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/******************************************************
*
* zexy - implementation file
*
* copyleft (c) IOhannes m zmölnig
*
* 1999:forum::für::umläute:2006
*
* institute of electronic music and acoustics (iem)
*
******************************************************
*
* license: GNU General Public License v.2
*
******************************************************/
/*
finally :: some of the missing binops for signals :: &&~
1302:forum::für::umläute:2000
*/
#include "zexySIMD.h"
/* ------------------------ logical~ ----------------------------- */
/* ----------------------------- andand_tilde ----------------------------- */
static t_class *andand_tilde_class, *scalarandand_tilde_class;
typedef struct _andand_tilde
{
t_object x_obj;
t_float x_f;
} t_andand_tilde;
typedef struct _scalarandand_tilde
{
t_object x_obj;
t_float x_f;
t_float x_g; /* inlet value */
} t_scalarandand_tilde;
static void *andand_tilde_new(t_symbol *s, int argc, t_atom *argv)
{
ZEXY_USEVAR(s);
if (argc > 1) post("&&~: extra arguments ignored");
if (argc)
{
t_scalarandand_tilde *x = (t_scalarandand_tilde *)pd_new(scalarandand_tilde_class);
floatinlet_new(&x->x_obj, &x->x_g);
x->x_g = atom_getfloatarg(0, argc, argv);
outlet_new(&x->x_obj, &s_signal);
x->x_f = 0;
return (x);
}
else
{
t_andand_tilde *x = (t_andand_tilde *)pd_new(andand_tilde_class);
inlet_new(&x->x_obj, &x->x_obj.ob_pd, &s_signal, &s_signal);
outlet_new(&x->x_obj, &s_signal);
x->x_f = 0;
return (x);
}
}
static t_int *andand_tilde_perform(t_int *w)
{
t_sample *in1 = (t_sample *)(w[1]);
t_sample *in2 = (t_sample *)(w[2]);
t_sample *out = (t_sample *)(w[3]);
int n = (int)(w[4]);
while (n--){
int f=(int)*in1++;
int g=(int)*in2++;
*out++ = (f && g);
}
return (w+5);
}
static t_int *andand_tilde_perf8(t_int *w)
{
t_sample *in1 = (t_sample *)(w[1]);
t_sample *in2 = (t_sample *)(w[2]);
t_sample *out = (t_sample *)(w[3]);
int n = (int)(w[4]);
for (; n; n -= 8, in1 += 8, in2 += 8, out += 8)
{
int f0 = in1[0], f1 = in1[1], f2 = in1[2], f3 = in1[3];
int f4 = in1[4], f5 = in1[5], f6 = in1[6], f7 = in1[7];
int g0 = in2[0], g1 = in2[1], g2 = in2[2], g3 = in2[3];
int g4 = in2[4], g5 = in2[5], g6 = in2[6], g7 = in2[7];
out[0] = f0 && g0; out[1] = f1 && g1; out[2] = f2 && g2; out[3] = f3 && g3;
out[4] = f4 && g4; out[5] = f5 && g5; out[6] = f6 && g6; out[7] = f7 && g7;
}
return (w+5);
}
static t_int *scalarandand_tilde_perform(t_int *w)
{
t_sample *in = (t_sample *)(w[1]);
int f = *(t_float *)(w[2]);
t_sample *out = (t_sample *)(w[3]);
int n = (int)(w[4]);
