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OSC.py
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OSC.py
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#!/usr/bin/python
"""
This module contains an OpenSoundControl implementation (in Pure Python), based
(somewhat) on the good old 'SimpleOSC' implementation by Daniel Holth & Clinton
McChesney.
This implementation is intended to still be 'simple' to the user, but much more
complete (with OSCServer & OSCClient classes) and much more powerful (the
OSCMultiClient supports subscriptions & message-filtering, OSCMessage &
OSCBundle are now proper container-types)
===============================================================================
OpenSoundControl
===============================================================================
OpenSoundControl is a network-protocol for sending (small) packets of addressed
data over network sockets. This OSC-implementation supports the classical
UDP/IP protocol for sending and receiving packets but provides as well support
for TCP/IP streaming, whereas the message size is prepended as int32 (big
endian) before each message/packet.
OSC-packets come in two kinds:
- OSC-messages consist of an 'address'-string (not to be confused with a
(host:port) network-address!), followed by a string of 'typetags'
associated with the message's arguments (ie. 'payload'), and finally the
arguments themselves, encoded in an OSC-specific way. The OSCMessage class
makes it easy to create & manipulate OSC-messages of this kind in a
'pythonesque' way (that is, OSCMessage-objects behave a lot like lists)
- OSC-bundles are a special type of OSC-message containing only
OSC-messages as 'payload'. Recursively. (meaning; an OSC-bundle could
contain other OSC-bundles, containing OSC-bundles etc.)
OSC-bundles start with the special keyword '#bundle' and do not have an
OSC-address (but the OSC-messages a bundle contains will have OSC-addresses!).
Also, an OSC-bundle can have a timetag, essentially telling the receiving
server to 'hold' the bundle until the specified time. The OSCBundle class
allows easy cration & manipulation of OSC-bundles.
For further information see also http://opensoundcontrol.org/spec-1_0
-------------------------------------------------------------------------------
To send OSC-messages, you need an OSCClient, and to receive OSC-messages you
need an OSCServer.
The OSCClient uses an 'AF_INET / SOCK_DGRAM' type socket (see the 'socket'
module) to send binary representations of OSC-messages to a remote host:port
address.
The OSCServer listens on an 'AF_INET / SOCK_DGRAM' type socket bound to a local
port, and handles incoming requests. Either one-after-the-other (OSCServer) or
in a multi-threaded / multi-process fashion (ThreadingOSCServer/
ForkingOSCServer). If the Server has a callback-function (a.k.a. handler)
registered to 'deal with' (i.e. handle) the received message's OSC-address,
that function is called, passing it the (decoded) message.
The different OSCServers implemented here all support the (recursive) un-
bundling of OSC-bundles, and OSC-bundle timetags.
In fact, this implementation supports:
- OSC-messages with 'i' (int32), 'f' (float32), 'd' (double), 's' (string) and
'b' (blob / binary data) types
- OSC-bundles, including timetag-support
- OSC-address patterns including '*', '?', '{,}' and '[]' wildcards.
(please *do* read the OSC-spec! http://opensoundcontrol.org/spec-1_0 it
explains what these things mean.)
In addition, the OSCMultiClient supports:
- Sending a specific OSC-message to multiple remote servers
- Remote server subscription / unsubscription (through OSC-messages, of course)
- Message-address filtering.
-------------------------------------------------------------------------------
SimpleOSC:
Copyright (c) Daniel Holth & Clinton McChesney.
pyOSC:
Copyright (c) 2008-2010, Artem Baguinski <[email protected]> et al., Stock, V2_Lab, Rotterdam, Netherlands.
Streaming support (OSC over TCP):
Copyright (c) 2010 Uli Franke <[email protected]>, Weiss Engineering, Uster, Switzerland.
-------------------------------------------------------------------------------
Changelog:
-------------------------------------------------------------------------------
v0.3.0 - 27 Dec. 2007
Started out to extend the 'SimpleOSC' implementation (v0.2.3) by Daniel Holth & Clinton McChesney.
