This file is indexed.

/usr/lib/python2.7/dist-packages/DisplayCAL/wxUntetheredFrame.py is in dispcalgui 3.1.0.0-1.

This file is owned by root:root, with mode 0o644.

The actual contents of the file can be viewed below.

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# -*- coding: UTF-8 -*-


"""
Interactive display calibration UI

"""

import math
import os
import re
import sys
import time

from wxaddons import wx

from config import (getbitmap, getcfg, geticon, get_data_path, get_icon_bundle,
					setcfg)
from log import get_file_logger, safe_print
from meta import name as appname
from options import debug, test, verbose
from wxwindows import (BaseApp, BaseFrame, BitmapBackgroundPanel, CustomCheckBox,
					   CustomGrid, FlatShadedButton, numpad_keycodes)
import CGATS
import audio
import colormath
import config
import localization as lang

BGCOLOUR = wx.Colour(0x33, 0x33, 0x33)
FGCOLOUR = wx.Colour(0x99, 0x99, 0x99)


class UntetheredFrame(BaseFrame):

	def __init__(self, parent=None, handler=None,
				 keyhandler=None, start_timer=True):
		BaseFrame.__init__(self, parent, wx.ID_ANY,
						  lang.getstr("measurement.untethered"),
						  style=wx.DEFAULT_FRAME_STYLE,
						  name="untetheredframe")
		self.SetIcons(get_icon_bundle([256, 48, 32, 16], appname))
		self.sizer = wx.FlexGridSizer(2, 1, 0, 0)
		self.sizer.AddGrowableCol(0)
		self.sizer.AddGrowableRow(0)
		self.sizer.AddGrowableRow(1)
		self.panel = wx.Panel(self)
		self.SetSizer(self.sizer)
		self.sizer.Add(self.panel, 1, wx.EXPAND)
		self.panel.SetBackgroundColour(BGCOLOUR)
		panelsizer = wx.FlexGridSizer(3, 2, 8, 8)
		panelsizer.AddGrowableCol(0)
		panelsizer.AddGrowableCol(1)
		panelsizer.AddGrowableRow(1)
		self.panel.SetSizer(panelsizer)
		self.label_RGB = wx.StaticText(self.panel, wx.ID_ANY, " ")
		self.label_RGB.SetForegroundColour(FGCOLOUR)
		panelsizer.Add(self.label_RGB, 0, wx.TOP | wx.LEFT | wx.EXPAND,
					   border=8)
		self.label_XYZ = wx.StaticText(self.panel, wx.ID_ANY, " ")
		self.label_XYZ.SetForegroundColour(FGCOLOUR)
		panelsizer.Add(self.label_XYZ, 0, wx.TOP | wx.RIGHT | wx.EXPAND,
					   border=8)
		if sys.platform == "darwin":
			style = wx.BORDER_THEME
		else:
			style = wx.BORDER_SIMPLE
		self.panel_RGB = BitmapBackgroundPanel(self.panel, size=(256, 256),
											   style=style)
		self.panel_RGB.scalebitmap = (True, True)
		self.panel_RGB.SetBitmap(getbitmap("theme/checkerboard-32x32x5-333-444"))
		panelsizer.Add(self.panel_RGB, 1, wx.LEFT | wx.EXPAND, border=8)
		self.panel_XYZ = BitmapBackgroundPanel(self.panel, size=(256, 256),
											   style=style)
		self.panel_XYZ.scalebitmap = (True, True)
		self.panel_XYZ.SetBitmap(getbitmap("theme/checkerboard-32x32x5-333-444"))
		panelsizer.Add(self.panel_XYZ, 1, wx.RIGHT | wx.EXPAND, border=8)
		sizer = wx.BoxSizer(wx.HORIZONTAL)
		self.back_btn = FlatShadedButton(self.panel, bitmap=geticon(10, "back"),
										 label="",
										 fgcolour=FGCOLOUR)
		self.back_btn.Bind(wx.EVT_BUTTON, self.back_btn_handler)
		sizer.Add(self.back_btn, 0, wx.LEFT | wx.RIGHT, border=8)
		self.label_index = wx.StaticText(self.panel, wx.ID_ANY, " ")
		self.label_index.SetForegroundColour(FGCOLOUR)
		sizer.Add(self.label_index, 0, wx.ALIGN_CENTER_VERTICAL)
		self.next_btn = FlatShadedButton(self.panel, bitmap=geticon(10, "play"),
										 label="",
										 fgcolour=FGCOLOUR)
		self.next_btn.Bind(wx.EVT_BUTTON, self.next_btn_handler)
		sizer.Add(self.next_btn, 0, wx.LEFT, border=8)
		sizer.Add((12, 1), 1)
		self.measure_auto_cb = CustomCheckBox(self.panel, wx.ID_ANY,
										   lang.getstr("auto"))
		self.measure_auto_cb.SetForegroundColour(FGCOLOUR)
		self.measure_auto_cb.Bind(wx.EVT_CHECKBOX, self.measure_auto_ctrl_handler)
		sizer.Add(self.measure_auto_cb, 0, wx.ALIGN_CENTER_VERTICAL |
										   wx.ALIGN_RIGHT)
		panelsizer.Add(sizer, 0, wx.BOTTOM | wx.EXPAND, border=8)
		sizer = wx.BoxSizer(wx.HORIZONTAL)
		self.measure_btn = FlatShadedButton(self.panel,
											bitmap=geticon(10, "play"),
											label=lang.getstr("measure"),
											fgcolour=FGCOLOUR)
		self.measure_btn.Bind(wx.EVT_BUTTON, self.measure_btn_handler)
		sizer.Add(self.measure_btn, 0, wx.RIGHT, border=6)
		# Sound when measuring
		# Needs to be stereo!
		self.measurement_sound = audio.Sound(get_data_path("beep.wav"))
		self.commit_sound = audio.Sound(get_data_path("camera_shutter.wav"))
		if getcfg("measurement.play_sound"):
			bitmap = geticon(16, "sound_volume_full")
		else:
			bitmap = geticon(16, "sound_off")
		self.sound_on_off_btn = FlatShadedButton(self.panel, bitmap=bitmap,
												 fgcolour=FGCOLOUR)
		self.sound_on_off_btn.SetToolTipString(lang.getstr("measurement.play_sound"))
		self.sound_on_off_btn.Bind(wx.EVT_BUTTON,
								   self.measurement_play_sound_handler)
		sizer.Add(self.sound_on_off_btn, 0)
		sizer.Add((12, 1), 1)
		self.finish_btn = FlatShadedButton(self.panel,
										   label=lang.getstr("finish"),
										   fgcolour=FGCOLOUR)
		self.finish_btn.Bind(wx.EVT_BUTTON, self.finish_btn_handler)
		sizer.Add(self.finish_btn, 0, wx.RIGHT, border=8)
		panelsizer.Add(sizer, 0, wx.BOTTOM | wx.EXPAND, border=8)
		