while (n--) *out++ = (int)*in++ && f;
return (w+5);
}
static t_int *scalarandand_tilde_perf8(t_int *w)
{
t_sample *in = (t_sample *)(w[1]);
int g = *(t_float *)(w[2]);
t_sample *out = (t_sample *)(w[3]);
int n = (int)(w[4]);
for (; n; n -= 8, in += 8, out += 8)
{
int f0 = in[0], f1 = in[1], f2 = in[2], f3 = in[3];
int f4 = in[4], f5 = in[5], f6 = in[6], f7 = in[7];
out[0] = f0 && g; out[1] = f1 && g; out[2] = f2 && g; out[3] = f3 && g;
out[4] = f4 && g; out[5] = f5 && g; out[6] = f6 && g; out[7] = f7 && g;
}
return (w+5);
}
#ifdef __SSE__
static int l_bitmask[]={0x7fffffff, 0x7fffffff, 0x7fffffff, 0x7fffffff};
static t_int *andand_tilde_performSSE(t_int *w)
{
__m128 *in1 = (__m128 *)(w[1]);
__m128 *in2 = (__m128 *)(w[2]);
__m128 *out = (__m128 *)(w[3]);
int n = (int)(w[4])>>4;
const __m128 bitmask= _mm_loadu_ps((float*)l_bitmask); /* for getting the absolute value */
const __m128 one = _mm_set1_ps(1.f);
while (n--) {
__m128 xmm0, xmm1, xmm2;
xmm0 = _mm_and_ps (in1[0] , bitmask); /* =abs(f); */
xmm1 = _mm_and_ps (in2[0] , bitmask);
xmm0 = _mm_cmpge_ps(xmm0 , one); /* =(abs(f)>=1.0)=i (a weird cast to integer) */
xmm1 = _mm_cmpge_ps(xmm1 , one);
xmm2 = _mm_and_ps (xmm0 , xmm1); /* =(i0&&i1) */
out[0] = _mm_and_ps (xmm2 , one); /* 0xfffffff -> 1.0 */
xmm0 = _mm_and_ps (in1[1] , bitmask);
xmm1 = _mm_and_ps (in2[1] , bitmask);
xmm0 = _mm_cmpge_ps(xmm0 , one);
xmm1 = _mm_cmpge_ps(xmm1 , one);
xmm2 = _mm_and_ps (xmm0 , xmm1);
out[1] = _mm_and_ps (xmm2 , one);
xmm0 = _mm_and_ps (in1[2] , bitmask);
xmm1 = _mm_and_ps (in2[2] , bitmask);
xmm0 = _mm_cmpge_ps(xmm0 , one);
xmm1 = _mm_cmpge_ps(xmm1 , one);
xmm2 = _mm_and_ps (xmm0 , xmm1);
out[2] = _mm_and_ps (xmm2 , one);
xmm0 = _mm_and_ps (in1[3] , bitmask);
xmm1 = _mm_and_ps (in2[3] , bitmask);
xmm0 = _mm_cmpge_ps(xmm0 , one);
xmm1 = _mm_cmpge_ps(xmm1 , one);
xmm2 = _mm_and_ps (xmm0 , xmm1);
out[3] = _mm_and_ps (xmm2 , one);
in1+=4;
in2+=4;
out+=4;
}
return (w+5);
}
static t_int *scalarandand_tilde_performSSE(t_int *w)
{
__m128 *in = (__m128 *)(w[1]);
__m128 *out = (__m128 *)(w[3]);
float f = *(t_float *)(w[2]);
__m128 scalar = _mm_set1_ps(f);
int n = (int)(w[4])>>4;
const __m128 bitmask= _mm_loadu_ps((float*)l_bitmask); /* for getting the absolute value */
const __m128 one = _mm_set1_ps(1.f);
scalar = _mm_and_ps (scalar, bitmask);
scalar = _mm_cmpge_ps(scalar, one );
while (n--) {
__m128 xmm0, xmm1;
xmm0 = _mm_and_ps (in[0], bitmask); /* =abs(f); */
xmm0 = _mm_cmpge_ps(xmm0 , one); /* =(abs(f)>=1.0)=i (a weird cast to integer) */
xmm0 = _mm_and_ps (xmm0 , scalar); /* =(i0&&i1) */
