position and orientation of this ROI relative to an imageItem to pull a slice from an array.
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This method uses : func : ` affineSlice < pyqtgraph . affineSlice > ` to generate
the slice from * data * and uses : func : ` getAffineSliceParams < pyqtgraph . ROI . getAffineSliceParams > ` to determine the parameters to
pass to : func : ` affineSlice < pyqtgraph . affineSlice > ` .
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If * returnMappedCoords * is True , then the method returns a tuple ( result , coords )
such that coords is the set of coordinates used to interpolate values from the original
data , mapped into the parent coordinate system of the image . This is useful , when slicing
data from images that have been transformed , for determining the location of each value
in the sliced data .
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All extra keyword arguments are passed to : func : ` affineSlice < pyqtgraph . affineSlice > ` .
"""
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shape , vectors , origin = self . getAffineSliceParams ( data , img , axes )
if not returnMappedCoords :
return fn . affineSlice ( data , shape = shape , vectors = vectors , origin = origin , axes = axes , * * kwds )
else :
kwds [ ' returnCoords ' ] = True
result , coords = fn . affineSlice ( data , shape = shape , vectors = vectors , origin = origin , axes = axes , * * kwds )
tr = fn . transformToArray ( img . transform ( ) ) [ : , : 2 ] . reshape ( ( 3 , 2 ) + ( 1 , ) * ( coords . ndim - 1 ) )
coords = coords [ np . newaxis , . . . ]
mapped = ( tr * coords ) . sum ( axis = 0 )
return result , mapped
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### transpose data so x and y are the first 2 axes
#trAx = range(0, data.ndim)
#trAx.remove(axes[0])
#trAx.remove(axes[1])
#tr1 = tuple(axes) + tuple(trAx)
#arr = data.transpose(tr1)
### Determine the minimal area of the data we will need
#(dataBounds, roiDataTransform) = self.getArraySlice(data, img, returnSlice=False, axes=axes)
### Pad data boundaries by 1px if possible
#dataBounds = (
#(max(dataBounds[0][0]-1, 0), min(dataBounds[0][1]+1, arr.shape[0])),
#(max(dataBounds[1][0]-1, 0), min(dataBounds[1][1]+1, arr.shape[1]))
#)
### Extract minimal data from array
#arr1 = arr[dataBounds[0][0]:dataBounds[0][1], dataBounds[1][0]:dataBounds[1][1]]
### Update roiDataTransform to reflect this extraction
#roiDataTransform *= QtGui.QTransform().translate(-dataBounds[0][0], -dataBounds[1][0])
#### (roiDataTransform now maps from ROI coords to extracted data coords)
### Rotate array
#if abs(self.state['angle']) > 1e-5:
#arr2 = ndimage.rotate(arr1, self.state['angle'] * 180 / np.pi, order=1)
### update data transforms to reflect this rotation
#rot = QtGui.QTransform().rotate(self.state['angle'] * 180 / np.pi)
#roiDataTransform *= rot
### The rotation also causes a shift which must be accounted for:
#dataBound = QtCore.QRectF(0, 0, arr1.shape[0], arr1.shape[1])
#rotBound = rot.mapRect(dataBound)
#roiDataTransform *= QtGui.QTransform().translate(-rotBound.left(), -rotBound.top())
#else:
#arr2 = arr1
#### Shift off partial pixels
## 1. map ROI into current data space
#roiBounds = roiDataTransform.mapRect(self.boundingRect())
## 2. Determine amount to shift data
#shift = (int(roiBounds.left()) - roiBounds.left(), int(roiBounds.bottom()) - roiBounds.bottom())
#if abs(shift[0]) > 1e-6 or abs(shift[1]) > 1e-6:
## 3. pad array with 0s before shifting
#arr2a = np.zeros((arr2.shape[0]+2, arr2.shape[1]+2) + arr2.shape[2:], dtype=arr2.dtype)
#arr2a[1:-1, 1:-1] = arr2
## 4. shift array and udpate transforms
#arr3 = ndimage.shift(arr2a, shift + (0,)*(arr2.ndim-2), order=1)
#roiDataTransform *= QtGui.QTransform().translate(1+shift[0], 1+shift[1])
#else:
#arr3 = arr2
#### Extract needed region from rotated/shifted array
## 1. map ROI into current data space (round these values off--they should be exact integer values at this point)
#roiBounds = roiDataTransform.mapRect(self.boundingRect())
##print self, roiBounds.height()
##import traceback
##traceback.print_stack()
#roiBounds = QtCore.QRect(round(roiBounds.left()), round(roiBounds.top()), round(roiBounds.width()), round(roiBounds.height()))
##2. intersect ROI with data bounds
#dataBounds = roiBounds.intersect(QtCore.QRect(0, 0, arr3.shape[0], arr3.shape[1]))
##3. Extract data from array
#db = dataBounds
#bounds = (
#(db.left(), db.right()+1),
#(db.top(), db.bottom()+1)
#)
#arr4 = arr3[bounds[0][0]:bounds[0][1], bounds[1][0]:bounds[1][1]]
#### Create zero array in size of ROI
#arr5 = np.zeros((roiBounds.width(), roiBounds.height()) + arr4.shape[2:], dtype=arr4.dtype)
### Fill array with ROI data
#orig = Point(dataBounds.topLeft() - roiBounds.topLeft())
#subArr = arr5[orig[0]:orig[0]+arr4.shape[0], orig[1]:orig[1]+arr4.shape[1]]
#subArr[:] = arr4[:subArr.shape[0], :subArr.shape[1]]
### figure out the reverse transpose order
#tr2 = np.array(tr1)
#for i in range(0, len(tr2)):
#tr2[tr1[i]] = i
#tr2 = tuple(tr2)
### Untranspose array before returning
#return arr5.transpose(tr2)
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def getAffineSliceParams ( self , data , img , axes = ( 0.1 ) ) :
"""
Returns the parameters needed to use : func : ` affineSlice < pyqtgraph . affineSlice > ` to
extract a subset of * data * using this ROI and * img * to specify the subset .
