Exemplo n.º 1
0
 def __init__(self, host, rec=None):
     self.host = host     ## host is the parent Photostim object
     self.stubs = []      ## list of ScanStub objects for scans in the map that have not been loaded yet
     self.scans = []      ## list of loaded Scan objects
     self.scanItems = {}  ## maps {scan: tree item}
     #self.points = []         ## Holds all data: [ (position, [(scan, dh), ...], spotData), ... ]
     self.pointsByFile = {}   ## just a lookup dictionary
     self.spots = []          ## holds all data {pos, size, [(scan, dh), ...]};  used to construct scatterplotitem
     self.sPlotItem = pg.ScatterPlotItem(pxMode=False, pen=(50,50,50))
     
     self.header = self.mapFields.keys()[2:]
     
     self.item = QtGui.QTreeWidgetItem([""] * len(self.header))
     self.item.setFlags(QtCore.Qt.ItemIsSelectable| QtCore.Qt.ItemIsEditable| QtCore.Qt.ItemIsEnabled)
     self.item.map = self
     self.item.setExpanded(True)
     self.rowID = None
     
     ## If a DB record was supplied, that means this map already exists in the DB so
     ## we can reload the list of scans already included in the map
     if rec is not None:
         self.rowID = rec['rowid']
         scans = rec['scans']
         #del rec['scans']
         #del rec['cell']
         for i in range(len(self.header)):
             self.item.setText(i, str(rec[self.header[i]]))
         for fh,rowid in scans:
             item = QtGui.QTreeWidgetItem([fh.shortName()])
             #print "Create scan stub:", fh
             self.stubs.append(ScanStub(fh, item, rowid))  ## rowid can be either a (table, rowid) pair or an integer implying ('ProtocolSequence', rowid)
             item.handle = fh
             self.item.addChild(item)
Exemplo n.º 2
0
    def __init__(self, name, ptSize, **args):
        pg.CrosshairROI.__init__(self, pos=(0,0), size=args.get('size', [ptSize*4]*2), angle=args.get('angle', 0), **args)

        self.name = name

        self.params = pTypes.SimpleParameter(name=self.name, type='bool', value=True, removable=True, renamable=True, children=[
            dict(name='layout', type='list', value=args.get('layout', 'Hexagonal'), values=['Square', 'Hexagonal']),
            dict(name='spacing', type='float', value=args.get('spacing', ptSize), suffix='m', siPrefix=True, bounds=[1e-9, None], step=10e-6),
            dict(name='Active Regions', type='group', addText="Add region...", addList=['Rectangle', 'Polygon'])
        ])
        
        self.params.item = self
        self.params.param('Active Regions').addNew = self.addActiveRegion
        self.rgns = []
        self.pointSize = ptSize
        self._points = np.empty((0,2), dtype=float)
        self._scene = None 
        self._scatter = pg.ScatterPlotItem(pxMode=False, brush=None, antialias=True)
        self._scatter.setParentItem(self)
        self._needScatterUpdate = False
        self.params.param('layout').sigStateChanged.connect(self.invalidatePoints)
        self.params.param('spacing').sigStateChanged.connect(self.invalidatePoints)
        self.params.param('Active Regions').sigChildRemoved.connect(self.rgnRemoved)
        
        self.sigRegionChanged.connect(self.invalidatePoints)
        self.params.sigValueChanged.connect(self.toggled)
        self.params.sigRemoved.connect(self.removed)
Exemplo n.º 3
0
 def __init__(self, name, ui):
     self.scatter = pg.ScatterPlotItem(pxMode=False)
     self.name = name
     self.ui = weakref.ref(ui)
     self.frames = []
     self.spots = {'pos': [], 'size': [], 'color': []}
     self.updateParams()
     self.z = Task.z
     Task.z += 1
Exemplo n.º 4
0
    def addScan(self, scanDict):
        plot = pg.ScatterPlotItem(pen=QtGui.QPen(QtCore.Qt.NoPen),
                                  brush=pg.mkBrush((255, 255, 255, 100)))
        self.plot.addItem(plot)
        plot.sigClicked.connect(self.plotClicked)

