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#ifndef TOF
#define TOF
#include "m_pd.h"
#include "g_canvas.h"
#include <string.h>
#define IS_A_SYMBOL(atom,index) ((atom+index)->a_type == A_SYMBOL)
#define IS_A_FLOAT(atom,index) ((atom+index)->a_type == A_FLOAT)
char tof_buf_temp_a[MAXPDSTRING];
char tof_buf_temp_b[MAXPDSTRING];
/*
* ALLOCATE WITH THE FOLLOWING LINE
* t_atom *at = getbytes((SIZE)*sizeof(*at));
* FREE WITH THIS ONE
* freebytes(at, (SIZE)*sizeof(*at));
*/
static void tof_copy_atoms(t_atom *src, t_atom *dst, int n)
{
while(n--)
*dst++ = *src++;
}
static t_symbol* tof_get_dollar(t_canvas* canvas, t_symbol* dollar) {
return canvas_realizedollar(canvas, dollar);
}
static t_symbol* tof_get_dollarzero(t_canvas* canvas) {
return canvas_realizedollar(canvas, gensym("$0"));
}
//canvas_isabstraction(t_canvas *x)
static int tof_canvas_is_not_subpatch(t_canvas* canvas) {
return (canvas->gl_env != 0);
}
static t_canvas* tof_get_canvas(void)
{
return canvas_getcurrent();
//return glist_getcanvas((t_glist *)canvas_getcurrent());
}
static t_symbol* tof_get_dir(t_canvas* canvas) {
return canvas_getdir(canvas);
}
static t_symbol* tof_get_canvas_name(t_canvas* canvas) {
return canvas->gl_name;
}
// Use &s_list selector if you do not want to process the selector
static int tof_anything_to_string( t_symbol* s, int ac, t_atom* av,char* buffer ) {
if ( s == &s_bang) {
buffer[0] = '\0';
return 0;
} else if ( s == &s_symbol) {
if ( ac ) {
strcpy(buffer,atom_getsymbol(av)->s_name);
} else {
buffer[0] = '\0';
}
return strlen(buffer);
} else {
char* buf;
t_binbuf* binbuf = binbuf_new();
if ( !(s == &s_list || s == &s_float ) ) {
t_atom selector;
SETSYMBOL(&selector,s);
binbuf_add(binbuf, 1, &selector);
}
binbuf_add(binbuf, ac, av);
int length;
binbuf_gettext(binbuf, &buf, &length);
int i;
for (i = 0; i < length; i++ ) {
buffer[i] = buf[i];
}
buffer[length] = '\0';
freebytes(buf, length);
binbuf_free(binbuf);
return length;
}
buffer[0] = '\0';
return 0;
}
// returns the last canvas before the root canvas
static t_canvas* tof_get_canvas_before_root(t_canvas* canvas)
{
// Find the proper parent canvas
while ( canvas->gl_owner && canvas->gl_owner->gl_owner) {
canvas = canvas->gl_owner;
}
return canvas;
}
static t_canvas* tof_get_root_canvas(t_canvas* canvas)
{
// Find the root canvas
while ( canvas->gl_owner) {
canvas = canvas->gl_owner;
}
return canvas;
}
static void tof_get_canvas_arguments(t_canvas *canvas, int *ac_p, t_atom **av_p) {
pd_pushsym(&canvas->gl_pd); //canvas_setcurrent(canvas);
canvas_getargs(ac_p , av_p);
pd_popsym(&canvas->gl_pd); //canvas_unsetcurrent(canvas);
}
// set selector
static void tof_set_selector(t_symbol** selector_sym_p,int* ac_p, t_atom** av_p ) {
if(!(*ac_p)) {
*selector_sym_p = &s_bang;
} else if(IS_A_SYMBOL(*av_p, 0)) {
*selector_sym_p = atom_getsymbol(*av_p);
*ac_p = (*ac_p)-1,
*av_p = (*av_p)+1;
} else{
*selector_sym_p = &s_list;
}
}
/*
static int tof_get_tagged_argument(char tag, int ac, t_atom *av, int *start, int *count) {
