jet_tools/JetCreator/JetSegGraph.py - platform/external/sonivox - Git at Google

 """
  File:
  JetSegGraph.py

  Contents and purpose:
  Draws the event graph and progress bar

  Copyright (c) 2008 Android Open Source Project

  Licensed under the Apache License, Version 2.0 (the "License");
  you may not use this file except in compliance with the License.
  You may obtain a copy of the License at

       http://www.apache.org/licenses/LICENSE-2.0

  Unless required by applicable law or agreed to in writing, software
  distributed under the License is distributed on an "AS IS" BASIS,
  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  See the License for the specific language governing permissions and
  limitations under the License.
 """


 import  wx
 import logging

 from JetUtils import *
 from JetDefs import *

 GRAPH_COLORS = [
                 '#C0E272',
                 '#85CF89',
                 '#CF9683',
                 '#749EDE',
                 '#9FB5B1',
                 '#B095BF',
                 '#FE546D',
                 '#B3BB97',
                 '#FFFFB8',

                 ]

 PROGRESS_BAR = '#0000CC'
 EOS_BAR = '#095000'
 APP_BAR = '#B3BB97'


 class Marker():
     """ Defines portions of the graph for events """
     def __init__(self, sEventType, iEventId, sName, sStartMbt, sEndMbt, iStartMeasure, ppqn):
         self.sEventType = sEventType
         self.iEventId = iEventId
         self.sName = sName
         self.StartMbt = ConvertStrTimeToTuple(sStartMbt)
         self.EndMbt = ConvertStrTimeToTuple(sEndMbt)
         self.iStartMeasure = iStartMeasure
         self.iStart = 0
         self.iEnd = 0
         self.iWidth = 0
         self.iHeight = 0
         self.iTop = 0
         self.iUpdate = False
         self.sColor = '#FFFFB8'
         self.ppqn = ppqn
         self.isDirty = False

     def CalcCoord(self, step, height, ColorFct):
         """ Calculates the coordinates in pixels for graphing the shaded regions """
         #measures
         iStartM = self.StartMbt[0] - self.iStartMeasure
         iEndM = self.EndMbt[0] - self.iStartMeasure
         self.iStart = step * iStartM
         self.iEnd = step * iEndM
         #beats
         self.iStart = self.iStart + ((step / 4.0) * (self.StartMbt[1]-1))
         self.iEnd = self.iEnd + ((step / 4.0) * (self.EndMbt[1]-1))
         #ticks
         pctTickOfBeat = (float(self.StartMbt[2]) / float(self.ppqn))
         self.iStart = self.iStart + ((pctTickOfBeat * (step / 4.0)))
         pctTickOfBeat = (float(self.EndMbt[2]) / float(self.ppqn))
         self.iEnd = self.iEnd + ((pctTickOfBeat * (step / 4.0)))

         self.iWidth = self.iEnd - self.iStart

         self.iHeight = height
         self.sColor = ColorFct()
         self.iUpdate = False

 class SegmentGraph(wx.Panel):
     """ Draws the player graph bar """
     def __init__(self, parent, pos=wx.DefaultPosition, size=wx.DefaultSize, ClickCallbackFct=None, showLabels=True, showClips=True, showAppEvts=True):
         wx.Panel.__init__(self, parent, -1, pos=pos, size=size, style=wx.BORDER_STATIC)
         self.iLocationInMs = 0
         self.iLengthInMs = 0
         self.iLengthInMeasures = 0
         self.iMarkerTop = 15
         self.iScaleTop = 0
         self.iEdges = 5
         self.iStartMeasure = 0
         self.iMidiMode = False
         self.ClickCallbackFct = ClickCallbackFct
         self.iColor = 0
         self.showLabels = showLabels
         self.showClips = showClips
         self.showAppEvts = showAppEvts

         self.font = wx.Font(8, wx.FONTFAMILY_DEFAULT, wx.FONTSTYLE_NORMAL, wx.FONTWEIGHT_NORMAL, False, 'Courier')

         self.Markers = []
         self.SetBackgroundStyle(wx.BG_STYLE_CUSTOM)
         self.Bind(wx.EVT_PAINT, self.OnPaint)
         self.Bind(wx.EVT_SIZE, self.OnSize)
         self.Bind(wx.EVT_LEFT_DOWN, self.OnLeftDown)

