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|
/* packOSC is like sendOSC but outputs a list of floats which are the bytes making up the OSC packet. */
/* This allows for the separation of the protocol and its transport. */
/* Started by Martin Peach 20060403 */
/* 20060425 version independent of libOSC */
/* 20070620 added packOSC_path and packOSC_anything methods by zmoelnig */
/* packOSC.c makes extensive use of code from OSC-client.c and sendOSC.c */
/* as well as some from OSC-timetag.c. These files have the following header: */
/*
Written by Matt Wright, The Center for New Music and Audio Technologies,
University of California, Berkeley. Copyright (c) 1996,97,98,99,2000,01,02,03
The Regents of the University of California (Regents).
Permission to use, copy, modify, distribute, and distribute modified versions
of this software and its documentation without fee and without a signed
licensing agreement, is hereby granted, provided that the above copyright
notice, this paragraph and the following two paragraphs appear in all copies,
modifications, and distributions.
IN NO EVENT SHALL REGENTS BE LIABLE TO ANY PARTY FOR DIRECT, INDIRECT,
SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, INCLUDING LOST PROFITS, ARISING
OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN IF REGENTS HAS
BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
REGENTS SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
PURPOSE. THE SOFTWARE AND ACCOMPANYING DOCUMENTATION, IF ANY, PROVIDED
HEREUNDER IS PROVIDED "AS IS". REGENTS HAS NO OBLIGATION TO PROVIDE
MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
The OSC webpage is http://cnmat.cnmat.berkeley.edu/OpenSoundControl
*/
#define SC_BUFFER_SIZE 64000
#include "m_pd.h"
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#ifdef _WIN32
#include <winsock2.h>
#include <sys/timeb.h>
#else
#include <ctype.h>
#include <sys/time.h>
#endif
#ifdef unix
#include <netinet/in.h>
#endif
/* This is from OSC-client.h :*/
/*
OSC-client.h: library for constructing OpenSoundControl messages.
Derived from SynthControl.h
Author: Matt Wright
Version 0.1: 6/13/97
Version 0.2: 7/21/2000: Support for type-tagged messages
General notes:
This library abstracts away the data format for the OpenSoundControl
protocol. Users of this library can construct OpenSoundControl packets
with a function call interface instead of knowing how to lay out the bits.
All issues of memory allocation are deferred to the user of this library.
There are two data structures that the user must allocate. The first
is the actual buffer that the message will be written into. This buffer
can be any size, but if it's too small there's a possibility that it
will become overfull. The other data structure is called an OSCbuf,
and it holds all the state used by the library as it's constructing
a buffer.
All procedures that have the possibility of an error condition return int,
with 0 indicating no error and nonzero indicating an error. The variable
OSC_errorMessage will be set to point to a string containing an error
message explaining what the problem is.
*/
/*
OSC_timeTag.h: library for manipulating OSC time tags
Matt Wright, 5/29/97
Time tags in OSC have the same format as in NTP: 64 bit fixed point, with the
top 32 bits giving number of seconds sinve midnight 1/1/1900 and the bottom
32 bits giving fractional parts of a second. We represent this by an 8-byte
unsigned long if possible, or else a struct.
NB: On many architectures with 8-byte ints, it's illegal (like maybe a bus error)
to dereference a pointer to an 8 byte int that's not 8-byte aligned.
*/
/* You may have to redefine this typedef if ints on your system
aren't 4 bytes. */
typedef unsigned int uint4;
typedef struct
{
uint4 seconds;
uint4 fraction;
} OSCTimeTag;
/* Return the time tag 0x0000000000000001, indicating to the receiving device
that it should process the message immediately. */
static OSCTimeTag OSCTT_Immediately(void);
static OSCTimeTag OSCTT_Infinite(void);
static OSCTimeTag OSCTT_CurrentTimePlusOffset(uint4 offset);
/* The int4byte type has to be a 4-byte integer. You may have to
change this to long or something else on your system. */
typedef int int4byte;
/* The maximum depth of bundles within bundles within bundles within...
This is the size of a static array. If you exceed this limit you'll
get an error message. */
#define MAX_BUNDLE_NESTING 32
/* Don't ever manipulate the data in the OSCbuf struct directly. (It's
declared here in the header file only so your program will be able to
declare variables of type OSCbuf and have the right amount of memory
be allocated.) */
typedef struct OSCbuf_struct
{
char *buffer; /* The buffer to hold the OSC packet */
size_t size; /* Size of the buffer */
char *bufptr; /* Current position as we fill the buffer */
int state; /* State of partially-constructed message */
int4byte *thisMsgSize; /* Pointer to count field before */
/* currently-being-written message */
int4byte *prevCounts[MAX_BUNDLE_NESTING]; /* Pointers to count */
/* field before each currently open bundle */
int bundleDepth; /* How many sub-sub-bundles are we in now? */
char *typeStringPtr; /* This pointer advances through the type */
/* tag string as you add arguments. */
int gettingFirstUntypedArg; /* nonzero if this message doesn't have */
/* a type tag and we're waiting for the 1st arg */
} OSCbuf;
typedef struct
{
enum {INT_osc, FLOAT_osc, STRING_osc, BLOB_osc, NOTYPE_osc} type;
union
{
int i;
float f;
char *s;
} datum;
} typedArg;
/* Here are the possible values of the state field: */
#define EMPTY 0 /* Nothing written to packet yet */
#define ONE_MSG_ARGS 1 /* Packet has a single message; gathering arguments */
#define NEED_COUNT 2 /* Just opened a bundle; must write message name or */
/* open another bundle */
#define GET_ARGS 3 /* Getting arguments to a message. If we see a message */
/* name or a bundle open/close then the current message */
/* will end. */
#define DONE 4 /* All open bundles have been closed, so can't write */
/* anything else */
static int OSC_strlen(char *s);
static int OSC_padString(char *dest, char *str);
static int OSC_padStringWithAnExtraStupidComma(char *dest, char *str);
static int OSC_WriteStringPadding(char *dest, int i);
static int OSC_WriteBlobPadding(char *dest, int i);
static int CheckTypeTag(OSCbuf *buf, char expectedType);
/* Initialize the given OSCbuf. The user of this module must pass in the
block of memory that this OSCbuf will use for a buffer, and the number of
bytes in that block. (It's the user's job to allocate the memory because
you do it differently in different systems.) */
static void OSC_initBuffer(OSCbuf *buf, size_t size, char *byteArray);
/* Reset the given OSCbuf. Do this after you send out the contents of
the buffer and want to start writing new data into it. */
static void OSC_resetBuffer(OSCbuf *buf);
/* Is the buffer empty? (I.e., would it be stupid to send the buffer
contents to the synth?) */
static int OSC_isBufferEmpty(OSCbuf *buf);
/* How much space is left in the buffer? */
static size_t OSC_freeSpaceInBuffer(OSCbuf *buf);
/* Does the buffer contain a valid OSC packet? (Returns nonzero if yes.) */
static int OSC_isBufferDone(OSCbuf *buf);
/* When you're ready to send out the buffer (i.e., when OSC_isBufferDone()
returns true), call these two procedures to get the OSC packet that's been
assembled and its size in bytes. (And then call OSC_resetBuffer() if you
want to re-use this OSCbuf for the next packet.) */
static char *OSC_getPacket(OSCbuf *buf);
static int OSC_packetSize(OSCbuf *buf);
static int OSC_CheckOverflow(OSCbuf *buf, size_t bytesNeeded);
/* Here's the basic model for building up OSC messages in an OSCbuf:
- Make sure the OSCbuf has been initialized with OSC_initBuffer().