See : func : ` getArrayRegion < pyqtgraph . ROI . getArrayRegion > ` for more information .
"""
shape = self . state [ ' size ' ]
origin = self . mapToItem ( img , QtCore . QPointF ( 0 , 0 ) )
## vx and vy point in the directions of the slice axes, but must be scaled properly
vx = self . mapToItem ( img , QtCore . QPointF ( 1 , 0 ) ) - origin
vy = self . mapToItem ( img , QtCore . QPointF ( 0 , 1 ) ) - origin
lvx = np . sqrt ( vx . x ( ) * * 2 + vx . y ( ) * * 2 )
lvy = np . sqrt ( vy . x ( ) * * 2 + vy . y ( ) * * 2 )
pxLen = img . width ( ) / float ( data . shape [ axes [ 0 ] ] )
#img.width is number of pixels or width of item?
#need pxWidth and pxHeight instead of pxLen ?
sx = pxLen / lvx
sy = pxLen / lvy
vectors = ( ( vx . x ( ) * sx , vx . y ( ) * sx ) , ( vy . x ( ) * sy , vy . y ( ) * sy ) )
shape = self . state [ ' size ' ]
shape = [ abs ( shape [ 0 ] / sx ) , abs ( shape [ 1 ] / sy ) ]
origin = ( origin . x ( ) , origin . y ( ) )
return shape , vectors , origin
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def getGlobalTransform ( self , relativeTo = None ) :
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""" Return global transformation (rotation angle+translation) required to move
from relative state to current state . If relative state isn ' t specified,
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then we use the state of the ROI when mouse is pressed . """
if relativeTo == None :
relativeTo = self . preMoveState
st = self . getState ( )
## this is only allowed because we will be comparing the two
relativeTo [ ' scale ' ] = relativeTo [ ' size ' ]
st [ ' scale ' ] = st [ ' size ' ]
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t1 = SRTTransform ( relativeTo )
t2 = SRTTransform ( st )
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return t2 / t1
#st = self.getState()
### rotation
#ang = (st['angle']-relativeTo['angle']) * 180. / 3.14159265358
#rot = QtGui.QTransform()
#rot.rotate(-ang)
### We need to come up with a universal transformation--one that can be applied to other objects
### such that all maintain alignment.
### More specifically, we need to turn the ROI's position and angle into
### a rotation _around the origin_ and a translation.
#p0 = Point(relativeTo['pos'])
### base position, rotated
#p1 = rot.map(p0)
#trans = Point(st['pos']) - p1
#return trans, ang
def applyGlobalTransform ( self , tr ) :
st = self . getState ( )
st [ ' scale ' ] = st [ ' size ' ]
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st = SRTTransform ( st )
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st = ( st * tr ) . saveState ( )
st [ ' size ' ] = st [ ' scale ' ]
self . setState ( st )
class Handle ( UIGraphicsItem ) :
types = { ## defines number of sides, start angle for each handle type
' t ' : ( 4 , np . pi / 4 ) ,
' f ' : ( 4 , np . pi / 4 ) ,
' s ' : ( 4 , 0 ) ,
' r ' : ( 12 , 0 ) ,
' sr ' : ( 12 , 0 ) ,
' rf ' : ( 12 , 0 ) ,
}
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sigClicked = QtCore . Signal ( object , object ) # self, event
sigRemoveRequested = QtCore . Signal ( object ) # self
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def __init__ ( self , radius , typ = None , pen = ( 200 , 200 , 220 ) , parent = None , deletable = False ) :
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#print " create item with parent", parent
#self.bounds = QtCore.QRectF(-1e-10, -1e-10, 2e-10, 2e-10)
#self.setFlags(self.ItemIgnoresTransformations | self.ItemSendsScenePositionChanges)
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self . rois = [ ]
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self . radius = radius
self . typ = typ
self . pen = fn . mkPen ( pen )
self . currentPen = self . pen
self . pen . setWidth ( 0 )
self . pen . setCosmetic ( True )
self . isMoving = False
self . sides , self . startAng = self . types [ typ ]
self . buildPath ( )
self . _shape = None
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self . menu = self . buildMenu ( )
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UIGraphicsItem . __init__ ( self , parent = parent )
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self . setAcceptedMouseButtons ( QtCore . Qt . NoButton )
self . deletable = deletable
if deletable :
self . setAcceptedMouseButtons ( QtCore . Qt . RightButton )
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#self.updateShape()
self . setZValue ( 11 )
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def connectROI ( self , roi ) :
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### roi is the "parent" roi, i is the index of the handle in roi.handles
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self . rois . append ( roi )
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def disconnectROI ( self , roi ) :
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self . rois . remove ( roi )
#for i, r in enumerate(self.roi):
#if r[0] == roi:
#self.roi.pop(i)
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#def close(self):
#for r in self.roi:
#r.removeHandle(self)
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def setDeletable ( self , b ) :
self . deletable = b
if b :
self . setAcceptedMouseButtons ( self . acceptedMouseButtons ( ) | QtCore . Qt . RightButton )
else :
self . setAcceptedMouseButtons ( self . acceptedMouseButtons ( ) & ~ QtCore . Qt . RightButton )
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def removeClicked ( self ) :
self . sigRemoveRequested . emit ( self )
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def hoverEvent ( self , ev ) :
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hover = False
if not ev . isExit ( ) :
if ev . acceptDrags ( QtCore . Qt . LeftButton ) :
hover = True
