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|
/* Copyright (c) 1997-2004 Miller Puckette, krzYszcz, and others.
* For information on usage and redistribution, and for a DISCLAIMER OF ALL
* WARRANTIES, see the file, "LICENSE.txt," in this distribution. */
/* LATER verify endianness transparency */
#include <stdlib.h>
#include <stdio.h>
#include <stdarg.h>
#include <string.h>
#include <math.h>
#define BINPORT_MAXSTRING 256
#define BINPORT_SYMGROW 64
#ifndef BINPORT_STANDALONE
/* load a max binary file into a Pd binbuf */
#include "m_pd.h"
#else
/* make a max-textual listing from a max binary file */
/* This is a standalone version of a ``max binary to binbuf'' module.
It uses certain Pd calls and structs, which are duplicated below.
LATER should be linked to the Pd API library. */
#define BINPORT_VERBOSE
//#define BINPORT_DEBUG
#endif
#include "binport.h"
static void binport_error(char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
fprintf(stderr, "ERROR (binport): ");
vfprintf(stderr, fmt, ap);
putc('\n', stderr);
va_end(ap);
}
static void binport_warning(char *fmt, ...)
{
#if defined (BINPORT_STANDALONE) || defined(BINPORT_VERBOSE)
va_list ap;
va_start(ap, fmt);
fprintf(stderr, "warning (binport): ");
vfprintf(stderr, fmt, ap);
putc('\n', stderr);
va_end(ap);
#endif
}
static void binport_bug(char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
fprintf(stderr, "BUG (binport): ");
vfprintf(stderr, fmt, ap);
putc('\n', stderr);
va_end(ap);
}
static void binport_failure(char *filename)
{
binport_error("\"%s\" doesn't look like a patch file", filename);
}
static void binpold_failure(char *filename)
{
binport_error("tried reading \"%s\" as an old format file, but failed",
filename);
}
#ifdef BINPORT_STANDALONE
typedef int t_int;
typedef float t_float;
typedef struct _symbol
{
char *s_name;
void *s_thing;
struct _symbol *s_next;
} t_symbol;
typedef union word
{
t_float w_float;
t_symbol *w_symbol;
int w_index;
} t_word;
typedef enum
{
A_NULL,
A_FLOAT,
A_SYMBOL,
A_POINTER,
A_SEMI,
A_COMMA,
A_DEFFLOAT,
A_DEFSYM,
A_DOLLAR,
A_DOLLSYM,
A_GIMME,
A_CANT
} t_atomtype;
typedef struct _atom
{
t_atomtype a_type;
union word a_w;
} t_atom;
void *getbytes(size_t nbytes)
{
void *ret;
if (nbytes < 1) nbytes = 1;
ret = (void *)calloc(nbytes, 1);
if (!ret)
binport_error("getbytes() failed -- out of memory");
return (ret);
}
void *resizebytes(void *old, size_t oldsize, size_t newsize)
{
void *ret;
if (newsize < 1) newsize = 1;
if (oldsize < 1) oldsize = 1;
ret = (void *)realloc((char *)old, newsize);
if (newsize > oldsize && ret)
memset(((char *)ret) + oldsize, 0, newsize - oldsize);
if (!ret)
binport_error("resizebytes() failed -- out of memory");
return (ret);
}
void freebytes(void *fatso, size_t nbytes)
{
free(fatso);
}
#define HASHSIZE 1024
static t_symbol *symhash[HASHSIZE];
t_symbol *dogensym(char *s, t_symbol *oldsym)
{
t_symbol **sym1, *sym2;
unsigned int hash1 = 0, hash2 = 0;
int length = 0;
char *s2 = s;
while (*s2)
{
hash1 += *s2;
hash2 += hash1;
length++;
s2++;
}
sym1 = symhash + (hash2 & (HASHSIZE-1));
while (sym2 = *sym1)
{
if (!strcmp(sym2->s_name, s)) return(sym2);
