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source: src/mlx/pyuipc_sim.py@ 343:d13af9285d29

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Last change on this file since 343:d13af9285d29 was 343:d13af9285d29, checked in by István Váradi <ivaradi@…>, 11 years ago
Added support for the elevator trim
File size: 68.7 KB

Line
1
2	import const
3
4	import cmd
5	import threading
6	import socket
7	import time
8	import calendar
9	import sys
10	import struct
11	import cPickle
12	import math
13
14	#------------------------------------------------------------------------------
15
16	## @package mlx.pyuipc_sim
17	#
18	# Simulator of the PyUIPC module.
19	#
20	# This is a simulation of the PyUIPC module emulating offsets that are needed
21	# by the logger.
22	#
23	# This module can also be run as a program, in which case it connects to an
24	# already running logger (that uses this module in place of the real pyuipc),
25	# and various commands can be given to query or modify the values of the
26	# offsets. There is a 'help' command and completion also works.
27	#
28	# This module is used instead of the real PyUIPC module, if the program is not
29	# running on Windows or the FORCE_PYUIPC_SIM environment variable is present.
30
31	#------------------------------------------------------------------------------
32	#------------------------------------------------------------------------------
33
34	## Version constants
35	SIM_ANY=0
36	SIM_FS98=1
37	SIM_FS2K=2
38	SIM_CFS2=3
39	SIM_CFS1=4
40	SIM_FLY=5
41	SIM_FS2K2=6
42	SIM_FS2K4=7
43	SIM_FSX=8
44
45	#------------------------------------------------------------------------------
46
47	## Error constants
48	ERR_OK=0
49	ERR_OPEN=1
50	ERR_NOFS=2
51	ERR_REGMSG=3
52	ERR_ATOM=4
53	ERR_MAP=5
54	ERR_VIEW=6
55	ERR_VERSION=7
56	ERR_WRONGFS=8
57	ERR_NOTOPEN=9
58	ERR_NODATA=10
59	ERR_TIMEOUT=11
60	ERR_SENDMSG=12
61	ERR_DATA=13
62	ERR_RUNNING=14
63	ERR_SIZE=15
64
65	#------------------------------------------------------------------------------
66
67	## The version of FSUIPC
68	fsuipc_version=0x0401
69	lib_version=0x0302
70	fs_version=SIM_FS2K4
71
72	#------------------------------------------------------------------------------
73
74	class FSUIPCException(Exception):
75	"""FSUIPC exception class.
76
77	It contains a member variable named errorCode. The string is a text
78	describing the error."""
79
80	errors=["OK",
81	"Attempt to Open when already Open",
82	"Cannot link to FSUIPC or WideClient",
83	"Failed to Register common message with Windows",
84	"Failed to create Atom for mapping filename",
85	"Failed to create a file mapping object",
86	"Failed to open a view to the file map",
87	"Incorrect version of FSUIPC, or not FSUIPC",
88	"Sim is not version requested",
89	"Call cannot execute, link not Open",
90	"Call cannot execute: no requests accumulated",
91	"IPC timed out all retries",
92	"IPC sendmessage failed all retries",
93	"IPC request contains bad data",
94	"Maybe running on WideClient, but FS not running on Server, or wrong FSUIPC",
95	"Read or Write request cannot be added, memory for Process is full"]
96
97	def __init__(self, errorCode):
98	"""
99	Construct the exception
100	"""
101	if errorCode<len(self.errors):
102	self.errorString = self.errors[errorCode]
103	else:
104	self.errorString = "Unknown error"
105	Exception.__init__(self, self.errorString)
106	self.errorCode = errorCode
107
108	def __str__(self):
109	"""
110	Convert the excption to string
111	"""
112	return "FSUIPC error: %d (%s)" % (self.errorCode, self.errorString)
113
114	#------------------------------------------------------------------------------
115
116	class Values(object):
117	"""The values that can be read from 'FSUIPC'."""
118	## Fuel data index: centre tank
119	FUEL_CENTRE = 0
120
121	## Fuel data index: left main tank
122	FUEL_LEFT = 1
123
124	## Fuel data index: right main tank
125	FUEL_RIGHT = 2
126
127	## Fuel data index: left aux tank
128	FUEL_LEFT_AUX = 3
129
130	## Fuel data index: right aux tank
131	FUEL_RIGHT_AUX = 4
132
133	## Fuel data index: left tip tank
134	FUEL_LEFT_TIP = 5
135
136	## Fuel data index: right tip tank
137	FUEL_RIGHT_TIP = 6
138
139	## Fuel data index: external 1 tank
140	FUEL_EXTERNAL_1 = 7
141
142	## Fuel data index: external 2 tank
143	FUEL_EXTERNAL_2 = 8
144
145	## Fuel data index: centre 2 tank
146	FUEL_CENTRE_2 = 9
147
148	## The number of fuel tank entries
149	NUM_FUEL = FUEL_CENTRE_2 + 1
150
151	## Engine index: engine #1
152	ENGINE_1 = 0
153
154	## Engine index: engine #2
155	ENGINE_2 = 1
156
157	## Engine index: engine #3
158	ENGINE_3 = 2
159
160	## The number of hotkey entries
161	HOTKEY_SIZE = 56
162
163	@staticmethod
164	def _readFrequency(frequency):
165	"""Convert the given frequency into BCD."""
166	return Values._readBCD(int(frequency*100.0))
167
168	@staticmethod
169	def _readADFFrequency(frequency):
170	"""Convert the given frequency into a tuple of ADF BCD frequency
171	components."""
172	mainFrequency = Values._readBCD(int(math.floor(frequency))%1000)
173	extFrequency = (int(frequency/1000.0)256) + (int(frequency10.0)%10)
174
175	return [mainFrequency, extFrequency]
176
177	@staticmethod
178	def _readBCD(value):
179	"""Convert the given value into BCD format."""
180	bcd = (value/1000) % 10
181	bcd <<= 4
182	bcd \|= (value/100) % 10
183	bcd <<= 4
184	bcd \|= (value/10) % 10
185	bcd <<= 4
186	bcd \|= value % 10
187	return bcd
188
189	@staticmethod
190	def _writeFrequency(value):
191	"""Convert the given value into a frequency."""
192	return (Values._writeBCD(value) + 10000) / 100.0
193
194	@staticmethod
195	def _toADFFrequency(main, ext):
196	"""Convert the given values into an ADF frequency."""
197	frequency = Values._writeBCD(main)
198	frequency += 1000.0*int(ext/256)
199	frequency += (int(ext)%16)/10.0
200	return frequency
201
202	@staticmethod
203	def _writeADFFrequency(current, value, isMain):
204	"""Convert the given part of an ADF frequency into the
205	whole frequency."""
206	[mainFrequency, extFrequency] = Values._readADFFrequency(current)
207	if isMain: mainFrequency = value
208	else: extFrequency = value
209
210	return Values._toADFFrequency(mainFrequency, extFrequency)
211
212	@staticmethod
213	def _writeBCD(value):
214	"""Convert the given BCD value into a real value."""
215	bcd = (value>>12) & 0x0f
216	bcd *= 10
217	bcd += (value>>8) & 0x0f
218	bcd *= 10
219	bcd += (value>>4) & 0x0f
220	bcd *= 10
221	bcd += (value>>0) & 0x0f
222
223	return bcd
224
225	def __init__(self):
226	"""Construct the values with defaults."""