- To open a bundle, call OSC_openBundle(). You can then write
messages or open new bundles within the bundle you opened.
Call OSC_closeBundle() to close the bundle. Note that a packet
does not have to have a bundle; it can instead consist of just a
single message.
- For each message you want to send:
- Call OSC_writeAddress() with the name of your message. (In
addition to writing your message name into the buffer, this
procedure will also leave space for the size count of this message.)
- Alternately, call OSC_writeAddressAndTypes() with the name of
your message and with a type string listing the types of all the
arguments you will be putting in this message.
- Now write each of the arguments into the buffer, by calling one of:
OSC_writeFloatArg()
OSC_writeIntArg()
OSC_writeStringArg()
OSC_writeNullArg()
- Now your message is complete; you can send out the buffer or you can
add another message to it.
*/
static int OSC_openBundle(OSCbuf *buf, OSCTimeTag tt);
static int OSC_closeBundle(OSCbuf *buf);
static int OSC_writeAddress(OSCbuf *buf, char *name);
static int OSC_writeAddressAndTypes(OSCbuf *buf, char *name, char *types);
static int OSC_writeFloatArg(OSCbuf *buf, float arg);
static int OSC_writeIntArg(OSCbuf *buf, int4byte arg);
static int OSC_writeBlobArg(OSCbuf *buf, typedArg *arg, size_t nArgs);
static int OSC_writeStringArg(OSCbuf *buf, char *arg);
static int OSC_writeNullArg(OSCbuf *buf, char type);
/* How many bytes will be needed in the OSC format to hold the given
string? The length of the string, plus the null char, plus any padding
needed for 4-byte alignment. */
static int OSC_effectiveStringLength(char *string);
static t_class *packOSC_class;
typedef struct _packOSC
{
t_object x_obj;
t_int x_typetags; /* typetag flag */
t_int x_timeTagOffset;
int x_bundle; /* bundle open flag */
OSCbuf x_oscbuf[1]; /* OSCbuffer */
t_outlet *x_bdpthout; /* bundle-depth floatoutlet */
t_outlet *x_listout; /* OSC packet list ouput */
size_t x_buflength; /* number of elements in x_bufferForOSCbuf and x_bufferForOSClist */
char *x_bufferForOSCbuf; /*[SC_BUFFER_SIZE];*/
t_atom *x_bufferForOSClist; /*[SC_BUFFER_SIZE];*/
char *x_prefix;
} t_packOSC;
static void *packOSC_new(void);
static void packOSC_path(t_packOSC *x, t_symbol*s);
static void packOSC_openbundle(t_packOSC *x);
static void packOSC_closebundle(t_packOSC *x);
static void packOSC_settypetags(t_packOSC *x, t_floatarg f);
static void packOSC_setbufsize(t_packOSC *x, t_floatarg f);
static void packOSC_setTimeTagOffset(t_packOSC *x, t_floatarg f);
static void packOSC_sendtyped(t_packOSC *x, t_symbol *s, int argc, t_atom *argv);
static void packOSC_send_type_forced(t_packOSC *x, t_symbol *s, int argc, t_atom *argv);
static void packOSC_send(t_packOSC *x, t_symbol *s, int argc, t_atom *argv);
static void packOSC_anything(t_packOSC *x, t_symbol *s, int argc, t_atom *argv);
static void packOSC_free(t_packOSC *x);
void packOSC_setup(void);
static typedArg packOSC_parseatom(t_atom *a);
static typedArg packOSC_forceatom(t_atom *a, char ctype);
static typedArg packOSC_blob(t_atom *a);
static int packOSC_writetypedmessage(t_packOSC *x, OSCbuf *buf, char *messageName, int numArgs, typedArg *args, char *typeStr);
static int packOSC_writemessage(t_packOSC *x, OSCbuf *buf, char *messageName, int numArgs, typedArg *args);
static void packOSC_sendbuffer(t_packOSC *x);
static void *packOSC_new(void)
{
t_packOSC *x = (t_packOSC *)pd_new(packOSC_class);
x->x_typetags = 1; /* set typetags to 1 by default */
x->x_bundle = 0; /* bundle is closed */
x->x_buflength = SC_BUFFER_SIZE;
x->x_bufferForOSCbuf = (char *)getbytes(sizeof(char)*x->x_buflength);
if(x->x_bufferForOSCbuf == NULL)
error("packOSC: unable to allocate %lu bytes for x_bufferForOSCbuf", (long)(sizeof(char)*x->x_buflength));
x->x_bufferForOSClist = (t_atom *)getbytes(sizeof(t_atom)*x->x_buflength);
if(x->x_bufferForOSClist == NULL)
error("packOSC: unable to allocate %lu bytes for x_bufferForOSClist", (long)(sizeof(t_atom)*x->x_buflength));
if (x->x_oscbuf != NULL)
OSC_initBuffer(x->x_oscbuf, x->x_buflength, x->x_bufferForOSCbuf);
x->x_listout = outlet_new(&x->x_obj, &s_list);
x->x_bdpthout = outlet_new(&x->x_obj, &s_float);
x->x_timeTagOffset = -1; /* immediately */
