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/*
* iemmatrix
*
* objects for manipulating simple matrices
* mostly refering to matlab/octave matrix functions
*
* Copyright (c) 2005, Franz Zotter
* IEM, Graz, Austria
*
* For information on usage and redistribution, and for a DISCLAIMER OF ALL
* WARRANTIES, see the file, "LICENSE.txt," in this distribution.
*
*/
#include "iemmatrix.h"
static t_class *mtx_decay_class;
static t_symbol *row_sym;
static t_symbol *col_sym;
static t_symbol *col_sym2;
typedef struct _MTXDecay_ MTXDecay;
struct _MTXDecay_
{
t_object x_obj;
int rows;
int columns;
int size;
int decay_direction;
t_symbol *decay_mode;
t_float decay_parameter;
t_outlet *list_outlet;
t_atom *list_out;
t_atom *list_in;
t_float *x;
t_float *y;
};
static void deleteMTXDecay (MTXDecay *mtx_decay_obj)
{
if (mtx_decay_obj->list_out)
freebytes (mtx_decay_obj->list_out, sizeof(t_atom)*(mtx_decay_obj->size+2));
if (mtx_decay_obj->x)
freebytes (mtx_decay_obj->x, sizeof(t_float)*(mtx_decay_obj->size));
if (mtx_decay_obj->y)
freebytes (mtx_decay_obj->y, sizeof(t_float)*(mtx_decay_obj->size));
}
static void mTXSetDecayParameter (MTXDecay *mtx_decay_obj, t_float d_param)
{
d_param = (d_param > 0.0f)?d_param:0.0f;
d_param = (d_param < 1.0f)?d_param:1.0f;
mtx_decay_obj->decay_parameter = d_param;
}
static void mTXSetDecayDirection (MTXDecay *mtx_decay_obj, t_float c_dir)
{
int direction = (int) c_dir;
mtx_decay_obj->decay_direction = (direction==-1)?direction:1;
}
static void mTXSetDecayMode (MTXDecay *mtx_decay_obj, t_symbol *c_mode)
{
mtx_decay_obj->decay_mode = c_mode;
}
static void *newMTXDecay (t_symbol *s, int argc, t_atom *argv)
{
MTXDecay *mtx_decay_obj = (MTXDecay *) pd_new (mtx_decay_class);
int sym_count=0;
int first_sym=argc;
int n=0;
mTXSetDecayMode (mtx_decay_obj, gensym(":"));
mTXSetDecayDirection (mtx_decay_obj, 1);
mTXSetDecayParameter (mtx_decay_obj, .9f);
argc = ((argc<3)?argc:3);
while (n < argc) {
if (argv[n].a_type == A_SYMBOL) {
sym_count++;
first_sym = (first_sym<n)?first_sym:n;
}
n++;
}
if (sym_count >= 1)
mTXSetDecayMode (mtx_decay_obj, atom_getsymbol(argv+first_sym));
if (sym_count > 1) {
post("mtx_decay: args after pos %d ignored. supposed to be non-symbolic",first_sym);
argc = first_sym+1;
}
switch (argc) {
case 3:
if (first_sym < 2)
mTXSetDecayDirection (mtx_decay_obj, atom_getfloat (argv+2));
case 2:
if (first_sym < 1)
mTXSetDecayParameter (mtx_decay_obj, atom_getfloat (argv+1));
else if (first_sym > 1)
mTXSetDecayDirection (mtx_decay_obj, atom_getfloat(argv+1));
case 1:
if (first_sym != 0)
mTXSetDecayParameter (mtx_decay_obj, atom_getfloat (argv));
}
mtx_decay_obj->list_outlet = outlet_new (&mtx_decay_obj->x_obj, gensym("matrix"));
return ((void *) mtx_decay_obj);
}
static void mTXDecayBang (MTXDecay *mtx_decay_obj)
{
if (mtx_decay_obj->list_out)
outlet_anything(mtx_decay_obj->list_outlet, gensym("matrix"),
mtx_decay_obj->size+2, mtx_decay_obj->list_out);
}
static void writeFloatIntoList (int n, t_atom *l, t_float *f)
{
for (;n--;f++, l++)
SETFLOAT (l, *f);
}
static void readFloatFromList (int n, t_atom *l, t_float *f)
{
while (n--)
*f++ = atom_getfloat (l++);
}
static void readFloatFromListModulo (int n, int m, t_atom *l, t_float *f)
{
t_atom *ptr = l;
int count1, count2;
n /= m;
count1 = m;
while (count1--)
for (count2 = n, ptr = l++; count2--; ptr += m, f++)
*f = atom_getfloat (ptr);
}
static void writeFloatIntoListModulo (int n, int m, t_atom *l, t_float *f)
{
t_atom *ptr = l;
int count1, count2;
n /= m;
count1 = m;
while (count1--)
for (count2 = n, ptr = l++; count2--; ptr += m, f++)
SETFLOAT(ptr,*f);
}
static void deCay (int n, t_float *x, t_float *y, t_float alpha)
{
t_float decay = *x;
t_float oneminusalpha = 1.0f-alpha;
for (;n--; x++, y++) {
decay = alpha * decay + oneminusalpha * *x;
*y = decay = (decay < *x)? *x : decay;
}
}
static void deCayReverse (int n, t_float *x, t_float *y, t_float alpha)