		self.grid = CustomGrid(self, -1, size=(536, 256))
		self.grid.DisableDragColSize()
		self.grid.DisableDragRowSize()
		self.grid.SetScrollRate(0, 5)
		self.grid.SetCellHighlightROPenWidth(0)
		self.grid.SetColLabelSize(self.grid.GetDefaultRowSize())
		self.grid.SetDefaultCellAlignment(wx.ALIGN_CENTER, wx.ALIGN_CENTER)
		self.grid.SetRowLabelAlignment(wx.ALIGN_RIGHT, wx.ALIGN_CENTER)
		self.grid.draw_horizontal_grid_lines = False
		self.grid.draw_vertical_grid_lines = False
		self.grid.style = ""
		self.grid.CreateGrid(0, 9)
		self.grid.SetRowLabelSize(62)
		for i in xrange(9):
			if i in (3, 4):
				size = self.grid.GetDefaultRowSize()
				if i == 4:
					attr = wx.grid.GridCellAttr()
					attr.SetBackgroundColour(wx.Colour(0, 0, 0, 0))
					self.grid.SetColAttr(i, attr)
			else:
				size = 62
			self.grid.SetColSize(i, size)
		for i, label in enumerate(["R", "G", "B", "", "", "L*", "a*", "b*", ""]):
			self.grid.SetColLabelValue(i, label)
		self.grid.SetCellHighlightPenWidth(0)
		self.grid.SetDefaultCellBackgroundColour(self.grid.GetLabelBackgroundColour())
		font = self.grid.GetDefaultCellFont()
		if font.PointSize > 11:
			font.PointSize = 11
			self.grid.SetDefaultCellFont(font)
		self.grid.SetSelectionMode(wx.grid.Grid.wxGridSelectRows)
		self.grid.EnableEditing(False)
		self.grid.EnableGridLines(False)
		self.grid.Bind(wx.grid.EVT_GRID_LABEL_LEFT_CLICK,
					   self.grid_left_click_handler)
		self.grid.Bind(wx.grid.EVT_GRID_CELL_LEFT_CLICK,
					   self.grid_left_click_handler)
		self.sizer.Add(self.grid, 1, wx.EXPAND)
		