         #initialize buffer
         self.OnSize(None)

     def ClearGraph(self):
         """ Clears the graph values """
         self.iLocationInMs = 0
         self.iLengthInMs = 0
         self.iLengthInMeasures = 0
         self.iMarkerTop = 15
         self.iScaleTop = 0
         self.iEdges = 5
         self.iStartMeasure = 0
         self.iMidiMode = False
         self.iColor = 0
         self.Markers = []
         self.iLocationInMs = 0
         self.DoDrawing()

     def LoadSegment(self, segment, segMarker=None, iMidiMode=False, showLabels=True, showClips=True, showAppEvts=True):
         """ Loads up the segment drawing the graph """
         if segment is None:
             self.ClearGraph()
             return None
         self.iMidiMode = iMidiMode
         self.showLabels = showLabels
         self.showClips = showClips
         self.showAppEvts = showAppEvts
         self.Markers = []
         self.iLocationInMs = 0
         info = MidiSegInfo(segment)
         #disable graph for debugging
         #return info
         self.iLengthInMs = info.iLengthInMs
         self.ppqn = info.ppqn
         self.StartMbt = mbtFct(ConvertStrTimeToTuple(segment.start), 1)
         self.EndMbt = mbtFct(ConvertStrTimeToTuple(segment.end), 1)
         self.LengthMbt = None
         self.iStartMeasure = self.StartMbt[0]
         self.iLengthInMeasures = self.EndMbt[0] - self.StartMbt[0]

         for jet_event in segment.jetevents:
             if self.showClips and jet_event.event_type == JetDefs.E_CLIP:
                 self.AddMarker(JetDefs.E_CLIP, jet_event.event_id, jet_event.event_name, mbtFct(jet_event.event_start,1), mbtFct(jet_event.event_end,1), self.iStartMeasure, self.ppqn)
             elif jet_event.event_type == JetDefs.E_EOS:
                 self.AddMarker(JetDefs.E_EOS, jet_event.event_id, jet_event.event_name, mbtFct(jet_event.event_end,1), mbtFct(jet_event.event_end,1), self.iStartMeasure, self.ppqn)
             elif self.showAppEvts and jet_event.event_type == JetDefs.E_APP:
                 self.AddMarker(JetDefs.E_APP, jet_event.event_id, jet_event.event_name, mbtFct(jet_event.event_start,1), mbtFct(jet_event.event_end,1), self.iStartMeasure, self.ppqn)

         if segMarker is not None:
             self.AddMarker(JetDefs.E_CLIP, 0, segMarker[0], mbtFct(segMarker[1],1), mbtFct(segMarker[2],1), self.iStartMeasure, self.ppqn)

         self.DoDrawing()
         return info

     def AddMarker(self, sEventType, iEventId, sName, sStartMbt, sEndMbt, iStartMeasure, ppqn):
         """ Adds a marker to the list """
         if not CompareMbt(sStartMbt, sEndMbt):
             sEndMbt = sStartMbt
         self.Markers.append(Marker(sEventType, iEventId, sName, sStartMbt, sEndMbt, iStartMeasure, ppqn))

     def OnLeftDown(self, event):
         """ Calls the function assicated with an event """
         pt = event.GetPosition()
         for Marker in self.Markers:
             if pt[0] >= Marker.iStart and pt[0] <= Marker.iEnd and pt[1] >= Marker.iTop and pt[1] <= Marker.iTop + Marker.iHeight:
                 if self.ClickCallbackFct != None:
                     self.ClickCallbackFct(Marker.sName, Marker.iEventId)

     def GetAColor(self):
         """ Gets a color """
         color = GRAPH_COLORS[self.iColor]
         self.iColor = self.iColor + 1
         if self.iColor >= len(GRAPH_COLORS):
             self.iColor = 0
         return color

     def OnSize(self, event=None):
         """ Repaints for resizing of screen """
         if OsWindows():
             # The Buffer init is done here, to make sure the buffer is always
             # the same size as the Window
             Size  = self.GetClientSizeTuple()