{
t_float decay = *x;
t_float oneminusalpha = 1.0f-alpha;
for (;n--; x--, y--) {
decay = alpha * decay + oneminusalpha * *x;
*y = decay = (decay < *x)? *x : decay;
}
}
static void mTXDecayMatrix (MTXDecay *mtx_decay_obj, t_symbol *s,
int argc, t_atom *argv)
{
int rows = atom_getint (argv++);
int columns = atom_getint (argv++);
int size = rows * columns;
int list_size = argc - 2;
t_atom *list_ptr = argv;
t_atom *list_out = mtx_decay_obj->list_out;
t_float *x = mtx_decay_obj->x;
t_float *y = mtx_decay_obj->y;
int count;
/* size check */
if (!size) {
post("mtx_decay: invalid dimensions");
return;
}
else if (list_size<size) {
post("mtx_decay: sparse matrix not yet supported: use \"mtx_check\"");
return;
}
else if ((!x)||(!list_out)||(!y)) {
if (!x)
x = (t_float *) getbytes (sizeof (t_float) * (size));
if (!y)
y = (t_float *) getbytes (sizeof (t_float) * (size));
if (!list_out)
list_out = (t_atom *) getbytes (sizeof (t_atom) * (size+2));
}
else if (size != mtx_decay_obj->size) {
x = (t_float *) resizebytes (x,
sizeof (t_float) * (mtx_decay_obj->size),
sizeof (t_float) * (size));
y = (t_float *) resizebytes (y,
sizeof (t_float) * (mtx_decay_obj->size),
sizeof (t_float) * (size));
list_out = (t_atom *) resizebytes (list_out,
sizeof (t_atom) * (mtx_decay_obj->size+2),
sizeof (t_atom) * (size + 2));
}
mtx_decay_obj->size = size;
mtx_decay_obj->rows = rows;
mtx_decay_obj->columns = columns;
mtx_decay_obj->list_out = list_out;
mtx_decay_obj->x = x;
mtx_decay_obj->y = y;
/* main part */
/* reading matrix from inlet */
if ((mtx_decay_obj->decay_mode == col_sym) ||
(mtx_decay_obj->decay_mode == col_sym2)) {
readFloatFromListModulo (size, columns, list_ptr, x);
columns = mtx_decay_obj->rows;
rows = mtx_decay_obj->columns;
}
else
readFloatFromList (size, list_ptr, x);
/* calculating decay */
if (mtx_decay_obj->decay_direction == -1) {
if ((mtx_decay_obj->decay_mode == col_sym) ||
(mtx_decay_obj->decay_mode == col_sym2) ||
(mtx_decay_obj->decay_mode == row_sym)) {
x += columns-1;
y += columns-1;
for (count = rows; count--; x += columns, y += columns)
deCayReverse (columns,x,y,mtx_decay_obj->decay_parameter);
}
else {
x += size-1;
y += size-1;
deCayReverse (size,x,y,mtx_decay_obj->decay_parameter);
}
}
else {
if ((mtx_decay_obj->decay_mode == col_sym) ||
(mtx_decay_obj->decay_mode == col_sym2) ||
(mtx_decay_obj->decay_mode == row_sym))
for (count = rows; count--; x += columns, y += columns)
deCay (columns,x,y,mtx_decay_obj->decay_parameter);
else
deCay (size,x,y,mtx_decay_obj->decay_parameter);
}
x = mtx_decay_obj->x;
y = mtx_decay_obj->y;
/* writing matrix to outlet */
if ((mtx_decay_obj->decay_mode == col_sym) ||
(mtx_decay_obj->decay_mode == col_sym2)) {
columns = mtx_decay_obj->columns;
rows = mtx_decay_obj->rows;
writeFloatIntoListModulo (size, columns, list_out+2, y);
}
else
writeFloatIntoList (size, list_out+2, y);
SETSYMBOL(list_out, gensym("matrix"));
SETFLOAT(list_out, rows);
SETFLOAT(&list_out[1], columns);
outlet_anything(mtx_decay_obj->list_outlet, gensym("matrix"),
mtx_decay_obj->size+2, list_out);
}
void mtx_decay_setup (void)
{
mtx_decay_class = class_new
(gensym("mtx_decay"),
(t_newmethod) newMTXDecay,
(t_method) deleteMTXDecay,
sizeof (MTXDecay),
CLASS_DEFAULT, A_GIMME, 0);
class_addbang (mtx_decay_class, (t_method) mTXDecayBang);
class_addmethod (mtx_decay_class, (t_method) mTXDecayMatrix, gensym("matrix"), A_GIMME,0);
class_addmethod (mtx_decay_class, (t_method) mTXSetDecayParameter, gensym("alpha"), A_DEFFLOAT,0);
class_addmethod (mtx_decay_class, (t_method) mTXSetDecayMode, gensym("mode"), A_DEFSYMBOL,0);
class_addmethod (mtx_decay_class, (t_method) mTXSetDecayDirection, gensym("direction"), A_DEFFLOAT,0);
row_sym = gensym("row");
col_sym = gensym("col");
col_sym2 = gensym("column");
}
void iemtx_decay_setup(void){
mtx_decay_setup();
}
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