sym1 = &sym2->s_next;
}
if (oldsym) sym2 = oldsym;
else
{
sym2 = (t_symbol *)getbytes(sizeof(*sym2));
sym2->s_name = getbytes(length+1);
sym2->s_next = 0;
sym2->s_thing = 0;
strcpy(sym2->s_name, s);
}
*sym1 = sym2;
return (sym2);
}
t_symbol *gensym(char *s)
{
return(dogensym(s, 0));
}
#endif /* end of Pd API */
enum {
BINPORT_NULLTYPE,
BINPORT_INTTYPE = 1, BINPORT_FLOATTYPE, BINPORT_SYMTYPE,
BINPORT_DEFINTTYPE = 5, BINPORT_DEFFLOATTYPE, BINPORT_DEFSYMTYPE,
BINPORT_SEMITYPE = 10, BINPORT_COMMATYPE,
BINPORT_DOLLARTYPE, BINPORT_DOLLSYMTYPE
};
/* We use A_INT atom type not only for listing, but for import too --
the parser passes ints to individual token handlers, so that any
required conversion has to be done during Pd message generation. */
#define A_INT A_DEFFLOAT
static int binport_readbuf(FILE *fp, char *buf, size_t sz)
{
return (fread(buf, 1, sz, fp) == sz ? sz : 0);
}
static int binport_readbyte(FILE *fp, unsigned char *buf)
{
int c;
if ((c = fgetc(fp)) == EOF)
return (0);
*buf = (unsigned char)c;
return (1);
}
static int binport_readint(FILE *fp, int *iptr)
{
unsigned char word[4];
if (fread(word, 1, 4, fp) == 4)
{
*iptr = ((word[0] << 24) | (word[1] << 16) | (word[2] << 8) | word[3]);
return (4);
}
else return (0);
}
/* LATER more testing */
/* make it binpold_readfloat() */
static int binport_readfloat(FILE *fp, float *fptr)
{
unsigned char word[10];
if (fread(word, 1, 10, fp) == 10)
{
int ex;
unsigned hi, lo;
ex = ((word[0] & 0x7F) << 8) | word[1];
hi = ((unsigned)word[2] << 24) | ((unsigned)word[3] << 16) |
((unsigned)word[4] << 8) | (unsigned)word[5];
lo = ((unsigned)word[6] << 24) | ((unsigned)word[7] << 16) |
((unsigned)word[8] << 8) | (unsigned)word[9];
if (ex == 0x7FFF)
{
binport_warning("NaN atom bashed to zero");
*fptr = 0.;
}
else if (ex || hi || lo)
{
double d;
ex -= 0x401e;
hi = ((hi - 0x7fffffff) - 1) + ((float)0x7fffffff + 1.);
lo = ((lo - 0x7fffffff) - 1) + ((float)0x7fffffff + 1.);
d = ldexp(hi, ex) + ldexp(lo, ex - 32);
*fptr = ((word[0] & 0x80) ? -(float)d : (float)d);
}
else *fptr = 0.;
#ifdef BINPORT_DEBUG
fprintf(stderr, "%02x%02x", (int)word[0], (int)word[1]);
fprintf(stderr, " %02x%02x%02x%02x",
(int)word[2], (int)word[3], (int)word[4], (int)word[5]);
fprintf(stderr, " %02x%02x%02x%02x",
(int)word[6], (int)word[7], (int)word[8], (int)word[9]);
fprintf(stderr, " == %g\n", *fptr);
#endif
return (10);
}
else return (0);
}
static int binport_readstring(FILE *fp, char *buf)
{
int c, i = 1;
while (c = fgetc(fp))
{
if (c == EOF)
return (0);
if (++i < BINPORT_MAXSTRING)
*buf++ = (unsigned char)c;
}
*buf = '\0';
if (i >= BINPORT_MAXSTRING)
binport_warning("symbol string too long, skipped");
return (i);
}
typedef struct _binpold
{
FILE *o_fp;
int o_natoms;
int o_bodysize;
int o_nsymbols;
int o_symbolid;
int o_ndx;
t_atom *o_atombuf;
} t_binpold;
#define BINPOLD_NATOMTYPES 16
#define BINPOLD_MAXATOMS 1000000 /* LATER rethink */
static t_atomtype binpold_atomtypes[BINPOLD_NATOMTYPES] = {
A_NULL, A_INT, A_FLOAT, A_SYMBOL,
A_CANT, A_CANT, A_CANT, A_CANT, A_CANT, A_CANT,
A_SEMI, A_COMMA, A_DOLLAR, A_CANT, A_CANT, A_CANT