227	self._timeOffset = 0
228	self.airPath = "C:\\Program Files\\Microsoft Games\\" \
229	"FS9\\Aircraft\\Cessna\\cessna172.air"
230	self.aircraftName = "Cessna 172SP"
231	self.flapsNotches = [0, 1, 2, 5, 10, 15, 25, 30, 40]
232	self.fuelCapacities = [10000.0, 5000.0, 5000.0, 5000.0, 5000.0,
233	5000.0, 5000.0, 5000.0, 5000.0, 5000.0]
234
235	self.latitude = 47.5
236	self.longitude = 19.05
237
238	self.paused = False
239	self.frozen = False
240	self.replay = False
241	self.slew = False
242	self.overspeed = False
243	self.stalled = False
244	self.onTheGround = True
245
246	self.zfw = 50000.0
247
248	self.fuelWeights = [0.0, 3000.0, 3000.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0]
249	# Wikipedia: "Jet fuel", Jet A-1 density at 15*C .804kg/l -> 6.7 pounds/gallon
250	self.fuelWeight = 6.70970518
251
252	self.heading = 220.0
253	self.pitch = 0.0
254	self.bank = 0.0
255
256	self.ias = 0.0
257	self.vs = 0.0
258	self.tdRate = 0.0
259
260	self.radioAltitude = None
261	self.altitude = 513.0
262
263	self.gLoad = 1.0
264
265	self.flapsControl = 0.0
266	self.flaps = 0.0
267
268	self.navLightsOn = True
269	self.antiCollisionLightsOn = False
270	self.landingLightsOn = False
271	self.strobeLightsOn = False
272
273	self.pitot = False
274	self.parking = True
275
276	self.gearControl = 1.0
277	self.noseGear = 1.0
278
279	self.spoilersArmed = False
280	self.spoilers = 0.0
281
282	self.altimeter = 1013.0
283
284	self.nav1 = 117.3
285	self.nav1_obs = 128
286	self.nav2 = 109.5
287	self.nav2_obs = 308
288	self.adf1 = 382.7
289	self.adf2 = 1540.6
290	self.squawk = 2200
291
292	self.windSpeed = 8.0
293	self.windDirection = 300.0
294	self.visibility = 10000
295
296	self.n1 = [0.0, 0.0, 0.0]
297	self.throttles = [0.0, 0.0, 0.0]
298
299	self.payloadCount = 1
300	self.payload = []
301	for i in range(0, 61): self.payload.append(0.0)
302
303	self.textScrolling = False
304	self.message = ""
305	self.messageDuration = 0
306
307	self.hotkeyTable = []
308	for i in range(0, Values.HOTKEY_SIZE):
309	self.hotkeyTable.append([0, 0, 0, 0])
310
311	self.cog = 0.27
312
313	self.pmdg_737ng_switches = 0
314	self.pmdg_737ngx_lts_positionsw = 0
315
316	self.xpdrC = False
317
318	self.apMaster = False
319	self.apHeadingHold = False
320	self.apHeading = 124
321	self.apAltitudeHold = False
322	self.apAltitude = 7000
323
324	self.elevatorTrim = 0.0
325
326	def read(self, offset, type):
327	"""Read the value at the given offset."""
328	try:
329	return self._read(offset, type)
330	except Exception, e:
331	print "failed to read offset %04x: %s" % (offset, str(e))
332	raise FSUIPCException(ERR_DATA)
333
334	def _read(self, offset, type):
335	"""Read the value at the given offset."""
336	if offset==0x023a: # Second of time
337	return self._readUTC().tm_sec
338	elif offset==0x023b: # Hour of Zulu time
339	return self._readUTC().tm_hour
340	elif offset==0x023c: # Minute of Zulu time
341	return self._readUTC().tm_min
342	elif offset==0x023e: # Day number on year
343	return self._readUTC().tm_yday
344	elif offset==0x0240: # Year in FS
345	return self._readUTC().tm_year
346	elif offset==0x0264: # Paused
347	return 1 if self.paused else 0
348	elif offset==0x029c: # Pitot
349	return 1 if self.pitot else 0
350	elif offset==0x02b4: # Ground speed
351	# FIXME: calculate TAS first, then from the heading and
352	# wind the GS
353	return int(self.ias * 65536.0 * 1852.0 / 3600.0)
354	elif offset==0x02b8: # TAS
355	return int(self._getTAS() * 128.0)
356	elif offset==0x02bc: # IAS
357	return int(self.ias * 128.0)
358	elif offset==0x02c8: # VS
359	return int(self.vs * const.FEETTOMETRES * 256.0 / 60.0)
360	elif offset==0x02d4: # ADF2 main
361	return Values._readADFFrequency(self.adf2)[0]
362	elif offset==0x02d6: # ADF2 extended
363	return Values._readADFFrequency(self.adf2)[1]
364	elif offset==0x030c: # TD rate
365	return int(self.tdRate * const.FEETTOMETRES * 256.0 / 60.0)
366	elif offset==0x0330: # Altimeter
367	return int(self.altimeter * 16.0)
368	elif offset==0x034c: # ADF1 main
369	return Values._readADFFrequency(self.adf1)[0]
370	elif offset==0x0350: # NAV1
371	return Values._readFrequency(self.nav1)
372	elif offset==0x0352: # NAV2
373	return Values._readFrequency(self.nav2)
374	elif offset==0x0354: # Squawk
375	return Values._readBCD(self.squawk)
376	elif offset==0x0356: # ADF1 extended
377	return Values._readADFFrequency(self.adf1)[1]
378	elif offset==0x0366: # On the ground
379	return 1 if self.onTheGround else 0
380	elif offset==0x036c: # Stalled
381	return 1 if self.stalled else 0
382	elif offset==0x036d: # Overspeed
383	return 1 if self.overspeed else 0
384	elif offset==0x0560: # Latitude
385	return long(self.latitude * 10001750.0 * 65536.0 * 65536.0 / 90.0)
386	elif offset==0x0568: # Longitude
387	return long(self.longitude * 65536.0 * 65536.0 * 65536.0 * 65536.0 / 360.0)
388	elif offset==0x0570: # Altitude
389	return long(self.altitude * const.FEETTOMETRES * 65536.0 * 65536.0)
390	elif offset==0x0578: # Pitch
391	return int(self.pitch * 65536.0 * 65536.0 / 360.0)
392	elif offset==0x057c: # Bank
393	return int(self.bank * 65536.0 * 65536.0 / 360.0)
394	elif offset==0x0580: # Heading
395	return int(self.heading * 65536.0 * 65536.0 / 360.0)
396	elif offset==0x05dc: # Slew
397	return 1 if self.slew else 0
398	elif offset==0x0628: # Replay
399	return 1 if self.replay else 0
400	elif offset==0x07bc: # AP Master switch
401	return 1 if self.apMaster else 0
402	elif offset==0x07c8: # AP heading hold
403	return 1 if self.apHeadingHold else 0
404	elif offset==0x07cc: # AP heading
405	return int(self.apHeading * 65536.0 / 360.0)
406	elif offset==0x07d0: # AP altitude hold
407	return 1 if self.apAltitudeHold else 0
408	elif offset==0x07d4: # AP altitude
409	return int(self.apAltitude * const.FEETTOMETRES * 65536.0)
410	elif offset==0x088c: # Engine #1 throttle
411	return self._getThrottle(self.ENGINE_1)
412	elif offset==0x0924: # Engine #2 throttle
413	return self._getThrottle(self.ENGINE_2)
414	elif offset==0x09bc: # Engine #3 throttle
415	return self._getThrottle(self.ENGINE_3)
416	elif offset==0x0af4: # Fuel weight
417	return int(self.fuelWeight * 256.0)
418	elif offset==0x0b74: # Centre tank level
419	return self._getFuelLevel(self.FUEL_CENTRE)
420	elif offset==0x0b78: # Centre tank capacity
421	return self._getFuelCapacity(self.FUEL_CENTRE)
422	elif offset==0x0b7c: # Left tank level
423	return self._getFuelLevel(self.FUEL_LEFT)
424	elif offset==0x0b80: # Left tank capacity
425	return self._getFuelCapacity(self.FUEL_LEFT)
426	elif offset==0x0b84: # Left aux tank level
427	return self._getFuelLevel(self.FUEL_LEFT_AUX)
428	elif offset==0x0b88: # Left aux tank capacity
429	return self._getFuelCapacity(self.FUEL_LEFT_AUX)
430	elif offset==0x0b8c: # Left tip tank level
431	return self._getFuelLevel(self.FUEL_LEFT_TIP)
432	elif offset==0x0b90: # Left tip tank capacity
433	return self._getFuelCapacity(self.FUEL_LEFT_TIP)
434	elif offset==0x0b94: # Right aux tank level
435	return self._getFuelLevel(self.FUEL_RIGHT)
436	elif offset==0x0b98: # Right aux tank capacity
437	return self._getFuelCapacity(self.FUEL_RIGHT)
438	elif offset==0x0b9c: # Right tank level
439	return self._getFuelLevel(self.FUEL_RIGHT_AUX)
440	elif offset==0x0ba0: # Right tank capacity
441	return self._getFuelCapacity(self.FUEL_RIGHT_AUX)
442	elif offset==0x0ba4: # Right tip tank level
443	return self._getFuelLevel(self.FUEL_RIGHT_TIP)
444	elif offset==0x0ba8: # Right tip tank capacity
445	return self._getFuelCapacity(self.FUEL_RIGHT_TIP)
446	elif offset==0x0bc8: # Parking
447	return 1 if self.parking else 0
448	elif offset==0x0bcc: # Spoilers armed
449	return 1 if self.spoilersArmed else 0
450	elif offset==0x0bd0: # Spoilers
451	return 0 if self.spoilers == 0 \
452	else int(self.spoilers * (16383 - 4800) + 4800)
453	elif offset==0x0bdc: # Flaps control
454	numNotchesM1 = len(self.flapsNotches) - 1
455	flapsIncrement = 16383.0 / numNotchesM1
456	index = 0
457	while index<numNotchesM1 and \
458	self.flapsControl>self.flapsNotches[index]:
459	index += 1
460
461	if index==numNotchesM1:
462	return 16383
463	else:
464	return int(index * flapsIncrement +
465	(self.flapsControl-self.flapsNotches[index]) *
466	flapsIncrement /
467	(self.flapsNotches[index+1] - self.flapsNotches[index]))
468	elif offset==0x0be0 or offset==0x0be4: # Flaps left and right
469	return self.flaps * 16383.0 / self.flapsNotches[-1]
470	elif offset==0x0be8: # Gear control
471	return int(self.gearControl * 16383.0)
472	elif offset==0x0bec: # Nose gear
473	return int(self.noseGear * 16383.0)
474	elif offset==0x0c4e: # NAV1 OBS
475	return self.nav1_obs
476	elif offset==0x0c5e: # NAV2 OBS
477	return self.nav2_obs
478	elif offset==0x0d0c: # Lights
479	lights = 0
480	if self.navLightsOn: lights \|= 0x01
481	if self.antiCollisionLightsOn: lights \|= 0x02
482	if self.landingLightsOn: lights \|= 0x04
483	if self.strobeLightsOn: lights \|= 0x10
484	return lights
485	elif offset==0x0e8a: # Visibility
486	return int(self.visibility * 100.0 / 1609.344)
487	elif offset==0x0e90: # Wind speed
488	return int(self.windSpeed)
489	elif offset==0x0e92: # Wind direction
490	return int(self.windDirection * 65536.0 / 360.0)
491	elif offset==0x11ba: # G-Load
492	return int(self.gLoad * 625.0)
493	elif offset==0x11c6: # Mach
494	# FIXME: calculate from IAS, altitude and QNH
495	return int(self.ias * 0.05 * 20480.)