Rewrote OSCMessage
Added OSCBundle
v0.3.1 - 3 Jan. 2008
Added OSClient
Added OSCRequestHandler, loosely based on the original CallbackManager
Added OSCServer
Removed original CallbackManager
Adapted testing-script (the 'if __name__ == "__main__":' block at the end) to use new Server & Client
v0.3.2 - 5 Jan. 2008
Added 'container-type emulation' methods (getitem(), setitem(), __iter__() & friends) to OSCMessage
Added ThreadingOSCServer & ForkingOSCServer
- 6 Jan. 2008
Added OSCMultiClient
Added command-line options to testing-script (try 'python OSC.py --help')
v0.3.3 - 9 Jan. 2008
Added OSC-timetag support to OSCBundle & OSCRequestHandler
Added ThreadingOSCRequestHandler
v0.3.4 - 13 Jan. 2008
Added message-filtering to OSCMultiClient
Added subscription-handler to OSCServer
Added support fon numpy/scipy int & float types. (these get converted to 'standard' 32-bit OSC ints / floats!)
Cleaned-up and added more Docstrings
v0.3.5 - 14 aug. 2008
Added OSCServer.reportErr(...) method
v0.3.6 - 19 April 2010
Added Streaming support (OSC over TCP)
Updated documentation
Moved pattern matching stuff into separate class (OSCAddressSpace) to
facilitate implementation of different server and client architectures.
Callbacks feature now a context (object oriented) but dynamic function
inspection keeps the code backward compatible
Moved testing code into separate testbench (testbench.py)
-----------------
Original Comments
-----------------
> Open SoundControl for Python
> Copyright (C) 2002 Daniel Holth, Clinton McChesney
>
> This library is free software; you can redistribute it and/or modify it under
> the terms of the GNU Lesser General Public License as published by the Free
> Software Foundation; either version 2.1 of the License, or (at your option) any
> later version.
>
> This library 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 Lesser General Public License for more
> details.
>
> You should have received a copy of the GNU Lesser General Public License along
> with this library; if not, write to the Free Software Foundation, Inc., 59
> Temple Place, Suite 330, Boston, MA 02111-1307 USA
>
> For questions regarding this module contact Daniel Holth <[email protected]>
> or visit http://www.stetson.edu/~ProctoLogic/
>
> Changelog:
> 15 Nov. 2001:
> Removed dependency on Python 2.0 features.
> - dwh
> 13 Feb. 2002:
> Added a generic callback handler.
> - dwh
"""
import math, re, socket, select, string, struct, sys, threading, time, types, array, errno, inspect
from SocketServer import UDPServer, DatagramRequestHandler, ForkingMixIn, ThreadingMixIn, StreamRequestHandler, TCPServer
from contextlib import closing
global version
version = ("0.3","6", "$Rev: 6382 $"[6:-2])
global FloatTypes
FloatTypes = [types.FloatType]
global IntTypes
IntTypes = [types.IntType]
global NTP_epoch
from calendar import timegm
NTP_epoch = timegm((1900,1,1,0,0,0)) # NTP time started in 1 Jan 1900
del timegm
global NTP_units_per_second
NTP_units_per_second = 0x100000000 # about 232 picoseconds
##
# numpy/scipy support:
##
try:
from numpy import typeDict
for ftype in ['float32', 'float64', 'float128']:
try:
FloatTypes.append(typeDict[ftype])
except KeyError:
pass
for itype in ['int8', 'int16', 'int32', 'int64']:
try:
IntTypes.append(typeDict[itype])
IntTypes.append(typeDict['u' + itype])
except KeyError:
pass
# thanks for those...
del typeDict, ftype, itype
except ImportError:
pass
######
#
# OSCMessage classes
#
######
class OSCMessage(object):
""" Builds typetagged OSC messages.
OSCMessage objects are container objects for building OSC-messages.
On the 'front' end, they behave much like list-objects, and on the 'back' end
they generate a binary representation of the message, which can be sent over a network socket.