return (x);
}
static void packOSC_path(t_packOSC *x, t_symbol*s)
{
/* Set a default prefix to the OSC path */
if(s == gensym(""))
{
x->x_prefix = 0;
return;
}
if ((*s->s_name) != '/')
{
pd_error(x, "packOSC: bad path: '%s'", s->s_name);
return;
}
x->x_prefix = s->s_name;
}
static void packOSC_openbundle(t_packOSC *x)
{
int result;
if (x->x_timeTagOffset == -1)
result = OSC_openBundle(x->x_oscbuf, OSCTT_Immediately());
else
result = OSC_openBundle(x->x_oscbuf, OSCTT_CurrentTimePlusOffset((uint4)x->x_timeTagOffset));
if (result != 0) return;
x->x_bundle = 1;
outlet_float(x->x_bdpthout, (float)x->x_oscbuf->bundleDepth);
}
static void packOSC_closebundle(t_packOSC *x)
{
if (OSC_closeBundle(x->x_oscbuf))
{
error("packOSC: Problem closing bundle.");
return;
}
outlet_float(x->x_bdpthout, (float)x->x_oscbuf->bundleDepth);
/* in bundle mode we send when bundle is closed */
if(!OSC_isBufferEmpty(x->x_oscbuf) > 0 && OSC_isBufferDone(x->x_oscbuf))
{
packOSC_sendbuffer(x);
OSC_initBuffer(x->x_oscbuf, x->x_buflength, x->x_bufferForOSCbuf);
x->x_bundle = 0;
return;
}
}
static void packOSC_settypetags(t_packOSC *x, t_floatarg f)
{
x->x_typetags = (f != 0)?1:0;
post("packOSC: setting typetags %d", x->x_typetags);
}
static void packOSC_setbufsize(t_packOSC *x, t_floatarg f)
{
if (x->x_bufferForOSCbuf != NULL) freebytes((void *)x->x_bufferForOSCbuf, sizeof(char)*x->x_buflength);
if (x->x_bufferForOSClist != NULL) freebytes((void *)x->x_bufferForOSClist, sizeof(t_atom)*x->x_buflength);
post("packOSC: bufsize arg is %f (%lu)", f, (long)f);
x->x_buflength = (long)f;
x->x_bufferForOSCbuf = (char *)getbytes(sizeof(char)*x->x_buflength);
if(x->x_bufferForOSCbuf == NULL)
error("packOSC unable to allocate %lu bytes for x_bufferForOSCbuf", (long)(sizeof(char)*x->x_buflength));
x->x_bufferForOSClist = (t_atom *)getbytes(sizeof(t_atom)*x->x_buflength);
if(x->x_bufferForOSClist == NULL)
error("packOSC unable to allocate %lu bytes for x_bufferForOSClist", (long)(sizeof(t_atom)*x->x_buflength));
OSC_initBuffer(x->x_oscbuf, x->x_buflength, x->x_bufferForOSCbuf);
post("packOSC: bufsize is now %d",x->x_buflength);
}
static void packOSC_setTimeTagOffset(t_packOSC *x, t_floatarg f)
{
x->x_timeTagOffset = (t_int)f;
}
/* this is the real and only sending routine now, for both typed and */
/* undtyped mode. */
static void packOSC_sendtyped(t_packOSC *x, t_symbol *s, int argc, t_atom *argv)
{
char messageName[MAXPDSTRING];
unsigned int nTypeTags = 0, typeStrTotalSize = 0;
unsigned int argsSize = sizeof(typedArg)*argc;
char* typeStr = NULL; /* might not be used */
typedArg* args = (typedArg*)getbytes(argsSize);
unsigned int i, nTagsWithData, nArgs, blobCount;
unsigned int m, j, k;
char c;
if (args == NULL)
{
error("packOSC: unable to allocate %lu bytes for args", (long)argsSize);
return;
}
messageName[0] = '\0'; /* empty */
if(x->x_prefix) /* if there is a prefix, prefix it to the path */
{
size_t len = strlen(x->x_prefix);
if(len >= MAXPDSTRING)
len = MAXPDSTRING-1;
strncpy(messageName, x->x_prefix, MAXPDSTRING);
atom_string(&argv[0], messageName+len, (unsigned)(MAXPDSTRING-len));
}
else
atom_string(&argv[0], messageName, MAXPDSTRING); /* the OSC address string */
if (x->x_typetags & 2)
{ /* second arg is typestring */
/* we need to find out how long the type string is before we copy it*/
nTypeTags = (unsigned int)strlen(atom_getsymbol(&argv[1])->s_name);
typeStrTotalSize = nTypeTags + 2;
typeStr = (char*)getzbytes(typeStrTotalSize);
if (typeStr == NULL)
{
error("packOSC: unable to allocate %u bytes for typeStr", nTypeTags);
return;
}
typeStr[0] = ',';
atom_string(&argv[1], &typeStr[1], typeStrTotalSize);
#ifdef DEBUG
post("typeStr: %s, nTypeTags %lu", typeStr, nTypeTags);
#endif
nArgs = argc-2;
for (m = nTagsWithData = blobCount = 0; m < nTypeTags; ++m)
{
#ifdef DEBUG
post("typeStr[%d] %c", m+1, typeStr[m+1]);
#endif
if ((c = typeStr[m+1]) == 0) break;
if (!(c == 'T' || c == 'F' || c == 'N' || c == 'I'))
{
++nTagsWithData; /* anything other than these tags have at least one data byte */
/*
OSC-blob
An int32 size count, followed by that many 8-bit bytes of arbitrary binary data,
followed by 0-3 additional zero bytes to make the total number of bits a multiple of 32.