             # Make new offscreen bitmap: this bitmap will always have the
             # current drawing in it, so it can be used to save the image to
             # a file, or whatever.
             self._Buffer = wx.EmptyBitmap(*Size)
         self.DoDrawing(None)
         if event is not None:
             event.Skip()

     def OnPaint(self, event=None):
         """ Painting of windows """
         if OsWindows():
             dc = wx.BufferedPaintDC(self, self._Buffer)
         else:
             dc = wx.AutoBufferedPaintDC(self)
             dc.Background = wx.Brush(wx.WHITE)
         self.DoDrawing(dc)

     def DoDrawing(self, dc=None):
         """ Does the actual drawing of the control """
         if dc is None:
             if OsWindows():
                 dc = wx.BufferedDC(wx.ClientDC(self), self._Buffer)
             else:
                 dc = wx.AutoBufferedPaintDC(self)
                 dc.Background = wx.Brush(wx.WHITE)

         dc.Clear()

         self.iColor = 0
         gWidth, gHeight = self.GetSize()
         gWidth = gWidth - (self.iEdges * 2)
         step = int(gWidth / (self.iLengthInMeasures + .01))

         for Marker in self.Markers:
             Marker.CalcCoord(step, gHeight, self.GetAColor)

         """ eliminate overlaps; establish colors """
         iClips = 0
         iMarkers = 0
         for index, Marker in enumerate(self.Markers):
             if Marker.sEventType == JetDefs.E_CLIP:
                 iClips = iClips + 1
                 iOverlaps = 1
                 for index1, Marker1 in enumerate(self.Markers):
                     if Marker.sEventType == JetDefs.E_CLIP:
                         if index != index1 and not Marker1.iUpdate:
                             if Marker.iStart <= Marker1.iStart and Marker.iEnd <= Marker1.iEnd and Marker.iEnd >= Marker1.iStart:
                                 iOverlaps = iOverlaps + 1
                                 Marker.iUpdate = True
                                 Marker1.iUpdate = True
                             if not Marker.iUpdate and Marker.iStart >= Marker1.iStart and Marker.iEnd >= Marker1.iEnd and Marker.iStart <= Marker1.iEnd:
                                 iOverlaps = iOverlaps + 1
                                 Marker.iUpdate = True
                                 Marker1.iUpdate = True
                 if iOverlaps > 1:
                     iTop = 0
                     for index1, Marker1 in enumerate(self.Markers):
                         if Marker.sEventType == JetDefs.E_CLIP:
                             if Marker1.iUpdate:
                                 Marker1.iHeight = gHeight / iOverlaps
                                 Marker1.iTop = iTop * Marker1.iHeight
                                 iTop = iTop + 1
             elif Marker.sEventType == JetDefs.E_APP:
                 iMarkers = iMarkers + 1