out[0] = _mm_and_ps (xmm0 , one); /* 0xfffffff -> 1.0 */
xmm1 = _mm_and_ps (in[1], bitmask);
xmm1 = _mm_cmpge_ps(xmm1 , one);
xmm1 = _mm_and_ps (xmm1 , scalar);
out[1] = _mm_and_ps (xmm1 , one);
xmm0 = _mm_and_ps (in[2], bitmask);
xmm0 = _mm_cmpge_ps(xmm0 , one);
xmm0 = _mm_and_ps (xmm0 , scalar);
out[2] = _mm_and_ps (xmm0 , one);
xmm1 = _mm_and_ps (in[3], bitmask);
xmm1 = _mm_cmpge_ps(xmm1 , one);
xmm1 = _mm_and_ps (xmm1 , scalar);
out[3] = _mm_and_ps (xmm1 , one);
in +=4;
out+=4;
}
return (w+5);
}
#endif /* __SSE__ */
static void andand_tilde_dsp(t_andand_tilde *x, t_signal **sp)
{
t_sample*in1=sp[0]->s_vec;
t_sample*in2=sp[1]->s_vec;
t_sample*out=sp[2]->s_vec;
int n=sp[0]->s_n;
#ifdef __SSE__
if(
Z_SIMD_CHKBLOCKSIZE(n)&&
Z_SIMD_CHKALIGN(in1)&&
Z_SIMD_CHKALIGN(in2)&&
Z_SIMD_CHKALIGN(out)&&
ZEXY_TYPE_EQUAL(t_sample, float)
)
{
dsp_add(andand_tilde_performSSE, 4, in1, in2, out, n);
} else
#endif
if (n&7)
dsp_add(andand_tilde_perform, 4, in1, in2, out, n);
else
dsp_add(andand_tilde_perf8, 4, in1, in2, out, n);
ZEXY_USEVAR(x);
}
static void scalarandand_tilde_dsp(t_scalarandand_tilde *x, t_signal **sp)
{
t_sample*in =sp[0]->s_vec;
t_sample*out=sp[1]->s_vec;
int n =sp[0]->s_n;
#ifdef __SSE__
if(
Z_SIMD_CHKBLOCKSIZE(n)&&
Z_SIMD_CHKALIGN(in)&&
Z_SIMD_CHKALIGN(out)&&
ZEXY_TYPE_EQUAL(t_sample, float)
)
{
dsp_add(scalarandand_tilde_performSSE, 4, in, &x->x_g, out, n);
} else
#endif
if (n&7)
dsp_add(scalarandand_tilde_perform, 4, in, &x->x_g, out, n);
else
dsp_add(scalarandand_tilde_perf8, 4, in, &x->x_g, out, n);
}
static void andand_tilde_help(t_object*x)
{
post("\n%c &&~\t\t:: logical AND operation on 2 signals", HEARTSYMBOL);
}
void setup_0x260x260x7e(void)
{
andand_tilde_class = class_new(gensym("&&~"), (t_newmethod)andand_tilde_new, 0,
sizeof(t_andand_tilde), 0, A_GIMME, 0);
class_addmethod(andand_tilde_class, (t_method)andand_tilde_dsp, gensym("dsp"), 0);
CLASS_MAINSIGNALIN(andand_tilde_class, t_andand_tilde, x_f);
class_addmethod (andand_tilde_class, (t_method)andand_tilde_help, gensym("help"), A_NULL);
class_sethelpsymbol(andand_tilde_class, gensym("zigbinops"));
scalarandand_tilde_class = class_new(gensym("&&~"), 0, 0,
sizeof(t_scalarandand_tilde), 0, 0);
CLASS_MAINSIGNALIN(scalarandand_tilde_class, t_scalarandand_tilde, x_f);
class_addmethod(scalarandand_tilde_class, (t_method)scalarandand_tilde_dsp, gensym("dsp"),
0);
class_addmethod (scalarandand_tilde_class, (t_method)andand_tilde_help, gensym("help"), A_NULL);
class_sethelpsymbol(scalarandand_tilde_class, gensym("zigbinops"));
zexy_register("&&~");
}
|