*/
if (c == 'b') blobCount++; /* b probably has more than one byte, so set a flag */
}
}
if (((blobCount == 0)&&(nTagsWithData != nArgs)) || ((blobCount != 0)&&(nTagsWithData > nArgs)))
{
error("packOSC: Tags count %d doesn't match argument count %d", nTagsWithData, nArgs);
goto cleanup;
}
if (blobCount > 1)
{
error("packOSC: Only one blob per packet at the moment...");
goto cleanup;
}
for (j = k = 0; j < m; ++j) /* m is the number of tags */
{
c = typeStr[j+1];
if (c == 'b')
{ /* A blob has to be the last item, until we get more elaborate. */
if (j != m-1)
{
error("packOSC: Since I don't know how big the blob is, Blob must be the last item in the list");
goto cleanup;
}
/* Pack all the remaining arguments as a blob */
for (; k < nArgs; ++k)
{
args[k] = packOSC_blob(&argv[k+2]);
}
}
else if (!(c == 'T' || c == 'F' || c == 'N' || c == 'I')) /* not no data */
{
args[k] = packOSC_forceatom(&argv[k+2], c);
++k;
}
}
if(packOSC_writetypedmessage(x, x->x_oscbuf, messageName, nArgs, args, typeStr))
{
error("packOSC: usage error, write-msg failed.");
goto cleanup;
}
}
else
{
for (i = 0; i < (unsigned)(argc-1); i++)
{
args[i] = packOSC_parseatom(&argv[i+1]);
#ifdef DEBUG
switch (args[i].type)
{
case INT_osc:
post("packOSC: cell-cont: %d\n", args[i].datum.i);
break;
case FLOAT_osc:
post("packOSC: cell-cont: %f\n", args[i].datum.f);
break;
case STRING_osc:
post("packOSC: cell-cont: %s\n", args[i].datum.s);
break;
case NOTYPE_osc:
post("packOSC: unknown type\n");
break;
}
post("packOSC: type-id: %d\n", args[i].type);
#endif
}
if(packOSC_writemessage(x, x->x_oscbuf, messageName, i, args))
{
error("packOSC: usage error, write-msg failed.");
goto cleanup;
}
}
if(!x->x_bundle)
{
packOSC_sendbuffer(x);
OSC_initBuffer(x->x_oscbuf, x->x_buflength, x->x_bufferForOSCbuf);
}
cleanup:
if (typeStr != NULL) freebytes(typeStr, typeStrTotalSize);
if (args != NULL) freebytes(args, argsSize);
}
static void packOSC_send_type_forced(t_packOSC *x, t_symbol *s, int argc, t_atom *argv)
{ /* typetags are the argument following the OSC path */
x->x_typetags |= 2;/* tell packOSC_sendtyped to use the specified typetags... */
packOSC_sendtyped(x, s, argc, argv);
x->x_typetags &= ~2;/* ...this time only */
}
static void packOSC_send(t_packOSC *x, t_symbol *s, int argc, t_atom *argv)
{
if(!argc)
{
post("packOSC: not sending empty message.");
return;
}
packOSC_sendtyped(x, s, argc, argv);
}
static void packOSC_anything(t_packOSC *x, t_symbol *s, int argc, t_atom *argv)
{
/* If the message starts with '/', assume it's an OSC path and send it */
t_atom*ap = 0;
if ((*s->s_name)!='/')
{
pd_error(x, "packOSC: bad path: '%s'", s->s_name);
return;
}
ap = (t_atom*)getbytes((argc+1)*sizeof(t_atom));
SETSYMBOL(ap, s);
memcpy(ap+1, argv, argc * sizeof(t_atom));
packOSC_send(x, gensym("send"), argc+1, ap);
freebytes(ap, (argc+1)*sizeof(t_atom));
}
static void packOSC_free(t_packOSC *x)
{
if (x->x_bufferForOSCbuf != NULL) freebytes((void *)x->x_bufferForOSCbuf, sizeof(char)*x->x_buflength);
if (x->x_bufferForOSClist != NULL) freebytes((void *)x->x_bufferForOSClist, sizeof(t_atom)*x->x_buflength);
}
void packOSC_setup(void)
{
packOSC_class = class_new(gensym("packOSC"), (t_newmethod)packOSC_new,
(t_method)packOSC_free,
sizeof(t_packOSC), 0, A_DEFFLOAT, 0);
class_addmethod(packOSC_class, (t_method)packOSC_path,
gensym("prefix"), A_DEFSYM, 0);
class_addmethod(packOSC_class, (t_method)packOSC_settypetags,
gensym("typetags"), A_DEFFLOAT, 0);
class_addmethod(packOSC_class, (t_method)packOSC_setbufsize,
gensym("bufsize"), A_DEFFLOAT, 0);
class_addmethod(packOSC_class, (t_method)packOSC_setTimeTagOffset,
gensym("timetagoffset"), A_DEFFLOAT, 0);
class_addmethod(packOSC_class, (t_method)packOSC_send,
gensym("send"), A_GIMME, 0);
class_addmethod(packOSC_class, (t_method)packOSC_send,
gensym("senduntyped"), A_GIMME, 0);
class_addmethod(packOSC_class, (t_method)packOSC_send_type_forced,
gensym("sendtyped"), A_GIMME, 0);
class_addmethod(packOSC_class, (t_method)packOSC_openbundle,
gensym("["), 0, 0);
class_addmethod(packOSC_class, (t_method)packOSC_closebundle,
gensym("]"), 0, 0);
class_addanything(packOSC_class, (t_method)packOSC_anything);
}
static typedArg packOSC_parseatom(t_atom *a)
{
typedArg returnVal;
t_float f;
t_int i;
t_symbol s;
char buf[MAXPDSTRING];
atom_string(a, buf, MAXPDSTRING);
#ifdef DEBUG
post("packOSC: atom type %d (%s)", a->a_type, buf);
#endif
/* It might be an int, a float, or a string */
switch (a->a_type)
