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LibraryMap.py
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LibraryMap.py
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#Copyright (C) 2002-2015 The Board of Regents of the University of Wisconsin System
#This program is free software; you can redistribute it and/or
#modify it under the terms of the GNU General Public License
#as published by the Free Software Foundation; either version 2
#of the License, or (at your option) any later version.
#This program is distributed in the hope that it will be useful,
#but WITHOUT ANY WARRANTY; without even the implied warranty of
#MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
#GNU General Public License for more details.
#You should have received a copy of the GNU General Public License
#along with this program; if not, write to the Free Software
#Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
"""This module implements a map of keywords that have been applied to multiple Episodes in a Series"""
__author__ = "David K. Woods <[email protected]>"
DEBUG = False
if DEBUG:
print "LibraryMap DEBUG is ON!!"
# import Python's os and sys modules
import os, sys
# import Python's platform module
import platform
# import Python's string module
import string
# load wxPython for GUI
import wx
# load the GraphicsControl
import GraphicsControlClass
# Load the Printout Class
from KeywordMapPrintoutClass import MyPrintout
# Import Transana's Database Interface
import DBInterface
# Import Transana's Dialogs
import Dialogs
# Import Transana's Filter Dialog
import FilterDialog
# import Transana's Keyword Object
import KeywordObject
# import Transana's Globals
import TransanaGlobal
# Import Transana's Images
import TransanaImages
# import Transana Miscellaneous functions
import Misc
# Declare Control IDs
# Menu Item and Toolbar Item for File > Filter
M_FILE_FILTER = wx.NewId()
T_FILE_FILTER = wx.NewId()
# Menu Item and Toolbar Item for File > Save As
M_FILE_SAVEAS = wx.NewId()
T_FILE_SAVEAS = wx.NewId()
# Menu Item and Toolbar Item for File > Printer Setup
M_FILE_PRINTSETUP = wx.NewId()
T_FILE_PRINTSETUP = wx.NewId()
# Menu Item and Toolbar Item for File > Print Preview
M_FILE_PRINTPREVIEW = wx.NewId()
T_FILE_PRINTPREVIEW = wx.NewId()
# Menu Item and Toolbar Item for File > Print
M_FILE_PRINT = wx.NewId()
T_FILE_PRINT = wx.NewId()
# Menu Item and Toolbar Item for File > Exit
M_FILE_EXIT = wx.NewId()
T_FILE_EXIT = wx.NewId()
# Menu Item and Toolbar Item for Help > Help
M_HELP_HELP = wx.NewId()
T_HELP_HELP = wx.NewId()
# Series List Combo Box
ID_SERIESLIST = wx.NewId()
# Episode List Combo Box
ID_EPISODELIST = wx.NewId()
class LibraryMap(wx.Frame):
""" This is the main class for the Series Map application. """
def __init__(self, parent, title, seriesNum, seriesName, reportType, controlObject=None):
# reportType 1 is the Sequence Mode, showing relative position of keywords in the Episodes
# reportType 2 is the Bar Graph mode, showing a bar graph of total time for each keyword
# reportType 3 is the Percentage mode, showing percentage of total Episode length for each keyword
# Set the Cursor to the Hourglass while the report is assembled
TransanaGlobal.menuWindow.SetCursor(wx.StockCursor(wx.CURSOR_WAIT))
# It's always important to remember your ancestors.
self.parent = parent
# Remember the title
self.title = title
# Initialize the Report Number
self.reportNumber = 0
# Remember the Report Type
self.reportType = reportType
# Let's remember the Control Object, if one is passed in
self.ControlObject = controlObject
# If a Control Object has been passed in ...
if self.ControlObject != None:
# ... register this report with the Control Object (which adds it to the Windows Menu)
self.ControlObject.AddReportWindow(self)
# Create a connection to the database
DBConn = DBInterface.get_db()
# Create a cursor and execute the appropriate query
self.DBCursor = DBConn.cursor()
# Determine the screen size for setting the initial dialog size
rect = wx.Display(TransanaGlobal.configData.primaryScreen).GetClientArea() # wx.ClientDisplayRect()
width = rect[2] * .80
height = rect[3] * .80
# Create the basic Frame structure with a white background
self.frame = wx.Frame.__init__(self, parent, -1, title, pos=(10, 10), size=wx.Size(width, height), style=wx.DEFAULT_FRAME_STYLE | wx.TAB_TRAVERSAL | wx.NO_FULL_REPAINT_ON_RESIZE)
self.SetBackgroundColour(wx.WHITE)
# Set the icon
transanaIcon = wx.Icon(os.path.join(TransanaGlobal.programDir, "images", "Transana.ico"), wx.BITMAP_TYPE_ICO)
self.SetIcon(transanaIcon)
# Initialize Media Length to 0
self.MediaLength = 0
# Initialize all the data Lists to empty
self.episodeList = []
self.filteredEpisodeList = []
self.clipList = []
self.clipFilterList = []
self.snapshotList = []
self.snapshotFilterList = []
self.unfilteredKeywordList = []
self.filteredKeywordList = []
# To be able to show only parts of an Episode Time Line, we need variables for the time boundaries.
self.startTime = 0
self.endTime = 0
self.keywordClipList = {}
self.configName = ''
# Initialize variables required to avoid crashes when the visualization has been cleared
self.graphicindent = 0
self.Bounds = [1, 1, 1, 1]