         for Marker in self.Markers:
             if Marker.sEventType == JetDefs.E_CLIP:
                 dc.SetPen(wx.Pen(Marker.sColor))
                 dc.SetBrush(wx.Brush(Marker.sColor))
                 dc.DrawRectangle(Marker.iStart + self.iEdges, Marker.iTop, Marker.iWidth, Marker.iHeight)
                 width, height = dc.GetTextExtent(Marker.sName)
                 k = ((Marker.iStart + Marker.iEnd) / 2) - (width/2) + self.iEdges
                 if self.showLabels or self.iMidiMode:
                     dc.DrawText(Marker.sName, k, ((Marker.iTop+Marker.iHeight/2) - (height*.5)))
                 if self.iMidiMode:
                     self.iMidiModeStart = Marker.iStart
             elif Marker.sEventType == JetDefs.E_EOS:
                 dc.SetPen(wx.Pen(EOS_BAR))
                 dc.SetBrush(wx.Brush(EOS_BAR))
                 dc.DrawRectangle(Marker.iStart + self.iEdges, Marker.iTop, 1, Marker.iHeight)
                 width, height = dc.GetTextExtent(Marker.sName)
                 k = Marker.iStart - (width/2) + self.iEdges
                 dc.DrawText(Marker.sName, k, ((Marker.iTop+Marker.iHeight/2) - (height*.5)))
             elif Marker.sEventType == JetDefs.E_APP:
                 dc.SetPen(wx.Pen(APP_BAR))
                 dc.SetBrush(wx.Brush(APP_BAR))
                 dc.DrawRectangle(Marker.iStart + self.iEdges, Marker.iTop, 1, Marker.iHeight)
                 width, height = dc.GetTextExtent(Marker.sName)
                 k = Marker.iStart - (width/2) + self.iEdges
                 if self.showLabels or self.iMidiMode:
                     dc.DrawText(Marker.sName, k, ((Marker.iTop+Marker.iHeight/2) - (height*.5)))


         """ Draw scale """
         if gWidth == 0:
             iDiv = 50
         else:
             iDiv = (gWidth)/18
         if iDiv == 0:
             iDiv = 50
         scale = ((self.iLengthInMeasures / iDiv) + 1)
         if scale == 0:
             scale = 1
         beatStep = step / 4.0
         dc.SetFont(self.font)
         j = 0
         lastEnd = 0
         num = range(self.iStartMeasure, self.iStartMeasure + self.iLengthInMeasures + 1, 1)
         dc.SetPen(wx.Pen('#5C5142'))
         for i in range(0, (self.iLengthInMeasures+1)*step, step):
             k = i + self.iEdges
             dc.DrawLine(k, self.iScaleTop, k, self.iScaleTop+8)
             if i != (self.iLengthInMeasures)*step:
                 for iBeat in range(1,4):
                     k = i+(iBeat * beatStep) + self.iEdges
                     dc.DrawLine(k, self.iScaleTop, k, self.iScaleTop+4)
             width, height = dc.GetTextExtent(str(num[j]))
             k = i-(width/2) + self.iEdges
             if k > lastEnd:
                 if j == 0 or (j % scale) == 0:
                     dc.DrawText(str(num[j]), k, self.iScaleTop+8)
                 lastEnd = k + width
             j = j + 1

         """ Updates the location bar in case screen moved or resized """
         if self.iLocationInMs > 0 and self.iLengthInMs > 0:
             iOffset = 0
             if self.iMidiMode:
                 iOffset = self.iMidiModeStart

             till = gWidth * (self.iLocationInMs / self.iLengthInMs)
             dc.SetPen(wx.Pen(PROGRESS_BAR))
             dc.SetBrush(wx.Brush(PROGRESS_BAR))
             dc.DrawRectangle(self.iEdges + iOffset, gHeight-6, till, 3)

     def UpdateLocation(self, iLocationInMs):
         """ Updates the location bar """
         #disable graph for debugging
         #return info

         self.iLocationInMs = iLocationInMs
         if self.iLocationInMs > 0 and self.iLengthInMs > 0:
             if OsWindows():
                 dc = wx.BufferedDC(wx.ClientDC(self), self._Buffer)
             else:
                 dc = wx.AutoBufferedPaintDC(self)
                 dc.Background = wx.Brush(wx.WHITE)

             iOffset = 0
             if self.iMidiMode:
                 iOffset = self.iMidiModeStart

             gWidth, gHeight = self.GetSize()
             gWidth = gWidth - (self.iEdges * 2)

             till = gWidth * (self.iLocationInMs / self.iLengthInMs)
             dc.SetPen(wx.Pen(PROGRESS_BAR))
             dc.SetBrush(wx.Brush(PROGRESS_BAR))
             dc.DrawRectangle(self.iEdges + iOffset, gHeight-6, till, 3)
             self.isDirty = True
         else:
             if self.isDirty:
                 self.DoDrawing()
                 self.isDirty = False
	"""
	File:
	JetSegGraph.py