{
case A_FLOAT:
f = atom_getfloat(a);
i = atom_getint(a);
if (f == (t_float)i)
{ /* assume that if the int and float are the same, it's an int */
returnVal.type = INT_osc;
returnVal.datum.i = i;
}
else
{
returnVal.type = FLOAT_osc;
returnVal.datum.f = f;
}
return returnVal;
case A_SYMBOL:
s = *atom_getsymbol(a);
returnVal.type = STRING_osc;
returnVal.datum.s = s.s_name;
return returnVal;
default:
atom_string(a, buf, MAXPDSTRING);
error("packOSC: atom type %d not implemented (%s)", a->a_type, buf);
returnVal.type = NOTYPE_osc;
returnVal.datum.s = NULL;
return returnVal;
}
}
static typedArg packOSC_blob(t_atom *a)
{ /* ctype is one of i,f,s,T,F,N,I*/
typedArg returnVal;
t_float f;
t_int i;
t_symbol s;
static char buf[MAXPDSTRING];
returnVal.type = NOTYPE_osc;
returnVal.datum.s = NULL;
#ifdef DEBUG
post("packOSC_blob %d:", nArgs);
#endif
/* the atoms must all be bytesl */
if(a->a_type != A_FLOAT)
{
error("packOSC_blob: all values must be floats");
return returnVal;
}
f = atom_getfloat(a);
i = (int)f;
if (i != f)
{
error("packOSC_blob: all values must be whole numbers");
return returnVal;
}
if ((i < -128) || (i > 255))
{
error("packOSC_blob: all values must be bytes");
return returnVal;
}
returnVal.type = BLOB_osc;
returnVal.datum.i = i;
return returnVal;
}
static typedArg packOSC_forceatom(t_atom *a, char ctype)
{ /* ctype is one of i,f,s,T,F,N,I*/
typedArg returnVal;
t_float f;
t_int i;
t_symbol s;
static char buf[MAXPDSTRING];
#ifdef DEBUG
atom_string(a, buf, MAXPDSTRING);
post("packOSC: atom type %d (%s)", a->a_type, buf);
#endif
/* the atom might be a float, or a symbol */
switch (a->a_type)
{
case A_FLOAT:
switch (ctype)
{
case 'i':
returnVal.type = INT_osc;
returnVal.datum.i = atom_getint(a);
#ifdef DEBUG
post("packOSC_forceatom: float to integer %d", returnVal.datum.i);
#endif
break;
case 'f':
returnVal.type = FLOAT_osc;
returnVal.datum.f = atom_getfloat(a);
#ifdef DEBUG
post("packOSC_forceatom: float to float %f", returnVal.datum.f);
#endif
break;
case 's':
f = atom_getfloat(a);
sprintf(buf, "%f", f);
returnVal.type = STRING_osc;
returnVal.datum.s = buf;
#ifdef DEBUG
post("packOSC_forceatom: float to string %s", returnVal.datum.s);
#endif
break;
default:
post("packOSC: unknown OSC type %c", ctype);
returnVal.type = NOTYPE_osc;
returnVal.datum.s = NULL;
break;
}
break;
case A_SYMBOL:
s = *atom_getsymbol(a);
switch (ctype)
{
case 'i':
i = atoi(s.s_name);
returnVal.type = INT_osc;
returnVal.datum.i = i;
#ifdef DEBUG
post("packOSC_forceatom: symbol to integer %d", returnVal.datum.i);
#endif
break;
case 'f':
f = atof(s.s_name);
returnVal.type = FLOAT_osc;
returnVal.datum.f = f;
#ifdef DEBUG
post("packOSC_forceatom: symbol to float %f", returnVal.datum.f);
#endif
break;
case 's':
returnVal.type = STRING_osc;
returnVal.datum.s = s.s_name;
#ifdef DEBUG
post("packOSC_forceatom: symbol to string %s", returnVal.datum.s);
#endif
break;
default:
post("packOSC: unknown OSC type %c", ctype);
returnVal.type = NOTYPE_osc;
returnVal.datum.s = NULL;
break;
}
break;
default:
atom_string(a, buf, MAXPDSTRING);
error("packOSC: atom type %d not implemented (%s)", a->a_type, buf);
returnVal.type = NOTYPE_osc;
returnVal.datum.s = NULL;
break;
}
return returnVal;
}
static int packOSC_writetypedmessage
(t_packOSC *x, OSCbuf *buf, char *messageName, int numArgs, typedArg *args, char *typeStr)
{
int i, j, returnVal = OSC_writeAddressAndTypes(buf, messageName, typeStr);
if (returnVal)
{
error("packOSC: Problem writing address. (%d)", returnVal);
return returnVal;
}
for (j = i = 0; (typeStr[i+1]!= 0) || (j < numArgs); j++, i++)
{
while (typeStr[i+1] == 'T' || typeStr[i+1] == 'F' || typeStr[i+1] == 'I' || typeStr[i+1] == 'N')
{
#ifdef DEBUG
post("packOSC_writetypedmessage: NULL [%c]", typeStr[i+1]);
#endif
returnVal = OSC_writeNullArg(buf, typeStr[i+1]);
++i;
}
if (j < numArgs)
{
switch (args[j].type)
{
case INT_osc:
#ifdef DEBUG
post("packOSC_writetypedmessage: int [%d]", args[j].datum.i);
#endif
returnVal = OSC_writeIntArg(buf, args[j].datum.i);
break;
case FLOAT_osc:
#ifdef DEBUG
post("packOSC_writetypedmessage: float [%f]", args[j].datum.f);
#endif
returnVal = OSC_writeFloatArg(buf, args[j].datum.f);
break;
case STRING_osc:
#ifdef DEBUG
post("packOSC_writetypedmessage: string [%s]", args[j].datum.s);
#endif
returnVal = OSC_writeStringArg(buf, args[j].datum.s);
break;
case BLOB_osc:
/* write all the blob elements at once */
#ifdef DEBUG
post("packOSC_writetypedmessage calling OSC_writeBlobArg\n");