# Create a dictionary of the colors for each keyword.
self.keywordColors = {'lastColor' : -1}
# Get the Configuration values for the Series Map Options
self.barHeight = TransanaGlobal.configData.seriesMapBarHeight
self.whitespaceHeight = TransanaGlobal.configData.seriesMapWhitespace
self.hGridLines = TransanaGlobal.configData.seriesMapHorizontalGridLines
self.vGridLines = TransanaGlobal.configData.seriesMapVerticalGridLines
self.singleLineDisplay = TransanaGlobal.configData.singleLineDisplay
self.showLegend = TransanaGlobal.configData.showLegend
# We default to Color Output. When this was configurable, if a new Map was
# created in B & W, the colors never worked right afterwards.
self.colorOutput = True
# Get the number of lines per page for multi-page reports
self.linesPerPage = 66
# If we have a Series Keyword Sequence Map in multi-line mode ...
if (self.reportType == 1) and (not self.singleLineDisplay):
# ... initialize the Episode Name Keyword Lookup Table here.
self.epNameKWGKWLookup = {}
# Initialize the Episode Counter, used for vertical placement.
self.episodeCount= 0
# We need to be able to look up Episode Lengths for the Bar Graph. Let's remember them.
self.episodeLengths = {}
# Remember the appropriate Episode information
self.seriesNum = seriesNum
self.seriesName = seriesName
# indicate that we're not working from a Clip. (The Series Maps are never Clip-based.)
self.clipNum = None
# You can't have a separate menu on the Mac, so we'll use a Toolbar
self.toolBar = self.CreateToolBar(wx.TB_HORIZONTAL | wx.NO_BORDER | wx.TB_TEXT)
self.toolBar.AddTool(T_FILE_FILTER, TransanaImages.ArtProv_LISTVIEW.GetBitmap(), shortHelpString=_("Filter"))
self.toolBar.AddTool(T_FILE_SAVEAS, TransanaImages.SaveJPG16.GetBitmap(), shortHelpString=_('Save As'))
self.toolBar.AddTool(T_FILE_PRINTSETUP, TransanaImages.PrintSetup.GetBitmap(), shortHelpString=_('Set up Page'))
# Disable Print Setup for Right-To-Left languages
# if (TransanaGlobal.configData.LayoutDirection == wx.Layout_RightToLeft):
# self.toolBar.EnableTool(T_FILE_PRINTSETUP, False)
self.toolBar.AddTool(T_FILE_PRINTPREVIEW, TransanaImages.PrintPreview.GetBitmap(), shortHelpString=_('Print Preview'))
# Disable Print Preview on the PPC Mac and for Right-To-Left languages
if (platform.processor() == 'powerpc') or (TransanaGlobal.configData.LayoutDirection == wx.Layout_RightToLeft):
self.toolBar.EnableTool(T_FILE_PRINTPREVIEW, False)
self.toolBar.AddTool(T_FILE_PRINT, TransanaImages.Print.GetBitmap(), shortHelpString=_('Print'))
# Disable Print Setup for Right-To-Left languages
# if (TransanaGlobal.configData.LayoutDirection == wx.Layout_RightToLeft):
# self.toolBar.EnableTool(T_FILE_PRINT, False)
# create a bitmap button for the Move Down button
self.toolBar.AddTool(T_HELP_HELP, TransanaImages.ArtProv_HELP.GetBitmap(), shortHelpString=_("Help"))
self.toolBar.AddTool(T_FILE_EXIT, TransanaImages.Exit.GetBitmap(), shortHelpString=_('Exit'))
self.toolBar.Realize()
# Let's go ahead and keep the menu for non-Mac platforms
if not '__WXMAC__' in wx.PlatformInfo:
# Add a Menu Bar
menuBar = wx.MenuBar() # Create the Menu Bar
self.menuFile = wx.Menu() # Create the File Menu
self.menuFile.Append(M_FILE_FILTER, _("&Filter"), _("Filter report contents")) # Add "Filter" to File Menu
self.menuFile.Append(M_FILE_SAVEAS, _("Save &As"), _("Save image in JPEG format")) # Add "Save As" to File Menu
self.menuFile.Enable(M_FILE_SAVEAS, False)
self.menuFile.Append(M_FILE_PRINTSETUP, _("Page Setup"), _("Set up Page")) # Add "Printer Setup" to the File Menu
# Disable Print Setup for Right-To-Left languages
# if (TransanaGlobal.configData.LayoutDirection == wx.Layout_RightToLeft):
# self.menuFile.Enable(M_FILE_PRINTSETUP, False)
self.menuFile.Append(M_FILE_PRINTPREVIEW, _("Print Preview"), _("Preview your printed output")) # Add "Print Preview" to the File Menu
self.menuFile.Enable(M_FILE_PRINTPREVIEW, False)
self.menuFile.Append(M_FILE_PRINT, _("&Print"), _("Send your output to the Printer")) # Add "Print" to the File Menu
self.menuFile.Enable(M_FILE_PRINT, False)
self.menuFile.Append(M_FILE_EXIT, _("E&xit"), _("Exit the Series Map program")) # Add "Exit" to the File Menu
menuBar.Append(self.menuFile, _('&File')) # Add the File Menu to the Menu Bar
self.menuHelp = wx.Menu()
self.menuHelp.Append(M_HELP_HELP, _("&Help"), _("Help"))
menuBar.Append(self.menuHelp, _("&Help"))
self.SetMenuBar(menuBar) # Connect the Menu Bar to the Frame
# Link menu items and toolbar buttons to the appropriate methods
wx.EVT_MENU(self, M_FILE_FILTER, self.OnFilter) # Attach File > Filter to a method
wx.EVT_MENU(self, T_FILE_FILTER, self.OnFilter) # Attach Toolbar Filter to a method
wx.EVT_MENU(self, M_FILE_SAVEAS, self.OnSaveAs) # Attach File > Save As to a method
wx.EVT_MENU(self, T_FILE_SAVEAS, self.OnSaveAs) # Attach Toolbar Save As to a method
wx.EVT_MENU(self, M_FILE_PRINTSETUP, self.OnPrintSetup) # Attach File > Print Setup to a method
wx.EVT_MENU(self, T_FILE_PRINTSETUP, self.OnPrintSetup) # Attach Toolbar Print Setup to a method
wx.EVT_MENU(self, M_FILE_PRINTPREVIEW, self.OnPrintPreview) # Attach File > Print Preview to a method
wx.EVT_MENU(self, T_FILE_PRINTPREVIEW, self.OnPrintPreview) # Attach Toolbar Print Preview to a method
wx.EVT_MENU(self, M_FILE_PRINT, self.OnPrint) # Attach File > Print to a method
wx.EVT_MENU(self, T_FILE_PRINT, self.OnPrint) # Attach Toolbar Print to a method
wx.EVT_MENU(self, M_FILE_EXIT, self.CloseWindow) # Attach CloseWindow to File > Exit
wx.EVT_MENU(self, T_FILE_EXIT, self.CloseWindow) # Attach CloseWindow to Toolbar Exit
wx.EVT_MENU(self, M_HELP_HELP, self.OnHelp)
wx.EVT_MENU(self, T_HELP_HELP, self.OnHelp)
# Bind the form's EVT_CLOSE method
self.Bind(wx.EVT_CLOSE, self.OnClose)
# Determine the window boundaries
(w, h) = self.GetClientSizeTuple()
self.Bounds = (5, 5, w - 10, h - 25)
# Create the Graphic Area using the GraphicControlClass
# NOTE: EVT_LEFT_DOWN, EVT_LEFT_UP, and EVT_RIGHT_UP are caught in GraphicsControlClass and are passed to this routine's
# OnLeftDown and OnLeftUp (for both left and right) methods because of the "passMouseEvents" paramter
self.graphic = GraphicsControlClass.GraphicsControl(self, -1, wx.Point(self.Bounds[0], self.Bounds[1]),
(self.Bounds[2] - self.Bounds[0], self.Bounds[3] - self.Bounds[1]),
(self.Bounds[2] - self.Bounds[0], self.Bounds[3] - self.Bounds[1]),
passMouseEvents=True)
# Add a Status Bar
self.CreateStatusBar()
# Attach the Resize Event
wx.EVT_SIZE(self, self.OnSize)