496	elif offset==0x1244: # Centre 2 tank level
497	return self._getFuelLevel(self.FUEL_CENTRE_2)
498	elif offset==0x1248: # Centre 2 tank capacity
499	return self._getFuelCapacity(self.FUEL_CENTRE_2)
500	elif offset==0x1254: # External 1 tank level
501	return self._getFuelLevel(self.FUEL_EXTERNAL_1)
502	elif offset==0x1258: # External 1 tank capacity
503	return self._getFuelCapacity(self.FUEL_EXTERNAL_1)
504	elif offset==0x125c: # External 2 tank level
505	return self._getFuelLevel(self.FUEL_EXTERNAL_2)
506	elif offset==0x1260: # External 2 tank capacity
507	return self._getFuelCapacity(self.FUEL_EXTERNAL_2)
508	elif offset==0x1274: # Text display mode
509	return 1 if self.textScrolling else 0
510	elif offset==0x13fc: # The number of the payload stations
511	return self.payloadCount
512	elif offset>=0x1400 and offset<=0x1f40 and \
513	((offset-0x1400)%48)==0: # Payload
514	return self.payload[ (offset - 0x1400) / 48 ]
515	elif offset==0x2000: # Engine #1 N1
516	return self.n1[self.ENGINE_1]
517	elif offset==0x2100: # Engine #2 N1
518	return self.n1[self.ENGINE_2]
519	elif offset==0x2200: # Engine #3 N1
520	return self.n1[self.ENGINE_3]
521	elif offset==0x2ea0: # Elevator trim
522	return self.elevatorTrim * math.pi / 180.0
523	elif offset==0x2ef8: # Centre of Gravity
524	return self.cog
525	elif offset==0x30c0: # Gross weight
526	return (self.zfw + sum(self.fuelWeights)) * const.KGSTOLB
527	elif offset==0x31e4: # Radio altitude
528	# FIXME: if self.radioAltitude is None, calculate from the
529	# altitude with some, perhaps random, ground altitude
530	# value
531	radioAltitude = (self.altitude - 517) \
532	if self.radioAltitude is None else self.radioAltitude
533	return (radioAltitude * const.FEETTOMETRES * 65536.0)
534	elif offset==0x320c:
535	return Values.HOTKEY_SIZE
536	elif offset>=0x3210 and offset<0x3210+Values.HOTKEY_SIZE*4:
537	tableOffset = offset - 0x3210
538	hotkeyIndex = tableOffset / 4
539	index = tableOffset % 4
540	if type=="b" or type=="c":
541	return self.hotkeyTable[hotkeyIndex][index]
542	elif type=="d" or type=="u":
543	if index==0:
544	hotkey = self.hotkeyTable[hotkeyIndex]
545	value = hotkey[3]
546	value <<= 8
547	value \|= hotkey[2]
548	value <<= 8
549	value \|= hotkey[1]
550	value <<= 8
551	value \|= hotkey[0]
552	return value
553	else:
554	print "Unhandled offset: %04x" % (offset,)
555	raise FSUIPCException(ERR_DATA)
556	else:
557	print "Unhandled offset: %04x" % (offset,)
558	raise FSUIPCException(ERR_DATA)
559	elif offset==0x32fa: # Message duration
560	return self.messageDuration
561	elif offset==0x3380: # Message
562	return self.message
563	elif offset==0x3364: # Frozen
564	return 1 if self.frozen else 0
565	elif offset==0x3bfc: # ZFW
566	return int(self.zfw * 256.0 * const.KGSTOLB)
567	elif offset==0x3c00: # Path of the current AIR file
568	return self.airPath
569	elif offset==0x3d00: # Name of the current aircraft
570	return self.aircraftName
571	elif offset==0x6202: # PMDG 737NG switches
572	return self.pmdg_737ng_switches
573	elif offset==0x6500: # PMDG 737NGX lights position SW
574	return self.pmdg_737ngx_lts_positionsw
575	elif offset==0x7b91: # Transponder standby
576	return 0 if self.xpdrC else 1
577	else:
578	print "Unhandled offset: %04x" % (offset,)
579	raise FSUIPCException(ERR_DATA)
580
581	def write(self, offset, value, type):
582	"""Write the value at the given offset."""
583	try:
584	return self._write(offset, value, type)
585	except Exception, e:
586	print "failed to write offset %04x: %s" % (offset, str(e))
587	raise FSUIPCException(ERR_DATA)
588
589	def _write(self, offset, value, type):
590	"""Write the given value at the given offset."""