for btn in [ QtCore . Qt . LeftButton , QtCore . Qt . RightButton , QtCore . Qt . MidButton ] :
if int ( self . acceptedMouseButtons ( ) & btn ) > 0 and ev . acceptClicks ( btn ) :
hover = True
if hover :
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self . currentPen = fn . mkPen ( 255 , 255 , 0 )
else :
self . currentPen = self . pen
self . update ( )
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#if (not ev.isExit()) and ev.acceptDrags(QtCore.Qt.LeftButton):
#self.currentPen = fn.mkPen(255, 255,0)
#else:
#self.currentPen = self.pen
#self.update()
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def mouseClickEvent ( self , ev ) :
## right-click cancels drag
if ev . button ( ) == QtCore . Qt . RightButton and self . isMoving :
self . isMoving = False ## prevents any further motion
self . movePoint ( self . startPos , finish = True )
#for r in self.roi:
#r[0].cancelMove()
ev . accept ( )
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elif int ( ev . button ( ) & self . acceptedMouseButtons ( ) ) > 0 :
ev . accept ( )
if ev . button ( ) == QtCore . Qt . RightButton and self . deletable :
self . raiseContextMenu ( ev )
self . sigClicked . emit ( self , ev )
else :
ev . ignore ( )
#elif self.deletable:
#ev.accept()
#self.raiseContextMenu(ev)
#else:
#ev.ignore()
def buildMenu ( self ) :
menu = QtGui . QMenu ( )
menu . setTitle ( " Handle " )
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self . removeAction = menu . addAction ( " Remove handle " , self . removeClicked )
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return menu
def getMenu ( self ) :
return self . menu
def getContextMenus ( self , event ) :
return [ self . menu ]
def raiseContextMenu ( self , ev ) :
menu = self . scene ( ) . addParentContextMenus ( self , self . getMenu ( ) , ev )
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## Make sure it is still ok to remove this handle
removeAllowed = all ( [ r . checkRemoveHandle ( self ) for r in self . rois ] )
self . removeAction . setEnabled ( removeAllowed )
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pos = ev . screenPos ( )
menu . popup ( QtCore . QPoint ( pos . x ( ) , pos . y ( ) ) )
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def mouseDragEvent ( self , ev ) :
if ev . button ( ) != QtCore . Qt . LeftButton :
return
ev . accept ( )
## Inform ROIs that a drag is happening
## note: the ROI is informed that the handle has moved using ROI.movePoint
## this is for other (more nefarious) purposes.
#for r in self.roi:
#r[0].pointDragEvent(r[1], ev)
if ev . isFinish ( ) :
if self . isMoving :
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for r in self . rois :
r . stateChangeFinished ( )
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self . isMoving = False
elif ev . isStart ( ) :
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for r in self . rois :
r . handleMoveStarted ( )
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self . isMoving = True
self . startPos = self . scenePos ( )
self . cursorOffset = self . scenePos ( ) - ev . buttonDownScenePos ( )
if self . isMoving : ## note: isMoving may become False in mid-drag due to right-click.
pos = ev . scenePos ( ) + self . cursorOffset
self . movePoint ( pos , ev . modifiers ( ) , finish = False )
def movePoint ( self , pos , modifiers = QtCore . Qt . KeyboardModifier ( ) , finish = True ) :
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for r in self . rois :
if not r . checkPointMove ( self , pos , modifiers ) :
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return
#print "point moved; inform %d ROIs" % len(self.roi)
# A handle can be used by multiple ROIs; tell each to update its handle position
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for r in self . rois :
r . movePoint ( self , pos , modifiers , finish = finish )
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def buildPath ( self ) :
size = self . radius
self . path = QtGui . QPainterPath ( )
ang = self . startAng
dt = 2 * np . pi / self . sides
for i in range ( 0 , self . sides + 1 ) :
x = size * cos ( ang )
y = size * sin ( ang )
ang + = dt
if i == 0 :
self . path . moveTo ( x , y )
else :
self . path . lineTo ( x , y )
def paint ( self , p , opt , widget ) :
### determine rotation of transform
#m = self.sceneTransform()
##mi = m.inverted()[0]
#v = m.map(QtCore.QPointF(1, 0)) - m.map(QtCore.QPointF(0, 0))
#va = np.arctan2(v.y(), v.x())
### Determine length of unit vector in painter's coords
##size = mi.map(Point(self.radius, self.radius)) - mi.map(Point(0, 0))
##size = (size.x()*size.x() + size.y() * size.y()) ** 0.5
#size = self.radius
#bounds = QtCore.QRectF(-size, -size, size*2, size*2)
#if bounds != self.bounds:
#self.bounds = bounds
#self.prepareGeometryChange()
p . setRenderHints ( p . Antialiasing , True )
p . setPen ( self . currentPen )
#p.rotate(va * 180. / 3.1415926)
#p.drawPath(self.path)
p . drawPath ( self . shape ( ) )
#ang = self.startAng + va
#dt = 2*np.pi / self.sides
#for i in range(0, self.sides):
#x1 = size * cos(ang)
#y1 = size * sin(ang)
#x2 = size * cos(ang+dt)
#y2 = size * sin(ang+dt)
#ang += dt
#p.drawLine(Point(x1, y1), Point(x2, y2))
def shape ( self ) :
if self . _shape is None :
s = self . generateShape ( )
if s is None :
return self . shape
self . _shape = s
self . prepareGeometryChange ( )
return self . _shape
def boundingRect ( self ) :
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#print 'roi:', self.roi
s1 = self . shape ( )
#print " s1:", s1
#s2 = self.shape()
#print " s2:", s2
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return self . shape ( ) . boundingRect ( )
def generateShape ( self ) :
## determine rotation of transform
#m = self.sceneTransform() ## Qt bug: do not access sceneTransform() until we know this object has a scene.