# We'll detect mouse movement in the GraphicsControlClass from out here, as
# the KeywordMap object is the object that knows what the data is on the graphic.
self.graphic.Bind(wx.EVT_MOTION, self.OnMouseMotion)
# Prepare objects for use in Printing
self.printData = wx.PrintData()
self.printData.SetPaperId(wx.PAPER_LETTER)
# Center on the screen
TransanaGlobal.CenterOnPrimary(self)
# Show the Frame
self.Show(True)
# Populate the drawing
self.ProcessSeries()
self.DrawGraph()
# Trigger the load of the Default Filter, if one exists. An event of None signals we're loading the
# Default config, an dhte OnFilter method will handle drawing the graph!
self.OnFilter(None)
# Restore Cursor to Arrow
TransanaGlobal.menuWindow.SetCursor(wx.StockCursor(wx.CURSOR_ARROW))
# Define the Method that implements Filter
def OnFilter(self, event):
""" Implement the Filter Dialog call for Series Maps """
if event == None:
loadDefault = True
else:
loadDefault = False
# Set the Cursor to the Hourglass while the report is assembled
TransanaGlobal.menuWindow.SetCursor(wx.StockCursor(wx.CURSOR_WAIT))
# Set up parameters for creating the Filter Dialog. Series Map Filter requires Series Number (as episodeNum) for the Config Save.
title = string.join([self.title, unicode(_("Filter Dialog"), 'utf8')], ' ')
# See if the Series Map wants the Clip Filter
clipFilter = (len(self.clipFilterList) > 0)
# See if there are Snapshots in the Snapshot Filter List
snapshotFilter = (len(self.snapshotFilterList) > 0)
# See if there are Keywords in the Filter List
keywordFilter = (len(self.unfilteredKeywordList) > 0)
# Series Map wants Keyword Color customization if it has keywords.
keywordColors = (len(self.unfilteredKeywordList) > 0)
# We want the Options tab
options = True
# reportType=5 indicates it is for a Series Sequence Map.
# reportType=6 indicates it is for a Series Bar Graph.
# reportType=7 indicates it is for a Series Percentage Map
reportType = self.reportType + 4
# The Series Keyword Sequence Map has all the usual parameters plus Time Range data and the Single Line Display option
if self.reportType in [1]:
# Create a Filter Dialog, passing all the necessary parameters.
dlgFilter = FilterDialog.FilterDialog(self,
-1,
title,
reportType=reportType,
loadDefault=loadDefault,
configName=self.configName,
reportScope=self.seriesNum,
episodeFilter=True,
episodeSort=True,
clipFilter=clipFilter,
snapshotFilter=snapshotFilter,
keywordFilter=keywordFilter,
keywordSort=True,
keywordColor=keywordColors,
options=options,
startTime=self.startTime,
endTime=self.endTime,
barHeight=self.barHeight,
whitespace=self.whitespaceHeight,
hGridLines=self.hGridLines,
vGridLines=self.vGridLines,
singleLineDisplay=self.singleLineDisplay,
showLegend=self.showLegend,
colorOutput=self.colorOutput)
elif self.reportType in [2, 3]:
# Create a Filter Dialog, passing all the necessary parameters.
dlgFilter = FilterDialog.FilterDialog(self,
-1,
title,
reportType=reportType,
loadDefault=loadDefault,
configName=self.configName,
reportScope=self.seriesNum,
episodeFilter=True,
episodeSort=True,
clipFilter=clipFilter,
snapshotFilter=snapshotFilter,
keywordFilter=keywordFilter,
keywordSort=True,
keywordColor=keywordColors,
options=options,
barHeight=self.barHeight,
whitespace=self.whitespaceHeight,
hGridLines=self.hGridLines,
vGridLines=self.vGridLines,
showLegend=self.showLegend,
colorOutput=self.colorOutput)
# Sort the Episode List
self.episodeList.sort()
# Inform the Filter Dialog of the Episodes
dlgFilter.SetEpisodes(self.episodeList)
# If we requested the Clip Filter ...
if clipFilter:
# We want the Clips sorted in Clip ID order in the FilterDialog. We handle that out here, as the Filter Dialog
# has to deal with manual clip ordering in some instances, though not here, so it can't deal with this.
self.clipFilterList.sort()
# Inform the Filter Dialog of the Clips
dlgFilter.SetClips(self.clipFilterList)
# if there are Snapshots ...
if snapshotFilter:
# ... populate the Filter Dialog with Snapshots
dlgFilter.SetSnapshots(self.snapshotFilterList)
# Keyword Colors must be specified before Keywords! So if we want Keyword Colors, ...
if keywordColors:
# If we're in grayscale mode, the colors are probably mangled, so let's fix them before
# we send them to the Filter dialog.
if not self.colorOutput:
# A shallow copy of the dictionary object should get the job done.
self.keywordColors = self.rememberedKeywordColors.copy()
# Inform the Filter Dialog of the colors used for each Keyword
dlgFilter.SetKeywordColors(self.keywordColors)
if keywordFilter:
# Inform the Filter Dialog of the Keywords
dlgFilter.SetKeywords(self.unfilteredKeywordList)
# Set the Cursor to the Arrow now that the filter dialog is assembled
TransanaGlobal.menuWindow.SetCursor(wx.StockCursor(wx.CURSOR_ARROW))
# Create a dummy error message to get our while loop started.
errorMsg = 'Start Loop'
# Keep trying as long as there is an error message
while errorMsg != '':
# Clear the last (or dummy) error message.
errorMsg = ''
if loadDefault:
# ... get the list of existing configuration names.
profileList = dlgFilter.GetConfigNames()