		self.Fit()
		self.SetMinSize(self.GetSize())
		
		self.keyhandler = keyhandler
		if sys.platform in ("darwin", "win32"):
			# Use an accelerator table for space, 0-9, A-Z, numpad
			keycodes = [ord(" ")] + range(ord("0"),
										  ord("9")) + range(ord("A"),
															ord("Z")) + numpad_keycodes
			self.id_to_keycode = {}
			for keycode in keycodes:
				self.id_to_keycode[wx.NewId()] = keycode
			accels = []
			for id, keycode in self.id_to_keycode.iteritems():
				self.Bind(wx.EVT_MENU, self.key_handler, id=id)
				accels.append((wx.ACCEL_NORMAL, keycode, id))
			self.SetAcceleratorTable(wx.AcceleratorTable(accels))
		else:
			self.Bind(wx.EVT_CHAR_HOOK, self.key_handler)
		
		self.Bind(wx.EVT_KEY_DOWN, self.key_handler)
		
		# Event handlers
		self.Bind(wx.EVT_CLOSE, self.OnClose, self)
		self.Bind(wx.EVT_MOVE, self.OnMove, self)
		self.Bind(wx.EVT_SIZE, self.OnResize, self)
		self.timer = wx.Timer(self)
		if handler:
			self.Bind(wx.EVT_TIMER, handler, self.timer)
		self.Bind(wx.EVT_WINDOW_DESTROY, self.OnDestroy, self)
		
		# Final initialization steps
		for child in self.GetAllChildren():
			if (sys.platform == "win32" and sys.getwindowsversion() >= (6, ) and
				isinstance(child, wx.Panel)):
				# No need to enable double buffering under Linux and Mac OS X.
				# Under Windows, enabling double buffering on the panel seems
				# to work best to reduce flicker.
				child.SetDoubleBuffered(True)
		self.logger = get_file_logger("untethered")
		self._setup()
		
		self.Show()
		
		if start_timer:
			self.start_timer()
	
	def EndModal(self, returncode=wx.ID_OK):
		return returncode
	
	def MakeModal(self, makemodal=False):
		pass
	
	def OnClose(self, event):
		config.writecfg()
		if not self.timer.IsRunning():
			self.Destroy()
		else:
			self.keepGoing = False
	
	def OnDestroy(self, event):
		self.stop_timer()
		del self.timer
		
	def OnMove(self, event):
		if self.IsShownOnScreen() and not self.IsIconized() and \
		   (not self.GetParent() or
		    not self.GetParent().IsShownOnScreen()):
			prev_x = getcfg("position.progress.x")
			prev_y = getcfg("position.progress.y")
			x, y = self.GetScreenPosition()
			if x != prev_x or y != prev_y:
				setcfg("position.progress.x", x)
				setcfg("position.progress.y", y)

	def OnResize(self, event):
		wx.CallAfter(self.resize_grid)
		event.Skip()

	def Pulse(self, msg=""):
		if msg == lang.getstr("instrument.initializing"):
			self.label_RGB.SetLabel(msg)
		return self.keepGoing, False
	
	def Resume(self):
		self.keepGoing = True
	
	def Update(self, value, msg=""):
		return self.Pulse(msg)
	
	def UpdatePulse(self, msg=""):
		return self.Pulse(msg)
	
	def back_btn_handler(self, event):
		if self.index > 0:
			self.update(self.index - 1)
	