591	if offset==0x023a: # Second of time
592	self._updateTimeOffset(5, value)
593	elif offset==0x023b: # Hour of Zulu time
594	self._updateTimeOffset(3, value)
595	elif offset==0x023c: # Minute of Zulu time
596	self._updateTimeOffset(4, value)
597	elif offset==0x023e: # Day number in the year
598	self._updateTimeOffset(7, value)
599	elif offset==0x0240: # Year in FS
600	self._updateTimeOffset(0, value)
601	elif offset==0x0264: # Paused
602	self.paused = value!=0
603	elif offset==0x029c: # Pitot
604	self.pitot = value!=0
605	elif offset==0x02b4: # Ground speed
606	# FIXME: calculate TAS using the heading and the wind, and
607	# then IAS based on the altitude
608	self.ias = value * 3600.0 / 65536.0 / 1852.0
609	elif offset==0x02bc: # IAS
610	self.ias = value / 128.0
611	elif offset==0x02c8: # VS
612	self.vs = value * 60.0 / const.FEETTOMETRES / 256.0
613	if not self.onTheGround:
614	self.tdRate = self.vs
615	elif offset==0x02d4: # ADF2 main
616	self.adf2 = self._writeADFFrequency(self.adf2, value, True)
617	elif offset==0x02d6: # ADF2 main
618	self.adf2 = self._writeADFFrequency(self.adf2, value, False)
619	elif offset==0x0330: # Altimeter
620	self.altimeter = value / 16.0
621	elif offset==0x034c: # ADF1 main
622	self.adf1 = self._writeADFFrequency(self.adf1, value, True)
623	elif offset==0x0350: # NAV1
624	self.nav1 = Values._writeFrequency(value)
625	elif offset==0x0352: # NAV2
626	self.nav2 = Values._writeFrequency(value)
627	elif offset==0x0354: # Squawk
628	self.squawk = Values._writeBCD(value)
629	elif offset==0x0356: # ADF1 ext
630	self.adf1 = self._writeADFFrequency(self.adf1, value, False)
631	elif offset==0x0366: # On the groud
632	self.onTheGround = value!=0
633	if not self.onTheGround:
634	self.tdRate = self.vs
635	elif offset==0x036c: # Stalled
636	self.stalled = value!=0
637	elif offset==0x036d: # Overspeed
638	self.overspeed = value!=0
639	elif offset==0x0560: # Latitude
640	self.latitude = value * 90.0 / 10001750.0 / 65536.0 / 65536.0
641	elif offset==0x0568: # Longitude
642	self.longitude = value * 360.0 / 65536.0 / 65536.0 / 65536.0 / 65536.0
643	elif offset==0x0570: # Altitude
644	self.altitude = value / const.FEETTOMETRES / 65536.0 / 65536.0
645	self.radioAltitude = self.altitude - 517
646	elif offset==0x0578: # Pitch
647	self.pitch = value * 360.0 / 65536.0 / 65536.0
648	elif offset==0x057c: # Bank
649	self.bank = value * 360.0 / 65536.0 / 65536.0
650	elif offset==0x0580: # Heading
651	self.heading = value * 360.0 / 65536.0 / 65536.0
652	elif offset==0x05dc: # Slew
653	self.slew = value!=0
654	elif offset==0x0628: # Replay
655	self.replay = value!=0
656	elif offset==0x07bc: # AP Master switch
657	self.apMaster = value!=0
658	elif offset==0x07c8: # AP heading hold
659	self.apHeadingHold = value!=0
660	elif offset==0x07cc: # AP heading
661	self.apHeading = value * 360.0 / 65536.0
662	elif offset==0x07d0: # AP altitude hold
663	self.apAltitudeHold = value!=0
664	elif offset==0x07d4: # AP altitude
665	self.apAltitude = value / const.FEETTOMETRES / 65536.0
666	elif offset==0x088c: # Engine #1 throttle
667	self._setThrottle(self.ENGINE_1, value)
668	elif offset==0x0924: # Engine #2 throttle
669	self._setThrottle(self.ENGINE_2, value)
670	elif offset==0x09bc: # Engine #3 throttle
671	self._setThrottle(self.ENGINE_3, value)
672	elif offset==0x0af4: # Fuel weight
673	self.fuelWeight = value / 256.0
674	elif offset==0x0b74: # Centre tank level
675	self._setFuelLevel(self.FUEL_CENTRE, value)
676	elif offset==0x0b78: # Centre tank capacity
677	self._setFuelCapacity(self.FUEL_CENTRE, value)
678	elif offset==0x0b7c: # Left tank level
679	self._setFuelLevel(self.FUEL_LEFT, value)
680	elif offset==0x0b80: # Left tank capacity
681	self._setFuelCapacity(self.FUEL_LEFT, value)
682	elif offset==0x0b84: # Left aux tank level
683	self._setFuelLevel(self.FUEL_LEFT_AUX, value)
684	elif offset==0x0b88: # Left aux tank capacity
685	self._setFuelCapacity(self.FUEL_LEFT_AUX, value)
686	elif offset==0x0b8c: # Left tip tank level
687	self._setFuelLevel(self.FUEL_LEFT_TIP, value)
688	elif offset==0x0b90: # Left tip tank capacity
689	self._setFuelCapacity(self.FUEL_LEFT_TIP, value)
690	elif offset==0x0b94: # Right aux tank level
691	self._setFuelLevel(self.FUEL_RIGHT, value)
692	elif offset==0x0b98: # Right aux tank capacity
693	self._setFuelCapacity(self.FUEL_RIGHT, value)
694	elif offset==0x0b9c: # Right tank level
695	self._setFuelLevel(self.FUEL_RIGHT_AUX, value)
696	elif offset==0x0ba0: # Right tank capacity
697	self._setFuelCapacity(self.FUEL_RIGHT_AUX, value)
698	elif offset==0x0ba4: # Right tip tank level
699	self._setFuelLevel(self.FUEL_RIGHT_TIP, value)
700	elif offset==0x0ba8: # Right tip tank capacity
701	self._setFuelCapacity(self.FUEL_RIGHT_TIP, value)
702	elif offset==0x0bc8: # Parking
703	self.parking = value!=0
704	elif offset==0x0bcc: # Spoilers armed
705	self.spoilersArmed = value!=0
706	elif offset==0x0bd0: # Spoilers
707	self.spoilters = 0 if value==0 \
708	else (value - 4800) / (16383 - 4800)
709	elif offset==0x0bdc: # Flaps control
710	numNotchesM1 = len(self.flapsNotches) - 1
711	flapsIncrement = 16383.0 / numNotchesM1
712	index = int(value / flapsIncrement)
713	if index>=numNotchesM1:
714	self.flapsControl = self.flapsNotches[-1]
715	else:
716	self.flapsControl = self.flapsNotches[index]
717	self.flapsControl += (value - index * flapsIncrement) * \
718	(self.flapsNotches[index+1] - self.flapsNotches[index]) / \
719	flapsIncrement
720	elif offset==0x0be0 or offset==0x0be4: # Flaps left and right
721	self.flaps = value * self.flapsNotches[-1] / 16383.0
722	elif offset==0x0be8: # Gear control
723	self.gearControl = value / 16383.0
724	elif offset==0x0bec: # Nose gear
725	self.noseGear = value / 16383.0
726	elif offset==0x0c4e: # NAV1 OBS
727	self.nav1_obs = value
728	elif offset==0x0c5e: # NAV2 OBS
729	self.nav2_obs = value
730	elif offset==0x0d0c: # Lights
731	self.navLightsOn = (value&0x01)!=0
732	self.antiCollisionLightsOn = (value&0x02)!=0
733	self.landingLightsOn = (value&0x04)!=0
734	self.strobeLightsOn = (value&0x10)!=0
735	elif offset==0x0e8a: # Visibility
736	self.visibility = value * 1609.344 / 100.0
737	elif offset==0x0e90: # Wind speed
738	self.windSpeed = value
739	elif offset==0x0e92: # Wind direction
740	self.windDirection = value * 360.0 / 65536.0
741	elif offset==0x11ba: # G-Load
742	self.gLoad = value / 625.0
743	elif offset==0x11c6: # Mach
744	# FIXME: calculate IAS using the altitude and QNH
745	self.ias = value / 0.05 / 20480
746	elif offset==0x1244: # Centre 2 tank level
747	self._setFuelLevel(self.FUEL_CENTRE_2, value)
748	elif offset==0x1248: # Centre 2 tank capacity
749	self._setFuelCapacity(self.FUEL_CENTRE_2, value)
750	elif offset==0x1254: # External 1 tank level
751	self._setFuelLevel(self.FUEL_EXTERNAL_1, value)
752	elif offset==0x1258: # External 1 tank capacity
753	self._setFuelCapacity(self.FUEL_EXTERNAL_1, value)
754	elif offset==0x125c: # External 2 tank level
755	self._setFuelLevel(self.FUEL_EXTERNAL_2, value)
756	elif offset==0x1260: # External 2 tank capacity
757	self._setFuelCapacity(self.FUEL_EXTERNAL_2, value)
758	elif offset==0x1274: # Text display mode
759	textScrolling = value!=0
760	elif offset==0x13fc: # The number of the payload stations
761	self.payloadCount = int(value)
762	elif offset>=0x1400 and offset<=0x1f40 and \
763	((offset-0x1400)%48)==0: # Payload
764	self.payload[ (offset - 0x1400) / 48 ] = value
765	elif offset==0x2000: # Engine #1 N1
766	self.n1[self.ENGINE_1] = value
767	elif offset==0x2100: # Engine #2 N1
768	self.n1[self.ENGINE_2] = value
769	elif offset==0x2200: # Engine #3 N1
770	self.n1[self.ENGINE_3] = value
771	elif offset==0x2ea0: # Elevator trim
772	self.elevatorTrim = value * 180.0 / math.pi
773	elif offset==0x2ef8: # Centre of Gravity
774	self.cog = value
775	elif offset==0x30c0: # Gross weight
776	raise FSUIPCException(ERR_DATA)
777	elif offset==0x31e4: # Radio altitude
778	self.radioAltitude = value / const.FEETTOMETRES / 65536.0
779	self.altitude = self.radioAltitude + 517
780	elif offset==0x31e4: # Radio altitude
781	raise FSUIPCException(ERR_DATA)
782	elif offset==0x320c:
783	return Values.HOTKEY_SIZE
784	elif offset>=0x3210 and offset<0x3210+Values.HOTKEY_SIZE*4:
785	tableOffset = offset - 0x3210
786	hotkeyIndex = tableOffset / 4
787	index = tableOffset % 4
788	if type=="b" or type=="c":
789	self.hotkeyTable[hotkeyIndex][index] = value
790	elif type=="d" or type=="u":
791	if index==0:
792	hotkey = self.hotkeyTable[hotkeyIndex]
793	hotkey[0] = value & 0xff
794	hotkey[1] = (value>>8) & 0xff
795	hotkey[2] = (value>>16) & 0xff
796	hotkey[3] = (value>>24) & 0xff
797	else:
798	print "Unhandled offset: %04x for type '%s'" % (offset, type)
799	raise FSUIPCException(ERR_DATA)
800	else:
801	print "Unhandled offset: %04x for type '%s'" % (offset, type)
802	raise FSUIPCException(ERR_DATA)
803	elif offset==0x32fa: # Message duration
804	self.messageDuration = value
805	elif offset==0x3380: # Message
806	self.message = value
807	elif offset==0x3364: # Frozen
808	self.frozen = value!=0
809	elif offset==0x3bfc: # ZFW
810	self.zfw = value * const.LBSTOKG / 256.0
811	elif offset==0x3c00: # Path of the current AIR file
812	self.airPath = value
813	elif offset==0x3d00: # Name of the current aircraft
814	self.aircraftName = value
815	elif offset==0x6202: # PMDG 737NG switches
816	self.pmdg_737ng_switches = value
817	elif offset==0x6500: # PMDG 737NGX lights position SW
818	self.pmdg_737ngx_lts_positionsw = value
819	elif offset==0x7b91: # Transponder standby
820	self.xpdrC = value==0
821	else:
822	print "Unhandled offset: %04x" % (offset,)
823	raise FSUIPCException(ERR_DATA)
824
825	def _readUTC(self):
826	"""Read the UTC time.