# If (translated) "Default" is in the list ...
# (NOTE that the default config name is stored in English, but gets translated by GetConfigNames!)
if unicode(_('Default'), 'utf8') in profileList:
# ... then signal that we need to load the config.
dlgFilter.OnFileOpen(None)
# Fake that we asked the user for a filter name and got an OK
result = wx.ID_OK
# If we're loading a Default profile, but there's none in the list, we can skip
# the rest of the Filter method by pretending we got a Cancel from the user.
else:
result = wx.ID_CANCEL
# If we're not loading a Default profile ...
else:
# ... we need to show the Filter Dialog here.
result = dlgFilter.ShowModal()
# Show the Filter Dialog and see if the user clicks OK
if result == wx.ID_OK:
# Get the Episode Data from the Filter Dialog
self.episodeList = dlgFilter.GetEpisodes()
# If we requested Clip Filtering ...
if clipFilter:
# ... then get the filtered clip data
self.clipFilterList = dlgFilter.GetClips()
if snapshotFilter:
self.snapshotFilterList = dlgFilter.GetSnapshots()
# Get the complete list of keywords from the Filter Dialog. We'll deduce the filter info in a moment.
# (This preserves the "check" info for later reuse.)
self.unfilteredKeywordList = dlgFilter.GetKeywords()
# If we requested Keyword Color data ...
if keywordColors:
# ... then get the keyword color data from the Filter Dialog
self.keywordColors = dlgFilter.GetKeywordColors()
# Reset the Filtered Keyword List
self.filteredKeywordList = []
# Iterate through the entire Keword List ...
for (kwg, kw, checked) in self.unfilteredKeywordList:
# ... and determine which keywords were checked.
if checked:
# Only the checked ones go into the filtered keyword list.
self.filteredKeywordList.append((kwg, kw))
# If we had an Options Tab, extract that data.
if options:
# Only the Series Keyword Sequence Map needs the Time Range options.
if self.reportType in [1]:
# Let's get the Time Range data.
# Start Time must be 0 or greater. Otherwise, don't change it!
if Misc.time_in_str_to_ms(dlgFilter.GetStartTime()) >= 0:
self.startTime = Misc.time_in_str_to_ms(dlgFilter.GetStartTime())
else:
errorMsg += _("Illegal value for Start Time.\n")
# If the Start Time is greater than the media length, reset it to 0.
if self.startTime >= self.MediaLength:
dlgFilter.startTime.SetValue(Misc.time_in_ms_to_str(0))
errorMsg += _("Illegal value for Start Time.\n")
# End Time must be at least 0. Otherwise, don't change it!
if (Misc.time_in_str_to_ms(dlgFilter.GetEndTime()) >= 0):
self.endTime = Misc.time_in_str_to_ms(dlgFilter.GetEndTime())
else:
errorMsg += _("Illegal value for End Time.\n")
# If the end time is 0 or greater than the media length, set it to the media length.
if (self.endTime == 0) or (self.endTime > self.MediaLength):
self.endTime = self.MediaLength
# Start time cannot equal end time (but this check must come after setting endtime == 0 to MediaLength)
if self.startTime == self.endTime:
errorMsg += _("Start Time and End Time must be different.")
# We need to alter the time values to prevent "division by zero" errors while the Filter Dialog is not modal.
self.startTime = 0
self.endTime = self.MediaLength
# If the Start Time is greater than the End Time, swap them.
if (self.endTime < self.startTime):
temp = self.startTime
self.startTime = self.endTime
self.endTime = temp
# Get the Bar Height and Whitespace Height for all versions of the Series Map
self.barHeight = dlgFilter.GetBarHeight()
self.whitespaceHeight = dlgFilter.GetWhitespace()
# we need to store the Bar Height and Whitespace values in the Configuration.
TransanaGlobal.configData.seriesMapBarHeight = self.barHeight
TransanaGlobal.configData.seriesMapWhitespace = self.whitespaceHeight
# Get the Grid Line data from the form
self.hGridLines = dlgFilter.GetHGridLines()
self.vGridLines = dlgFilter.GetVGridLines()
# Store the Grid Line data in the Configuration
TransanaGlobal.configData.seriesMapHorizontalGridLines = self.hGridLines
TransanaGlobal.configData.seriesMapVerticalGridLines = self.vGridLines
# Only the Series Keyword Sequence Graph needs the Single Line Display Option data.
if self.reportType in [1]:
# Get the singleLineDisplay value from the dialog
self.singleLineDisplay = dlgFilter.GetSingleLineDisplay()
# Remember the value.
TransanaGlobal.configData.singleLineDisplay = self.singleLineDisplay
# Get the showLegend value from the dialog
self.showLegend = dlgFilter.GetShowLegend()