	def enable_btns(self, enable=True, enable_measure_button=False):
		self.is_measuring = not enable and enable_measure_button
		self.back_btn.Enable(enable and self.index > 0)
		self.next_btn.Enable(enable and self.index < self.index_max)
		self.measure_btn._bitmap = geticon(10, {True: "play",
												False: "pause"}.get(enable))
		self.measure_btn.Enable(enable or enable_measure_button)
		self.measure_btn.SetDefault()
	
	def finish_btn_handler(self, event):
		self.finish_btn.Disable()
		self.cgats[0].type = "CTI3"
		self.cgats[0].add_keyword("COLOR_REP", "RGB_XYZ")
		if self.white_XYZ[1] > 0:
			# Normalize to Y = 100
			query = self.cgats[0].DATA
			for i in query:
				XYZ = query[i]["XYZ_X"], query[i]["XYZ_Y"], query[i]["XYZ_Z"]
				XYZ = [v / self.white_XYZ[1] * 100 for v in XYZ]
				query[i]["XYZ_X"], query[i]["XYZ_Y"], query[i]["XYZ_Z"] = XYZ
			normalized = "YES"
		else:
			normalized = "NO"
		self.cgats[0].add_keyword("NORMALIZED_TO_Y_100", normalized)
		self.cgats[0].add_keyword("DEVICE_CLASS", "DISPLAY")
		self.cgats[0].add_keyword("INSTRUMENT_TYPE_SPECTRAL", "NO")
		if hasattr(self.cgats[0], "APPROX_WHITE_POINT"):
			self.cgats[0].remove_keyword("APPROX_WHITE_POINT")
		self.cgats[0].write(os.path.splitext(self.cgats.filename)[0] + ".ti3")
		self.safe_send("Q")
		time.sleep(.5)
		self.safe_send("Q")
	
	def flush(self):
		pass
	
	def get_Lab_RGB(self):
		row = self.cgats[0].DATA[self.index]
		XYZ = row["XYZ_X"], row["XYZ_Y"], row["XYZ_Z"]
		self.last_XYZ = XYZ
		Lab = colormath.XYZ2Lab(*XYZ)
		if self.white_XYZ[1] > 0:
			XYZ = [v / self.white_XYZ[1] * 100 for v in XYZ]
			white_XYZ_Y100 = [v / self.white_XYZ[1] * 100 for v in self.white_XYZ]
			white_CCT = colormath.XYZ2CCT(*white_XYZ_Y100)
			if white_CCT:
				DXYZ = colormath.CIEDCCT2XYZ(white_CCT, scale=100.0)
				if DXYZ:
					white_CIEDCCT_Lab = colormath.XYZ2Lab(*DXYZ)
				PXYZ = colormath.planckianCT2XYZ(white_CCT, scale=100.0)
				if PXYZ:
					white_planckianCCT_Lab = colormath.XYZ2Lab(*PXYZ)
				white_Lab = colormath.XYZ2Lab(*white_XYZ_Y100)
				if (DXYZ and PXYZ and
					(colormath.delta(*white_CIEDCCT_Lab + white_Lab)["E"] < 6 or
					 colormath.delta(*white_planckianCCT_Lab + white_Lab)["E"] < 6)):
					# Is white close enough to daylight or planckian locus?
					XYZ = colormath.adapt(XYZ[0], XYZ[1], XYZ[2],
										  white_XYZ_Y100, "D65")
		X, Y, Z = [v / 100.0 for v in XYZ]
		color = [int(round(v)) for v in
				 colormath.XYZ2RGB(X, Y, Z,
								   scale=255)]
		return Lab, color
	
	def grid_left_click_handler(self, event):
		if not self.is_measuring:
			row, col = event.GetRow(), event.GetCol()
			if row == -1 and col > -1: # col label clicked
				pass
			elif row > -1: # row clicked
				if not (event.CmdDown() or event.ControlDown() or
						event.ShiftDown()):
					self.update(row)
				event.Skip()
	
	def has_worker_subprocess(self):
		return bool(getattr(self, "worker", None) and
					getattr(self.worker, "subprocess", None))
	