#mi = m.inverted()[0]
dt = self . deviceTransform ( )
if dt is None :
self . _shape = self . path
return None
v = dt . map ( QtCore . QPointF ( 1 , 0 ) ) - dt . map ( QtCore . QPointF ( 0 , 0 ) )
va = np . arctan2 ( v . y ( ) , v . x ( ) )
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dti = fn . invertQTransform ( dt )
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devPos = dt . map ( QtCore . QPointF ( 0 , 0 ) )
tr = QtGui . QTransform ( )
tr . translate ( devPos . x ( ) , devPos . y ( ) )
tr . rotate ( va * 180. / 3.1415926 )
return dti . map ( tr . map ( self . path ) )
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def viewRangeChanged ( self ) :
GraphicsObject . viewRangeChanged ( self )
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self . _shape = None ## invalidate shape, recompute later if requested.
#self.updateShape()
#def itemChange(self, change, value):
#if change == self.ItemScenePositionHasChanged:
#self.updateShape()
class TestROI ( ROI ) :
def __init__ ( self , pos , size , * * args ) :
#QtGui.QGraphicsRectItem.__init__(self, pos[0], pos[1], size[0], size[1])
ROI . __init__ ( self , pos , size , * * args )
#self.addTranslateHandle([0, 0])
self . addTranslateHandle ( [ 0.5 , 0.5 ] )
self . addScaleHandle ( [ 1 , 1 ] , [ 0 , 0 ] )
self . addScaleHandle ( [ 0 , 0 ] , [ 1 , 1 ] )
self . addScaleRotateHandle ( [ 1 , 0.5 ] , [ 0.5 , 0.5 ] )
self . addScaleHandle ( [ 0.5 , 1 ] , [ 0.5 , 0.5 ] )
self . addRotateHandle ( [ 1 , 0 ] , [ 0 , 0 ] )
self . addRotateHandle ( [ 0 , 1 ] , [ 1 , 1 ] )
class RectROI ( ROI ) :
def __init__ ( self , pos , size , centered = False , sideScalers = False , * * args ) :
#QtGui.QGraphicsRectItem.__init__(self, 0, 0, size[0], size[1])
ROI . __init__ ( self , pos , size , * * args )
if centered :
center = [ 0.5 , 0.5 ]
else :
center = [ 0 , 0 ]
#self.addTranslateHandle(center)
self . addScaleHandle ( [ 1 , 1 ] , center )
if sideScalers :
self . addScaleHandle ( [ 1 , 0.5 ] , [ center [ 0 ] , 0.5 ] )
self . addScaleHandle ( [ 0.5 , 1 ] , [ 0.5 , center [ 1 ] ] )
class LineROI ( ROI ) :
def __init__ ( self , pos1 , pos2 , width , * * args ) :
pos1 = Point ( pos1 )
pos2 = Point ( pos2 )
d = pos2 - pos1
l = d . length ( )
ang = Point ( 1 , 0 ) . angle ( d )
ra = ang * np . pi / 180.