# Remember the value. (This doesn't get saved.)
TransanaGlobal.configData.showLegend = self.showLegend
# Detect if the colorOutput value is actually changing.
if (self.colorOutput != dlgFilter.GetColorOutput()):
# If we're going from color to grayscale ...
if self.colorOutput:
# ... remember what the colors were before they get all screwed up by displaying
# the graphic without them.
self.rememberedKeywordColors = {}
self.rememberedKeywordColors = self.keywordColors.copy()
# Get the colorOutput value from the dialog
self.colorOutput = dlgFilter.GetColorOutput()
if errorMsg != '':
errorDlg = Dialogs.ErrorDialog(self, errorMsg)
errorDlg.ShowModal()
errorDlg.Destroy()
# Remember the configuration name for later reuse
self.configName = dlgFilter.configName
# Destroy the Filter Dialog. We're done with it.
dlgFilter.Destroy()
# Now we can draw the graph.
self.DrawGraph()
# Define the Method that implements Save As
def OnSaveAs(self, event):
self.graphic.SaveAs()
# Define the Method that implements Printer Setup
def OnPrintSetup(self, event):
# Let's use PAGE Setup here ('cause you can do Printer Setup from Page Setup.) It's a better system
# that allows Landscape on Mac.
pageSetupDialogData = wx.PageSetupDialogData(self.printData)
pageSetupDialogData.CalculatePaperSizeFromId()
pageDialog = wx.PageSetupDialog(self, pageSetupDialogData)
pageDialog.ShowModal()
self.printData = wx.PrintData(pageDialog.GetPageSetupData().GetPrintData())
pageDialog.Destroy()
# Define the Method that implements Print Preview
def OnPrintPreview(self, event):
lineHeight = self.CalcY(1) - self.CalcY(0)
printout = MyPrintout(self.title, self.graphic, multiPage=True, lineStart=self.CalcY(0) - int(lineHeight / 2.0), lineHeight=lineHeight)
printout2 = MyPrintout(self.title, self.graphic, multiPage=True, lineStart=self.CalcY(0) - int(lineHeight / 2.0), lineHeight=lineHeight)
self.preview = wx.PrintPreview(printout, printout2, self.printData)
if not self.preview.Ok():
self.SetStatusText(_("Print Preview Problem"))
return
theWidth = max(wx.Display(TransanaGlobal.configData.primaryScreen).GetClientArea()[2] - 180, 760) # wx.ClientDisplayRect()
theHeight = max(wx.Display(TransanaGlobal.configData.primaryScreen).GetClientArea()[3] - 200, 560) # wx.ClientDisplayRect()
frame2 = wx.PreviewFrame(self.preview, self, _("Print Preview"), size=(theWidth, theHeight))
frame2.Centre()
frame2.Initialize()
frame2.Show(True)
# Define the Method that implements Print
def OnPrint(self, event):
pdd = wx.PrintDialogData()
pdd.SetPrintData(self.printData)
printer = wx.Printer(pdd)
lineHeight = self.CalcY(1) - self.CalcY(0)
printout = MyPrintout(self.title, self.graphic, multiPage=True, lineStart=self.CalcY(0) - int(lineHeight / 2.0), lineHeight=lineHeight)
if not printer.Print(self, printout):
dlg = Dialogs.ErrorDialog(None, _("There was a problem printing this report."))
dlg.ShowModal()
dlg.Destroy()
# NO! REMOVED to prevent crash on 2nd print attempt following Filter Config.
# else:
# self.printData = printer.GetPrintDialogData().GetPrintData()
printout.Destroy()
def OnClose(self, event):
""" Handle the Close Event """
# If the report has a defined Control Object ...
if self.ControlObject != None:
# ... remove this report from the Menu Window's Window Menu
self.ControlObject.RemoveReportWindow(self.title, self.reportNumber)
# Inherit the parent Close event so things will, you know, close.
event.Skip()
# Define the Method that closes the Window on File > Exit
def CloseWindow(self, event):
# Close!
self.Close()
def OnHelp(self, event):
""" Implement the Filter Dialog Box's Help function """
# Define the Help Context
HelpContext = "Library Keyword Graphs"
# If a Help Window is defined ...
if TransanaGlobal.menuWindow != None:
# ... call Help!
TransanaGlobal.menuWindow.ControlObject.Help(HelpContext)
def OnSize(self, event):
""" Handle Resize Events by resizing the Graphic Control and redrawing the graphic """
(w, h) = self.GetClientSizeTuple()
if self.Bounds[1] == 5:
self.Bounds = (5, 5, w - 10, h - 25)
else:
self.Bounds = (5, 40, w - 10, h - 30)
self.DrawGraph()
def CalcX(self, XPos):
""" Determine the proper horizontal coordinate for the given time """
# We need to start by defining the legal range for the type of graph we're working with.
# The Sequence Map is tied to the start and end time variables.
if self.reportType == 1:
startVal = self.startTime
endVal = self.endTime
# The Bar Graph stretches from 0 to the time line Maximum variable
elif self.reportType == 2:
startVal = 0.0
if self.timelineMax == 0:
endVal = 1
else:
endVal = self.timelineMax
# The Percentage Graph ranges from 0 to 100!
elif self.reportType == 3:
startVal = 0.0
endVal = 100.0
# Specify a margin width
marginwidth = (0.06 * (self.Bounds[2] - self.Bounds[0]))
# The Horizonal Adjustment is the global graphic indent
hadjust = self.graphicindent
# The Scaling Factor is the active portion of the drawing area width divided by the total media length
# The idea is to leave the left margin, self.graphicindent for Keyword Labels, and the right margin
if self.MediaLength > 0:
scale = (float(self.Bounds[2]) - self.Bounds[0] - hadjust - 2 * marginwidth) / (endVal - startVal)
else:
scale = 0.0
# The horizontal coordinate is the left margin plus the Horizontal Adjustment for Keyword Labels plus
# position times the scaling factor
res = marginwidth + hadjust + ((XPos - startVal) * scale)
# If we are in a Right-To-Left Language ...
if TransanaGlobal.configData.LayoutDirection == wx.Layout_RightToLeft:
# ... adjust for a right-to-left graph
return int(self.Bounds[2] - self.Bounds[0] - res)
# If we are in a Left-To-Right language ...
else:
# ... just return the calculated value
return int(res)
def FindTime(self, x):
""" Given a horizontal pixel position, determine the corresponding time value from
the video time line """
# determine the margin width
marginwidth = (0.06 * (self.Bounds[2] - self.Bounds[0]))
# The Horizonal Adjustment is the global graphic indent
hadjust = self.graphicindent
# The Scaling Factor is the active portion of the drawing area width divided by the total media length
# The idea is to leave the left margin, self.graphicindent for Keyword Labels, and the right margin
if self.MediaLength > 0:
scale = (float(self.Bounds[2]) - self.Bounds[0] - hadjust - 2 * marginwidth) / (self.endTime - self.startTime)
else:
scale = 1.0
# The time is calculated by taking the total width, subtracting the margin values and horizontal indent,
# and then dividing the result by the scale factor calculated above
time = int((x - marginwidth - hadjust) / scale) + self.startTime
return time
def CalcY(self, YPos):
""" Determine the vertical position for a given keyword index """
# Spacing is the larger of (12 pixels for label text or the bar height) plus 2 for whitespace
spacing = max(12, self.barHeight) + self.whitespaceHeight
# Top margin is 30 for titles plus 28 for the timeline
topMargin = 30 + (2 * spacing)
return int(spacing * YPos + topMargin)
def FindKeyword(self, y):
""" Given a vertical pixel position, determine the corresponding Keyword data """