OSC-messages consist of an 'address'-string (not to be confused with a (host, port) IP-address!),
followed by a string of 'typetags' associated with the message's arguments (ie. 'payload'),
and finally the arguments themselves, encoded in an OSC-specific way.
On the Python end, OSCMessage are lists of arguments, prepended by the message's address.
The message contents can be manipulated much like a list:
>>> msg = OSCMessage("/my/osc/address")
>>> msg.append('something')
>>> msg.insert(0, 'something else')
>>> msg[1] = 'entirely'
>>> msg.extend([1,2,3.])
>>> msg += [4, 5, 6.]
>>> del msg[3:6]
>>> msg.pop(-2)
5
>>> print msg
/my/osc/address ['something else', 'entirely', 1, 6.0]
OSCMessages can be concatenated with the + operator. In this case, the resulting OSCMessage
inherits its address from the left-hand operand. The right-hand operand's address is ignored.
To construct an 'OSC-bundle' from multiple OSCMessage, see OSCBundle!
Additional methods exist for retreiving typetags or manipulating items as (typetag, value) tuples.
"""
def __init__(self, address="", *args):
"""Instantiate a new OSCMessage.
The OSC-address can be specified with the 'address' argument.
The rest of the arguments are appended as data.
"""
self.clear(address)
if len(args)>0:
self.append(*args)
def setAddress(self, address):
"""Set or change the OSC-address
"""
self.address = address
def clear(self, address=""):
"""Clear (or set a new) OSC-address and clear any arguments appended so far
"""
self.address = address
self.clearData()
def clearData(self):
"""Clear any arguments appended so far
"""
self.typetags = ","
self.message = ""
def append(self, argument, typehint=None):
"""Appends data to the message, updating the typetags based on
the argument's type. If the argument is a blob (counted
string) pass in 'b' as typehint.
'argument' may also be a list or tuple, in which case its elements
will get appended one-by-one, all using the provided typehint
"""
if type(argument) == types.DictType:
argument = argument.items()
elif isinstance(argument, OSCMessage):
raise TypeError("Can only append 'OSCMessage' to 'OSCBundle'")
if hasattr(argument, '__iter__'):
for arg in argument:
self.append(arg, typehint)
return
if typehint == 'b':
binary = OSCBlob(argument)
tag = 'b'
elif typehint == 't':
binary = OSCTimeTag(argument)
tag = 't'
else:
tag, binary = OSCArgument(argument, typehint)
self.typetags += tag
self.message += binary
def getBinary(self):
"""Returns the binary representation of the message
"""
binary = OSCString(self.address)
binary += OSCString(self.typetags)
binary += self.message
return binary
def __repr__(self):
"""Returns a string containing the decode Message
"""
return str(decodeOSC(self.getBinary()))
def __str__(self):
"""Returns the Message's address and contents as a string.