	def isatty(self):
		return True
	
	def key_handler(self, event):
		keycode = None
		if event.GetEventType() in (wx.EVT_CHAR.typeId,
									wx.EVT_CHAR_HOOK.typeId,
									wx.EVT_KEY_DOWN.typeId):
			keycode = event.GetKeyCode()
		elif event.GetEventType() == wx.EVT_MENU.typeId:
			keycode = self.id_to_keycode.get(event.GetId())
		if keycode is not None:
			if event.GetEventType() == wx.EVT_KEY_DOWN.typeId:
				if keycode in (wx.WXK_UP, wx.WXK_NUMPAD_UP):
					self.back_btn_handler(None)
				elif keycode in (wx.WXK_DOWN, wx.WXK_NUMPAD_DOWN):
					self.next_btn_handler(None)
				elif keycode in (wx.WXK_HOME, wx.WXK_NUMPAD_HOME):
					if self.index > -1:
						self.update(0)
				elif keycode in (wx.WXK_END, wx.WXK_NUMPAD_END):
					if self.index_max > -1:
						self.update(self.index_max)
				elif keycode in (wx.WXK_PAGEDOWN, wx.WXK_NUMPAD_PAGEDOWN):
					if self.index > -1:
						self.grid.MovePageDown()
						self.update(self.grid.GetGridCursorRow())
				elif keycode in (wx.WXK_PAGEUP, wx.WXK_NUMPAD_PAGEUP):
					if self.index > -1:
						self.grid.MovePageUp()
						self.update(self.grid.GetGridCursorRow())
				elif event.ControlDown() or event.CmdDown():
					event.Skip()
				return
			elif self.has_worker_subprocess() and keycode < 255:
				if keycode == 27 or chr(keycode) == "Q":
					# ESC or Q
					self.worker.abort_subprocess()
				elif (not isinstance(self.FindFocus(), wx.Control) or
					  keycode != 32):
					self.measure_btn_handler(None)
				return
		event.Skip()
	
	def measure(self, event=None):
		self.enable_btns(False, True)
		# Use a delay to allow for TFT lag
		wx.CallLater(200, self.safe_send, " ")
	
	def measure_auto_ctrl_handler(self, event):
		auto = self.measure_auto_cb.GetValue()
		setcfg("untethered.measure.auto", int(auto))
	
	def measure_btn_handler(self, event):
		if self.is_measuring:
			self.is_measuring = False
		else:
			self.last_XYZ = (-1, -1, -1)
			self.measure_count = 1
			self.measure()
	
	def measurement_play_sound_handler(self, event):
		setcfg("measurement.play_sound",
			   int(not(bool(getcfg("measurement.play_sound")))))
		if getcfg("measurement.play_sound"):
			bitmap = geticon(16, "sound_volume_full")
		else:
			bitmap = geticon(16, "sound_off")
		self.sound_on_off_btn._bitmap = bitmap
	
	def next_btn_handler(self, event):
		if self.index < self.index_max:
			self.update(self.index + 1)