# NOTE: This method is only valid if self.reportType == 1, the Sequence Map.
# Other variations of the Series maps may use different key values for the dictionary.
if self.reportType != 1:
return None
# If the graphic is scrolled, the raw Y value does not point to the correct Keyword.
# Determine the unscrolled equivalent Y position.
(modX, modY) = self.graphic.CalcUnscrolledPosition(0, y)
# Now we need to get the keys for the Lookup Dictionary
keyVals = self.epNameKWGKWLookup.keys()
# We need the keys to be in order, so we can quit when we've found what we're looking for.
keyVals.sort()
# The single-line display and the multi-line display handle the lookup differently, of course.
# Let's start with the single-line display.
if self.singleLineDisplay:
# Initialize the return value to None in case nothing is found. The single-line version expects an Episode Name.
returnVal = None
# We also need a temporary value initialized to None. Our data structure returns complex data, from which we
# extract the desired value.
tempVal = None
# Iterate through the sorted keys. The keys are actually y values for the graph!
for yVal in keyVals:
# If we find a key value that is smaller than the unscrolled Graphic y position ...
if yVal <= modY:
# ... then we've found a candidate for what we're looking for. But we keep iterating,
# because we want the LARGEST yVal that's smaller than the graphic y value.
tempVal = self.epNameKWGKWLookup[yVal]
# Once our y values are too large ...
else:
# ... we should stop iterating through the (sorted) keys.
break
# If we found a valid data structure ...
if tempVal != None:
# ... we can extract the Episode name by looking at the first value of the first value of the first key.
returnVal = tempVal[tempVal.keys()[0]][0][0]
# Here, we handle the multi-line display of the Sequence Map.
else:
# Initialize the return value to a tuple of three Nones in case nothing is found.
# The multi-line version expects an Episode Name, Keyword Group, Keyword tuple.
returnVal = (None, None, None)
# Iterate through the sorted keys. The keys are actually y values for the graph!
for yVal in keyVals:
# If we find a key value that is smaller than the unscrolled Graphic y position ...
if yVal <= modY:
# ... then we've found a candidate for what we're looking for. But we keep iterating,
# because we want the LARGEST yVal that's smaller than the graphic y value.
returnVal = self.epNameKWGKWLookup[yVal]
# Once our y values are too large ...
else:
# ... we should stop iterating through the (sorted) keys.
break
# Return the value we found, or None
return returnVal
def GetScaleIncrements(self, MediaLength):
# The general rule is to try to get logical interval sizes with 8 or fewer time increments.
# You always add a bit (20% at the lower levels) of the time interval to the MediaLength
# because the final time is placed elsewhere and we don't want overlap.
# This routine covers from 1 second to 18 hours in length.
# media Length of 9 seconds or less = 1 second intervals
if MediaLength < 9001:
Num = int(round((MediaLength + 200) / 1000.0))
Interval = 1000
# media length of 18 seconds or less = 2 second intervals
elif MediaLength < 18001:
Num = int(round((MediaLength + 400) / 2000.0))
Interval = 2000
# media length of 30 seconds or less = 5 second intervals
elif MediaLength < 30001:
Num = int(round((MediaLength + 2000) / 5000.0))
Interval = 5000
# media length of 50 seconds or less = 5 second intervals
elif MediaLength < 50001:
Num = int(round((MediaLength + 1000) / 5000.0))
Interval = 5000
# media Length of 1:30 or less = 10 second intervals
elif MediaLength < 90001:
Num = int(round((MediaLength + 2000) / 10000.0))
Interval = 10000
# media length of 2:50 or less = 20 second intervals
elif MediaLength < 160001:
Num = int(round((MediaLength + 4000) / 20000.0))
Interval = 20000
# media length of 4:30 or less = 30 second intervals
elif MediaLength < 270001:
Num = int(round((MediaLength + 6000) / 30000.0))
Interval = 30000
# media length of 6:00 or less = 60 second intervals
elif MediaLength < 360001:
Num = int(round((MediaLength + 12000) / 60000.0))
Interval = 60000
# media length of 10:00 or less = 60 second intervals
elif MediaLength < 600001:
Num = int(round((MediaLength + 8000) / 60000.0))
Interval = 60000
# media length of 16:00 or less = 2 minute intervals
elif MediaLength < 960001:
Num = int(round((MediaLength + 24000) / 120000.0))
Interval = 120000
# media length of 40:00 or less = 5 minute intervals
elif MediaLength < 2400001:
Num = int(round((MediaLength + 60000) / 300000.0))
Interval = 300000
# media length if 1:10:00 or less get 10 minute intervals
elif MediaLength < 4200001:
Num = int(round((MediaLength + 80000) / 600000.0))
Interval = 600000
# media length if 3:00:00 or less get 30 minute intervals
elif MediaLength < 10800001:
Num = int(round((MediaLength + 240000) / 1800000.0))
Interval = 1800000
