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4b5f78337a
This makes sure that we only build files that need explicit SIMD support with the relevant CFLAGS. This allows the rest of the code to be built without, and specific SSE* code is only called after runtime checks for CPU features. https://bugzilla.gnome.org/show_bug.cgi?id=729276
168 lines
5.6 KiB
C
168 lines
5.6 KiB
C
/* GStreamer
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* Copyright (C) <2016> Wim Taymans <wim.taymans@gmail.com>
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Library General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Library General Public License for more details.
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*
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* You should have received a copy of the GNU Library General Public
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* License along with this library; if not, write to the
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* Free Software Foundation, Inc., 51 Franklin St, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#ifdef HAVE_CONFIG_H
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# include "config.h"
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#endif
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#include "audio-resampler-x86-sse.h"
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#if defined (HAVE_XMMINTRIN_H) && defined(__SSE__)
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#include <xmmintrin.h>
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static inline void
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inner_product_gfloat_full_1_sse (gfloat * o, const gfloat * a,
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const gfloat * b, gint len, const gfloat * icoeff, gint bstride)
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{
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gint i = 0;
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__m128 sum = _mm_setzero_ps ();
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for (; i < len; i += 8) {
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sum =
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_mm_add_ps (sum, _mm_mul_ps (_mm_loadu_ps (a + i + 0),
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_mm_load_ps (b + i + 0)));
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sum =
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_mm_add_ps (sum, _mm_mul_ps (_mm_loadu_ps (a + i + 4),
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_mm_load_ps (b + i + 4)));
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}
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sum = _mm_add_ps (sum, _mm_movehl_ps (sum, sum));
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sum = _mm_add_ss (sum, _mm_shuffle_ps (sum, sum, 0x55));
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_mm_store_ss (o, sum);
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}
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static inline void
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inner_product_gfloat_linear_1_sse (gfloat * o, const gfloat * a,
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const gfloat * b, gint len, const gfloat * icoeff, gint bstride)
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{
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gint i = 0;
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__m128 sum[2], t;
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const gfloat *c[2] = { (gfloat *) ((gint8 *) b + 0 * bstride),
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(gfloat *) ((gint8 *) b + 1 * bstride)
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};
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sum[0] = sum[1] = _mm_setzero_ps ();
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for (; i < len; i += 8) {
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t = _mm_loadu_ps (a + i + 0);
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sum[0] = _mm_add_ps (sum[0], _mm_mul_ps (t, _mm_load_ps (c[0] + i + 0)));
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sum[1] = _mm_add_ps (sum[1], _mm_mul_ps (t, _mm_load_ps (c[1] + i + 0)));
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t = _mm_loadu_ps (a + i + 4);
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sum[0] = _mm_add_ps (sum[0], _mm_mul_ps (t, _mm_load_ps (c[0] + i + 4)));
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sum[1] = _mm_add_ps (sum[1], _mm_mul_ps (t, _mm_load_ps (c[1] + i + 4)));
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}
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sum[0] = _mm_mul_ps (_mm_sub_ps (sum[0], sum[1]), _mm_load1_ps (icoeff));
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sum[0] = _mm_add_ps (sum[0], sum[1]);
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sum[0] = _mm_add_ps (sum[0], _mm_movehl_ps (sum[0], sum[0]));
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sum[0] = _mm_add_ss (sum[0], _mm_shuffle_ps (sum[0], sum[0], 0x55));
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_mm_store_ss (o, sum[0]);
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}
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static inline void
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inner_product_gfloat_cubic_1_sse (gfloat * o, const gfloat * a,
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const gfloat * b, gint len, const gfloat * icoeff, gint bstride)
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{
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gint i = 0;
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__m128 sum[4];
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__m128 t, f = _mm_loadu_ps (icoeff);
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const gfloat *c[4] = { (gfloat *) ((gint8 *) b + 0 * bstride),
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(gfloat *) ((gint8 *) b + 1 * bstride),
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(gfloat *) ((gint8 *) b + 2 * bstride),
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(gfloat *) ((gint8 *) b + 3 * bstride)
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};