};
static int binpold_gettype(t_binpold *old, t_atom *ap)
{
int typecode;
if ((typecode = fgetc(old->o_fp)) != EOF)
{
if (typecode > 0 && typecode < BINPOLD_NATOMTYPES)
{
ap->a_type = binpold_atomtypes[typecode];
if (ap->a_type != A_CANT)
return (1);
else binport_warning("unsupported type of atom %d: %d",
old->o_ndx, typecode);
}
else binport_warning("bad type of atom %d: %d", old->o_ndx, typecode);
}
else binport_warning("failed reading type of atom %d", old->o_ndx);
return (0);
}
static int binpold_getvalue(t_binpold *old, t_atom *ap, int *countp)
{
int ival;
float fval;
*countp = 0;
switch (ap->a_type)
{
case A_INT:
case A_SYMBOL:
if (*countp = binport_readint(old->o_fp, &ival))
ap->a_w.w_index = ival;
else
goto valuefailed;
if (ap->a_type == A_SYMBOL)
{
if (ival >= old->o_nsymbols)
old->o_nsymbols = ival + 1;
ap->a_type = A_DEFSYM; /* invalidate, until w_symbol is known */
}
break;
case A_FLOAT:
if (*countp = binport_readfloat(old->o_fp, &fval))
ap->a_w.w_float = fval;
else
goto valuefailed;
break;
case A_SEMI:
case A_COMMA:
break;
case A_DOLLAR:
if (*countp = binport_readint(old->o_fp, &ival))
ap->a_w.w_index = ival;
else
goto valuefailed;
break;
default:
goto valuefailed;
}
return (1);
valuefailed:
binport_warning("failed reading value of atom %d (type %d)",
old->o_ndx, ap->a_type);
return (0);
}
static int binpold_load(t_binpold *old)
{
char buf[BINPORT_MAXSTRING];
t_atom *ap;
int total;
#ifdef BINPORT_DEBUG
fprintf(stderr, "old format: %d atoms, %d-byte chunk of atom values\n",
old->o_natoms, old->o_bodysize);
#endif
for (old->o_ndx = 0, ap = old->o_atombuf;
old->o_ndx < old->o_natoms; old->o_ndx++, ap++)
if (!binpold_gettype(old, ap))
return (0);
old->o_nsymbols = 0;
total = 0;
for (old->o_ndx = 0, ap = old->o_atombuf;
old->o_ndx < old->o_natoms; old->o_ndx++, ap++)
{
int count;
if (!binpold_getvalue(old, ap, &count))
return (0);
total += count;
}
if (total != old->o_bodysize)
{
binport_warning("actual chunk size %d inconsistent with declared %d",
total, old->o_bodysize);
return (0);
}
for (old->o_symbolid = 0;
old->o_symbolid < old->o_nsymbols; old->o_symbolid++)
{
if (binport_readstring(old->o_fp, buf))
{
t_symbol *s = gensym(buf);
for (old->o_ndx = 0, ap = old->o_atombuf;
old->o_ndx < old->o_natoms; old->o_ndx++, ap++)
{
if (ap->a_type == A_DEFSYM &&
ap->a_w.w_index == old->o_symbolid)
{
ap->a_type = A_SYMBOL;
ap->a_w.w_symbol = s;
}
}
}
else
{
binport_warning("failed reading string for symbol %d",
old->o_symbolid);
return (0);
}
}
for (old->o_ndx = 0, ap = old->o_atombuf;
old->o_ndx < old->o_natoms; old->o_ndx++, ap++)
{
if (ap->a_type == A_DEFSYM)
{
binport_warning("unknown string for symbol %d", ap->a_w.w_index);
return (0);
}
else if (ap->a_type == A_DOLLAR)
{
sprintf(buf, "#%d", ap->a_w.w_index);
ap->a_type = A_SYMBOL;
ap->a_w.w_symbol = gensym(buf);
}
/* CHECKME A_DOLLSYM */
}
return (1);
}
static void binpold_free(t_binpold *old)
{
if (old->o_fp)
fclose(old->o_fp);
if (old->o_atombuf)
freebytes(old->o_atombuf, old->o_natoms * sizeof(*old->o_atombuf));
freebytes(old, sizeof(*old));
}
static t_binpold *binpold_new(FILE *fp)
{
int natoms, bodysize;