827
828	The current offset is added to it."""
829	return time.gmtime(time.time() + self._timeOffset)
830
831	def _getFuelLevel(self, index):
832	"""Get the fuel level for the fuel tank with the given
833	index."""
834	return 0 if self.fuelCapacities[index]==0.0 else \
835	int(self.fuelWeights[index] * 65536.0 * 128.0 / self.fuelCapacities[index])
836
837	def _getFuelCapacity(self, index):
838	"""Get the capacity of the fuel tank with the given index."""
839	return int(self.fuelCapacities[index] * const.KGSTOLB / self.fuelWeight)
840
841	def _getThrottle(self, index):
842	"""Get the throttle value for the given index."""
843	return int(self.throttles[index] * 16383.0)
844
845	def _updateTimeOffset(self, index, value):
846	"""Update the time offset if the value in the tm structure is replaced
847	by the given value."""
848	tm = self._readUTC()
849	tm1 = tm[:index] + (value,) + tm[(index+1):]
850	self._timeOffset += calendar.timegm(tm1) - calendar.timegm(tm)
851
852	def _setThrottle(self, index, value):
853	"""Set the throttle value for the given index."""
854	self.throttles[index] = value / 16383.0
855
856	def _setFuelLevel(self, index, value):
857	"""Set the fuel level for the fuel tank with the given index."""
858	self.fuelWeights[index] = self.fuelCapacities[index] * float(value) / \
859	65536.0 / 128.0
860
861	def _setFuelCapacity(self, index, value):
862	"""Set the capacity of the fuel tank with the given index."""
863	self.fuelCapacities[index] = value * self.fuelWeight * const.LBSTOKG
864
865	def _getTAS(self):
866	"""Calculate the true airspeed."""
867	pressure = 101325 * math.pow(1 - 2.25577e-5 * self.altitude *
868	const.FEETTOMETRES,
869	5.25588)
870	temperature = 15 - self.altitude * 6.5 * const.FEETTOMETRES / 1000.0
871	temperature += 273.15 # Celsius -> Kelvin
872	airDensity = pressure / (temperature * 287.05)
873	#print "pressure:", pressure, "temperature:", temperature, "airDensity:", airDensity
874	return self.ias * math.sqrt(1.225 / airDensity)
875
876	#------------------------------------------------------------------------------
877
878	values = Values()
879
880	#------------------------------------------------------------------------------
881
882	failOpen = False
883
884	opened = False
885
886	#------------------------------------------------------------------------------
887
888	def open(request):
889	"""Open the connection."""
890	global opened
891	if failOpen:
892	raise FSUIPCException(ERR_NOFS)
893	elif opened:
894	raise FSUIPCException(ERR_OPEN)
895	else:
896	time.sleep(0.5)
897	opened = True
898	return True
899
900	#------------------------------------------------------------------------------
901
902	def prepare_data(pattern, forRead = True, checkOpened = True):
903	"""Prepare the given pattern for reading and/or writing."""
904	if not checkOpened or opened:
905	return pattern
906	else:
907	raise FSUIPCException(ERR_NOTOPEN)
908
909	#------------------------------------------------------------------------------
910
911	def read(data, checkOpened = True):
912	"""Read the given data."""
913	if not checkOpened or opened:
914	return [values.read(offset, type) for (offset, type) in data]
915	else:
916	raise FSUIPCException(ERR_NOTOPEN)
917
918	#------------------------------------------------------------------------------
919
920	def write(data, checkOpened = True):
921	"""Write the given data."""
922	if not checkOpened or opened:
923	for (offset, type, value) in data:
924	values.write(offset, value, type)
925	else:
926	raise FSUIPCException(ERR_NOTOPEN)
927
928	#------------------------------------------------------------------------------
929
930	def close():
931	"""Close the connection."""
932	global opened
933	opened = False
934
935	#------------------------------------------------------------------------------
936
937	PORT=15015
938
939	CALL_READ=1
940	CALL_WRITE=2
941	CALL_SETVERSION=3
942	CALL_CLOSE=4
943	CALL_FAILOPEN=5
944	CALL_QUIT = 99
945
946	RESULT_RETURNED=1
947	RESULT_EXCEPTION=2
948
949	#------------------------------------------------------------------------------
950
951	class Server(threading.Thread):
952	"""The server thread."""
953	def __init__(self):
954	"""Construct the thread."""
955	super(Server, self).__init__()
956	self.daemon = True
957
958	def run(self):
959	"""Perform the server's operation."""
960	serverSocket = socket.socket()
961
962	serverSocket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
963	serverSocket.bind(("", PORT))
964
965	serverSocket.listen(5)
966
967	while True:
968	(clientSocket, clientAddress) = serverSocket.accept()
969	thread = threading.Thread(target = self._process, args=(clientSocket,))
970	thread.start()
971
972	def _process(self, clientSocket):
973	"""Process the commands arriving on the given socket."""
974	socketFile = clientSocket.makefile()
975	try:
976	while True:
977	(length,) = struct.unpack("I", clientSocket.recv(4))
978	data = clientSocket.recv(length)
979	(call, args) = cPickle.loads(data)
980	exception = None
981
982	try:
983	if call==CALL_READ:
984	result = read(args[0], checkOpened = False)
985	elif call==CALL_WRITE:
986	result = write(args[0], checkOpened = False)
987	elif call==CALL_SETVERSION:
988	global fs_version
989	fs_version = args[0]
990	result = None
991	elif call==CALL_CLOSE:
992	global opened
993	opened = False
994	result = None
995	elif call==CALL_FAILOPEN:
996	global failOpen
997	failOpen = args[0]
998	result = None
999	else:
1000	break
1001	except Exception, e:
1002	exception = e
1003
1004	if exception is None:
1005	data = cPickle.dumps((RESULT_RETURNED, result))
1006	else:
1007	data = cPickle.dumps((RESULT_EXCEPTION, str(exception)))
1008	clientSocket.send(struct.pack("I", len(data)) + data)
1009	except Exception, e:
1010	print >> sys.stderr, "pyuipc_sim.Server._process: failed with exception:", str(e)
1011	finally:
1012	try:
1013	socketFile.close()
1014	except:
1015	pass
1016	clientSocket.close()
1017
1018	#------------------------------------------------------------------------------
1019
1020	class Client(object):
1021	"""Client to the server."""
1022	def __init__(self, serverHost):
1023	"""Construct the client and connect to the given server
1024	host."""
1025	self._socket = socket.socket()
1026	self._socket.connect((serverHost, PORT))
1027
1028	self._socketFile = self._socket.makefile()
1029
1030	def read(self, data):
1031	"""Read the given data."""
1032	return self._call(CALL_READ, data)
1033
1034	def write(self, data):
1035	"""Write the given data."""
1036	return self._call(CALL_WRITE, data)
1037
1038	def setVersion(self, version):
1039	"""Set the FS version to emulate."""
1040	return self._call(CALL_SETVERSION, int(version))
1041
1042	def close(self):
1043	"""Close the connection currently opened in the simulator."""
1044	return self._call(CALL_CLOSE, None)
1045
1046	def failOpen(self, really):
1047	"""Enable/disable open failure in the simulator."""
1048	return self._call(CALL_FAILOPEN, really)
1049
1050	def quit(self):
1051	"""Quit from the simulator."""