#endif
return OSC_writeBlobArg(buf, &args[j], numArgs-j);
default:
break; /* types with no data */
}
}
}
return returnVal;
}
static int packOSC_writemessage(t_packOSC *x, OSCbuf *buf, char *messageName, int numArgs, typedArg *args)
{
int j, returnVal = 0, numTags;
if (!x->x_typetags)
{
returnVal = OSC_writeAddress(buf, messageName);
if (returnVal)
{
post("packOSC: Problem writing address.");
}
}
else
{
char *typeTags;
/* First figure out the type tags */
for (numTags = 0; numTags < numArgs; numTags++)
{
if (args[numTags].type == BLOB_osc) break; /* blob has one type tag and is the last element */
}
typeTags=(char*)getbytes(sizeof(char)*(numTags+2)); /* number of args + ',' + '\0' */
typeTags[0] = ',';
for (j = 0; j < numTags; ++j)
{
switch (args[j].type)
{
case INT_osc:
typeTags[j+1] = 'i';
break;
case FLOAT_osc:
typeTags[j+1] = 'f';
break;
case STRING_osc:
typeTags[j+1] = 's';
break;
case BLOB_osc:
typeTags[j+1] = 'b';
break;
default:
error("packOSC: arg %d type is unrecognized(%d)", j, args[j].type);
break;
}
}
typeTags[j+1] = '\0';
returnVal = OSC_writeAddressAndTypes(buf, messageName, typeTags);
if (returnVal)
{
error("packOSC: Problem writing address.");
}
freebytes(typeTags, sizeof(char)*(numTags+2));
}
for (j = 0; j < numArgs; j++)
{
switch (args[j].type)
{
case INT_osc:
returnVal = OSC_writeIntArg(buf, args[j].datum.i);
break;
case FLOAT_osc:
returnVal = OSC_writeFloatArg(buf, args[j].datum.f);
break;
case STRING_osc:
returnVal = OSC_writeStringArg(buf, args[j].datum.s);
break;
case BLOB_osc:
post ("packOSC_writemessage calling OSC_writeBlobArg\n");
return OSC_writeBlobArg(buf, &args[j], numArgs-j); /* All the remaining args are blob */
default:
break; /* just skip bad types (which we won't get anyway unless this code is buggy) */
}
}
return returnVal;
}
static void packOSC_sendbuffer(t_packOSC *x)
{
int i;
int length;
unsigned char *buf;
#ifdef DEBUG
post("packOSC_sendbuffer: Sending buffer...\n");
#endif
if (OSC_isBufferEmpty(x->x_oscbuf))
{
post("packOSC_sendbuffer() called but buffer empty");
return;
}
if (!OSC_isBufferDone(x->x_oscbuf))
{
post("packOSC_sendbuffer() called but buffer not ready!, not exiting");
return;
}
length = OSC_packetSize(x->x_oscbuf);
buf = (unsigned char *)OSC_getPacket(x->x_oscbuf);
#ifdef DEBUG
post ("packOSC_sendbuffer: length: %lu", length);
#endif
/* convert the bytes in the buffer to floats in a list */
for (i = 0; i < length; ++i) SETFLOAT(&x->x_bufferForOSClist[i], buf[i]);
/* send the list out the outlet */
outlet_list(x->x_listout, &s_list, length, x->x_bufferForOSClist);
}
/* The next part is copied and morphed from OSC-client.c. */
/*
Author: Matt Wright
Version 2.2: Calls htonl in the right places 20000620
Version 2.3: Gets typed messages right.
*/
/*
pd
-------------
raf@interaccess.com:
rev. for Win32 build (verified under Win-2ooo) 11-April-2002
-- changed licence part (20040820) jdl
-- Version 2.4 changes not in here (20040820) jdl
*/
static void OSC_initBuffer(OSCbuf *buf, size_t size, char *byteArray)
{
buf->buffer = byteArray;
buf->size = size;
OSC_resetBuffer(buf);
}
static void OSC_resetBuffer(OSCbuf *buf)
{
buf->bufptr = buf->buffer;
buf->state = EMPTY;
buf->bundleDepth = 0;
buf->prevCounts[0] = 0;
buf->gettingFirstUntypedArg = 0;
buf->typeStringPtr = 0;
}
static int OSC_isBufferEmpty(OSCbuf *buf)
{
return buf->bufptr == buf->buffer;
}
static size_t OSC_freeSpaceInBuffer(OSCbuf *buf)
{
return buf->size - (buf->bufptr - buf->buffer);
}
static int OSC_isBufferDone(OSCbuf *buf)
{
return (buf->state == DONE || buf->state == ONE_MSG_ARGS);
}
static char *OSC_getPacket(OSCbuf *buf)
{
return buf->buffer;
}
static int OSC_packetSize(OSCbuf *buf)
{
return (buf->bufptr - buf->buffer);
}
static int OSC_CheckOverflow(OSCbuf *buf, size_t bytesNeeded)
{
if ((bytesNeeded) > OSC_freeSpaceInBuffer(buf))
{
error("packOSC: buffer overflow");
return 1;
}
return 0;
}
static void PatchMessageSize(OSCbuf *buf)
{
int4byte size = buf->bufptr - ((char *) buf->thisMsgSize) - 4;
*(buf->thisMsgSize) = htonl(size);
}
static int OSC_openBundle(OSCbuf *buf, OSCTimeTag tt)
{
if (buf->state == ONE_MSG_ARGS)
{
post("packOSC: Can't open a bundle in a one-message packet");
return 3;
}
if (buf->state == DONE)
{
post("packOSC: This packet is finished; can't open a new bundle");
return 4;
}
if (++(buf->bundleDepth) >= MAX_BUNDLE_NESTING)
{
post("packOSC: Bundles nested too deeply; change MAX_BUNDLE_NESTING");
