Demo/sgi/video/Vreceive.py - platform/external/python/cpython3 - Gitiles

 #!/ufs/guido/bin/sgi/python-405

 # Receive live video UDP packets.
 # Usage: Vreceive [port]

 import sys
 import struct
 from socket import *			# syscalls and support functions
 from SOCKET import *			# <sys/socket.h>
 from IN import *			# <netinet/in.h>
 import select
 import struct
 import gl, GL, DEVICE
 sys.path.append('/ufs/guido/src/video')
 import LiveVideoOut
 import regsub
 import getopt

 from senddefs import *


 # Print usage message and exit(2).

 def usage(msg):
 	print msg
 	print 'usage: Vreceive [-m mcastgrp] [-p port] [-c type]'
 	print '-m mcastgrp: multicast group (default ' + `DEFMCAST` + ')'
 	print '-p port    : port (default ' + `DEFPORT` + ')'
 	print '-c type    : signal type: rgb8, grey or mono (default rgb8)'
 	sys.exit(2)


 # Main program: parse options and main loop.

 def main():

 	sys.stdout = sys.stderr

 	group = DEFMCAST
 	port = DEFPORT
 	width = DEFWIDTH
 	height = DEFHEIGHT
 	vtype = 'rgb8'

 	try:
 		opts, args = getopt.getopt(sys.argv[1:], 'm:p:c:')
 	except getopt.error, msg:
 		usage(msg)

 	try:
 		for opt, optarg in opts:
 			if opt == '-p':
 				port = string.atoi(optarg)
 			if opt == '-m':
 				group = gethostbyname(optarg)
 			if opt == '-c':
 				vtype = optarg
 	except string.atoi_error, msg:
 		usage('bad integer: ' + msg)

 	s = opensocket(group, port)

 	gl.foreground()
 	gl.prefsize(width, height)
 	wid = gl.winopen('Vreceive')
 	gl.winconstraints()
 	gl.qdevice(DEVICE.ESCKEY)
 	gl.qdevice(DEVICE.WINSHUT)
 	gl.qdevice(DEVICE.WINQUIT)

 	lvo = LiveVideoOut.LiveVideoOut().init(wid, width, height, vtype)

 	ifdlist = [gl.qgetfd(), s.fileno()]
 	ofdlist = []
 	xfdlist = []
 	timeout = 1.0
 	selectargs = (ifdlist, ofdlist, xfdlist, timeout)

 	while 1:

 		if gl.qtest():
 			dev, val = gl.qread()
 			if dev in (DEVICE.ESCKEY, \
 				DEVICE.WINSHUT, DEVICE.WINQUIT):
 				break
 			if dev == DEVICE.REDRAW:
 				lvo.reshapewindow()
 		elif s.avail():
 			data = s.recv(16*1024)
 			pos, w, h = struct.unpack('hhh', data[:6])
 			if (w, h) <> (width, height):
 				x, y =  gl.getorigin()
 				y = y + height - h
 				gl.winposition(x, x+w-1, y, y+h-1)
 				width, height = w, h
 				lvo.resizevideo(width, height)
 			lvo.putnextpacket(pos, data[6:])
 		else:
 			x = select.select(selectargs)

 	lvo.close()


 # Subroutine to create and properly initialize the receiving socket

 def opensocket(group, port):

 	# Create the socket
 	s = socket(AF_INET, SOCK_DGRAM)

 	# Allow multiple copies of this program on one machine
 	s.setsockopt(SOL_SOCKET, SO_REUSEPORT, 1) # (Not strictly needed)

 	# Bind the port to it
 	s.bind('', port)

 	# Look up the group once
 	group = gethostbyname(group)

 	# Construct binary group address
 	group_bytes = eval(regsub.gsub('\.', ',', group))
 	grpaddr = 0
 	for byte in group_bytes: grpaddr = (grpaddr << 8) | byte