# media length if 4:00:00 or less get 30 minute intervals
elif MediaLength < 14400001:
Num = int(round((MediaLength + 60000) / 1800000.0))
Interval = 1800000
# media length if 9:00:00 or less get 60 minute intervals
elif MediaLength < 32400001:
Num = int(round((MediaLength + 120000) / 3600000.0))
Interval = 3600000
# Longer videos get 2 hour intervals
else:
Num = int(round((MediaLength + 240000) / 7200000.0))
Interval = 7200000
return Num, Interval
def ProcessSeries(self):
# Initialize Media Length to 0
self.MediaLength = 0
# Initialize all the data Lists to empty
self.episodeList = []
self.filteredEpisodeList = []
self.clipList = []
self.clipFilterList = []
self.snapshotList = []
self.snapshotFilterList = []
self.unfilteredKeywordList = []
self.filteredKeywordList = []
if self.reportType == 2:
epLengths = {}
# Get Series Number, Episode Number, Media File Name, and Length
SQLText = """SELECT e.EpisodeNum, e.EpisodeID, e.SeriesNum, e.MediaFile, e.EpLength, s.SeriesID
FROM Episodes2 e, Series2 s
WHERE s.SeriesNum = e.SeriesNum AND
s.SeriesNum = %s
ORDER BY EpisodeID """
# Adjust the query for sqlite if needed
SQLText = DBInterface.FixQuery(SQLText)
# Execute the query
self.DBCursor.execute(SQLText, (self.seriesNum, ))
for (EpisodeNum, EpisodeID, SeriesNum, MediaFile, EpisodeLength, SeriesID) in self.DBCursor.fetchall():
EpisodeID = DBInterface.ProcessDBDataForUTF8Encoding(EpisodeID)
SeriesID = DBInterface.ProcessDBDataForUTF8Encoding(SeriesID)
MediaFile = DBInterface.ProcessDBDataForUTF8Encoding(MediaFile)
self.episodeList.append((EpisodeID, SeriesID, True))
if (EpisodeLength > self.MediaLength):
self.MediaLength = EpisodeLength
self.endTime = self.MediaLength
# Remember the Episode's length
self.episodeLengths[(EpisodeID, SeriesID)] = EpisodeLength
# Get the list of Keywords to be displayed
SQLText = """SELECT ck.KeywordGroup, ck.Keyword
FROM Clips2 cl, ClipKeywords2 ck
WHERE cl.EpisodeNum = %s AND
cl.ClipNum = ck.ClipNum
GROUP BY ck.keywordgroup, ck.keyword
ORDER BY KeywordGroup, Keyword, ClipStart"""
# Adjust the query for sqlite if needed
SQLText = DBInterface.FixQuery(SQLText)
self.DBCursor.execute(SQLText, (EpisodeNum, ))
for (kwg, kw) in self.DBCursor.fetchall():
kwg = DBInterface.ProcessDBDataForUTF8Encoding(kwg)
kw = DBInterface.ProcessDBDataForUTF8Encoding(kw)
if not (kwg, kw) in self.filteredKeywordList:
self.filteredKeywordList.append((kwg, kw))
if not (kwg, kw, True) in self.unfilteredKeywordList:
self.unfilteredKeywordList.append((kwg, kw, True))
# Get the list of WHOLE SNAPSHOT Keywords to be displayed
SQLText = """SELECT ck.KeywordGroup, ck.Keyword
FROM Snapshots2 sn, ClipKeywords2 ck
WHERE sn.EpisodeNum = %s AND
sn.SnapshotNum = ck.SnapshotNum
GROUP BY ck.keywordgroup, ck.keyword
ORDER BY KeywordGroup, Keyword, SnapshotTimeCode"""
# Adjust the query for sqlite if needed
SQLText = DBInterface.FixQuery(SQLText)
self.DBCursor.execute(SQLText, (EpisodeNum, ))
for (kwg, kw) in self.DBCursor.fetchall():
kwg = DBInterface.ProcessDBDataForUTF8Encoding(kwg)
kw = DBInterface.ProcessDBDataForUTF8Encoding(kw)
if not (kwg, kw) in self.filteredKeywordList:
self.filteredKeywordList.append((kwg, kw))
if not (kwg, kw, True) in self.unfilteredKeywordList:
self.unfilteredKeywordList.append((kwg, kw, True))
# Get the list of SNAPSHOT CODING Keywords to be displayed
SQLText = """SELECT ck.KeywordGroup, ck.Keyword
FROM Snapshots2 sn, SnapshotKeywords2 ck
WHERE sn.EpisodeNum = %s AND
sn.SnapshotNum = ck.SnapshotNum
GROUP BY ck.keywordgroup, ck.keyword
ORDER BY KeywordGroup, Keyword, SnapshotTimeCode"""
# Adjust the query for sqlite if needed
SQLText = DBInterface.FixQuery(SQLText)
self.DBCursor.execute(SQLText, (EpisodeNum, ))
for (kwg, kw) in self.DBCursor.fetchall():
kwg = DBInterface.ProcessDBDataForUTF8Encoding(kwg)
kw = DBInterface.ProcessDBDataForUTF8Encoding(kw)
if not (kwg, kw) in self.filteredKeywordList:
self.filteredKeywordList.append((kwg, kw))
if not (kwg, kw, True) in self.unfilteredKeywordList:
self.unfilteredKeywordList.append((kwg, kw, True))
# Sort the Keyword List
self.unfilteredKeywordList.sort()
# Create the Keyword Placement lines to be displayed. We need them to be in ClipStart, ClipNum order so colors will be
# distributed properly across bands.
SQLText = """SELECT ck.KeywordGroup, ck.Keyword, cl.ClipStart, cl.ClipStop, cl.ClipNum, cl.ClipID, cl.CollectNum
FROM Clips2 cl, ClipKeywords2 ck
WHERE cl.EpisodeNum = %s AND
cl.ClipNum = ck.ClipNum
ORDER BY ClipStart, cl.ClipNum, KeywordGroup, Keyword"""
# Adjust the query for sqlite if needed
SQLText = DBInterface.FixQuery(SQLText)
self.DBCursor.execute(SQLText, (EpisodeNum, ))
for (kwg, kw, clipStart, clipStop, clipNum, clipID, collectNum) in self.DBCursor.fetchall():
kwg = DBInterface.ProcessDBDataForUTF8Encoding(kwg)
kw = DBInterface.ProcessDBDataForUTF8Encoding(kw)
clipID = DBInterface.ProcessDBDataForUTF8Encoding(clipID)
