gstreamer/subprojects/gst-plugins-base/gst-libs/gst/audio/audio-resampler-x86-sse.c

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/* GStreamer
* Copyright (C) <2016> Wim Taymans <wim.taymans@gmail.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include "audio-resampler-x86-sse.h"
#if defined (HAVE_XMMINTRIN_H) && defined(__SSE__)
#include <xmmintrin.h>
static inline void
inner_product_gfloat_full_1_sse (gfloat * o, const gfloat * a,
const gfloat * b, gint len, const gfloat * icoeff, gint bstride)
{
gint i = 0;
__m128 sum = _mm_setzero_ps ();
for (; i < len; i += 8) {
sum =
_mm_add_ps (sum, _mm_mul_ps (_mm_loadu_ps (a + i + 0),
_mm_load_ps (b + i + 0)));
sum =
_mm_add_ps (sum, _mm_mul_ps (_mm_loadu_ps (a + i + 4),
_mm_load_ps (b + i + 4)));
}
sum = _mm_add_ps (sum, _mm_movehl_ps (sum, sum));
sum = _mm_add_ss (sum, _mm_shuffle_ps (sum, sum, 0x55));
_mm_store_ss (o, sum);
}
static inline void
inner_product_gfloat_linear_1_sse (gfloat * o, const gfloat * a,
const gfloat * b, gint len, const gfloat * icoeff, gint bstride)
{
gint i = 0;
__m128 sum[2], t;
const gfloat *c[2] = { (gfloat *) ((gint8 *) b + 0 * bstride),
(gfloat *) ((gint8 *) b + 1 * bstride)
};
sum[0] = sum[1] = _mm_setzero_ps ();
for (; i < len; i += 8) {
t = _mm_loadu_ps (a + i + 0);
sum[0] = _mm_add_ps (sum[0], _mm_mul_ps (t, _mm_load_ps (c[0] + i + 0)));
sum[1] = _mm_add_ps (sum[1], _mm_mul_ps (t, _mm_load_ps (c[1] + i + 0)));
t = _mm_loadu_ps (a + i + 4);
sum[0] = _mm_add_ps (sum[0], _mm_mul_ps (t, _mm_load_ps (c[0] + i + 4)));
sum[1] = _mm_add_ps (sum[1], _mm_mul_ps (t, _mm_load_ps (c[1] + i + 4)));
}
sum[0] = _mm_mul_ps (_mm_sub_ps (sum[0], sum[1]), _mm_load1_ps (icoeff));
sum[0] = _mm_add_ps (sum[0], sum[1]);
sum[0] = _mm_add_ps (sum[0], _mm_movehl_ps (sum[0], sum[0]));
sum[0] = _mm_add_ss (sum[0], _mm_shuffle_ps (sum[0], sum[0], 0x55));
_mm_store_ss (o, sum[0]);
}
static inline void
inner_product_gfloat_cubic_1_sse (gfloat * o, const gfloat * a,
const gfloat * b, gint len, const gfloat * icoeff, gint bstride)
{
gint i = 0;
__m128 sum[4];
__m128 t, f = _mm_loadu_ps (icoeff);
const gfloat *c[4] = { (gfloat *) ((gint8 *) b + 0 * bstride),
(gfloat *) ((gint8 *) b + 1 * bstride),
(gfloat *) ((gint8 *) b + 2 * bstride),
(gfloat *) ((gint8 *) b + 3 * bstride)
};
sum[0] = sum[1] = sum[2] = sum[3] = _mm_setzero_ps ();
for (; i < len; i += 4) {
t = _mm_loadu_ps (a + i);
sum[0] = _mm_add_ps (sum[0], _mm_mul_ps (t, _mm_load_ps (c[0] + i)));