c = Point ( - width / 2. * sin ( ra ) , - width / 2. * cos ( ra ) )
pos1 = pos1 + c
ROI . __init__ ( self , pos1 , size = Point ( l , width ) , angle = ang , * * args )
self . addScaleRotateHandle ( [ 0 , 0.5 ] , [ 1 , 0.5 ] )
self . addScaleRotateHandle ( [ 1 , 0.5 ] , [ 0 , 0.5 ] )
self . addScaleHandle ( [ 0.5 , 1 ] , [ 0.5 , 0.5 ] )
class MultiLineROI ( QtGui . QGraphicsObject ) :
sigRegionChangeFinished = QtCore . Signal ( object )
sigRegionChangeStarted = QtCore . Signal ( object )
sigRegionChanged = QtCore . Signal ( object )
def __init__ ( self , points , width , pen = None , * * args ) :
QtGui . QGraphicsObject . __init__ ( self )
self . pen = pen
self . roiArgs = args
if len ( points ) < 2 :
raise Exception ( " Must start with at least 2 points " )
self . lines = [ ]
self . lines . append ( ROI ( [ 0 , 0 ] , [ 1 , 5 ] , parent = self , pen = pen , * * args ) )
self . lines [ - 1 ] . addScaleHandle ( [ 0.5 , 1 ] , [ 0.5 , 0.5 ] )
h = self . lines [ - 1 ] . addScaleRotateHandle ( [ 0 , 0.5 ] , [ 1 , 0.5 ] )
h . movePoint ( points [ 0 ] )
h . movePoint ( points [ 0 ] )
for i in range ( 1 , len ( points ) ) :
h = self . lines [ - 1 ] . addScaleRotateHandle ( [ 1 , 0.5 ] , [ 0 , 0.5 ] )
if i < len ( points ) - 1 :
self . lines . append ( ROI ( [ 0 , 0 ] , [ 1 , 5 ] , parent = self , pen = pen , * * args ) )
self . lines [ - 1 ] . addScaleRotateHandle ( [ 0 , 0.5 ] , [ 1 , 0.5 ] , item = h )
h . movePoint ( points [ i ] )
h . movePoint ( points [ i ] )
for l in self . lines :
l . translatable = False
l . sigRegionChanged . connect ( self . roiChangedEvent )
l . sigRegionChangeStarted . connect ( self . roiChangeStartedEvent )
l . sigRegionChangeFinished . connect ( self . roiChangeFinishedEvent )
def paint ( self , * args ) :
pass
def boundingRect ( self ) :
return QtCore . QRectF ( )
def roiChangedEvent ( self ) :
w = self . lines [ 0 ] . state [ ' size ' ] [ 1 ]
for l in self . lines [ 1 : ] :
w0 = l . state [ ' size ' ] [ 1 ]
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if w == w0 :
continue
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l . scale ( [ 1.0 , w / w0 ] , center = [ 0.5 , 0.5 ] )
self . sigRegionChanged . emit ( self )
def roiChangeStartedEvent ( self ) :
self . sigRegionChangeStarted . emit ( self )
def roiChangeFinishedEvent ( self ) :
self . sigRegionChangeFinished . emit ( self )
def getArrayRegion ( self , arr , img = None , axes = ( 0 , 1 ) ) :
rgns = [ ]
for l in self . lines :
rgn = l . getArrayRegion ( arr , img , axes = axes )
if rgn is None :
continue
#return None
rgns . append ( rgn )
#print l.state['size']
## make sure orthogonal axis is the same size
## (sometimes fp errors cause differences)
ms = min ( [ r . shape [ axes [ 1 ] ] for r in rgns ] )
sl = [ slice ( None ) ] * rgns [ 0 ] . ndim
sl [ axes [ 1 ] ] = slice ( 0 , ms )
rgns = [ r [ sl ] for r in rgns ]
#print [r.shape for r in rgns], axes
return np . concatenate ( rgns , axis = axes [ 0 ] )
class EllipseROI ( ROI ) :
def __init__ ( self , pos , size , * * args ) :
#QtGui.QGraphicsRectItem.__init__(self, 0, 0, size[0], size[1])
ROI . __init__ ( self , pos , size , * * args )
self . addRotateHandle ( [ 1.0 , 0.5 ] , [ 0.5 , 0.5 ] )
self . addScaleHandle ( [ 0.5 * 2. * * - 0.5 + 0.5 , 0.5 * 2. * * - 0.5 + 0.5 ] , [ 0.5 , 0.5 ] )
def paint ( self , p , opt , widget ) :
r = self . boundingRect ( )
p . setRenderHint ( QtGui . QPainter . Antialiasing )
p . setPen ( self . currentPen )
p . scale ( r . width ( ) , r . height ( ) ) ## workaround for GL bug
r = QtCore . QRectF ( r . x ( ) / r . width ( ) , r . y ( ) / r . height ( ) , 1 , 1 )
p . drawEllipse ( r )
def getArrayRegion ( self , arr , img = None ) :
arr = ROI . getArrayRegion ( self , arr , img )
if arr is None or arr . shape [ 0 ] == 0 or arr . shape [ 1 ] == 0 :
return None
w = arr . shape [ 0 ]
h = arr . shape [ 1 ]
## generate an ellipsoidal mask
mask = np . fromfunction ( lambda x , y : ( ( ( x + 0.5 ) / ( w / 2. ) - 1 ) * * 2 + ( ( y + 0.5 ) / ( h / 2. ) - 1 ) * * 2 ) * * 0.5 < 1 , ( w , h ) )
return arr * mask
def shape ( self ) :
self . path = QtGui . QPainterPath ( )
self . path . addEllipse ( self . boundingRect ( ) )
return self . path
class CircleROI ( EllipseROI ) :
def __init__ ( self , pos , size , * * args ) :
ROI . __init__ ( self , pos , size , * * args )
self . aspectLocked = True
#self.addTranslateHandle([0.5, 0.5])
self . addScaleHandle ( [ 0.5 * 2. * * - 0.5 + 0.5 , 0.5 * 2. * * - 0.5 + 0.5 ] , [ 0.5 , 0.5 ] )
class PolygonROI ( ROI ) :
def __init__ ( self , positions , pos = None , * * args ) :
if pos is None :
pos = [ 0 , 0 ]
ROI . __init__ ( self , pos , [ 1 , 1 ] , * * args )
#ROI.__init__(self, positions[0])
for p in positions :
self . addFreeHandle ( p )
self . setZValue ( 1000 )
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def listPoints ( self ) :
return [ p [ ' item ' ] . pos ( ) for p in self . handles ]
def movePoint ( self , * args , * * kargs ) :
ROI . movePoint ( self , * args , * * kargs )
self . prepareGeometryChange ( )
for h in self . handles :
h [ ' pos ' ] = h [ ' item ' ] . pos ( )
def paint ( self , p , * args ) :
p . setRenderHint ( QtGui . QPainter . Antialiasing )
p . setPen ( self . currentPen )
for i in range ( len ( self . handles ) ) :
h1 = self . handles [ i ] [ ' item ' ] . pos ( )
h2 = self . handles [ i - 1 ] [ ' item ' ] . pos ( )
p . drawLine ( h1 , h2 )
def boundingRect ( self ) :
r = QtCore . QRectF ( )
for h in self . handles :
r | = self . mapFromItem ( h [ ' item ' ] , h [ ' item ' ] . boundingRect ( ) ) . boundingRect ( ) ## |= gives the union of the two QRectFs
return r
def shape ( self ) :
p = QtGui . QPainterPath ( )
p . moveTo ( self . handles [ 0 ] [ ' item ' ] . pos ( ) )
for i in range ( len ( self . handles ) ) :
p . lineTo ( self . handles [ i ] [ ' item ' ] . pos ( ) )
return p
def stateCopy ( self ) :
sc = { }
sc [ ' pos ' ] = Point ( self . state [ ' pos ' ] )