	def parse_txt(self, txt):
		if not txt or not self.keepGoing:
			return
		self.logger.info("%r" % txt)
		data_len = len(self.cgats[0].DATA)
		if (self.grid.GetNumberRows() < data_len):
			self.index = 0
			self.index_max = data_len - 1
			self.grid.AppendRows(data_len - self.grid.GetNumberRows())
			for i in self.cgats[0].DATA:
				self.grid.SetRowLabelValue(i, "%i" % (i + 1))
				row = self.cgats[0].DATA[i]
				RGB = []
				for j, label in enumerate("RGB"):
					value = int(round(float(str(row["RGB_%s" % label] * 2.55))))
					self.grid.SetCellValue(row.SAMPLE_ID - 1, j, "%i" % value)
					RGB.append(value)
				self.grid.SetCellBackgroundColour(row.SAMPLE_ID - 1, 3,
												  wx.Colour(*RGB))
		if "Connecting to the instrument" in txt:
			self.Pulse(lang.getstr("instrument.initializing"))
		if "Spot read needs a calibration" in txt:
			self.is_measuring = False
		if "Spot read failed" in txt:
			self.last_error = txt
		if "Result is XYZ:" in txt:
			self.last_error = None
			if getcfg("measurement.play_sound"):
				self.measurement_sound.safe_play()
			# Result is XYZ: d.dddddd d.dddddd d.dddddd, D50 Lab: d.dddddd d.dddddd d.dddddd
			XYZ = re.search("XYZ:\s+(-?\d+(?:\.\d+)?)\s+(-?\d+(?:\.\d+)?)\s+(-?\d+(?:\.\d+)?)",
							txt)
			if not XYZ:
				return
			XYZ = [float(v) for v in XYZ.groups()]
			row = self.cgats[0].DATA[self.index]
			if (row["RGB_R"] == 100 and
				row["RGB_G"] == 100 and
				row["RGB_B"] == 100):
				# White
				if XYZ[1] > 0:
					self.cgats[0].add_keyword("LUMINANCE_XYZ_CDM2",
											  "%.6f %.6f %.6f" % tuple(XYZ))
					self.white_XYZ = XYZ
			Lab1 = colormath.XYZ2Lab(*self.last_XYZ)
			Lab2 = colormath.XYZ2Lab(*XYZ)
			delta = colormath.delta(*Lab1 + Lab2)
			if debug or test or verbose > 1:
				safe_print("Last recorded Lab: %.4f %.4f %.4f" % Lab1)
				safe_print("Current Lab: %.4f %.4f %.4f" % Lab2)
				safe_print("Delta E to last recorded Lab: %.4f" % delta["E"])
				safe_print("Abs. delta L to last recorded Lab: %.4f" % abs(delta["L"]))
				safe_print("Abs. delta C to last recorded Lab: %.4f" % abs(delta["C"]))
			if (delta["E"] > getcfg("untethered.min_delta") or
				(abs(delta["L"]) > getcfg("untethered.min_delta.lightness") and
				 abs(delta["C"]) < getcfg("untethered.max_delta.chroma"))):
				self.measure_count += 1
				if self.measure_count == 2:
					if getcfg("measurement.play_sound"):
						self.commit_sound.safe_play()
					self.measure_count = 0
					# Reset row label
					self.grid.SetRowLabelValue(self.index, "%i" % (self.index + 1))
					# Update CGATS
					query = self.cgats[0].queryi({"RGB_R": row["RGB_R"],
												  "RGB_G": row["RGB_G"],
												  "RGB_B": row["RGB_B"]})
					for i in query:
						index = query[i].SAMPLE_ID - 1
						if index not in self.measured:
							self.measured.append(index)
						if index == self.index + 1:
							# Increment the index if we have consecutive patches
							self.index = index
						query[i]["XYZ_X"], query[i]["XYZ_Y"], query[i]["XYZ_Z"] = XYZ
					if getcfg("untethered.measure.auto"):
						self.show_RGB(False, False)
					self.show_XYZ()
					Lab, color = self.get_Lab_RGB()
					for i in query:
						row = query[i]
						self.grid.SetCellBackgroundColour(query[i].SAMPLE_ID - 1,
														  4, wx.Colour(*color))
						for j in xrange(3):
							self.grid.SetCellValue(query[i].SAMPLE_ID - 1, 5 + j, "%.2f" % Lab[j])
					self.grid.MakeCellVisible(self.index, 0)
					self.grid.ForceRefresh()
					if len(self.measured) == data_len:
						self.finished = True
						self.finish_btn.Enable()
					else:
						# Jump to the next or previous unmeasured patch, if any
						index = self.index
						for i in xrange(self.index + 1, data_len):
							if (getcfg("untethered.measure.auto") or
								not i in self.measured):
								self.index = i
								break
						if self.index == index:
							for i in xrange(self.index - 1, -1, -1):
								if not i in self.measured:
									self.index = i
									break
						if self.index != index:
							# Mark the row containing the next/previous patch
							self.grid.SetRowLabelValue(self.index, u"\u25ba %i" % (self.index + 1))
							self.grid.MakeCellVisible(self.index, 0)
		if "key to take a reading" in txt and not self.last_error:
			if getcfg("untethered.measure.auto") and self.is_measuring:
				if not self.finished:
					self.measure()
				else:
					self.enable_btns()
			else:
				show_XYZ = self.index in self.measured
				delay = getcfg("untethered.measure.manual.delay") * 1000
				wx.CallLater(delay, self.show_RGB, not show_XYZ)
				if show_XYZ:
					wx.CallLater(delay, self.show_XYZ)
				wx.CallLater(delay, self.enable_btns)

	def pause_continue_handler(self, event=None):
		if not event:
			self.parse_txt(self.worker.lastmsg.read())
	