"""
return "%s %s" % (self.address, str(self.values()))
def __len__(self):
"""Returns the number of arguments appended so far
"""
return (len(self.typetags) - 1)
def __eq__(self, other):
"""Return True if two OSCMessages have the same address & content
"""
if not isinstance(other, self.__class__):
return False
return (self.address == other.address) and (self.typetags == other.typetags) and (self.message == other.message)
def __ne__(self, other):
"""Return (not self.__eq__(other))
"""
return not self.__eq__(other)
def __add__(self, values):
"""Returns a copy of self, with the contents of 'values' appended
(see the 'extend()' method, below)
"""
msg = self.copy()
msg.extend(values)
return msg
def __iadd__(self, values):
"""Appends the contents of 'values'
(equivalent to 'extend()', below)
Returns self
"""
self.extend(values)
return self
def __radd__(self, values):
"""Appends the contents of this OSCMessage to 'values'
Returns the extended 'values' (list or tuple)
"""
out = list(values)
out.extend(self.values())
if type(values) == types.TupleType:
return tuple(out)
return out
def _reencode(self, items):
"""Erase & rebuild the OSCMessage contents from the given
list of (typehint, value) tuples"""
self.clearData()
for item in items:
self.append(item[1], item[0])
def values(self):
"""Returns a list of the arguments appended so far
"""
return decodeOSC(self.getBinary())[2:]
def tags(self):
"""Returns a list of typetags of the appended arguments
"""
return list(self.typetags.lstrip(','))
def items(self):
"""Returns a list of (typetag, value) tuples for
the arguments appended so far
"""
out = []
values = self.values()
typetags = self.tags()
for i in range(len(values)):
out.append((typetags[i], values[i]))
return out
def __contains__(self, val):
"""Test if the given value appears in the OSCMessage's arguments
"""
return (val in self.values())
def __getitem__(self, i):
"""Returns the indicated argument (or slice)
"""
return self.values()[i]
def __delitem__(self, i):
"""Removes the indicated argument (or slice)
"""
items = self.items()
del items[i]
self._reencode(items)
def _buildItemList(self, values, typehint=None):
if isinstance(values, OSCMessage):
items = values.items()
elif type(values) == types.ListType:
items = []
for val in values:
if type(val) == types.TupleType:
items.append(val[:2])
else:
items.append((typehint, val))
elif type(values) == types.TupleType:
items = [values[:2]]
else:
items = [(typehint, values)]
return items
def __setitem__(self, i, val):
"""Set indicatated argument (or slice) to a new value.
'val' can be a single int/float/string, or a (typehint, value) tuple.
Or, if 'i' is a slice, a list of these or another OSCMessage.
"""
items = self.items()
new_items = self._buildItemList(val)
if type(i) != types.SliceType:
if len(new_items) != 1:
raise TypeError("single-item assignment expects a single value or a (typetag, value) tuple")
new_items = new_items[0]
# finally...
items[i] = new_items
self._reencode(items)
def setItem(self, i, val, typehint=None):
"""Set indicated argument to a new value (with typehint)
"""
items = self.items()
items[i] = (typehint, val)
self._reencode(items)
def copy(self):
"""Returns a deep copy of this OSCMessage
"""
msg = self.__class__(self.address)
msg.typetags = self.typetags
msg.message = self.message
return msg
def count(self, val):
"""Returns the number of times the given value occurs in the OSCMessage's arguments
"""
return self.values().count(val)
def index(self, val):
"""Returns the index of the first occurence of the given value in the OSCMessage's arguments.
Raises ValueError if val isn't found
"""
return self.values().index(val)
def extend(self, values):
"""Append the contents of 'values' to this OSCMessage.
'values' can be another OSCMessage, or a list/tuple of ints/floats/strings
"""
items = self.items() + self._buildItemList(values)
self._reencode(items)
def insert(self, i, val, typehint = None):
"""Insert given value (with optional typehint) into the OSCMessage
at the given index.
"""
items = self.items()
for item in reversed(self._buildItemList(val)):
items.insert(i, item)
self._reencode(items)
def popitem(self, i):
"""Delete the indicated argument from the OSCMessage, and return it
as a (typetag, value) tuple.
"""
items = self.items()
item = items.pop(i)
self._reencode(items)
return item
def pop(self, i):
"""Delete the indicated argument from the OSCMessage, and return it.
"""
return self.popitem(i)[1]
def reverse(self):
"""Reverses the arguments of the OSCMessage (in place)
"""
items = self.items()
items.reverse()
self._reencode(items)
def remove(self, val):
"""Removes the first argument with the given value from the OSCMessage.
Raises ValueError if val isn't found.