	Contents and purpose:
	Draws the event graph and progress bar

	Copyright (c) 2008 Android Open Source Project

	Licensed under the Apache License, Version 2.0 (the "License");
	you may not use this file except in compliance with the License.
	You may obtain a copy of the License at

	http://www.apache.org/licenses/LICENSE-2.0

	Unless required by applicable law or agreed to in writing, software
	distributed under the License is distributed on an "AS IS" BASIS,
	WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	See the License for the specific language governing permissions and
	limitations under the License.
	"""


	import wx
	import logging

	from JetUtils import *
	from JetDefs import *

	GRAPH_COLORS = [
	'#C0E272',
	'#85CF89',
	'#CF9683',
	'#749EDE',
	'#9FB5B1',
	'#B095BF',
	'#FE546D',
	'#B3BB97',
	'#FFFFB8',

	]

	PROGRESS_BAR = '#0000CC'
	EOS_BAR = '#095000'
	APP_BAR = '#B3BB97'


	class Marker():
	""" Defines portions of the graph for events """
	def __init__(self, sEventType, iEventId, sName, sStartMbt, sEndMbt, iStartMeasure, ppqn):
	self.sEventType = sEventType
	self.iEventId = iEventId
	self.sName = sName
	self.StartMbt = ConvertStrTimeToTuple(sStartMbt)
	self.EndMbt = ConvertStrTimeToTuple(sEndMbt)
	self.iStartMeasure = iStartMeasure
	self.iStart = 0
	self.iEnd = 0
	self.iWidth = 0
	self.iHeight = 0
	self.iTop = 0
	self.iUpdate = False
	self.sColor = '#FFFFB8'
	self.ppqn = ppqn
	self.isDirty = False

	def CalcCoord(self, step, height, ColorFct):
	""" Calculates the coordinates in pixels for graphing the shaded regions """
	#measures
	iStartM = self.StartMbt[0] - self.iStartMeasure
	iEndM = self.EndMbt[0] - self.iStartMeasure
	self.iStart = step * iStartM
	self.iEnd = step * iEndM
	#beats
	self.iStart = self.iStart + ((step / 4.0) * (self.StartMbt[1]-1))
	self.iEnd = self.iEnd + ((step / 4.0) * (self.EndMbt[1]-1))
	#ticks
	pctTickOfBeat = (float(self.StartMbt[2]) / float(self.ppqn))
	self.iStart = self.iStart + ((pctTickOfBeat * (step / 4.0)))
	pctTickOfBeat = (float(self.EndMbt[2]) / float(self.ppqn))
	self.iEnd = self.iEnd + ((pctTickOfBeat * (step / 4.0)))

	self.iWidth = self.iEnd - self.iStart

	self.iHeight = height
	self.sColor = ColorFct()
	self.iUpdate = False

	class SegmentGraph(wx.Panel):
	""" Draws the player graph bar """
	def __init__(self, parent, pos=wx.DefaultPosition, size=wx.DefaultSize, ClickCallbackFct=None, showLabels=True, showClips=True, showAppEvts=True):
	wx.Panel.__init__(self, parent, -1, pos=pos, size=size, style=wx.BORDER_STATIC)
	self.iLocationInMs = 0
	self.iLengthInMs = 0
	self.iLengthInMeasures = 0
	self.iMarkerTop = 15
	self.iScaleTop = 0
	self.iEdges = 5
	self.iStartMeasure = 0
	self.iMidiMode = False
	self.ClickCallbackFct = ClickCallbackFct
	self.iColor = 0
	self.showLabels = showLabels
	self.showClips = showClips
	self.showAppEvts = showAppEvts

	self.font = wx.Font(8, wx.FONTFAMILY_DEFAULT, wx.FONTSTYLE_NORMAL, wx.FONTWEIGHT_NORMAL, False, 'Courier')

	self.Markers = []
	self.SetBackgroundStyle(wx.BG_STYLE_CUSTOM)
	self.Bind(wx.EVT_PAINT, self.OnPaint)
	self.Bind(wx.EVT_SIZE, self.OnSize)
	self.Bind(wx.EVT_LEFT_DOWN, self.OnLeftDown)