	@property
	def paused(self):
		return False
	
	def reset(self):
		self._setup()

	def resize_grid(self):
		num_cols = self.grid.GetNumberCols()
		if not num_cols:
			return
		grid_w = self.grid.GetSize()[0] - self.grid.GetDefaultRowSize() * 2
		col_w = round(grid_w / (num_cols - 1))
		last_col_w = grid_w - col_w * (num_cols - 2)
		self.grid.SetRowLabelSize(col_w)
		for i in xrange(num_cols):
			if i in (3, 4):
				w = self.grid.GetDefaultRowSize()
			elif i == num_cols - 1:
				w = last_col_w - wx.SystemSettings_GetMetric(wx.SYS_VSCROLL_X)
			else:
				w = col_w
			self.grid.SetColSize(i, w)
		self.grid.SetMargins(0 - wx.SystemSettings_GetMetric(wx.SYS_VSCROLL_X),
							 0)
		self.grid.ForceRefresh()
	
	def _setup(self):
		self.logger.info("-" * 80)
		self.is_measuring = False
		self.keepGoing = True
		self.last_error = None
		self.index = -1
		self.index_max = -1
		self.last_XYZ = (-1, -1, -1)
		self.white_XYZ = (-1, -1, -1)
		self.measure_count = 0
		self.measured = []
		self.finished = False
		self.label_RGB.SetLabel(" ")
		self.label_XYZ.SetLabel(" ")
		self.panel_RGB.SetBackgroundColour(BGCOLOUR)
		self.panel_RGB.Refresh()
		self.panel_RGB.Update()
		self.panel_XYZ.SetBackgroundColour(BGCOLOUR)
		self.panel_XYZ.Refresh()
		self.panel_XYZ.Update()
		self.label_index.SetLabel(" ")
		self.enable_btns(False)
		self.measure_auto_cb.SetValue(bool(getcfg("untethered.measure.auto")))
		self.finish_btn.Disable()
		
		if self.grid.GetNumberRows():
			self.grid.DeleteRows(0, self.grid.GetNumberRows())
		
		# Set position
		x = getcfg("position.progress.x")
		y = getcfg("position.progress.y")
		self.SetSaneGeometry(x, y)
	
	def safe_send(self, bytes):
		if self.has_worker_subprocess() and not self.worker.subprocess_abort:
			self.worker.safe_send(bytes)
	
	def show_RGB(self, clear_XYZ=True, mark_current_row=True):
		row = self.cgats[0].DATA[self.index]
		self.label_RGB.SetLabel("RGB %i %i %i" % (round(row["RGB_R"] * 2.55),
												  round(row["RGB_G"] * 2.55),
												  round(row["RGB_B"] * 2.55)))
		color = [int(round(v * 2.55)) for v in
				 (row["RGB_R"], row["RGB_G"], row["RGB_B"])]
		self.panel_RGB.SetBackgroundColour(wx.Colour(*color))
		self.panel_RGB.SetBitmap(None)
		self.panel_RGB.Refresh()
		self.panel_RGB.Update()
		if clear_XYZ:
			self.label_XYZ.SetLabel(" ")
			self.panel_XYZ.SetBackgroundColour(BGCOLOUR)
			self.panel_XYZ.SetBitmap(getbitmap("theme/checkerboard-32x32x5-333-444"))
			self.panel_XYZ.Refresh()
			self.panel_XYZ.Update()
		if mark_current_row:
			self.grid.SetRowLabelValue(self.index, u"\u25ba %i" % (self.index + 1))
			self.grid.MakeCellVisible(self.index, 0)
		self.grid.SelectRow(self.index)
		self.grid.SetGridCursor(self.index, 0)
		self.label_index.SetLabel("%i/%i" % (self.index + 1,
											 len(self.cgats[0].DATA)))
		self.label_index.GetContainingSizer().Layout()
	
	def show_XYZ(self):
		Lab, color = self.get_Lab_RGB()
		self.label_XYZ.SetLabel("L*a*b* %.2f %.2f %.2f" % Lab)
		self.panel_XYZ.SetBackgroundColour(wx.Colour(*color))
		self.panel_XYZ.SetBitmap(None)
		self.panel_XYZ.Refresh()
		self.panel_XYZ.Update()
	
	def start_timer(self, ms=50):
		self.timer.Start(ms)
	
	def stop_timer(self):
		self.timer.Stop()
	