sum[1] = _mm_add_ps (sum[1], _mm_mul_ps (t, _mm_load_ps (c[1] + i)));
sum[2] = _mm_add_ps (sum[2], _mm_mul_ps (t, _mm_load_ps (c[2] + i)));
sum[3] = _mm_add_ps (sum[3], _mm_mul_ps (t, _mm_load_ps (c[3] + i)));
}
sum[0] = _mm_mul_ps (sum[0], _mm_shuffle_ps (f, f, 0x00));
sum[1] = _mm_mul_ps (sum[1], _mm_shuffle_ps (f, f, 0x55));
sum[2] = _mm_mul_ps (sum[2], _mm_shuffle_ps (f, f, 0xaa));
sum[3] = _mm_mul_ps (sum[3], _mm_shuffle_ps (f, f, 0xff));
sum[0] = _mm_add_ps (sum[0], sum[1]);
sum[2] = _mm_add_ps (sum[2], sum[3]);
sum[0] = _mm_add_ps (sum[0], sum[2]);
sum[0] = _mm_add_ps (sum[0], _mm_movehl_ps (sum[0], sum[0]));
sum[0] = _mm_add_ss (sum[0], _mm_shuffle_ps (sum[0], sum[0], 0x55));
_mm_store_ss (o, sum[0]);
}
MAKE_RESAMPLE_FUNC (gfloat, full, 1, sse);
MAKE_RESAMPLE_FUNC (gfloat, linear, 1, sse);
MAKE_RESAMPLE_FUNC (gfloat, cubic, 1, sse);
void
interpolate_gfloat_linear_sse (gpointer op, const gpointer ap,
gint len, const gpointer icp, gint astride)
{
gint i;
gfloat *o = op, *a = ap, *ic = icp;
__m128 f[2], t1, t2;
const gfloat *c[2] = { (gfloat *) ((gint8 *) a + 0 * astride),
(gfloat *) ((gint8 *) a + 1 * astride)
};
f[0] = _mm_load1_ps (ic + 0);
f[1] = _mm_load1_ps (ic + 1);
for (i = 0; i < len; i += 8) {
t1 = _mm_mul_ps (_mm_load_ps (c[0] + i + 0), f[0]);
t2 = _mm_mul_ps (_mm_load_ps (c[1] + i + 0), f[1]);
_mm_store_ps (o + i + 0, _mm_add_ps (t1, t2));
t1 = _mm_mul_ps (_mm_load_ps (c[0] + i + 4), f[0]);
t2 = _mm_mul_ps (_mm_load_ps (c[1] + i + 4), f[1]);
_mm_store_ps (o + i + 4, _mm_add_ps (t1, t2));
}
}
void
interpolate_gfloat_cubic_sse (gpointer op, const gpointer ap,
gint len, const gpointer icp, gint astride)
{
gint i;
gfloat *o = op, *a = ap, *ic = icp;
__m128 f[4], t[4];
const gfloat *c[4] = { (gfloat *) ((gint8 *) a + 0 * astride),
(gfloat *) ((gint8 *) a + 1 * astride),
(gfloat *) ((gint8 *) a + 2 * astride),
(gfloat *) ((gint8 *) a + 3 * astride)
};
f[0] = _mm_load1_ps (ic + 0);
f[1] = _mm_load1_ps (ic + 1);
f[2] = _mm_load1_ps (ic + 2);
f[3] = _mm_load1_ps (ic + 3);
for (i = 0; i < len; i += 4) {
t[0] = _mm_mul_ps (_mm_load_ps (c[0] + i + 0), f[0]);
t[1] = _mm_mul_ps (_mm_load_ps (c[1] + i + 0), f[1]);
t[2] = _mm_mul_ps (_mm_load_ps (c[2] + i + 0), f[2]);
t[3] = _mm_mul_ps (_mm_load_ps (c[3] + i + 0), f[3]);
t[0] = _mm_add_ps (t[0], t[1]);
t[2] = _mm_add_ps (t[2], t[3]);
_mm_store_ps (o + i + 0, _mm_add_ps (t[0], t[2]));
}
}
#endif