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#
# Copyright (C) 2010 Andreas Auras
#
# This file is part of the DF10CH Atmolight controller project.
#
# DF10CH Atmolight controller 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.
#
# DF10CH Atmolight controller 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
#
# This file is part of the DF10CH setup program
#
from Tkinter import *
import tkFont
import tkMessageBox
import device_drv
import string
class ChannelMapDialog:
def __init__(self, areasDlg, master=None, **args):
self.areasDlg = areasDlg
areasDlg.selectCallbacks.append(self)
self.actualIdx = None
self.actualCtrlId = None
self.actualPortName = None
self.actualArea = None
self.actualColor = None
self.channelList = None
root = Frame(master, **args)
self.root = root
root.bind("<Map>", self.cbSheetSelected)
Label(root, text="Channel Mapping", font=tkFont.Font(weight="bold")).grid(row=0, column=0, columnspan=4, padx=5, pady=5)
self.yScroll = Scrollbar (root, orient=VERTICAL)
self.yScroll.grid(row=1, column=1, rowspan=4, sticky=N+S)
self.lbChannels = Listbox(root, selectmode=SINGLE, activestyle=NONE, width=35, height=30, yscrollcommand=self.yScroll.set)
self.lbChannels.grid(row=1, column=0, rowspan=4, padx=5, pady=5, sticky=N+S+W+E)
self.lbChannels.bind("<ButtonRelease-1>", self.cbSelectChannel)
self.yScroll["command"] = self.lbChannels.yview
frSingleColor = Frame(root, borderwidth=5, relief=RIDGE, padx=0, pady=0)
frSingleColor.grid(row=2, column = 2, columnspan = 2, padx=5, pady=5, sticky=W+E)
Label(frSingleColor, text="Set color for channel:").grid(row=0, column=0, columnspan=3, padx=5, pady=5, sticky="W")
self.btRed = Button(frSingleColor, text="Red", bg="red", command=lambda: self.cbSetColor("red"))
self.btRed.grid(row=1, column=0, padx=5, pady=5, ipadx=5, sticky=W+E)
self.btGreen = Button(frSingleColor, text="Green", bg="green", command=lambda: self.cbSetColor("green"))
self.btGreen.grid(row=1, column=1, padx=5, pady=5, ipadx = 5, sticky=W+E)
self.btBlue = Button(frSingleColor, text="Blue", bg="blue", command=lambda: self.cbSetColor("blue"))
self.btBlue.grid(row=1, column=2, padx=5, pady=5, ipadx = 5, sticky=W+E)
frGroupColor = Frame(root, borderwidth=5, relief=RIDGE, padx=0, pady=0)
frGroupColor.grid(row = 3, column = 2, columnspan = 2, padx=5, pady=5, sticky=W+E)
Label(frGroupColor, text="Set color for channel group:").grid(row=0, column=0, columnspan=3, padx=5, pady=5, sticky="W")
self.btRGB = Button(frGroupColor, text="RGB", command=lambda: self.cbSetGroupColor("red", "green", "blue"))
self.btRGB.grid(row=1, column=0, padx=5, pady=5, ipadx = 5, sticky=W+E)
self.btRBG = Button(frGroupColor, text="RBG", command=lambda: self.cbSetGroupColor("red", "blue", "green"))
self.btRBG.grid(row=1, column=1, padx=5, pady=5, ipadx = 5, sticky=W+E)
self.btBRG = Button(frGroupColor, text="GRB", command=lambda: self.cbSetGroupColor("green", "red", "blue"))
self.btBRG.grid(row=1, column=2, padx=5, pady=5, ipadx = 5, sticky=W+E)
self.btGRB = Button(frGroupColor, text="BRG", command=lambda: self.cbSetGroupColor("blue", "red", "green"))
self.btGRB.grid(row=2, column=0, padx=5, pady=5, ipadx = 5, sticky=W+E)
self.btBGR = Button(frGroupColor, text="GBR", command=lambda: self.cbSetGroupColor("green", "blue", "red"))
self.btBGR.grid(row=2, column=1, padx=5, pady=5, ipadx = 5, sticky=W+E)
self.btGBR = Button(frGroupColor, text="BGR", command=lambda: self.cbSetGroupColor("blue", "green", "red"))
self.btGBR.grid(row=2, column=2, padx=5, pady=5, ipadx = 5, sticky=W)
#frNavi = Frame(root, padx=0, pady=0)
#frNavi.grid(row = 1, column = 2, columnspan = 2, padx=5, pady=5, sticky=N+S+W+E)
self.btNext = Button(root, text="Next Ch", command=self.cbNext)
self.btNext.grid(row=1, column=2, padx=5, pady=5, ipadx=5, sticky=W+E)
self.btPrev = Button(root, text="Prev Ch", command=self.cbPrev)
self.btPrev.grid(row=1, column=3, padx=5, pady=5, ipadx=5, sticky=W+E)
self.btDelete = Button(root, text="Delete mapping", command=self.cbDelete)
self.btDelete.grid(row=4, column=2, columnspan=2, padx=5, pady=5, ipadx = 5, sticky=W+E)
def cbSelectChannel(self, event):
s = self.lbChannels.curselection()
if len(s) == 1:
self.selectChannel(int(s[0]))
def cbAreaSelected(self):
if self.root.winfo_ismapped() and self.actualIdx != None:
self.selectArea(self.areasDlg.selectedArea, self.actualColor)
self.storeActual()
def cbSetGroupColor(self, *colors):
actIdx = self.actualIdx
if actIdx != None:
port, p = string.split(self.actualPortName, ".")