if (binport_readint(fp, &natoms))
{
if (natoms < 0 || natoms > BINPOLD_MAXATOMS)
binport_warning("bad number of atoms: %d", natoms);
else if (binport_readint(fp, &bodysize))
{
if (bodysize < 0)
binport_warning("negative chunk size: %d", bodysize);
else
{
t_binpold *old = getbytes(sizeof(*old));
old->o_fp = fp;
old->o_natoms = natoms;
old->o_bodysize = bodysize;
if (!(old->o_atombuf =
getbytes(old->o_natoms * sizeof(*old->o_atombuf))))
{
binport_error("could not allocate %d atoms", old->o_natoms);
freebytes(old, sizeof(*old));
fclose(fp);
return (0);
}
return (old);
}
}
}
else binport_warning("file too short");
fclose(fp);
return (0);
}
typedef struct _binport
{
FILE *b_fp;
int b_nsymbols;
int b_symsize;
t_symbol **b_symtable;
t_binpold *b_old;
} t_binport;
static void binport_setint(t_atom *ap, int i)
{
ap->a_type = A_INT;
ap->a_w.w_index = i;
}
static void binport_setfloat(t_atom *ap, float f)
{
ap->a_type = A_FLOAT;
ap->a_w.w_float = f;
}
static t_symbol *binport_makesymbol(t_binport *bp, int id)
{
char s[BINPORT_MAXSTRING];
if (id < bp->b_nsymbols)
binport_bug("symbol id mismatch");
else if (id > bp->b_nsymbols)
binport_error("unexpected symbol id");
else if (binport_readstring(bp->b_fp, s))
{
int reqsize = ++bp->b_nsymbols;
if (reqsize > bp->b_symsize)
{
reqsize += (BINPORT_SYMGROW - 1);
#ifdef BINPORT_DEBUG
binport_warning("resizing symbol table to %d elements", reqsize);
#endif
if (bp->b_symtable =
resizebytes(bp->b_symtable,
bp->b_symsize * sizeof(*bp->b_symtable),
reqsize * sizeof(*bp->b_symtable)))
bp->b_symsize = reqsize;
else
{
bp->b_nsymbols = bp->b_symsize = 0;
return (0);
}
}
return (bp->b_symtable[id] = gensym(s));
}
return (0);
}
static t_symbol *binport_getsymbol(t_binport *bp, int id)
{
if (id < bp->b_nsymbols)
return (bp->b_symtable[id]);
else
return (binport_makesymbol(bp, id));
}
static int binport_setsymbol(t_binport *bp, t_atom *ap, int id)
{
t_symbol *s = binport_getsymbol(bp, id);
if (s)
{
ap->a_type = A_SYMBOL;
ap->a_w.w_symbol = s;
}
return (s != 0);
}
static int binport_nextatom(t_binport *bp, t_atom *ap)
{
unsigned char opcode;
int opval;
char buf[64];
t_binpold *old = bp->b_old;
if (old)
{
if (old->o_ndx < old->o_natoms)
{
*ap = old->o_atombuf[old->o_ndx++];
return (1);
}
else return (0);
}
if (!binport_readbyte(bp->b_fp, &opcode))
goto bad;
opval = opcode & 0x0f;
switch (opcode >> 4)
{
case BINPORT_INTTYPE: /* variable length int,
opval: length (number of bytes that follow) */
if (!binport_readbuf(bp->b_fp, buf, opval))
goto bad;
else
{
unsigned char *p = (unsigned char *)buf + opval;
int i = 0;
while (opval--) i = (i << 8) | *--p;
if (opcode == 0x12) /* FIXME */
i = (short)i;
binport_setint(ap, i);
}
break;
case BINPORT_FLOATTYPE: /* variable length float,
opval: length (number of bytes that follow) */
if (!binport_readbuf(bp->b_fp, buf, opval))
goto bad;
else
{
unsigned char *p = (unsigned char *)buf + opval;
int i = 0;
while (opval--) i = (i << 8) | *--p;
binport_setfloat(ap, *(t_float *)&i);
}
break;
case BINPORT_SYMTYPE: /* variable length symbol id,
opval: length (number of bytes that follow) */