sc [ ' size ' ] = Point ( self . state [ ' size ' ] )
sc [ ' angle ' ] = self . state [ ' angle ' ]
#sc['handles'] = self.handles
return sc
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class PolyLineROI ( ROI ) :
""" Container class for multiple connected LineSegmentROIs. Responsible for adding new
line segments , and for translation / ( rotation ? ) of multiple lines together . """
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def __init__ ( self , positions , closed = False , pos = None , * * args ) :
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if pos is None :
pos = [ 0 , 0 ]
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#pen=args.get('pen', fn.mkPen((100,100,255)))
ROI . __init__ ( self , pos , size = [ 1 , 1 ] , * * args )
self . closed = closed
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self . segments = [ ]
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for p in positions :
self . addFreeHandle ( p )
start = - 1 if self . closed else 0
for i in range ( start , len ( self . handles ) - 1 ) :
self . addSegment ( self . handles [ i ] [ ' item ' ] , self . handles [ i + 1 ] [ ' item ' ] )
#for i in range(len(positions)-1):
#h2 = self.addFreeHandle(positions[i+1])
#segment = LineSegmentROI(handles=(h, h2), pen=pen, parent=self, movable=False)
#self.segments.append(segment)
#h = h2
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#for i, s in enumerate(self.segments):
#h = s.handles[0]
#self.addFreeHandle(h['pos'], item=h['item'])
#s.setZValue(self.zValue() +1)
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#h = self.segments[-1].handles[1]
#self.addFreeHandle(h['pos'], item=h['item'])
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#if closed:
#h1 = self.handles[-1]['item']
#h2 = self.handles[0]['item']
#self.segments.append(LineSegmentROI([positions[-1], positions[0]], pos=pos, handles=(h1, h2), pen=pen, parent=self, movable=False))
#h2.setParentItem(self.segments[-1])
#for s in self.segments:
#self.setSegmentSettings(s)
#def movePoint(self, *args, **kargs):
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#pass
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def addSegment ( self , h1 , h2 , index = None ) :
seg = LineSegmentROI ( handles = ( h1 , h2 ) , pen = self . pen , parent = self , movable = False )
if index is None :
self . segments . append ( seg )
else :
self . segments . insert ( index , seg )
seg . sigClicked . connect ( self . segmentClicked )
seg . setAcceptedMouseButtons ( QtCore . Qt . LeftButton )
seg . setZValue ( self . zValue ( ) + 1 )
for h in seg . handles :
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h [ ' item ' ] . setDeletable ( True )
h [ ' item ' ] . setAcceptedMouseButtons ( h [ ' item ' ] . acceptedMouseButtons ( ) | QtCore . Qt . LeftButton ) ## have these handles take left clicks too, so that handles cannot be added on top of other handles
def setMouseHover ( self , hover ) :
## Inform all the ROI's segments that the mouse is(not) hovering over it
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#if self.mouseHovering == hover:
#return
#self.mouseHovering = hover
ROI . setMouseHover ( self , hover )
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for s in self . segments :
s . setMouseHover ( hover )
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def addHandle ( self , info , index = None ) :
h = ROI . addHandle ( self , info , index = index )
h . sigRemoveRequested . connect ( self . removeHandle )
return h
def segmentClicked ( self , segment , ev = None , pos = None ) : ## pos should be in this item's coordinate system
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if ev != None :
pos = segment . mapToParent ( ev . pos ( ) )
elif pos != None :
pos = pos
else :
raise Exception ( " Either an event or a position must be given. " )
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h1 = segment . handles [ 0 ] [ ' item ' ]
h2 = segment . handles [ 1 ] [ ' item ' ]
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i = self . segments . index ( segment )
h3 = self . addFreeHandle ( pos , index = self . indexOfHandle ( h2 ) )
self . addSegment ( h3 , h2 , index = i + 1 )
segment . replaceHandle ( h2 , h3 )
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#def report(self):
#for s in self.segments:
#print s
#for h in s.handles:
#print " ", h
#for h in self.handles:
#print h
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def removeHandle ( self , handle , updateSegments = True ) :
ROI . removeHandle ( self , handle )
handle . sigRemoveRequested . disconnect ( self . removeHandle )
if not updateSegments :
return
segments = handle . rois [ : ]
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if len ( segments ) == 1 :
self . removeSegment ( segments [ 0 ] )
else :
handles = [ h [ ' item ' ] for h in segments [ 1 ] . handles ]
handles . remove ( handle )
segments [ 0 ] . replaceHandle ( handle , handles [ 0 ] )
self . removeSegment ( segments [ 1 ] )
def removeSegment ( self , seg ) :
for handle in seg . handles [ : ] :
seg . removeHandle ( handle [ ' item ' ] )
self . segments . remove ( seg )
seg . sigClicked . disconnect ( self . segmentClicked )
self . scene ( ) . removeItem ( seg )
def checkRemoveHandle ( self , h ) :
## called when a handle is about to display its context menu
if self . closed :
return len ( self . handles ) > 3
else :
return len ( self . handles ) > 2
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def paint ( self , p , * args ) :
#for s in self.segments:
#s.update()
#p.setPen(self.currentPen)
#p.setPen(fn.mkPen('w'))
#p.drawRect(self.boundingRect())
#p.drawPath(self.shape())
pass
def boundingRect ( self ) :
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return self . shape ( ) . boundingRect ( )
#r = QtCore.QRectF()
#for h in self.handles:
#r |= self.mapFromItem(h['item'], h['item'].boundingRect()).boundingRect() ## |= gives the union of the two QRectFs