        if not isinstance(scanDict, dict):
            scanDict = {'key': scanDict}
        #print "Adding:", scan.name
        for scan in scanDict.values():
            item = QtGui.QTreeWidgetItem([scan.name()])
            item.setCheckState(0, QtCore.Qt.Checked)
            item.scan = scan
            self.scanList.addTopLevelItem(item)
            self.scans[scan] = [plot, item, False]
            self.updateScan(scan)
            scan.sigEventsChanged.connect(self.invalidateScan)
Exemplo n.º 5
0
def showMap(dh=None):
    """
    Display a graphic of an input map for the currently selected cell
    """
    
    global v, g, atlas
    if dh is None:
        dh = man.currentFile
    db = man.getModule('Data Manager').currentDatabase()
    v.clear()
    
    cd = dh
    sd = cd.parent()
    atlas.loadState(sd)
    
    g = atlas.schematicGraphicsItems(contours=False, sliceScale=10, cellDir=cd)
    v.addItem(g)
    
    cellGroup = pg.ItemGroup()
    g.cellGroup = cellGroup
    cellScale = 10.
    cellGroup.scale(cellScale, cellScale)
    cellGroup.setParentItem(g)
    
    g.atlasScale.hide()
    g.arrowGroup.hide()
    
    ## reposition/rescale atlas group
    b1 = g.atlasGroup.mapRectToParent(g.atlasGroup.childrenBoundingRect())
    b2 = g.sliceClip.mapRectToParent(g.sliceClip.boundingRect())
    g.atlasGroup.setPos(b2.right()-b1.left()+0.001, b2.top()-b1.top())
    
    b1 = g.atlasGroup.mapRectToParent(g.atlasGroup.childrenBoundingRect())    
    bounds = b1 | b2
    
    if cd.exists('morphology.png'):
        ## small image to go over slice schematic
        imgf = cd['morphology.png']
        imgd = pg.colorToAlpha(imgf.read(), np.array([255,255,255]))
        mimg1 = pg.ImageItem(imgd)
        tr = pg.SRTTransform(imgf.info()['userTransform'])
        mimg1.setTransform(tr)
        mimg1.setParentItem(g.sliceGroup)
        mimg1.setZValue(100)
        g.cellImg1 = mimg1
        
        ## larger image to be displayed above
        mimg2 = pg.ImageItem(imgd)
        mimg2.setParentItem(cellGroup)
        mimg2.setTransform(tr * g.sliceGroup.transform())
        mimg2.scale(1.0 / g.sliceScaleFactor, 1.0 / g.sliceScaleFactor)
        #angle = pg.SRTTransform(g.sliceGroup.transform()).getRotation()
        #mimg2.rotate(angle)
        g.cellImg2 = mimg2
        cellGroup.scale(5,5)
        
        ## reposition next to slice schematic
        imgBounds = g.mapRectFromItem(mimg2, mimg2.boundingRect())
        pos = pg.Point(bounds.right()-imgBounds.left(), bounds.bottom()-imgBounds.bottom()) 
        cellGroup.setPos(pos)
    
        ## add scale bar
        sbLength = 50e-6
        g.cellScale = Qt.QGraphicsLineItem(0.0, 0.0, sbLength, 0.0)
        g.cellScale.setPen(pg.mkPen(color=0.0, width=5))
        g.cellScale.setZValue(10)
        g.cellScale.text = pg.TextItem(u"%d µm" % int(sbLength*1e6), anchor=(0.5, 1), color=(0,0,0))
        g.cellScale.text.setParentItem(g.cellScale)
        g.cellScale.text.setPos(sbLength*0.5, -50e-6/cellScale)
        #g.cellScale = pg.ScaleBar(sbLength)
        g.cellScale.setParentItem(cellGroup)
        corner = mimg2.mapToParent(mimg2.boundingRect()).boundingRect().bottomRight()
        g.cellScale.setPos(corner + pg.Point(-sbLength/2., -sbLength/3.))
    pos = pg.SRTTransform(cd.info()['userTransform']).map(pg.Point(0,0))
    size = pg.Point(30e-6, 30e-6)
    g.cellMarker = Qt.QGraphicsEllipseItem(Qt.QRectF(pos-size, pos+size))
    g.cellMarker.setBrush(pg.mkBrush(100,100,255,150))
    g.cellMarker.setPen(pg.mkPen('k', width=0.5))
    g.cellMarker.setParentItem(g.sliceGroup)
    g.cellMarker.setZValue(90)
        