# If we're dealing with an Episode, self.clipNum will be None and we want all clips.
# If we're dealing with a Clip, we only want to deal with THIS clip!
if (self.clipNum == None) or (clipNum == self.clipNum):
self.clipList.append((kwg, kw, clipStart, clipStop, clipNum, clipID, collectNum, EpisodeID, SeriesID))
if not ((clipID, collectNum, True) in self.clipFilterList):
self.clipFilterList.append((clipID, collectNum, True))
# Create the WHOLE SNAPSHOT Keyword Placement lines to be displayed. We need them to be in SnapshotTimeCode, SnapshotNum order so colors will be
# distributed properly across bands.
SQLText = """SELECT ck.KeywordGroup, ck.Keyword, sn.SnapshotTimeCode, sn.SnapshotDuration, sn.SnapshotNum, sn.SnapshotID, sn.CollectNum
FROM Snapshots2 sn, ClipKeywords2 ck
WHERE sn.EpisodeNum = %s AND
sn.SnapshotNum = ck.SnapshotNum
ORDER BY SnapshotTimeCode, sn.SnapshotNum, KeywordGroup, Keyword"""
# Adjust the query for sqlite if needed
SQLText = DBInterface.FixQuery(SQLText)
self.DBCursor.execute(SQLText, (EpisodeNum, ))
for (kwg, kw, SnapshotTimeCode, SnapshotDuration, SnapshotNum, SnapshotID, collectNum) in self.DBCursor.fetchall():
kwg = DBInterface.ProcessDBDataForUTF8Encoding(kwg)
kw = DBInterface.ProcessDBDataForUTF8Encoding(kw)
SnapshotID = DBInterface.ProcessDBDataForUTF8Encoding(SnapshotID)
# If we're dealing with an Episode, self.clipNum will be None and we want all clips.
# If we're dealing with a Clip, we only want to deal with THIS clip!
if (self.clipNum == None):
self.snapshotList.append((kwg, kw, SnapshotTimeCode, SnapshotTimeCode + SnapshotDuration, SnapshotNum, SnapshotID, collectNum, EpisodeID, SeriesID))
if not ((SnapshotID, collectNum, True) in self.snapshotFilterList):
self.snapshotFilterList.append((SnapshotID, collectNum, True))
# Create the SNAPSHOT CODING Keyword Placement lines to be displayed. We need them to be in SnapshotTimeCode, SnapshotNum order so colors will be
# distributed properly across bands.
SQLText = """SELECT ck.KeywordGroup, ck.Keyword, sn.SnapshotTimeCode, sn.SnapshotDuration, sn.SnapshotNum, sn.SnapshotID, sn.CollectNum
FROM Snapshots2 sn, SnapshotKeywords2 ck
WHERE sn.EpisodeNum = %s AND
sn.SnapshotNum = ck.SnapshotNum
ORDER BY SnapshotTimeCode, sn.SnapshotNum, KeywordGroup, Keyword"""
# Adjust the query for sqlite if needed
SQLText = DBInterface.FixQuery(SQLText)
self.DBCursor.execute(SQLText, (EpisodeNum, ))
for (kwg, kw, SnapshotTimeCode, SnapshotDuration, SnapshotNum, SnapshotID, collectNum) in self.DBCursor.fetchall():
kwg = DBInterface.ProcessDBDataForUTF8Encoding(kwg)
kw = DBInterface.ProcessDBDataForUTF8Encoding(kw)
SnapshotID = DBInterface.ProcessDBDataForUTF8Encoding(SnapshotID)
# If we're dealing with an Episode, self.clipNum will be None and we want all clips.
# If we're dealing with a Clip, we only want to deal with THIS clip!
if (self.clipNum == None):
self.snapshotList.append((kwg, kw, SnapshotTimeCode, SnapshotTimeCode + SnapshotDuration, SnapshotNum, SnapshotID, collectNum, EpisodeID, SeriesID))
if not ((SnapshotID, collectNum, True) in self.snapshotFilterList):
self.snapshotFilterList.append((SnapshotID, collectNum, True))
# Sort the Keyword List
self.filteredKeywordList.sort()
def UpdateKeywordVisualization(self):
""" Update the Keyword Visualization following something that could have changed it. """
print "LibraryMap.UpdateKeywordVisualization(): This should NEVER get called!!"
# Clear the Clip List
self.clipList = []
# Clear the Filtered Clip List
self.clipFilterList = []
# Clear the graphic itself
self.graphic.Clear()
# Before we start, make a COPY of the keyword list so we can check for keywords that are no longer
# included on the Map and need to be deleted from the KeywordLists
delList = self.unfilteredKeywordList[:]
# Now let's create the SQL to get all relevant Clip and Clip Keyword records
SQLText = """SELECT ck.KeywordGroup, ck.Keyword, cl.ClipStart, cl.ClipStop, cl.ClipNum, cl.ClipID, cl.CollectNum, ep.EpisodeName
FROM Clips2 cl, ClipKeywords2 ck, Episodes2 ep
WHERE cl.EpisodeNum = %s AND
cl.ClipNum = ck.ClipNum AND
ep.EpisodeNum = cl.EpisodeNum
ORDER BY ClipStart, cl.ClipNum, KeywordGroup, Keyword"""
# Adjust the query for sqlite if needed
SQLText = DBInterface.FixQuery(SQLText)
# Execute the query
self.DBCursor.execute(SQLText, (self.episodeNum, ))
# Iterate through the results ...
for (kwg, kw, clipStart, clipStop, clipNum, clipID, collectNum, episodeName) in self.DBCursor.fetchall():
kwg = DBInterface.ProcessDBDataForUTF8Encoding(kwg)
kw = DBInterface.ProcessDBDataForUTF8Encoding(kw)
clipID = DBInterface.ProcessDBDataForUTF8Encoding(clipID)
episodeName = DBInterface.ProcessDBDataForUTF8Encoding(episodeName)
# If we're dealing with an Episode, self.clipNum will be None and we want all clips.
# If we're dealing with a Clip, we only want to deal with THIS clip!
if (self.clipNum == None) or (clipNum == self.clipNum):
# If a Clip is not found in the clipList ...
if not ((kwg, kw, clipStart, clipStop, clipNum, clipID, collectNum, episodeName, seriesName) in self.clipList):
# ... add it to the clipList ...