if (!binport_readbuf(bp->b_fp, buf, opval))
goto bad;
else
{
unsigned char *p = (unsigned char *)buf + opval;
int i = 0;
while (opval--) i = (i << 8) | *--p;
if (!binport_setsymbol(bp, ap, i))
goto bad;
}
break;
case BINPORT_DEFINTTYPE: /* half-byte int */
binport_setint(ap, opval);
break;
case BINPORT_DEFSYMTYPE: /* half-byte symbol id */
if (!binport_setsymbol(bp, ap, opval))
goto bad;
break;
case BINPORT_SEMITYPE:
/* LATER warn about nonzero opval */
ap->a_type = A_SEMI;
break;
case BINPORT_COMMATYPE:
/* CHECKME apparently never used? */
binport_warning("found the comma type in max binary...");
/* LATER warn about nonzero opval */
ap->a_type = A_COMMA;
break;
case BINPORT_DOLLARTYPE: /* #number */
sprintf(buf, "#%d", opval);
ap->a_type = A_SYMBOL;
ap->a_w.w_symbol = gensym(buf);
break;
case BINPORT_DOLLSYMTYPE: /* #symbol id,
opval: length (number of bytes that follow) */
if (!binport_readbuf(bp->b_fp, buf, opval))
goto bad;
else
{
unsigned char *p = (unsigned char *)buf + opval;
int i = 0;
while (opval--) i = (i << 8) | *--p;
if (!binport_setsymbol(bp, ap, i))
goto bad;
}
sprintf(buf, "#%s", ap->a_w.w_symbol->s_name);
#ifdef BINPORT_DEBUG
binport_warning(buf);
#endif
ap->a_w.w_symbol = gensym(buf);
break;
default:
binport_error("unknown opcode %x", (int)opcode);
goto bad;
}
return (1);
bad:
return (0);
}
static int binport_binalike(char *header)
{
static char binport_header[4] = { 2, 0, 0, 0 }; /* CHECKME any others? */
return (memcmp(header, binport_header, 4) == 0);
}
static int binport_oldalike(char *header)
{
static char binpold_header[4] = { 0, 0, 0, 1 }; /* CHECKME any others? */
return (memcmp(header, binpold_header, 4) == 0);
}
static void binport_free(t_binport *bp)
{
fclose(bp->b_fp);
if (bp->b_symtable)
freebytes(bp->b_symtable, bp->b_symsize * sizeof(*bp->b_symtable));
if (bp->b_old)
{
bp->b_old->o_fp = 0;
binpold_free(bp->b_old);
}
freebytes(bp, sizeof(*bp));
}
static t_binport *binport_new(FILE *fp, int *ftypep)
{
char header[4];
*ftypep = BINPORT_INVALID;
if (fread(header, 1, 4, fp) == 4)
{
if (binport_binalike(header))
{
t_binport *bp = getbytes(sizeof(*bp));
bp->b_fp = fp;
bp->b_nsymbols = 0;
bp->b_symsize = BINPORT_SYMGROW;
bp->b_symtable = getbytes(bp->b_symsize * sizeof(*bp->b_symtable));
bp->b_old = 0;
*ftypep = BINPORT_OK;
return (bp);
}
else if (memcmp(header, "max", 3) == 0)
*ftypep = BINPORT_MAXTEXT;
else if (binport_oldalike(header))
{
t_binport *bp = getbytes(sizeof(*bp));
bp->b_fp = fp;
bp->b_nsymbols = 0;
bp->b_symsize = 0;
bp->b_symtable = 0;
bp->b_old = 0;
*ftypep = BINPORT_MAXOLD;
return (bp);
}
else
{
if (header[0] == '#') /* LATER rethink */
*ftypep = BINPORT_PDFILE;
else binport_warning("unknown header: %x %x %x %x",
(int)header[0], (int)header[1],
(int)header[2], (int)header[3]);
}
}
else binport_warning("file too short");
fclose(fp);
return (0);
}
#ifndef BINPORT_STANDALONE
static int binport_tobinbuf(t_binport *bp, t_binbuf *bb)
{
t_atom at;
if (bp->b_old)
bp->b_old->o_ndx = 0;
while (binport_nextatom(bp, &at))
if (at.a_type != A_NULL)
binbuf_add(bb, 1, &at);
return (1);
}
/* LATER deal with corrupt binary files? */