"""
items = self.items()
# this is not very efficient...
i = 0
for (t, v) in items:
if (v == val):
break
i += 1
else:
raise ValueError("'%s' not in OSCMessage" % str(m))
# but more efficient than first calling self.values().index(val),
# then calling self.items(), which would in turn call self.values() again...
del items[i]
self._reencode(items)
def __iter__(self):
"""Returns an iterator of the OSCMessage's arguments
"""
return iter(self.values())
def __reversed__(self):
"""Returns a reverse iterator of the OSCMessage's arguments
"""
return reversed(self.values())
def itervalues(self):
"""Returns an iterator of the OSCMessage's arguments
"""
return iter(self.values())
def iteritems(self):
"""Returns an iterator of the OSCMessage's arguments as
(typetag, value) tuples
"""
return iter(self.items())
def itertags(self):
"""Returns an iterator of the OSCMessage's arguments' typetags
"""
return iter(self.tags())
class OSCBundle(OSCMessage):
"""Builds a 'bundle' of OSC messages.
OSCBundle objects are container objects for building OSC-bundles of OSC-messages.
An OSC-bundle is a special kind of OSC-message which contains a list of OSC-messages
(And yes, OSC-bundles may contain other OSC-bundles...)
OSCBundle objects behave much the same as OSCMessage objects, with these exceptions:
- if an item or items to be appended or inserted are not OSCMessage objects,
OSCMessage objectss are created to encapsulate the item(s)
- an OSC-bundle does not have an address of its own, only the contained OSC-messages do.
The OSCBundle's 'address' is inherited by any OSCMessage the OSCBundle object creates.
- OSC-bundles have a timetag to tell the receiver when the bundle should be processed.
The default timetag value (0) means 'immediately'
"""
def __init__(self, address="", time=0):
"""Instantiate a new OSCBundle.
The default OSC-address for newly created OSCMessages
can be specified with the 'address' argument
The bundle's timetag can be set with the 'time' argument
"""
super(OSCBundle, self).__init__(address)
self.timetag = time
def __str__(self):
"""Returns the Bundle's contents (and timetag, if nonzero) as a string.
"""
if (self.timetag > 0.):
out = "#bundle (%s) [" % self.getTimeTagStr()
else:
out = "#bundle ["
if self.__len__():
for val in self.values():
out += "%s, " % str(val)
out = out[:-2] # strip trailing space and comma
return out + "]"
def setTimeTag(self, time):
"""Set or change the OSCBundle's TimeTag
In 'Python Time', that's floating seconds since the Epoch
"""
if time >= 0:
self.timetag = time
def getTimeTagStr(self):
"""Return the TimeTag as a human-readable string
"""
fract, secs = math.modf(self.timetag)
out = time.ctime(secs)[11:19]
out += ("%.3f" % fract)[1:]
return out
def append(self, argument, typehint = None):
"""Appends data to the bundle, creating an OSCMessage to encapsulate
the provided argument unless this is already an OSCMessage.
Any newly created OSCMessage inherits the OSCBundle's address at the time of creation.
If 'argument' is an iterable, its elements will be encapsuated by a single OSCMessage.
Finally, 'argument' can be (or contain) a dict, which will be 'converted' to an OSCMessage;
- if 'addr' appears in the dict, its value overrides the OSCBundle's address
- if 'args' appears in the dict, its value(s) become the OSCMessage's arguments
"""
if isinstance(argument, OSCMessage):
binary = OSCBlob(argument.getBinary())
else:
msg = OSCMessage(self.address)
if type(argument) == types.DictType:
if 'addr' in argument:
msg.setAddress(argument['addr'])
if 'args' in argument:
msg.append(argument['args'], typehint)
else:
msg.append(argument, typehint)
binary = OSCBlob(msg.getBinary())
self.message += binary
self.typetags += 'b'
def getBinary(self):
"""Returns the binary representation of the message
"""
binary = OSCString("#bundle")
binary += OSCTimeTag(self.timetag)
binary += self.message
return binary
def _reencapsulate(self, decoded):
if decoded[0] == "#bundle":
msg = OSCBundle()
msg.setTimeTag(decoded[1])
for submsg in decoded[2:]:
msg.append(self._reencapsulate(submsg))
else:
msg = OSCMessage(decoded[0])
tags = decoded[1].lstrip(',')
for i in range(len(tags)):
msg.append(decoded[2+i], tags[i])
return msg
def values(self):
"""Returns a list of the OSCMessages appended so far
"""
out = []
for decoded in decodeOSC(self.getBinary())[2:]:
out.append(self._reencapsulate(decoded))
return out
def __eq__(self, other):
"""Return True if two OSCBundles have the same timetag & content
"""
if not isinstance(other, self.__class__):
return False
return (self.timetag == other.timetag) and (self.typetags == other.typetags) and (self.message == other.message)
def copy(self):
"""Returns a deep copy of this OSCBundle
"""
copy = super(OSCBundle, self).copy()
copy.timetag = self.timetag
return copy
######
#
# OSCMessage encoding functions
#
######
def OSCString(next):
"""Convert a string into a zero-padded OSC String.