	def update(self, index):
		# Reset row label
		self.grid.SetRowLabelValue(self.index, "%i" % (self.index + 1))

		self.index = index
		show_XYZ = self.index in self.measured
		self.show_RGB(not show_XYZ)
		if show_XYZ:
			self.show_XYZ()
		self.enable_btns()
	
	def write(self, txt):
		wx.CallAfter(self.parse_txt, txt)


if __name__ == "__main__":
	from thread import start_new_thread
	from time import sleep
	import random
	from util_io import Files
	import ICCProfile as ICCP
	import worker
	class Subprocess():
		def send(self, bytes):
			start_new_thread(test, (bytes,))
	class Worker(worker.Worker):
		def __init__(self):
			worker.Worker.__init__(self)
			self.finished = False
			self.instrument_calibration_complete = False
			self.instrument_place_on_screen_msg = False
			self.instrument_sensor_position_msg = False
			self.is_ambient_measuring = False
			self.subprocess = Subprocess()
			self.subprocess_abort = False
		def abort_subprocess(self):
			self.safe_send("Q")
		def safe_send(self, bytes):
			print "*** Sending %r" % bytes
			self.subprocess.send(bytes)
			return True
	config.initcfg()
	print "untethered.min_delta", getcfg("untethered.min_delta")
	print "untethered.min_delta.lightness", getcfg("untethered.min_delta.lightness")
	print "untethered.max_delta.chroma", getcfg("untethered.max_delta.chroma")
	lang.init()
	lang.update_defaults()
	app = BaseApp(0)
	app.TopWindow = UntetheredFrame(start_timer=False)
	testchart = getcfg("testchart.file")
	if os.path.splitext(testchart)[1].lower() in (".icc", ".icm"):
		try:
			testchart = ICCP.ICCProfile(testchart).tags.targ
		except:
			pass
	try:
		app.TopWindow.cgats = CGATS.CGATS(testchart)
	except:
		app.TopWindow.cgats = CGATS.CGATS("""TI1    
BEGIN_DATA_FORMAT
SAMPLE_ID RGB_R RGB_G RGB_B XYZ_X XYZ_Y XYZ_Z
END_DATA_FORMAT
BEGIN_DATA
1 0 0 0 0 0 0
END_DATA
""")
	app.TopWindow.worker = Worker()
	app.TopWindow.worker.progress_wnd = app.TopWindow
	app.TopWindow.Show()
	files = Files([app.TopWindow.worker, app.TopWindow])
	def test(bytes=None):
		print "*** Received %r" % bytes
		menu = r"""Place instrument on spot to be measured,
and hit [A-Z] to read white and setup FWA compensation (keyed to letter)
[a-z] to read and make FWA compensated reading from keyed reference
'r' to set reference, 's' to save spectrum,
'h' to toggle high res., 'k' to do a calibration
Hit ESC or Q to exit, any other key to take a reading:"""
		if not bytes:
			txt = menu
		elif bytes == " ":
			i = app.TopWindow.index
			row = app.TopWindow.cgats[0].DATA[i]
			txt = ["""
 Result is XYZ: %.6f %.6f %.6f

Place instrument on spot to be measured,
and hit [A-Z] to read white and setup FWA compensation (keyed to letter)
[a-z] to read and make FWA compensated reading from keyed reference
'r' to set reference, 's' to save spectrum,
'h' to toggle high res., 'k' to do a calibration
Hit ESC or Q to exit, any other key to take a reading:""" % (row.XYZ_X,
															 row.XYZ_Y,
															 row.XYZ_Z),
				    """"
 Result is XYZ: %.6f %.6f %.6f

Spot read needs a calibration before continuing
Place cap on the instrument, or place on a dark surface,
or place on the white calibration reference,
 and then hit any key to continue,
 or hit Esc or Q to abort:""" % (row.XYZ_X,
								 row.XYZ_Y,
								 row.XYZ_Z)][random.choice([0, 1])]
		elif bytes in ("Q", "q"):
			wx.CallAfter(app.TopWindow.Close)
			return
		else:
			return
		for line in txt.split("\n"):
			sleep(.03125)
			if app.TopWindow:
				wx.CallAfter(files.write, line)
				print line
	start_new_thread(test, tuple())
	app.MainLoop()