return 2;
}
if (CheckTypeTag(buf, '\0')) return 9;
if (buf->state == GET_ARGS)
{
PatchMessageSize(buf);
}
if (buf->state == EMPTY)
{
/* Need 16 bytes for "#bundle" and time tag */
if(OSC_CheckOverflow(buf, 16)) return 1;
}
else
{
/* This bundle is inside another bundle, so we need to leave
a blank size count for the size of this current bundle. */
if(OSC_CheckOverflow(buf, 20))return 1;
*((int4byte *)buf->bufptr) = 0xaaaaaaaa;
buf->prevCounts[buf->bundleDepth] = (int4byte *)buf->bufptr;
buf->bufptr += 4;
}
buf->bufptr += OSC_padString(buf->bufptr, "#bundle");
*((OSCTimeTag *) buf->bufptr) = tt;
if (htonl(1) != 1)
{
/* Byte swap the 8-byte integer time tag */
int4byte *intp = (int4byte *)buf->bufptr;
intp[0] = htonl(intp[0]);
intp[1] = htonl(intp[1]);
/* tt is a struct of two 32-bit words, and even though
each word was wrong-endian, they were in the right order
in the struct.) */
}
buf->bufptr += sizeof(OSCTimeTag);
buf->state = NEED_COUNT;
buf->gettingFirstUntypedArg = 0;
buf->typeStringPtr = 0;
return 0;
}
static int OSC_closeBundle(OSCbuf *buf)
{
if (buf->bundleDepth == 0)
{
/* This handles EMPTY, ONE_MSG, ARGS, and DONE */
post("packOSC: Can't close bundle; no bundle is open!");
return 5;
}
if (CheckTypeTag(buf, '\0')) return 9;
if (buf->state == GET_ARGS)
{
PatchMessageSize(buf);
}
if (buf->bundleDepth == 1)
{
/* Closing the last bundle: No bundle size to patch */
buf->state = DONE;
}
else
{
/* Closing a sub-bundle: patch bundle size */
int size = buf->bufptr - ((char *) buf->prevCounts[buf->bundleDepth]) - 4;
*(buf->prevCounts[buf->bundleDepth]) = htonl(size);
buf->state = NEED_COUNT;
}
--buf->bundleDepth;
buf->gettingFirstUntypedArg = 0;
buf->typeStringPtr = 0;
return 0;
}
static int OSC_writeAddress(OSCbuf *buf, char *name)
{
int4byte paddedLength;
if (buf->state == ONE_MSG_ARGS)
{
post("packOSC: This packet is not a bundle, so you can't write another address");
return 7;
}
if (buf->state == DONE)
{
post("packOSC: This packet is finished; can't write another address");
return 8;
}
if (CheckTypeTag(buf, '\0')) return 9;
paddedLength = OSC_effectiveStringLength(name);
if (buf->state == EMPTY)
{
/* This will be a one-message packet, so no sizes to worry about */
if(OSC_CheckOverflow(buf, paddedLength))return 1;
buf->state = ONE_MSG_ARGS;
}
else
{
/* GET_ARGS or NEED_COUNT */
if(OSC_CheckOverflow(buf, 4+paddedLength))return 1;
if (buf->state == GET_ARGS)
{
/* Close the old message */
PatchMessageSize(buf);
}
buf->thisMsgSize = (int4byte *)buf->bufptr;
*(buf->thisMsgSize) = 0xbbbbbbbb;
buf->bufptr += 4;
buf->state = GET_ARGS;
}
/* Now write the name */
buf->bufptr += OSC_padString(buf->bufptr, name);
buf->typeStringPtr = 0;
buf->gettingFirstUntypedArg = 1;
return 0;
}
static int OSC_writeAddressAndTypes(OSCbuf *buf, char *name, char *types)
{
int result;
int4byte paddedLength;
if (buf == NULL) return 10;
if (CheckTypeTag(buf, '\0')) return 9;
result = OSC_writeAddress(buf, name);
if (result) return result;
paddedLength = OSC_effectiveStringLength(types);
if(OSC_CheckOverflow(buf, paddedLength))return 1;
buf->typeStringPtr = buf->bufptr + 1; /* skip comma */
buf->bufptr += OSC_padString(buf->bufptr, types);
buf->gettingFirstUntypedArg = 0;
return 0;
}
static int CheckTypeTag(OSCbuf *buf, char expectedType)
{
char c;
if (buf->typeStringPtr)
{
c = *(buf->typeStringPtr);
if (c != expectedType)
{
if (expectedType == '\0')
{
post("packOSC: According to the type tag (%c) I expected more arguments.", c);
}
else if (*(buf->typeStringPtr) == '\0')
{
post("packOSC: According to the type tag I didn't expect any more arguments.");
}
else
{
post("packOSC: According to the type tag I expected an argument of a different type.");
post("* Expected %c, string now %s\n", expectedType, buf->typeStringPtr);
}
return 9;
}
++(buf->typeStringPtr);
}
return 0;
}
static int OSC_writeFloatArg(OSCbuf *buf, float arg)
{
union intfloat32
{
int i;
float f;
};
union intfloat32 if32;
if(OSC_CheckOverflow(buf, 4))return 1;
if (CheckTypeTag(buf, 'f')) return 9;
/* Pretend arg is a long int so we can use htonl() */
if32.f = arg;
*((int4byte *) buf->bufptr) = htonl(if32.i);
buf->bufptr += 4;
buf->gettingFirstUntypedArg = 0;
return 0;
}
static int OSC_writeIntArg(OSCbuf *buf, int4byte arg)
{
if(OSC_CheckOverflow(buf, 4))return 1;
if (CheckTypeTag(buf, 'i')) return 9;
*((int4byte *) buf->bufptr) = htonl(arg);
buf->bufptr += 4;
buf->gettingFirstUntypedArg = 0;
return 0;
}