int binport_read(t_binbuf *bb, char *filename, char *dirname)
{
FILE *fp;
char namebuf[MAXPDSTRING];
namebuf[0] = 0;
if (*dirname)
strcat(namebuf, dirname), strcat(namebuf, "/");
strcat(namebuf, filename);
sys_bashfilename(namebuf, namebuf);
if (fp = fopen(namebuf, "rb"))
{
int ftype;
t_binport *bp = binport_new(fp, &ftype);
if (bp)
{
int result;
if (ftype == BINPORT_OK)
result = (binport_tobinbuf(bp, bb)
? BINPORT_OK : BINPORT_CORRUPT);
else if (ftype == BINPORT_MAXOLD)
{
t_binpold *old = binpold_new(fp);
result = BINPORT_FAILED;
if (old)
{
bp->b_old = old;
if (binpold_load(old) && binport_tobinbuf(bp, bb))
result = BINPORT_OK;
}
else binpold_failure(filename);
}
else result = BINPORT_FAILED;
binport_free(bp);
return (result);
}
else if (ftype == BINPORT_MAXTEXT || ftype == BINPORT_PDFILE)
return (ftype);
else
binport_failure(filename);
}
else binport_bug("cannot open file");
return (BINPORT_INVALID);
}
#else
static void binport_atomstring(t_atom *ap, char *buf, int bufsize)
{
char *sp, *bp, *ep;
switch(ap->a_type)
{
case A_SEMI:
strcpy(buf, ";"); break;
case A_COMMA:
strcpy(buf, ","); break;
case A_INT:
sprintf(buf, "%d", ap->a_w.w_index); break;
case A_FLOAT:
sprintf(buf, "%#f", ap->a_w.w_float);
ep = buf + strlen(buf) - 1;
while (ep > buf && *ep == '0') *ep-- = 0;
break;
case A_SYMBOL:
sp = ap->a_w.w_symbol->s_name;
bp = buf;
ep = buf + (bufsize-5);
while (bp < ep && *sp)
{
if (*sp == ';' || *sp == ',' || *sp == '\\' ||
(*sp == '$' && bp == buf && sp[1] >= '0' && sp[1] <= '9'))
*bp++ = '\\';
if ((unsigned char)*sp < 127)
*bp++ = *sp++;
else
/* FIXME this is temporary -- codepage horror */
sprintf(bp, "\\%.3o", (unsigned char)*sp++), bp += 4;
}
if (*sp) *bp++ = '*';
*bp = 0;
break;
case A_DOLLAR:
sprintf(buf, "$%d", ap->a_w.w_index);
break;
case A_DOLLSYM:
sprintf(buf, "$%s", ap->a_w.w_symbol->s_name);
break;
default:
binport_bug("bad atom type");
strcpy(buf, "???");
}
}
static void binport_print(t_binport *bp)
{
char buf[BINPORT_MAXSTRING];
t_atom at;
int ac = 0;
if (bp->b_old)
bp->b_old->o_ndx = 0;
while (binport_nextatom(bp, &at))
{
if (at.a_type == A_SEMI)
{
fputs(";\n", stdout);
ac = 0;
}
else if (at.a_type != A_NULL)
{
if (ac++) fputc(' ', stdout);
binport_atomstring(&at, buf, BINPORT_MAXSTRING);
fputs(buf, stdout);
}
}
}
int main(int ac, char **av)
{
if (ac > 1)
{
FILE *fp = fopen(av[1], "rb");
if (fp)
{
int ftype;
t_binport *bp = binport_new(fp, &ftype);
if (bp)
{
if (ftype == BINPORT_OK)
binport_print(bp);
else if (ftype == BINPORT_MAXOLD)
{
t_binpold *old = binpold_new(fp);
if (old)
{
bp->b_old = old;
if (binpold_load(old))
binport_print(bp);
else
ftype = BINPORT_FAILED;
}
else ftype = BINPORT_FAILED;
if (ftype == BINPORT_FAILED) binpold_failure(av[1]);
}
binport_free(bp);
}
else if (ftype == BINPORT_MAXTEXT)
binport_warning("\"%s\" looks like a Max text file", av[1]);
else if (ftype == BINPORT_PDFILE)
binport_warning("\"%s\" looks like a Pd patch file", av[1]);
else
binport_failure(av[1]);
}
else binport_error("cannot open file \"%s\"", av[1]);
}
else binport_error("what file?");
return (0);
}
#endif
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