    sites = db.select('map_site_view', ['ProtocolDir', 'HasInput'], where={'CellDir': cd})
    if len(sites) > 0:
        tr = sites[0]['ProtocolDir'].parent().info().get('userTransform', None)
        if tr is None:
            tr = pg.SRTTransform()
        else:
            tr = pg.SRTTransform(tr)
            
        pos = []
        size = sites[0]['ProtocolDir'].info()['Scanner']['spotSize']
        brushes = []
        for site in sites:
            pd = site['ProtocolDir']
            x,y = pd.info()['Scanner']['position']
            p2 = tr.map(pg.Point(x,y))
            pos.append((p2.x(), p2.y()))
            if site['HasInput']:
                brushes.append(pg.mkBrush('w'))
            else:
                brushes.append(pg.mkBrush(None))
        inputMap = pg.ScatterPlotItem(pos=np.array(pos), size=size, brush=brushes, pen=(0,0,0,50), pxMode=False, antialias=True)
        g.sliceGroup.addItem(inputMap)
        g.inputMap = inputMap
        inputMap.setZValue(50)
    
    
    cell = dh
    sl = cell.parent()
    day = sl.parent()
    name = day.shortName() + "_" + sl.shortName() + "_" + cell.shortName()
    rec = db.select('DirTable_Cell', '*', where={'Dir': cd})[0]
    
    name += "\nType: " + str(rec['CellType']) + "   Temp: " + str(rec['Temperature']) + "   Internal: " + str(rec['Internal']) + "   Age:" + str(rec['Age']) + "   Raccess: " + str(rec['AccessResistance'])
    name += "\nDirect Area: %s>0pA %s>20pA %s>100pA" % (str(rec['DirectAreaGt0']), str(rec['DirectAreaGt20']), str(rec['DirectAreaGt100']))
    name += "   Direct n spikes: " + str(rec['DirectNSpikes'])
    name += "\nSpont Ex Decay: %s   Spont In Decay: %s" % (str(rec['SpontExDecay1']), str(rec['SpontInDecay']))
    name += "\nExcitatory input" if (rec['EvokedExDecay'] is not None or rec['EvokedExAmp'] is not None) else ""
    print(rec)
    #name += '\nDirect Slow Decay: %s %s' % (str(rec['DirectAreaGT0']), str(rec['DirectAreaGT0']))
    
    
    
    g.cellName = pg.TextItem(name, color=(0,0,0))
    g.cellName.setParentItem(g)
    g.cellName.setPos(0, bounds.bottom())
Exemplo n.º 6
0
 bTimes = [x[1] for x in l2]
 print key, "  \tcompute time:\t%0.1f  \ttotal cost:\t%0.1f  \tmax interval:\t%0.1f\t" % (
     time.time()-start,
     sum(bTimes),
     max(bTimes)
 )
 #print "  total cost:\t%0.1f" % sum(bTimes)
 #print "  max interval:\t%0.1f" % max(bTimes)
 
 check(locs, l2)
 
 vb = pg.ViewBox()
 view.addItem(vb)
 data = [{'pos': l2[i][0], 'brush': (i * 255/ len(l2),)*3} for i in range(len(l2))]
 
 sp = pg.ScatterPlotItem(data, pen=0.3, pxMode=False, size=1e-4)
 vb.addItem(sp)
 