The length of the resulting string is always a multiple of 4 bytes.
The string ends with 1 to 4 zero-bytes ('\x00')
"""
OSCstringLength = math.ceil((len(next)+1) / 4.0) * 4
return struct.pack(">%ds" % (OSCstringLength), str(next))
def OSCBlob(next):
"""Convert a string into an OSC Blob.
An OSC-Blob is a binary encoded block of data, prepended by a 'size' (int32).
The size is always a mutiple of 4 bytes.
The blob ends with 0 to 3 zero-bytes ('\x00')
"""
if type(next) in types.StringTypes:
OSCblobLength = math.ceil((len(next)) / 4.0) * 4
binary = struct.pack(">i%ds" % (OSCblobLength), OSCblobLength, next)
else:
binary = ""
return binary
def OSCArgument(next, typehint=None):
""" Convert some Python types to their
OSC binary representations, returning a
(typetag, data) tuple.
"""
if not typehint:
if type(next) in FloatTypes:
binary = struct.pack(">f", float(next))
tag = 'f'
elif type(next) in IntTypes:
binary = struct.pack(">i", int(next))
tag = 'i'
else:
binary = OSCString(next)
tag = 's'
elif typehint == 'd':
try:
binary = struct.pack(">d", float(next))
tag = 'd'
except ValueError:
binary = OSCString(next)
tag = 's'
elif typehint == 'f':
try:
binary = struct.pack(">f", float(next))
tag = 'f'
except ValueError:
binary = OSCString(next)
tag = 's'
elif typehint == 'i':
try:
binary = struct.pack(">i", int(next))
tag = 'i'
except ValueError:
binary = OSCString(next)
tag = 's'
else:
binary = OSCString(next)
tag = 's'
return (tag, binary)
def OSCTimeTag(time):
"""Convert a time in floating seconds to its
OSC binary representation
"""
if time > 0:
fract, secs = math.modf(time)
secs = secs - NTP_epoch
binary = struct.pack('>LL', long(secs), long(fract * NTP_units_per_second))
else:
binary = struct.pack('>LL', 0L, 1L)
return binary
######
#
# OSCMessage decoding functions
#
######
def _readString(data):
"""Reads the next (null-terminated) block of data
"""
length = string.find(data,"\0")
nextData = int(math.ceil((length+1) / 4.0) * 4)
return (data[0:length], data[nextData:])
def _readBlob(data):
"""Reads the next (numbered) block of data
"""
length = struct.unpack(">i", data[0:4])[0]
nextData = int(math.ceil((length) / 4.0) * 4) + 4
return (data[4:length+4], data[nextData:])
def _readInt(data):
"""Tries to interpret the next 4 bytes of the data
as a 32-bit integer. """
if(len(data)<4):
print "Error: too few bytes for int", data, len(data)
rest = data
integer = 0
else:
integer = struct.unpack(">i", data[0:4])[0]
rest = data[4:]
return (integer, rest)
def _readLong(data):
"""Tries to interpret the next 8 bytes of the data
as a 64-bit signed integer.
"""
high, low = struct.unpack(">ll", data[0:8])
big = (long(high) << 32) + low
rest = data[8:]
return (big, rest)
def _readTimeTag(data):
"""Tries to interpret the next 8 bytes of the data
as a TimeTag.