 	# Construct struct mreq from grpaddr and ifaddr
 	ifaddr = INADDR_ANY
 	mreq = struct.pack('ll', grpaddr, ifaddr)

 	# Add group membership
 	s.setsockopt(IPPROTO_IP, IP_ADD_MEMBERSHIP, mreq)

 	return s


 main()
	#!/ufs/guido/bin/sgi/python-405

	# Receive live video UDP packets.
	# Usage: Vreceive [port]

	import sys
	import struct
	from socket import * # syscalls and support functions
	from SOCKET import * # <sys/socket.h>
	from IN import * # <netinet/in.h>
	import select
	import struct
	import gl, GL, DEVICE
	sys.path.append('/ufs/guido/src/video')
	import LiveVideoOut
	import regsub
	import getopt

	from senddefs import *


	# Print usage message and exit(2).

	def usage(msg):
	print msg
	print 'usage: Vreceive [-m mcastgrp] [-p port] [-c type]'
	print '-m mcastgrp: multicast group (default ' + `DEFMCAST` + ')'
	print '-p port : port (default ' + `DEFPORT` + ')'
	print '-c type : signal type: rgb8, grey or mono (default rgb8)'
	sys.exit(2)


	# Main program: parse options and main loop.

	def main():

	sys.stdout = sys.stderr

	group = DEFMCAST
	port = DEFPORT
	width = DEFWIDTH
	height = DEFHEIGHT
	vtype = 'rgb8'

	try:
	opts, args = getopt.getopt(sys.argv[1:], 'm:p:c:')
	except getopt.error, msg:
	usage(msg)

	try:
	for opt, optarg in opts:
	if opt == '-p':
	port = string.atoi(optarg)
	if opt == '-m':
	group = gethostbyname(optarg)
	if opt == '-c':
	vtype = optarg
	except string.atoi_error, msg:
	usage('bad integer: ' + msg)

	s = opensocket(group, port)

	gl.foreground()
	gl.prefsize(width, height)
	wid = gl.winopen('Vreceive')
	gl.winconstraints()
	gl.qdevice(DEVICE.ESCKEY)
	gl.qdevice(DEVICE.WINSHUT)
	gl.qdevice(DEVICE.WINQUIT)

	lvo = LiveVideoOut.LiveVideoOut().init(wid, width, height, vtype)

	ifdlist = [gl.qgetfd(), s.fileno()]
	ofdlist = []
	xfdlist = []
	timeout = 1.0
	selectargs = (ifdlist, ofdlist, xfdlist, timeout)

	while 1:

	if gl.qtest():
	dev, val = gl.qread()
	if dev in (DEVICE.ESCKEY, \
	DEVICE.WINSHUT, DEVICE.WINQUIT):
	break
	if dev == DEVICE.REDRAW:
	lvo.reshapewindow()
	elif s.avail():
	data = s.recv(16*1024)
	pos, w, h = struct.unpack('hhh', data[:6])
	if (w, h) <> (width, height):
	x, y = gl.getorigin()
	y = y + height - h
	gl.winposition(x, x+w-1, y, y+h-1)
	width, height = w, h
	lvo.resizevideo(width, height)
	lvo.putnextpacket(pos, data[6:])
	else:
	x = select.select(selectargs)

	lvo.close()


	# Subroutine to create and properly initialize the receiving socket

	def opensocket(group, port):

	# Create the socket
	s = socket(AF_INET, SOCK_DGRAM)

	# Allow multiple copies of this program on one machine
	s.setsockopt(SOL_SOCKET, SO_REUSEPORT, 1) # (Not strictly needed)

	# Bind the port to it
	s.bind('', port)

	# Look up the group once
	group = gethostbyname(group)

	# Construct binary group address
	group_bytes = eval(regsub.gsub('\.', ',', group))
	grpaddr = 0
	for byte in group_bytes: grpaddr = (grpaddr << 8) \| byte

	# Construct struct mreq from grpaddr and ifaddr
	ifaddr = INADDR_ANY
	mreq = struct.pack('ll', grpaddr, ifaddr)

	# Add group membership
	s.setsockopt(IPPROTO_IP, IP_ADD_MEMBERSHIP, mreq)

	return s


	main()