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sum[0] = sum[1] = sum[2] = sum[3] = _mm_setzero_ps ();
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for (; i < len; i += 4) {
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t = _mm_loadu_ps (a + i);
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sum[0] = _mm_add_ps (sum[0], _mm_mul_ps (t, _mm_load_ps (c[0] + i)));
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sum[1] = _mm_add_ps (sum[1], _mm_mul_ps (t, _mm_load_ps (c[1] + i)));
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sum[2] = _mm_add_ps (sum[2], _mm_mul_ps (t, _mm_load_ps (c[2] + i)));
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sum[3] = _mm_add_ps (sum[3], _mm_mul_ps (t, _mm_load_ps (c[3] + i)));
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}
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sum[0] = _mm_mul_ps (sum[0], _mm_shuffle_ps (f, f, 0x00));
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sum[1] = _mm_mul_ps (sum[1], _mm_shuffle_ps (f, f, 0x55));
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sum[2] = _mm_mul_ps (sum[2], _mm_shuffle_ps (f, f, 0xaa));
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sum[3] = _mm_mul_ps (sum[3], _mm_shuffle_ps (f, f, 0xff));
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sum[0] = _mm_add_ps (sum[0], sum[1]);
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sum[2] = _mm_add_ps (sum[2], sum[3]);
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sum[0] = _mm_add_ps (sum[0], sum[2]);
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sum[0] = _mm_add_ps (sum[0], _mm_movehl_ps (sum[0], sum[0]));
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sum[0] = _mm_add_ss (sum[0], _mm_shuffle_ps (sum[0], sum[0], 0x55));
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_mm_store_ss (o, sum[0]);
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}
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MAKE_RESAMPLE_FUNC (gfloat, full, 1, sse);
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MAKE_RESAMPLE_FUNC (gfloat, linear, 1, sse);
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MAKE_RESAMPLE_FUNC (gfloat, cubic, 1, sse);
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void
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interpolate_gfloat_linear_sse (gpointer op, const gpointer ap,
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gint len, const gpointer icp, gint astride)
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{
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gint i;
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gfloat *o = op, *a = ap, *ic = icp;
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__m128 f[2], t1, t2;
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const gfloat *c[2] = { (gfloat *) ((gint8 *) a + 0 * astride),
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(gfloat *) ((gint8 *) a + 1 * astride)
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};
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f[0] = _mm_load1_ps (ic + 0);
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f[1] = _mm_load1_ps (ic + 1);
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for (i = 0; i < len; i += 8) {
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t1 = _mm_mul_ps (_mm_load_ps (c[0] + i + 0), f[0]);
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t2 = _mm_mul_ps (_mm_load_ps (c[1] + i + 0), f[1]);
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_mm_store_ps (o + i + 0, _mm_add_ps (t1, t2));
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t1 = _mm_mul_ps (_mm_load_ps (c[0] + i + 4), f[0]);
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t2 = _mm_mul_ps (_mm_load_ps (c[1] + i + 4), f[1]);
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_mm_store_ps (o + i + 4, _mm_add_ps (t1, t2));
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}
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}
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void
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interpolate_gfloat_cubic_sse (gpointer op, const gpointer ap,
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gint len, const gpointer icp, gint astride)
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{
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gint i;
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gfloat *o = op, *a = ap, *ic = icp;
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__m128 f[4], t[4];
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const gfloat *c[4] = { (gfloat *) ((gint8 *) a + 0 * astride),
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(gfloat *) ((gint8 *) a + 1 * astride),
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(gfloat *) ((gint8 *) a + 2 * astride),
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(gfloat *) ((gint8 *) a + 3 * astride)
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};
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f[0] = _mm_load1_ps (ic + 0);
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f[1] = _mm_load1_ps (ic + 1);
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f[2] = _mm_load1_ps (ic + 2);
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f[3] = _mm_load1_ps (ic + 3);
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for (i = 0; i < len; i += 4) {
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t[0] = _mm_mul_ps (_mm_load_ps (c[0] + i + 0), f[0]);
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t[1] = _mm_mul_ps (_mm_load_ps (c[1] + i + 0), f[1]);
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t[2] = _mm_mul_ps (_mm_load_ps (c[2] + i + 0), f[2]);
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t[3] = _mm_mul_ps (_mm_load_ps (c[3] + i + 0), f[3]);
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t[0] = _mm_add_ps (t[0], t[1]);
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t[2] = _mm_add_ps (t[2], t[3]);
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_mm_store_ps (o + i + 0, _mm_add_ps (t[0], t[2]));
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}
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}
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#endif
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