 ## number spots
 #for i in range(len(data)):
     #t = QtGui.QGraphicsTextItem()
     #t.setHtml('<span style="color: #f00">%d</span>'%i)
     #t.setFlag(t.ItemIgnoresTransformations, True)
     #t.setPos(*l2[i][0])
     #vb.addItem(t)
 
 vb.setRange(sp.boundingRect())
 
 ### show video of sequence
 #img = np.zeros((n**2, n, n, 3), dtype=float)
 #l3 = [x[0] for x in l2]
Exemplo n.º 7
0
    def __init__(self, **opts):
        self.defaultSize = 1e-4  # set a default spot size as 100 um.
        if 'handle' not in opts:
            raise Exception(
                "ScanCanvasItem must be initialized with 'handle' or 'handles' specified in opts"
            )

        ## Top-level dirHandle tells us the default name of the item
        ## and may have a userTransform
        dirHandle = opts['handle']
        if 'name' not in opts:
            opts['name'] = dirHandle.shortName()

        ## Get the specific list of subdirs to use from which to pull spot information
        if 'subDirs' in opts:
            dirs = opts['subDirs']
        else:
            model = acq4.Manager.getManager().dataModel
            typ = model.dirType(dirHandle)
            if typ == 'ProtocolSequence':
                dirs = [dirHandle[d] for d in dirHandle.subDirs()]
            elif typ == 'Protocol':
                dirs = [dirHandle]
            else:
                raise Exception("Invalid dir type '%s'" % typ)

        ## Generate spot data and a scatterplotitem
        pts = []
        for d in dirs:
            if 'Scanner' in d.info() and 'position' in d.info(
            )['Scanner']:  #Note: this is expected to fail (gracefully) when a protocol sequence is incomplete
                pos = d.info()['Scanner']['position']
                if 'spotSize' in d.info()['Scanner']:
                    size = d.info()['Scanner']['spotSize']
                else:
                    size = self.defaultSize
                pts.append({'pos': pos, 'size': size, 'data': d})
        self.scatterPlotData = pts
        if len(pts) == 0:
            raise Exception(
                "No data found in scan %s." %
                dirHandle.name(relativeTo=dirHandle.parent().parent()))
        gitem = pg.ScatterPlotItem(pts, pxMode=False, pen=(50, 50, 50, 200))
        #citem = ScanCanvasItem(self, item, handle=dirHandle, **opts)
        #self._addCanvasItem(citem)
        #return [citem]
        CanvasItem.__init__(self, gitem, **opts)
        #self.scatterPlot = gitem
        self.originalSpotSize = size

        self._ctrlWidget = Qt.QWidget()
        self.ui = ScanCanvasItemTemplate.Ui_Form()
        self.ui.setupUi(self._ctrlWidget)
        self.layout.addWidget(self._ctrlWidget, self.layout.rowCount(), 0, 1,
                              2)
        self.ui.outlineColorBtn.setColor((50, 50, 50, 200))

        #self.transformGui.mirrorImageBtn.clicked.connect(self.mirrorY)
        self.ui.sizeSpin.setOpts(dec=True,
                                 step=1,
                                 minStep=1e-6,
                                 siPrefix=True,
                                 suffix='m',
                                 bounds=[1e-6, None])
        self.ui.sizeSpin.setValue(self.originalSpotSize)
        self.ui.sizeSpin.valueChanged.connect(self.sizeSpinEdited)
        self.ui.sizeFromCalibrationRadio.clicked.connect(self.updateSpotSize)
        self.ui.outlineColorBtn.sigColorChanging.connect(self.updateOutline)

        self.addScanImageBtn = self.ui.loadSpotImagesBtn
        #self.createGradientBtn = self.ui.createGradientBtn
        #self.removeGradientBtn = self.ui.removeGradientBtn
        self.addScanImageBtn.connect(self.addScanImageBtn,
                                     Qt.SIGNAL('clicked()'),
                                     self.loadScanImage)