#return r
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def shape ( self ) :
p = QtGui . QPainterPath ( )
p . moveTo ( self . handles [ 0 ] [ ' item ' ] . pos ( ) )
for i in range ( len ( self . handles ) ) :
p . lineTo ( self . handles [ i ] [ ' item ' ] . pos ( ) )
p . lineTo ( self . handles [ 0 ] [ ' item ' ] . pos ( ) )
return p
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class LineSegmentROI ( ROI ) :
"""
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ROI subclass with two freely - moving handles defining a line .
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"""
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def __init__ ( self , positions = ( None , None ) , pos = None , handles = ( None , None ) , * * args ) :
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if pos is None :
pos = [ 0 , 0 ]
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ROI . __init__ ( self , pos , [ 1 , 1 ] , * * args )
#ROI.__init__(self, positions[0])
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if len ( positions ) > 2 :
raise Exception ( " LineSegmentROI can only be defined by 2 positions. This is an API change. " )
for i , p in enumerate ( positions ) :
self . addFreeHandle ( p , item = handles [ i ] )
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#self.setZValue(1000)
#self.parentROI = None
#self.hasParentROI = False
#self.setAcceptsHandles(acceptsHandles)
#def setParentROI(self, parent):
#self.parentROI = parent
#if parent != None:
#self.hasParentROI = True
#else:
#self.hasParentROI = False
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#def setAcceptsHandles(self, b):
#if b:
#self.setAcceptedMouseButtons(QtCore.Qt.LeftButton)
#else:
#self.setAcceptedMouseButtons(QtCore.Qt.NoButton)
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#def close(self):
##for h in self.handles:
##if len(h['item'].roi) == 1:
##h['item'].scene().removeItem(h['item'])
##elif h['item'].parentItem() == self:
##h['item'].setParentItem(self.parentItem())
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#self.scene().removeItem(self)
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#def handleRemoved(self, handle):
#self.parentROI.handleRemoved(self, handle)
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#def hoverEvent(self, ev):
#if (self.translatable or self.acceptsHandles) and (not ev.isExit()) and ev.acceptDrags(QtCore.Qt.LeftButton):
##print " setHover: True"
#self.setMouseHover(True)
#self.sigHoverEvent.emit(self)
#else:
##print " setHover: False"
#self.setMouseHover(False)
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#def mouseClickEvent(self, ev):
#ROI.mouseClickEvent(self, ev) ## only checks for Right-clicks (for now anyway)
#if ev.button() == QtCore.Qt.LeftButton:
#if self.acceptsHandles:
#ev.accept()
#self.newHandleRequested(ev.pos()) ## ev.pos is the position in this item's coordinates
#else:
#ev.ignore()
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#def newHandleRequested(self, evPos):
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#print "newHandleRequested"
#if evPos - self.handles[0].pos() == Point(0.,0.) or evPos-handles[1].pos() == Point(0.,0.):
# return
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#self.parentROI.newHandleRequested(self, self.mapToParent(evPos)) ## so now evPos should be passed in in the parents coordinate system
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def listPoints ( self ) :
return [ p [ ' item ' ] . pos ( ) for p in self . handles ]
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#def movePoint(self, *args, **kargs):
#ROI.movePoint(self, *args, **kargs)
#self.prepareGeometryChange()
#for h in self.handles:
#h['pos'] = h['item'].pos()
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def paint ( self , p , * args ) :
p . setRenderHint ( QtGui . QPainter . Antialiasing )
p . setPen ( self . currentPen )
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h1 = self . handles [ 0 ] [ ' item ' ] . pos ( )
h2 = self . handles [ 1 ] [ ' item ' ] . pos ( )
p . drawLine ( h1 , h2 )
#p.setPen(fn.mkPen('w'))
#p.drawPath(self.shape())
#for i in range(len(self.handles)-1):
#h1 = self.handles[i]['item'].pos()
#h2 = self.handles[i+1]['item'].pos()
#p.drawLine(h1, h2)
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def boundingRect ( self ) :
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return self . shape ( ) . boundingRect ( )
#r = QtCore.QRectF()
#for h in self.handles:
#r |= self.mapFromItem(h['item'], h['item'].boundingRect()).boundingRect() ## |= gives the union of the two QRectFs
#return r
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def shape ( self ) :
p = QtGui . QPainterPath ( )
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#pw, ph = self.pixelSize()
#pHyp = 4 * (pw**2 + ph**2)**0.5
h1 = self . handles [ 0 ] [ ' item ' ] . pos ( )
h2 = self . handles [ 1 ] [ ' item ' ] . pos ( )
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pxv = self . pixelVectors ( h2 - h1 ) [ 1 ]
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if pxv is None :
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return p
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pxv * = 4
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p . moveTo ( h1 + pxv )
p . lineTo ( h2 + pxv )
p . lineTo ( h2 - pxv )
p . lineTo ( h1 - pxv )
p . lineTo ( h1 + pxv )
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return p
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#def stateCopy(self):
#sc = {}
#sc['pos'] = Point(self.state['pos'])
#sc['size'] = Point(self.state['size'])
#sc['angle'] = self.state['angle']
##sc['handles'] = self.handles
#return sc
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def getArrayRegion ( self , data , img , axes = ( 0 , 1 ) ) :
"""
Use the position of this ROI relative to an imageItem to pull a slice from an array .