1052	data = cPickle.dumps((CALL_QUIT, None))
1053	self._socket.send(struct.pack("I", len(data)) + data)
1054
1055	def _call(self, command, data):
1056	"""Perform a call with the given command and data."""
1057	data = cPickle.dumps((command, [data]))
1058	self._socket.send(struct.pack("I", len(data)) + data)
1059	(length,) = struct.unpack("I", self._socket.recv(4))
1060	data = self._socket.recv(length)
1061	(resultCode, result) = cPickle.loads(data)
1062	if resultCode==RESULT_RETURNED:
1063	return result
1064	else:
1065	raise Exception(result)
1066
1067	#------------------------------------------------------------------------------
1068	#------------------------------------------------------------------------------
1069
1070	# FIXME: implement proper completion and history
1071	class CLI(cmd.Cmd):
1072	"""The command-line interpreter."""
1073	@staticmethod
1074	def str2bool(s):
1075	"""Convert the given string to a PyUIPC boolean value (i.e. 0 or 1)."""
1076	return 1 if s in ["yes", "true", "on"] else 0
1077
1078	@staticmethod
1079	def bool2str(value):
1080	"""Convert the PyUIPC boolean value (i.e. 0 or 1) into a string."""
1081	return "no" if value==0 else "yes"
1082
1083	@staticmethod
1084	def degree2pyuipc(degree):
1085	"""Convert the given degree (as a string) into a PyUIPC value."""
1086	return int(float(degree) * 65536.0 * 65536.0 / 360.0)
1087
1088	@staticmethod
1089	def pyuipc2degree(value):
1090	"""Convert the given PyUIPC value into a degree."""
1091	return value * 360.0 / 65536.0 / 65536.0
1092
1093	@staticmethod
1094	def fuelLevel2pyuipc(level):
1095	"""Convert the given percentage value (as a string) into a PyUIPC value."""
1096	return int(float(level) * 128.0 * 65536.0 / 100.0)
1097
1098	@staticmethod
1099	def pyuipc2fuelLevel(value):
1100	"""Convert the PyUIPC value into a percentage value."""
1101	return value * 100.0 / 128.0 / 65536.0
1102
1103	@staticmethod
1104	def fuelCapacity2pyuipc(capacity):
1105	"""Convert the given capacity value (as a string) into a PyUIPC value."""
1106	return int(capacity)
1107
1108	@staticmethod
1109	def pyuipc2fuelCapacity(value):
1110	"""Convert the given capacity value into a PyUIPC value."""
1111	return value
1112
1113	@staticmethod
1114	def throttle2pyuipc(throttle):
1115	"""Convert the given throttle value (as a string) into a PyUIPC value."""
1116	return int(float(throttle) * 16384.0 / 100.0)
1117
1118	@staticmethod
1119	def pyuipc2throttle(value):
1120	"""Convert the given PyUIPC value into a throttle value."""
1121	return value * 100.0 / 16384.0
1122
1123	@staticmethod
1124	def heading2pyuipc(heading):
1125	"""Convert the given heading (as a string) into a PyUIPC value."""
1126	return int(float(heading) * 65536.0 / 360.0)
1127
1128	@staticmethod
1129	def pyuipc2heading(value):
1130	"""Convert the given PyUIPC value into a heading."""
1131	return value * 360.0 / 65536.0
1132
1133	@staticmethod
1134	def altitude2pyuipc(altitude):
1135	"""Convert the given altitude (as a string) into a PyUIPC value."""
1136	return int(float(altitude) * const.FEETTOMETRES * 65536.0)
1137
1138	@staticmethod
1139	def pyuipc2altitude(value):
1140	"""Convert the given PyUIPC value into an altitude."""
1141	return value / const.FEETTOMETRES / 65536.0
1142
1143	def __init__(self):
1144	"""Construct the CLI."""
1145	cmd.Cmd.__init__(self)
1146
1147	self.use_rawinput = True
1148	self.intro = "\nPyUIPC simulator command prompt\n"
1149	self.prompt = "PyUIPC> "
1150
1151	self.daemon = True
1152
1153	host = sys.argv[1] if len(sys.argv)>1 else "localhost"
1154	self._client = Client(host)
1155
1156	self._valueHandlers = {}
1157	self._valueHandlers["year"] = ([(0x0240, "H")], lambda value: value,
1158	lambda word: int(word))
1159	self._valueHandlers["yday"] = ([(0x023e, "H")], lambda value: value,
1160	lambda word: int(word))
1161	self._valueHandlers["hour"] = ([(0x023b, "b")], lambda value: value,
1162	lambda word: int(word))
1163	self._valueHandlers["min"] = ([(0x023c, "b")], lambda value: value,
1164	lambda word: int(word))
1165	self._valueHandlers["sec"] = ([(0x023a, "b")], lambda value: value,
1166	lambda word: int(word))
1167	self._valueHandlers["acftName"] = ([(0x3d00, -256)], lambda value: value,
1168	lambda word: word)
1169	self._valueHandlers["airPath"] = ([(0x3c00, -256)], lambda value: value,
1170	lambda word: word)
1171	self._valueHandlers["latitude"] = ([(0x0560, "l")],
1172	lambda value: value * 90.0 /
1173	10001750.0 / 65536.0 / 65536.0,
1174	lambda word: long(float(word) *
1175	10001750.0 *
1176	65536.0 * 65536.0 / 90.0))
1177	self._valueHandlers["longitude"] = ([(0x0568, "l")],
1178	lambda value: value * 360.0 /
1179	65536.0 / 65536.0 / 65536.0 / 65536.0,
1180	lambda word: long(float(word) *
1181	65536.0 * 65536.0 *
1182	65536.0 * 65536.0 /
1183	360.0))
1184	self._valueHandlers["paused"] = ([(0x0264, "H")], CLI.bool2str, CLI.str2bool)
1185	self._valueHandlers["frozen"] = ([(0x3364, "H")], CLI.bool2str, CLI.str2bool)
1186	self._valueHandlers["replay"] = ([(0x0628, "d")], CLI.bool2str, CLI.str2bool)
1187	self._valueHandlers["slew"] = ([(0x05dc, "H")], CLI.bool2str, CLI.str2bool)
1188	self._valueHandlers["overspeed"] = ([(0x036d, "b")], CLI.bool2str, CLI.str2bool)
1189	self._valueHandlers["stalled"] = ([(0x036c, "b")], CLI.bool2str, CLI.str2bool)
1190	self._valueHandlers["onTheGround"] = ([(0x0366, "H")], CLI.bool2str, CLI.str2bool)
1191	self._valueHandlers["zfw"] = ([(0x3bfc, "d")],
1192	lambda value: value * const.LBSTOKG / 256.0,
1193	lambda word: int(float(word) * 256.0 *
1194	const.KGSTOLB))
1195	self._valueHandlers["grossWeight"] = ([(0x30c0, "f")],
1196	lambda value: value * const.LBSTOKG,
1197	lambda word: None)
1198	self._valueHandlers["heading"] = ([(0x0580, "d")],
1199	CLI.pyuipc2degree, CLI.degree2pyuipc)
1200	self._valueHandlers["pitch"] = ([(0x0578, "d")],
1201	CLI.pyuipc2degree, CLI.degree2pyuipc)
1202	self._valueHandlers["bank"] = ([(0x057c, "d")],
1203	CLI.pyuipc2degree, CLI.degree2pyuipc)
1204	self._valueHandlers["ias"] = ([(0x02bc, "d")],
1205	lambda value: value / 128.0,
1206	lambda word: int(float(word) * 128.0))
1207	self._valueHandlers["mach"] = ([(0x11c6, "H")],
1208	lambda value: value / 20480.0,
1209	lambda word: int(float(word) * 20480.0))
1210	self._valueHandlers["gs"] = ([(0x02b4, "d")],
1211	lambda value: value * 3600.0 / 65536.0 / 1852.0,
1212	lambda word: int(float(word) * 65536.0 *
1213	1852.0 / 3600))
1214	self._valueHandlers["tas"] = ([(0x02b8, "d")],
1215	lambda value: value / 128.0,
1216	lambda word: None)
1217	self._valueHandlers["vs"] = ([(0x02c8, "d")],
1218	lambda value: value * 60 /
1219	const.FEETTOMETRES / 256.0,
1220	lambda word: int(float(word) *
1221	const.FEETTOMETRES *
1222	256.0 / 60.0))
1223	self._valueHandlers["tdRate"] = ([(0x030c, "d")],
1224	lambda value: value * 60 /