	#initialize buffer
	self.OnSize(None)

	def ClearGraph(self):
	""" Clears the graph values """
	self.iLocationInMs = 0
	self.iLengthInMs = 0
	self.iLengthInMeasures = 0
	self.iMarkerTop = 15
	self.iScaleTop = 0
	self.iEdges = 5
	self.iStartMeasure = 0
	self.iMidiMode = False
	self.iColor = 0
	self.Markers = []
	self.iLocationInMs = 0
	self.DoDrawing()

	def LoadSegment(self, segment, segMarker=None, iMidiMode=False, showLabels=True, showClips=True, showAppEvts=True):
	""" Loads up the segment drawing the graph """
	if segment is None:
	self.ClearGraph()
	return None
	self.iMidiMode = iMidiMode
	self.showLabels = showLabels
	self.showClips = showClips
	self.showAppEvts = showAppEvts
	self.Markers = []
	self.iLocationInMs = 0
	info = MidiSegInfo(segment)
	#disable graph for debugging
	#return info
	self.iLengthInMs = info.iLengthInMs
	self.ppqn = info.ppqn
	self.StartMbt = mbtFct(ConvertStrTimeToTuple(segment.start), 1)
	self.EndMbt = mbtFct(ConvertStrTimeToTuple(segment.end), 1)
	self.LengthMbt = None
	self.iStartMeasure = self.StartMbt[0]
	self.iLengthInMeasures = self.EndMbt[0] - self.StartMbt[0]

	for jet_event in segment.jetevents:
	if self.showClips and jet_event.event_type == JetDefs.E_CLIP:
	self.AddMarker(JetDefs.E_CLIP, jet_event.event_id, jet_event.event_name, mbtFct(jet_event.event_start,1), mbtFct(jet_event.event_end,1), self.iStartMeasure, self.ppqn)
	elif jet_event.event_type == JetDefs.E_EOS:
	self.AddMarker(JetDefs.E_EOS, jet_event.event_id, jet_event.event_name, mbtFct(jet_event.event_end,1), mbtFct(jet_event.event_end,1), self.iStartMeasure, self.ppqn)
	elif self.showAppEvts and jet_event.event_type == JetDefs.E_APP:
	self.AddMarker(JetDefs.E_APP, jet_event.event_id, jet_event.event_name, mbtFct(jet_event.event_start,1), mbtFct(jet_event.event_end,1), self.iStartMeasure, self.ppqn)

	if segMarker is not None:
	self.AddMarker(JetDefs.E_CLIP, 0, segMarker[0], mbtFct(segMarker[1],1), mbtFct(segMarker[2],1), self.iStartMeasure, self.ppqn)

	self.DoDrawing()
	return info

	def AddMarker(self, sEventType, iEventId, sName, sStartMbt, sEndMbt, iStartMeasure, ppqn):
	""" Adds a marker to the list """
	if not CompareMbt(sStartMbt, sEndMbt):
	sEndMbt = sStartMbt
	self.Markers.append(Marker(sEventType, iEventId, sName, sStartMbt, sEndMbt, iStartMeasure, ppqn))

	def OnLeftDown(self, event):
	""" Calls the function assicated with an event """
	pt = event.GetPosition()
	for Marker in self.Markers:
	if pt[0] >= Marker.iStart and pt[0] <= Marker.iEnd and pt[1] >= Marker.iTop and pt[1] <= Marker.iTop + Marker.iHeight:
	if self.ClickCallbackFct != None:
	self.ClickCallbackFct(Marker.sName, Marker.iEventId)

	def GetAColor(self):
	""" Gets a color """
	color = GRAPH_COLORS[self.iColor]
	self.iColor = self.iColor + 1
	if self.iColor >= len(GRAPH_COLORS):
	self.iColor = 0
	return color

	def OnSize(self, event=None):
	""" Repaints for resizing of screen """
	if OsWindows():
	# The Buffer init is done here, to make sure the buffer is always
	# the same size as the Window
	Size = self.GetClientSizeTuple()

