fractalII
Fractal II. 8x oversampling with triangular window decimation.
Inlets
frac32buffer.bipolar in
Outlets
frac32buffer out
Declaration
int32_t na, x;
int32_t f(int32_t x) {
return x ^ x >> 1; // Gray code
}
Init
na = x = 0;
Audio Rate
// 8x oversampling with triangular window decimation
int32_t dx = (inlet_in - x) / 8;
int32_t a;
{
int32_t y = f(x += dx);
a = ___SMMLA((8 << 25), y, na);
na = ___SMMUL((1 << 25), y);
}
{
int32_t y = f(x += dx);
a = ___SMMLA((7 << 25), y, a);
na = ___SMMLA((2 << 25), y, na);
}
{
int32_t y = f(x += dx);
a = ___SMMLA((6 << 25), y, a);
na = ___SMMLA((3 << 25), y, na);
}
{
int32_t y = f(x += dx);
a = ___SMMLA((5 << 25), y, a);
na = ___SMMLA((4 << 25), y, na);
}
{
int32_t y = f(x += dx);
a = ___SMMLA((4 << 25), y, a);
na = ___SMMLA((5 << 25), y, na);
}
{
int32_t y = f(x += dx);
a = ___SMMLA((3 << 25), y, a);
na = ___SMMLA((6 << 25), y, na);
}
{
int32_t y = f(x += dx);
a = ___SMMLA((2 << 25), y, a);
na = ___SMMLA((7 << 25), y, na);
}
{
int32_t y = f(x += dx);
a = ___SMMLA((1 << 25), y, a);
na = ___SMMLA((8 << 25), y, na);
}
outlet_out = x > 0 ? a : -a;