1225	const.FEETTOMETRES / 256.0,
1226	lambda word: int(float(word) *
1227	const.FEETTOMETRES *
1228	256.0 / 60.0))
1229	self._valueHandlers["radioAltitude"] = ([(0x31e4, "d")],
1230	lambda value: value /
1231	const.FEETTOMETRES /
1232	65536.0,
1233	lambda word: int(float(word) *
1234	const.FEETTOMETRES *
1235	65536.0))
1236	self._valueHandlers["altitude"] = ([(0x0570, "l")],
1237	lambda value: value /
1238	const.FEETTOMETRES / 65536.0 /
1239	65536.0,
1240	lambda word: long(float(word) *
1241	const.FEETTOMETRES *
1242	65536.0 * 65536.0))
1243	self._valueHandlers["gLoad"] = ([(0x11ba, "H")],
1244	lambda value: value / 625.0,
1245	lambda word: int(float(word) * 625.0))
1246
1247	self._valueHandlers["flapsControl"] = ([(0x0bdc, "d")],
1248	lambda value: value * 100.0 / 16383.0,
1249	lambda word: int(float(word) *
1250	16383.0 / 100.0))
1251	self._valueHandlers["flaps"] = ([(0x0be0, "d")],
1252	lambda value: value * 100.0 / 16383.0,
1253	lambda word: int(float(word) *
1254	16383.0 / 100.0))
1255	self._valueHandlers["lights"] = ([(0x0d0c, "H")],
1256	lambda value: value,
1257	lambda word: int(word))
1258	self._valueHandlers["pitot"] = ([(0x029c, "b")], CLI.bool2str, CLI.str2bool)
1259	self._valueHandlers["parking"] = ([(0x0bc8, "H")], CLI.bool2str, CLI.str2bool)
1260	self._valueHandlers["gearControl"] = ([(0x0be8, "d")],
1261	lambda value: value * 100.0 / 16383.0,
1262	lambda word: int(float(word) *
1263	16383.0 / 100.0))
1264	self._valueHandlers["noseGear"] = ([(0x0bec, "d")],
1265	lambda value: value * 100.0 / 16383.0,
1266	lambda word: int(float(word) *
1267	16383.0 / 100.0))
1268	self._valueHandlers["spoilersArmed"] = ([(0x0bcc, "d")],
1269	CLI.bool2str, CLI.str2bool)
1270	self._valueHandlers["spoilers"] = ([(0x0bd0, "d")],
1271	lambda value: value,
1272	lambda word: int(word))
1273	self._valueHandlers["qnh"] = ([(0x0330, "H")],
1274	lambda value: value / 16.0,
1275	lambda word: int(float(word)*16.0))
1276	self._valueHandlers["nav1"] = ([(0x0350, "H")],
1277	Values._writeFrequency,
1278	lambda word: Values._readFrequency(float(word)))
1279	self._valueHandlers["nav1_obs"] = ([(0x0c4e, "H")],
1280	lambda value: value,
1281	lambda word: int(word))
1282	self._valueHandlers["nav2"] = ([(0x0352, "H")],
1283	Values._writeFrequency,
1284	lambda word: Values._readFrequency(float(word)))
1285	self._valueHandlers["nav2_obs"] = ([(0x0c5e, "H")],
1286	lambda value: value,
1287	lambda word: int(word))
1288	self._valueHandlers["adf1"] = ([(0x034c, "H"), (0x0356, "H")],
1289	lambda values:
1290	Values._toADFFrequency(values[0],
1291	values[1]),
1292	lambda word:
1293	Values._readADFFrequency(float(word)))
1294	self._valueHandlers["adf2"] = ([(0x02d4, "H"), (0x02d6, "H")],
1295	lambda values:
1296	Values._toADFFrequency(values[0],
1297	values[1]),
1298	lambda word:
1299	Values._readADFFrequency(float(word)))
1300	self._valueHandlers["squawk"] = ([(0x0354, "H")],
1301	Values._writeBCD,
1302	lambda word: Values._readBCD(int(word)))
1303	self._valueHandlers["windSpeed"] = ([(0x0e90, "H")],
1304	lambda value: value,
1305	lambda word: int(word))
1306	self._valueHandlers["windDirection"] = ([(0x0e92, "H")],
1307	lambda value: value * 360.0 / 65536.0,
1308	lambda word: int(int(word) *
1309	65536.0 / 360.0))
1310	self._valueHandlers["fuelWeight"] = ([(0x0af4, "H")],
1311	lambda value: value / 256.0,
1312	lambda word: int(float(word)*256.0))
1313
1314
1315	self._valueHandlers["centreLevel"] = ([(0x0b74, "d")],
1316	CLI.pyuipc2fuelLevel,
1317	CLI.fuelLevel2pyuipc)
1318	self._valueHandlers["centreCapacity"] = ([(0x0b78, "d")],
1319	CLI.pyuipc2fuelCapacity,
1320	CLI.fuelCapacity2pyuipc)
1321	self._valueHandlers["leftMainLevel"] = ([(0x0b7c, "d")],
1322	CLI.pyuipc2fuelLevel,
1323	CLI.fuelLevel2pyuipc)
1324	self._valueHandlers["leftMainCapacity"] = ([(0x0b80, "d")],
1325	CLI.pyuipc2fuelCapacity,
1326	CLI.fuelCapacity2pyuipc)
1327	self._valueHandlers["leftAuxLevel"] = ([(0x0b84, "d")],
1328	CLI.pyuipc2fuelLevel,
1329	CLI.fuelLevel2pyuipc)
1330	self._valueHandlers["leftAuxCapacity"] = ([(0x0b88, "d")],
1331	CLI.pyuipc2fuelCapacity,
1332	CLI.fuelCapacity2pyuipc)
1333	self._valueHandlers["leftTipLevel"] = ([(0x0b8c, "d")],
1334	CLI.pyuipc2fuelLevel,
1335	CLI.fuelLevel2pyuipc)
1336	self._valueHandlers["leftTipCapacity"] = ([(0x0b90, "d")],
1337	CLI.pyuipc2fuelCapacity,
1338	CLI.fuelCapacity2pyuipc)
1339	self._valueHandlers["rightMainLevel"] = ([(0x0b94, "d")],
1340	CLI.pyuipc2fuelLevel,
1341	CLI.fuelLevel2pyuipc)
1342	self._valueHandlers["rightMainCapacity"] = ([(0x0b98, "d")],
1343	CLI.pyuipc2fuelCapacity,
1344	CLI.fuelCapacity2pyuipc)
1345	self._valueHandlers["rightAuxLevel"] = ([(0x0b9c, "d")], CLI.pyuipc2fuelLevel,
1346	CLI.fuelLevel2pyuipc)
1347	self._valueHandlers["rightAuxCapacity"] = ([(0x0ba0, "d")],
1348	CLI.pyuipc2fuelCapacity,
1349	CLI.fuelCapacity2pyuipc)
1350	self._valueHandlers["rightTipLevel"] = ([(0x0ba4, "d")],
1351	CLI.pyuipc2fuelLevel,
1352	CLI.fuelLevel2pyuipc)
1353	self._valueHandlers["rightTipCapacity"] = ([(0x0ba8, "d")],
1354	CLI.pyuipc2fuelCapacity,
1355	CLI.fuelCapacity2pyuipc)
1356	self._valueHandlers["centre2Level"] = ([(0x1244, "d")],
1357	CLI.pyuipc2fuelLevel,
1358	CLI.fuelLevel2pyuipc)
1359	self._valueHandlers["centre2Capacity"] = ([(0x1248, "d")],
1360	CLI.pyuipc2fuelCapacity,
1361	CLI.fuelCapacity2pyuipc)
1362	self._valueHandlers["external1Level"] = ([(0x1254, "d")],
1363	CLI.pyuipc2fuelLevel,
1364	CLI.fuelLevel2pyuipc)
1365	self._valueHandlers["external1Capacity"] = ([(0x1258, "d")],
1366	CLI.pyuipc2fuelCapacity,
1367	CLI.fuelCapacity2pyuipc)
1368	self._valueHandlers["external2Level"] = ([(0x125c, "d")],
1369	CLI.pyuipc2fuelLevel,
1370	CLI.fuelLevel2pyuipc)
1371	self._valueHandlers["external2Capacity"] = ([(0x1260, "d")],
1372	CLI.pyuipc2fuelCapacity,
1373	CLI.fuelCapacity2pyuipc)
1374
1375	self._valueHandlers["n1_1"] = ([(0x2000, "f")], lambda value: value,
1376	lambda word: float(word))
1377	self._valueHandlers["n1_2"] = ([(0x2100, "f")], lambda value: value,
1378	lambda word: float(word))
1379	self._valueHandlers["n1_3"] = ([(0x2200, "f")], lambda value: value,
1380	lambda word: float(word))
1381
1382	self._valueHandlers["throttle_1"] = ([(0x088c, "H")],
1383	CLI.pyuipc2throttle,
1384	CLI.throttle2pyuipc)
1385	self._valueHandlers["throttle_2"] = ([(0x0924, "H")],
1386	CLI.pyuipc2throttle,
1387	CLI.throttle2pyuipc)
1388	self._valueHandlers["throttle_3"] = ([(0x09bc, "H")],
1389	CLI.pyuipc2throttle,
1390	CLI.throttle2pyuipc)
1391
1392	self._valueHandlers["visibility"] = ([(0x0e8a, "H")],
1393	lambda value: value*1609.344/100.0,
1394	lambda word: int(float(word)*
1395	100.0/1609.344))
1396
1397	self._valueHandlers["payloadCount"] = ([(0x13fc, "d")],
1398	lambda value: value,
1399	lambda word: int(word))
1400	for i in range(0, 61):