	# Make new offscreen bitmap: this bitmap will always have the
	# current drawing in it, so it can be used to save the image to
	# a file, or whatever.
	self._Buffer = wx.EmptyBitmap(*Size)
	self.DoDrawing(None)
	if event is not None:
	event.Skip()

	def OnPaint(self, event=None):
	""" Painting of windows """
	if OsWindows():
	dc = wx.BufferedPaintDC(self, self._Buffer)
	else:
	dc = wx.AutoBufferedPaintDC(self)
	dc.Background = wx.Brush(wx.WHITE)
	self.DoDrawing(dc)

	def DoDrawing(self, dc=None):
	""" Does the actual drawing of the control """
	if dc is None:
	if OsWindows():
	dc = wx.BufferedDC(wx.ClientDC(self), self._Buffer)
	else:
	dc = wx.AutoBufferedPaintDC(self)
	dc.Background = wx.Brush(wx.WHITE)

	dc.Clear()

	self.iColor = 0
	gWidth, gHeight = self.GetSize()
	gWidth = gWidth - (self.iEdges * 2)
	step = int(gWidth / (self.iLengthInMeasures + .01))

	for Marker in self.Markers:
	Marker.CalcCoord(step, gHeight, self.GetAColor)

	""" eliminate overlaps; establish colors """
	iClips = 0
	iMarkers = 0
	for index, Marker in enumerate(self.Markers):
	if Marker.sEventType == JetDefs.E_CLIP:
	iClips = iClips + 1
	iOverlaps = 1
	for index1, Marker1 in enumerate(self.Markers):
	if Marker.sEventType == JetDefs.E_CLIP:
	if index != index1 and not Marker1.iUpdate:
	if Marker.iStart <= Marker1.iStart and Marker.iEnd <= Marker1.iEnd and Marker.iEnd >= Marker1.iStart:
	iOverlaps = iOverlaps + 1
	Marker.iUpdate = True
	Marker1.iUpdate = True
	if not Marker.iUpdate and Marker.iStart >= Marker1.iStart and Marker.iEnd >= Marker1.iEnd and Marker.iStart <= Marker1.iEnd:
	iOverlaps = iOverlaps + 1
	Marker.iUpdate = True
	Marker1.iUpdate = True
	if iOverlaps > 1:
	iTop = 0
	for index1, Marker1 in enumerate(self.Markers):
	if Marker.sEventType == JetDefs.E_CLIP:
	if Marker1.iUpdate:
	Marker1.iHeight = gHeight / iOverlaps
	Marker1.iTop = iTop * Marker1.iHeight
	iTop = iTop + 1
	elif Marker.sEventType == JetDefs.E_APP:
	iMarkers = iMarkers + 1