"""
high, low = struct.unpack(">LL", data[0:8])
if (high == 0) and (low <= 1):
time = 0.0
else:
time = int(NTP_epoch + high) + float(low / NTP_units_per_second)
rest = data[8:]
return (time, rest)
def _readFloat(data):
"""Tries to interpret the next 4 bytes of the data
as a 32-bit float.
"""
if(len(data)<4):
print "Error: too few bytes for float", data, len(data)
rest = data
float = 0
else:
float = struct.unpack(">f", data[0:4])[0]
rest = data[4:]
return (float, rest)
def _readDouble(data):
"""Tries to interpret the next 8 bytes of the data
as a 64-bit float.
"""
if(len(data)<8):
print "Error: too few bytes for double", data, len(data)
rest = data
float = 0
else:
float = struct.unpack(">d", data[0:8])[0]
rest = data[8:]
return (float, rest)
def decodeOSC(data):
"""Converts a binary OSC message to a Python list.
"""
table = {"i":_readInt, "f":_readFloat, "s":_readString, "b":_readBlob, "d":_readDouble, "t":_readTimeTag}
decoded = []
address, rest = _readString(data)
if address.startswith(","):
typetags = address
address = ""
else:
typetags = ""
if address == "#bundle":
time, rest = _readTimeTag(rest)
decoded.append(address)
decoded.append(time)
while len(rest)>0:
length, rest = _readInt(rest)
decoded.append(decodeOSC(rest[:length]))
rest = rest[length:]
elif len(rest)>0:
if not len(typetags):
typetags, rest = _readString(rest)
decoded.append(address)
decoded.append(typetags)
if typetags.startswith(","):
for tag in typetags[1:]:
value, rest = table[tag](rest)
decoded.append(value)
else:
raise OSCError("OSCMessage's typetag-string lacks the magic ','")
return decoded
######
#
# Utility functions
#
######
def hexDump(bytes):
""" Useful utility; prints the string in hexadecimal.
"""
print "byte 0 1 2 3 4 5 6 7 8 9 A B C D E F"
num = len(bytes)
for i in range(num):
if (i) % 16 == 0:
line = "%02X0 : " % (i/16)
line += "%02X " % ord(bytes[i])
if (i+1) % 16 == 0:
print "%s: %s" % (line, repr(bytes[i-15:i+1]))
line = ""
bytes_left = num % 16
if bytes_left:
print "%s: %s" % (line.ljust(54), repr(bytes[-bytes_left:]))
def getUrlStr(*args):
"""Convert provided arguments to a string in 'host:port/prefix' format
Args can be:
- (host, port)
- (host, port), prefix
- host, port
- host, port, prefix
"""
if not len(args):
return ""
if type(args[0]) == types.TupleType:
host = args[0][0]
port = args[0][1]
args = args[1:]
else:
host = args[0]
port = args[1]
args = args[2:]
if len(args):
prefix = args[0]
else:
prefix = ""
if len(host) and (host != '0.0.0.0'):
try:
(host, _, _) = socket.gethostbyaddr(host)
except socket.error:
pass
else:
host = 'localhost'
if type(port) == types.IntType:
return "%s:%d%s" % (host, port, prefix)
else:
return host + prefix
def parseUrlStr(url):
"""Convert provided string in 'host:port/prefix' format to it's components
Returns ((host, port), prefix)
"""
if not (type(url) in types.StringTypes and len(url)):
return (None, '')
i = url.find("://")
if i > -1:
url = url[i+3:]
i = url.find(':')
if i > -1:
host = url[:i].strip()
tail = url[i+1:].strip()
else:
host = ''
tail = url
for i in range(len(tail)):
if not tail[i].isdigit():
break
else:
i += 1
portstr = tail[:i].strip()
tail = tail[i:].strip()
found = len(tail)
for c in ('/', '+', '-', '*'):
i = tail.find(c)
if (i > -1) and (i < found):