1401	self._valueHandlers["payload%d" % (i,)] = ([(0x1400 + i * 48, "f")],
1402	lambda value:
1403	value * const.LBSTOKG,
1404	lambda word:
1405	float(word)*const.KGSTOLB)
1406	self._valueHandlers["textScrolling"] = ([(0x1274, "h")],
1407	CLI.bool2str, CLI.str2bool)
1408
1409	self._valueHandlers["messageDuration"] = ([(0x32fa, "h")],
1410	lambda value: value,
1411	lambda word: int(word))
1412	self._valueHandlers["message"] = ([(0x3380, -128)],
1413	lambda value: value,
1414	lambda word: word)
1415
1416	for i in range(0, Values.HOTKEY_SIZE):
1417	self._valueHandlers["hotkey%d" % (i,)] = ([(0x3210 + i*4, "u")],
1418	lambda value: "0x%08x" % (value,),
1419	lambda word: long(word, 16))
1420
1421	self._valueHandlers["cog"] = ([(0x2ef8, "f")], lambda value: value,
1422	lambda word: float(word))
1423
1424	self._valueHandlers["pmdg_737ng_switches"] = ([(0x6202, "b")],
1425	lambda value: value,
1426	lambda word: int(word))
1427
1428	self._valueHandlers["pmdg_737ngx_lts_positionsw"] = ([(0x6500, "b")],
1429	lambda value: value,
1430	lambda word: int(word))
1431	self._valueHandlers["xpdrC"] = ([(0x7b91, "b")],
1432	lambda value: value,
1433	lambda word: int(word))
1434
1435	self._valueHandlers["apMaster"] = ([(0x07bc, "u")],
1436	CLI.bool2str, CLI.str2bool)
1437	self._valueHandlers["apHeadingHold"] = ([(0x07c8, "u")],
1438	CLI.bool2str, CLI.str2bool)
1439	self._valueHandlers["apHeading"] = ([(0x07cc, "H")],
1440	CLI.pyuipc2heading,
1441	CLI.heading2pyuipc)
1442	self._valueHandlers["apAltitudeHold"] = ([(0x07d0, "u")],
1443	CLI.bool2str, CLI.str2bool)
1444	self._valueHandlers["apAltitude"] = ([(0x07d4, "H")],
1445	CLI.pyuipc2altitude,
1446	CLI.altitude2pyuipc)
1447
1448	self._valueHandlers["trim"] = ([(0x2ea0, "f")],
1449	lambda value: value * 180.0 / math.pi,
1450	lambda word:
1451	float(word) * math.pi / 180.0)
1452
1453	def default(self, line):
1454	"""Handle unhandle commands."""
1455	if line=="EOF":
1456	print
1457	return self.do_quit("")
1458	else:
1459	return super(CLI, self).default(line)
1460
1461	def do_get(self, args):
1462	"""Handle the get command."""
1463	names = args.split()
1464	data = []
1465	for name in names:
1466	if name not in self._valueHandlers:
1467	print >> sys.stderr, "Unknown variable: " + name
1468	return False
1469	valueHandler = self._valueHandlers[name]
1470	data += valueHandler[0]
1471
1472	try:
1473	results = self._client.read(data)
1474	index = 0
1475	i = 0
1476	while index<len(results):
1477	name = names[i]
1478	valueHandler = self._valueHandlers[name]
1479	numResults = len(valueHandler[0])
1480	thisResults = results[index:index+numResults]
1481	value = valueHandler[1](thisResults[0] if numResults==1
1482	else thisResults)
1483
1484	print name + "=" + str(value)
1485
1486	index += numResults
1487	i+=1
1488	except Exception, e:
1489	print >> sys.stderr, "Failed to read data: " + str(e)
1490
1491	return False
1492
1493	def help_get(self):
1494	"""Print help for the get command."""
1495	print "get <variable> [<variable>...]"
1496
1497	def complete_get(self, text, line, begidx, endidx):
1498	"""Try to complete the get command."""
1499	return [key for key in self._valueHandlers if key.startswith(text)]
1500
1501	def do_set(self, args):
1502	"""Handle the set command."""
1503	arguments = []
1504	inWord = False
1505	inQuote = False
1506	word = ""
1507	for c in args:
1508	if c.isspace() and not inQuote:
1509	if inWord:
1510	arguments.append(word)
1511	word = ""
1512	inWord = False
1513	elif c=='"':
1514	inQuote = not inQuote
1515	else:
1516	inWord = True
1517	word += c
1518
1519	if inWord:
1520	arguments.append(word)
1521
1522	names = []
1523	data = []
1524	for argument in arguments:
1525	words = argument.split("=")
1526	if len(words)!=2:
1527	print >> sys.stderr, "Invalid argument: " + argument
1528	return False
1529
1530	(name, value) = words
1531	if name not in self._valueHandlers:
1532	print >> sys.stderr, "Unknown variable: " + name
1533	return False
1534
1535	valueHandler = self._valueHandlers[name]
1536	try:
1537	values = valueHandler[2](value)
1538	if len(valueHandler[0])==1:
1539	values = [values]
1540	index = 0
1541	for (offset, type) in valueHandler[0]:
1542	data.append((offset, type, values[index]))
1543	index += 1
1544	except Exception, e:
1545	print >> sys.stderr, "Invalid value '%s' for variable %s: %s" % \
1546	(value, name, str(e))
1547	return False
1548
1549	try:
1550	self._client.write(data)
1551	print "Data written"
1552	except Exception, e:
1553	print >> sys.stderr, "Failed to write data: " + str(e)
1554
1555	return False
1556
1557	def help_set(self):
1558	"""Print help for the set command."""
1559	print "set <variable>=<value> [<variable>=<value>...]"
1560
1561	def complete_set(self, text, line, begidx, endidx):
1562	"""Try to complete the set command."""
1563	if not text and begidx>0 and line[begidx-1]=="=":
1564	return []
1565	else:
1566	return [key + "=" for key in self._valueHandlers if key.startswith(text)]
1567
1568	def do_setversion(self, args):
1569	"""Set the version number to simulate"""
1570	try:
1571	value = int(args)
1572	self._client.setVersion(value)
1573	print "Emulating version %d" % (value,)
1574	except Exception, e:
1575	print >> sys.stderr, "Failed to set the version: " + str(e)
1576
1577	def help_setversion(self, usage = False):
1578	"""Help for the setversion command"""
1579	if usage: print "Usage:",
1580	print "setversion <number>"
1581
1582	def do_close(self, args):
1583	"""Close an existing connection so that FS will fail."""
1584	try:
1585	self._client.close()
1586	print "Connection closed"
1587	except Exception, e:
1588	print >> sys.stderr, "Failed to close the connection: " + str(e)
1589
1590	def do_failopen(self, args):
1591	"""Enable/disable the failing of opens."""
1592	try:
1593	value = self.str2bool(args)
1594	self._client.failOpen(value)
1595	print "Opening will%s fail" % ("" if value else " not",)
1596	except Exception, e:
1597	print >> sys.stderr, "Failed to set open failure: " + str(e)
1598
1599	def help_failopen(self, usage = False):
1600	"""Help for the failopen command"""
1601	if usage: print "Usage:",
1602	print "failopen yes\|no"
1603
1604	def complete_failopen(self, text, line, begidx, endidx):
1605	if text:
1606	if "yes".startswith(text): return ["yes"]
1607	elif "no".startswith(text): return ["no"]
1608	else: return []
1609	else:
1610	return ["yes", "no"]
1611
1612	def do_quit(self, args):
1613	"""Handle the quit command."""
1614	self._client.quit()
1615	return True
1616
1617	#------------------------------------------------------------------------------
1618
1619	if __name__ == "__main__":
1620	CLI().cmdloop()
1621	else:
1622	server = Server()
1623	server.start()
1624
1625	#------------------------------------------------------------------------------

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