	for Marker in self.Markers:
	if Marker.sEventType == JetDefs.E_CLIP:
	dc.SetPen(wx.Pen(Marker.sColor))
	dc.SetBrush(wx.Brush(Marker.sColor))
	dc.DrawRectangle(Marker.iStart + self.iEdges, Marker.iTop, Marker.iWidth, Marker.iHeight)
	width, height = dc.GetTextExtent(Marker.sName)
	k = ((Marker.iStart + Marker.iEnd) / 2) - (width/2) + self.iEdges
	if self.showLabels or self.iMidiMode:
	dc.DrawText(Marker.sName, k, ((Marker.iTop+Marker.iHeight/2) - (height*.5)))
	if self.iMidiMode:
	self.iMidiModeStart = Marker.iStart
	elif Marker.sEventType == JetDefs.E_EOS:
	dc.SetPen(wx.Pen(EOS_BAR))
	dc.SetBrush(wx.Brush(EOS_BAR))
	dc.DrawRectangle(Marker.iStart + self.iEdges, Marker.iTop, 1, Marker.iHeight)
	width, height = dc.GetTextExtent(Marker.sName)
	k = Marker.iStart - (width/2) + self.iEdges
	dc.DrawText(Marker.sName, k, ((Marker.iTop+Marker.iHeight/2) - (height*.5)))
	elif Marker.sEventType == JetDefs.E_APP:
	dc.SetPen(wx.Pen(APP_BAR))
	dc.SetBrush(wx.Brush(APP_BAR))
	dc.DrawRectangle(Marker.iStart + self.iEdges, Marker.iTop, 1, Marker.iHeight)
	width, height = dc.GetTextExtent(Marker.sName)
	k = Marker.iStart - (width/2) + self.iEdges
	if self.showLabels or self.iMidiMode:
	dc.DrawText(Marker.sName, k, ((Marker.iTop+Marker.iHeight/2) - (height*.5)))


	""" Draw scale """
	if gWidth == 0:
	iDiv = 50
	else:
	iDiv = (gWidth)/18
	if iDiv == 0:
	iDiv = 50
	scale = ((self.iLengthInMeasures / iDiv) + 1)
	if scale == 0:
	scale = 1
	beatStep = step / 4.0
	dc.SetFont(self.font)
	j = 0
	lastEnd = 0
	num = range(self.iStartMeasure, self.iStartMeasure + self.iLengthInMeasures + 1, 1)
	dc.SetPen(wx.Pen('#5C5142'))
	for i in range(0, (self.iLengthInMeasures+1)*step, step):
	k = i + self.iEdges
	dc.DrawLine(k, self.iScaleTop, k, self.iScaleTop+8)
	if i != (self.iLengthInMeasures)*step:
	for iBeat in range(1,4):
	k = i+(iBeat * beatStep) + self.iEdges
	dc.DrawLine(k, self.iScaleTop, k, self.iScaleTop+4)
	width, height = dc.GetTextExtent(str(num[j]))
	k = i-(width/2) + self.iEdges
	if k > lastEnd:
	if j == 0 or (j % scale) == 0:
	dc.DrawText(str(num[j]), k, self.iScaleTop+8)
	lastEnd = k + width
	j = j + 1

	""" Updates the location bar in case screen moved or resized """
	if self.iLocationInMs > 0 and self.iLengthInMs > 0:
	iOffset = 0
	if self.iMidiMode:
	iOffset = self.iMidiModeStart

	till = gWidth * (self.iLocationInMs / self.iLengthInMs)
	dc.SetPen(wx.Pen(PROGRESS_BAR))
	dc.SetBrush(wx.Brush(PROGRESS_BAR))
	dc.DrawRectangle(self.iEdges + iOffset, gHeight-6, till, 3)

	def UpdateLocation(self, iLocationInMs):
	""" Updates the location bar """
	#disable graph for debugging
	#return info

	self.iLocationInMs = iLocationInMs
	if self.iLocationInMs > 0 and self.iLengthInMs > 0:
	if OsWindows():
	dc = wx.BufferedDC(wx.ClientDC(self), self._Buffer)
	else:
	dc = wx.AutoBufferedPaintDC(self)
	dc.Background = wx.Brush(wx.WHITE)

	iOffset = 0
	if self.iMidiMode:
	iOffset = self.iMidiModeStart

	gWidth, gHeight = self.GetSize()
	gWidth = gWidth - (self.iEdges * 2)

	till = gWidth * (self.iLocationInMs / self.iLengthInMs)
	dc.SetPen(wx.Pen(PROGRESS_BAR))
	dc.SetBrush(wx.Brush(PROGRESS_BAR))
	dc.DrawRectangle(self.iEdges + iOffset, gHeight-6, till, 3)
	self.isDirty = True
	else:
	if self.isDirty:
	self.DoDrawing()
	self.isDirty = False