int i;
if ( ac == 0 || *start >= ac) {
*count = 0;
return 0;
}
for ( i= *start + 1; i < ac; i++ ) {
if ( (av+i)->a_type == A_SYMBOL
&& (atom_getsymbol(av+i))->s_name[0] == tag) break;
}
*count = i - *start;
return (i-*start);
}
*/
// Returned value permits a while operation on the function
static int tof_next_tagged_argument(char tag, int ac, t_atom *av, int* ac_a, t_atom ** av_a, int* iter) {
int i;
if ( ac == 0 || *iter >= ac) {
*ac_a = 0;
*av_a = NULL;
return 0;
}
for ( i= *iter + 1; i < ac; i++ ) {
if ( (av+i)->a_type == A_SYMBOL
&& (atom_getsymbol(av+i))->s_name[0] == tag) break;
}
*ac_a = i - *iter;
*av_a = av + *iter;
*iter = i;
return (*ac_a);
}
static int tof_find_tag(char tag, t_symbol* name, int ac, t_atom* av) {
int i;
for (i=0; i<ac;i++) {
if ( IS_A_SYMBOL(av,i) && name == atom_getsymbol(av+i) ) {
return 1;
}
}
return 0;
}
// Returns 1 if the tag was found
// Fills the given int* and t_atom** with the arguments of the tag
static int tof_find_tagged_argument(char tag,t_symbol *name, int ac, t_atom *av, int *ac_r,t_atom** av_r) {
int i;
int match = 0;
int j = 0;
for (i=0;i<ac;i++) {
if ( IS_A_SYMBOL(av,i) && name == atom_getsymbol(av+i) ) {
// FOUND MATCH
match = 1;
if ( (i+1)<ac ) { // IS THERE SPACE FOR AT LEAST ONE ARGUMENT?
i=i+1;
for (j=i;j<ac;j++) { //FIND ITS END
if ( IS_A_SYMBOL(av,j) && (atom_getsymbol(av+j))->s_name[0] == tag ) {
//j = j-1;
break;
}
}
break;
}
}
}
j = j-i;
//post("i:%d j:%d",i,j);
if ( j > 0) {
*ac_r = j;
*av_r = av+i;
} else {
*ac_r = 0;
*av_r = NULL;
}
return match;
}
static void tof_outlet_anything_prepend(t_outlet* outlet, t_symbol* s, int argc, t_atom* argv, t_symbol* pp) {
if (s == &s_list || s == &s_float || s == &s_symbol) {
outlet_anything(outlet,pp,argc,argv);
} else if (s != &s_bang) {
int ac = argc + 1;
t_atom *av = (t_atom *)getbytes(ac*sizeof(t_atom));
tof_copy_atoms(argv,av+1,argc);
SETSYMBOL(av, s);
outlet_anything(outlet,pp,ac,av);
freebytes(av, ac*sizeof(t_atom));
} else {
outlet_bang(outlet);
}
}
static void tof_send_anything_prepend(t_symbol* target,t_symbol* selector, int ac, t_atom* av,t_symbol* prepend) {
if (target->s_thing) {
if ( selector == &s_list || selector == &s_float || selector == &s_symbol ) {
typedmess(target->s_thing, prepend, ac, av);
} else {
int new_ac = ac + 1;
t_atom *new_av = getbytes(new_ac*sizeof(*new_av));
tof_copy_atoms(av,new_av+1,ac);
SETSYMBOL(new_av, selector);
typedmess(target->s_thing, prepend, new_ac, new_av);
freebytes(new_av, new_ac*sizeof(*new_av));
}
}
}
static t_symbol* tof_remove_extension(t_symbol* s) {
t_symbol* newsymbol = s;
int length = strlen(s->s_name) + 1;
char* newstring = getbytes(length * sizeof(*newstring));
strcpy(newstring,s->s_name);
char* last = strrchr( newstring, '.');
if (last != NULL) {
*last = '\0';
newsymbol = gensym(newstring);
}
freebytes(newstring,length * sizeof(*newstring));
return newsymbol;
}
#endif
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