Since this pulls 1 D data from a 2 D coordinate system , the return value will have ndim = data . ndim - 1
"""
imgPts = [ self . mapToItem ( img , h [ ' item ' ] . pos ( ) ) for h in self . handles ]
rgns = [ ]
for i in range ( len ( imgPts ) - 1 ) :
d = Point ( imgPts [ i + 1 ] - imgPts [ i ] )
o = Point ( imgPts [ i ] )
r = fn . affineSlice ( data , shape = ( int ( d . length ( ) ) , ) , vectors = [ d . norm ( ) ] , origin = o , axes = axes , order = 1 )
rgns . append ( r )
return np . concatenate ( rgns , axis = axes [ 0 ] )
class SpiralROI ( ROI ) :
def __init__ ( self , pos = None , size = None , * * args ) :
if size == None :
size = [ 100e-6 , 100e-6 ]
if pos == None :
pos = [ 0 , 0 ]
ROI . __init__ ( self , pos , size , * * args )
self . translateSnap = False
self . addFreeHandle ( [ 0.25 , 0 ] , name = ' a ' )
self . addRotateFreeHandle ( [ 1 , 0 ] , [ 0 , 0 ] , name = ' r ' )
#self.getRadius()
#QtCore.connect(self, QtCore.SIGNAL('regionChanged'), self.
def getRadius ( self ) :
radius = Point ( self . handles [ 1 ] [ ' item ' ] . pos ( ) ) . length ( )
#r2 = radius[1]
#r3 = r2[0]
return radius
def boundingRect ( self ) :
r = self . getRadius ( )
return QtCore . QRectF ( - r * 1.1 , - r * 1.1 , 2.2 * r , 2.2 * r )
#return self.bounds
def movePoint ( self , * args , * * kargs ) :
ROI . movePoint ( self , * args , * * kargs )
self . prepareGeometryChange ( )
for h in self . handles :
h [ ' pos ' ] = h [ ' item ' ] . pos ( ) / self . state [ ' size ' ] [ 0 ]
def stateChanged ( self ) :
ROI . stateChanged ( self )
if len ( self . handles ) > 1 :
self . path = QtGui . QPainterPath ( )
h0 = Point ( self . handles [ 0 ] [ ' item ' ] . pos ( ) ) . length ( )
a = h0 / ( 2.0 * np . pi )
theta = 30.0 * ( 2.0 * np . pi ) / 360.0
self . path . moveTo ( QtCore . QPointF ( a * theta * cos ( theta ) , a * theta * sin ( theta ) ) )
x0 = a * theta * cos ( theta )
y0 = a * theta * sin ( theta )
radius = self . getRadius ( )
theta + = 20.0 * ( 2.0 * np . pi ) / 360.0
i = 0
while Point ( x0 , y0 ) . length ( ) < radius and i < 1000 :
x1 = a * theta * cos ( theta )
y1 = a * theta * sin ( theta )
self . path . lineTo ( QtCore . QPointF ( x1 , y1 ) )
theta + = 20.0 * ( 2.0 * np . pi ) / 360.0
x0 = x1
y0 = y1
i + = 1
return self . path
def shape ( self ) :
p = QtGui . QPainterPath ( )
p . addEllipse ( self . boundingRect ( ) )
return p
def paint ( self , p , * args ) :
p . setRenderHint ( QtGui . QPainter . Antialiasing )
#path = self.shape()
p . setPen ( self . currentPen )
p . drawPath ( self . path )
p . setPen ( QtGui . QPen ( QtGui . QColor ( 255 , 0 , 0 ) ) )
p . drawPath ( self . shape ( ) )
p . setPen ( QtGui . QPen ( QtGui . QColor ( 0 , 0 , 255 ) ) )
p . drawRect ( self . boundingRect ( ) )