for pinNum in range(3):
portName = "{0}.{1}".format(port, pinNum + 1)
for i, mapRec in enumerate(self.channelList):
if mapRec['ctrlId'] == self.actualCtrlId and mapRec['portName'] == portName:
self.actualPortName = portName
self.actualColor = colors[pinNum]
self.actualIdx = i
self.storeActual()
break
self.selectChannel(actIdx)
def cbSetColor(self, color):
if self.actualIdx != None:
self.selectArea(self.actualArea, color)
self.storeActual()
def cbDelete(self):
if self.actualIdx != None:
self.storeActual(True)
def cbNext(self):
if self.actualIdx != None:
i = self.actualIdx + 1
if i == len(self.channelList):
i = 0
self.selectChannel(i)
def cbPrev(self):
if self.actualIdx != None:
i = self.actualIdx - 1
if i < 0:
i = len(self.channelList) - 1
self.selectChannel(i)
def cbSheetSelected(self, event):
self.loadValues()
def storeActual(self, delete=False):
config = device_drv.ConfigMap[self.actualCtrlId]
if delete:
config.channelMap[self.actualPortName] = None
self.channelList[self.actualIdx] = dict(ctrlId=self.actualCtrlId, portName=self.actualPortName, area=None, color=None)
else:
self.channelList[self.actualIdx] = dict(ctrlId=self.actualCtrlId, portName=self.actualPortName, area=self.actualArea, color=self.actualColor)
if not delete and self.actualArea and self.actualColor:
configMapRec = config.channelMap[self.actualPortName]
if configMapRec:
configMapRec['area'] = self.actualArea
configMapRec['color'] = device_drv.ColorIndex(self.actualColor)
else:
configMapRec = dict(area=self.actualArea, color=device_drv.ColorIndex(self.actualColor), gamma=device_drv.DEFAULT_GAMMA_VAL, whiteCal=config.pwmRes)
config.channelMap[self.actualPortName] = configMapRec
text = "{0}: {1} -> {2}: {3}".format(self.actualCtrlId, self.actualPortName, self.actualArea, self.actualColor)
else:
text = "{0}: {1}".format(self.actualCtrlId, self.actualPortName)
self.lbChannels.delete(self.actualIdx, self.actualIdx)
self.lbChannels.insert(self.actualIdx, text)
self.lbChannels.selection_set(self.actualIdx)
def loadValues(self):
self.actualIdx = None
self.channelList = list()
self.lbChannels.delete(0, END)
for ctrlId in sorted(device_drv.ConfigMap.keys()):
config = device_drv.ConfigMap[ctrlId]
for portName in sorted(config.channelMap.keys()):
configMapRec = config.channelMap[portName]
if configMapRec:
area = configMapRec['area']
color = device_drv.ColorName(configMapRec['color'])
text = "{0}: {1} -> {2}: {3}".format(ctrlId, portName, area, color)
else:
area = None
color = None
text = "{0}: {1}".format(ctrlId, portName)
self.channelList.append(dict(ctrlId=ctrlId, portName=portName, area=area, color=color))
self.lbChannels.insert(END, text)
pwmChannelMap = list()
while len(pwmChannelMap) < device_drv.NCHANNELS:
pwmChannelMap.append(dict(channel=0, port=0, pins=0))
try:
config.ctrl.set_channel_map(0, pwmChannelMap)
config.ctrl.set_brightness(0, [ config.pwmRes ] + [ 0 ] * (device_drv.NCHANNELS - 1))
except device_drv.AtmoControllerError as err:
tkMessageBox.showerror(self.root.winfo_toplevel().title(), err.__str__())
return
self.areasDlg.hideEdgeWeighting()
self.areasDlg.initAreas("black")
self.actualCtrlId = None
self.actualPortName = None
if len(self.channelList):
self.selectChannel(0)
def selectChannel(self, i):
self.actualIdx = i
self.lbChannels.selection_clear(0, END)
self.lbChannels.selection_set(i)
self.lbChannels.see(i)
mapRec = self.channelList[i]
self.selectLight(mapRec['ctrlId'], mapRec['portName'])
self.selectArea(mapRec['area'], mapRec['color'])
def selectLight(self, ctrlId, portName):
if ctrlId != self.actualCtrlId or portName != self.actualPortName:
if self.actualCtrlId and ctrlId != self.actualCtrlId:
config = device_drv.ConfigMap[self.actualCtrlId]
try:
config.ctrl.set_channel_map(0, [ dict(channel=0, port=0, pins=0) ])
except device_drv.AtmoControllerError as err:
tkMessageBox.showerror(self.root.winfo_toplevel().title(), err.__str__())
return
port, pin = device_drv.PORT_NAME_MAP[portName]
config = device_drv.ConfigMap[ctrlId]
try:
config.ctrl.set_channel_map(0, [ dict(channel=0, port=port, pins=pin) ])
except device_drv.AtmoControllerError as err:
tkMessageBox.showerror(self.root.winfo_toplevel().title(), err.__str__())
return
self.actualCtrlId = ctrlId
self.actualPortName = portName
def selectArea(self, area, color):
if self.actualArea:
self.areasDlg.setAreaColor(self.actualArea, "black")
self.actualColor = color
if area:
self.actualArea = area
if not color:
color = "black"
self.areasDlg.setAreaColor(area, color)
self.areasDlg.selectArea(area)
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