static int OSC_writeBlobArg(OSCbuf *buf, typedArg *arg, size_t nArgs)
{
size_t i;
unsigned char b;
/* pack all the args as single bytes following a 4-byte length */
if(OSC_CheckOverflow(buf, nArgs+4))return 1;
if (CheckTypeTag(buf, 'b')) return 9;
*((int4byte *) buf->bufptr) = htonl(nArgs);
#ifdef DEBUG
post ("OSC_writeBlobArg length : %lu", nArgs);
#endif
buf->bufptr += 4;
for (i = 0; i < nArgs; i++)
{
if (arg[i].type != BLOB_osc)
{
error("packOSC: blob element %i not blob type", i);
return 9;
}
b = (unsigned char)((arg[i].datum.i)&0x0FF);/* force int to 8-bit byte */
#ifdef DEBUG
post ("OSC_writeBlobArg : %d, %d", arg[i].datum.i, b);
#endif
buf->bufptr[i] = b;
}
i = OSC_WriteBlobPadding(buf->bufptr, i);
buf->bufptr += i;
buf->gettingFirstUntypedArg = 0;
return 0;
}
static int OSC_writeStringArg(OSCbuf *buf, char *arg)
{
int len;
if (CheckTypeTag(buf, 's')) return 9;
len = OSC_effectiveStringLength(arg);
if (buf->gettingFirstUntypedArg && arg[0] == ',')
{
/* This un-type-tagged message starts with a string
that starts with a comma, so we have to escape it
(with a double comma) so it won't look like a type
tag string. */
if(OSC_CheckOverflow(buf, len+4))return 1; /* Too conservative */
buf->bufptr +=
OSC_padStringWithAnExtraStupidComma(buf->bufptr, arg);
}
else
{
if(OSC_CheckOverflow(buf, len))return 1;
buf->bufptr += OSC_padString(buf->bufptr, arg);
}
buf->gettingFirstUntypedArg = 0;
return 0;
}
static int OSC_writeNullArg(OSCbuf *buf, char type)
{ /* Don't write any data, just check the type tag */
if(OSC_CheckOverflow(buf, 4))return 1;
if (CheckTypeTag(buf, type)) return 9;
buf->gettingFirstUntypedArg = 0;
return 0;
}
/* String utilities */
static int OSC_strlen(char *s)
{
int i;
for (i = 0; s[i] != '\0'; i++) /* Do nothing */ ;
return i;
}
#define STRING_ALIGN_PAD 4
static int OSC_effectiveStringLength(char *string)
{
int len = OSC_strlen(string) + 1; /* We need space for the null char. */
/* Round up len to next multiple of STRING_ALIGN_PAD to account for alignment padding */
if ((len % STRING_ALIGN_PAD) != 0)
{
len += STRING_ALIGN_PAD - (len % STRING_ALIGN_PAD);
}
return len;
}
static int OSC_padString(char *dest, char *str)
{
int i;
for (i = 0; str[i] != '\0'; i++) dest[i] = str[i];
return OSC_WriteStringPadding(dest, i);
}
static int OSC_padStringWithAnExtraStupidComma(char *dest, char *str)
{
int i;
dest[0] = ',';
for (i = 0; str[i] != '\0'; i++) dest[i+1] = str[i];
return OSC_WriteStringPadding(dest, i+1);
}
static int OSC_WriteStringPadding(char *dest, int i)
{
/* pad with at least one zero to fit 4-byte */
dest[i] = '\0';
i++;
for (; (i % STRING_ALIGN_PAD) != 0; i++) dest[i] = '\0';
return i;
}
static int OSC_WriteBlobPadding(char *dest, int i)
{
/* pad if necessary to fit 4-byte */
for (; (i % STRING_ALIGN_PAD) != 0; i++) dest[i] = '\0';
return i;
}
/* The next bit is modified from OSC-timetag.c. */
/*
OSC_timeTag.c: library for manipulating OSC time tags
Matt Wright, 5/29/97
Version 0.2 (9/11/98): cleaned up so no explicit type names in the .c file.
*/
static OSCTimeTag OSCTT_Immediately(void)
{
OSCTimeTag tt;
tt.fraction = 1;
tt.seconds = 0;
return tt;
}
static OSCTimeTag OSCTT_Infinite(void)
{
OSCTimeTag tt;
tt.fraction = 0xffffffffL;
tt.seconds = 0xffffffffL;
return tt;
}
#define SECONDS_FROM_1900_to_1970 2208988800LL /* 17 leap years */
#define TWO_TO_THE_32_OVER_ONE_MILLION 4295LL
static OSCTimeTag OSCTT_CurrentTimePlusOffset(uint4 offset)
{ /* offset is in microseconds */
OSCTimeTag tt;
static unsigned int onemillion = 1000000;
static unsigned int onethousand = 1000;
#ifdef _WIN32
struct _timeb tb;
_ftime(&tb);
/* First get the seconds right */
tt.seconds = (unsigned)SECONDS_FROM_1900_to_1970 +
(unsigned)tb.time+
(unsigned)offset/onemillion;
/* Now get the fractional part. */
tt.fraction = (unsigned)tb.millitm*onethousand + (unsigned)(offset%onemillion); /* in usec */
#else
struct timeval tv;
struct timezone tz;
gettimeofday(&tv, &tz);
/* First get the seconds right */
tt.seconds = (unsigned) SECONDS_FROM_1900_to_1970 +
(unsigned) tv.tv_sec +
(unsigned) offset/onemillion;
/* Now get the fractional part. */
tt.fraction = (unsigned) tv.tv_usec + (unsigned)(offset%onemillion); /* in usec */
#endif
if (tt.fraction > onemillion)
{
tt.fraction -= onemillion;
tt.seconds++;
}
tt.fraction *= (unsigned) TWO_TO_THE_32_OVER_ONE_MILLION; /* convert usec to 32-bit fraction of 1 sec */
return tt;
}
/* end packOSC.c*/
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