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/*
*
* Bluetooth low-complexity, subband codec (SBC) library
*
* Copyright (C) 2004-2009 Marcel Holtmann <marcel@holtmann.org>
* Copyright (C) 2004-2005 Henryk Ploetz <henryk@ploetzli.ch>
* Copyright (C) 2005-2006 Brad Midgley <bmidgley@xmission.com>
*
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser 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
*
*/
#include <stdint.h>
#include <limits.h>
#include "sbc.h"
#include "sbc_math.h"
#include "sbc_tables.h"
#include "sbc_primitives_neon.h"
/*
* ARM NEON optimizations
*/
#ifdef SBC_BUILD_WITH_NEON_SUPPORT
static inline void _sbc_analyze_four_neon(const int16_t *in, int32_t *out,
const FIXED_T *consts)
{
/* TODO: merge even and odd cases (or even merge all four calls to this
* function) in order to have only aligned reads from 'in' array
* and reduce number of load instructions */
asm volatile (
"vld1.16 {d4, d5}, [%0, :64]!\n"
"vld1.16 {d8, d9}, [%1, :128]!\n"
"vmull.s16 q0, d4, d8\n"
"vld1.16 {d6, d7}, [%0, :64]!\n"
"vmull.s16 q1, d5, d9\n"
"vld1.16 {d10, d11}, [%1, :128]!\n"
"vmlal.s16 q0, d6, d10\n"
"vld1.16 {d4, d5}, [%0, :64]!\n"
"vmlal.s16 q1, d7, d11\n"
"vld1.16 {d8, d9}, [%1, :128]!\n"
"vmlal.s16 q0, d4, d8\n"
"vld1.16 {d6, d7}, [%0, :64]!\n"
"vmlal.s16 q1, d5, d9\n"
"vld1.16 {d10, d11}, [%1, :128]!\n"
"vmlal.s16 q0, d6, d10\n"
"vld1.16 {d4, d5}, [%0, :64]!\n"
"vmlal.s16 q1, d7, d11\n"
"vld1.16 {d8, d9}, [%1, :128]!\n"
"vmlal.s16 q0, d4, d8\n"
"vmlal.s16 q1, d5, d9\n"
"vpadd.s32 d0, d0, d1\n"
"vpadd.s32 d1, d2, d3\n"
"vrshrn.s32 d0, q0, %3\n"
"vld1.16 {d2, d3, d4, d5}, [%1, :128]!\n"
"vdup.i32 d1, d0[1]\n" /* TODO: can be eliminated */
"vdup.i32 d0, d0[0]\n" /* TODO: can be eliminated */
"vmull.s16 q3, d2, d0\n"
"vmull.s16 q4, d3, d0\n"
"vmlal.s16 q3, d4, d1\n"
"vmlal.s16 q4, d5, d1\n"
"vpadd.s32 d0, d6, d7\n" /* TODO: can be eliminated */
"vpadd.s32 d1, d8, d9\n" /* TODO: can be eliminated */
"vst1.32 {d0, d1}, [%2, :128]\n"
: "+r" (in), "+r" (consts)
: "r" (out),
"i" (SBC_PROTO_FIXED4_SCALE)
: "memory",
"d0", "d1", "d2", "d3", "d4", "d5",
"d6", "d7", "d8", "d9", "d10", "d11");
}
static inline void _sbc_analyze_eight_neon(const int16_t *in, int32_t *out,
const FIXED_T *consts)
{
/* TODO: merge even and odd cases (or even merge all four calls to this
* function) in order to have only aligned reads from 'in' array
* and reduce number of load instructions */
asm volatile (
"vld1.16 {d4, d5}, [%0, :64]!\n"
"vld1.16 {d8, d9}, [%1, :128]!\n"
"vmull.s16 q6, d4, d8\n"
"vld1.16 {d6, d7}, [%0, :64]!\n"
"vmull.s16 q7, d5, d9\n"
"vld1.16 {d10, d11}, [%1, :128]!\n"
"vmull.s16 q8, d6, d10\n"
"vld1.16 {d4, d5}, [%0, :64]!\n"
"vmull.s16 q9, d7, d11\n"
"vld1.16 {d8, d9}, [%1, :128]!\n"
"vmlal.s16 q6, d4, d8\n"
"vld1.16 {d6, d7}, [%0, :64]!\n"
"vmlal.s16 q7, d5, d9\n"
"vld1.16 {d10, d11}, [%1, :128]!\n"
"vmlal.s16 q8, d6, d10\n"
"vld1.16 {d4, d5}, [%0, :64]!\n"
"vmlal.s16 q9, d7, d11\n"
"vld1.16 {d8, d9}, [%1, :128]!\n"
"vmlal.s16 q6, d4, d8\n"
"vld1.16 {d6, d7}, [%0, :64]!\n"
"vmlal.s16 q7, d5, d9\n"
"vld1.16 {d10, d11}, [%1, :128]!\n"
"vmlal.s16 q8, d6, d10\n"
"vld1.16 {d4, d5}, [%0, :64]!\n"
"vmlal.s16 q9, d7, d11\n"
"vld1.16 {d8, d9}, [%1, :128]!\n"
"vmlal.s16 q6, d4, d8\n"
"vld1.16 {d6, d7}, [%0, :64]!\n"
"vmlal.s16 q7, d5, d9\n"
"vld1.16 {d10, d11}, [%1, :128]!\n"
"vmlal.s16 q8, d6, d10\n"
"vld1.16 {d4, d5}, [%0, :64]!\n"
"vmlal.s16 q9, d7, d11\n"
"vld1.16 {d8, d9}, [%1, :128]!\n"
"vmlal.s16 q6, d4, d8\n"
"vld1.16 {d6, d7}, [%0, :64]!\n"
"vmlal.s16 q7, d5, d9\n"
"vld1.16 {d10, d11}, [%1, :128]!\n"
"vmlal.s16 q8, d6, d10\n"
"vmlal.s16 q9, d7, d11\n"
"vpadd.s32 d0, d12, d13\n"
"vpadd.s32 d1, d14, d15\n"
"vpadd.s32 d2, d16, d17\n"
"vpadd.s32 d3, d18, d19\n"
"vrshr.s32 q0, q0, %3\n"
"vrshr.s32 q1, q1, %3\n"
"vmovn.s32 d0, q0\n"
"vmovn.s32 d1, q1\n"
"vdup.i32 d3, d1[1]\n" /* TODO: can be eliminated */
"vdup.i32 d2, d1[0]\n" /* TODO: can be eliminated */
"vdup.i32 d1, d0[1]\n" /* TODO: can be eliminated */
"vdup.i32 d0, d0[0]\n" /* TODO: can be eliminated */
"vld1.16 {d4, d5}, [%1, :128]!\n"
"vmull.s16 q6, d4, d0\n"
"vld1.16 {d6, d7}, [%1, :128]!\n"
"vmull.s16 q7, d5, d0\n"
"vmull.s16 q8, d6, d0\n"
"vmull.s16 q9, d7, d0\n"
"vld1.16 {d4, d5}, [%1, :128]!\n"
"vmlal.s16 q6, d4, d1\n"
"vld1.16 {d6, d7}, [%1, :128]!\n"
"vmlal.s16 q7, d5, d1\n"
"vmlal.s16 q8, d6, d1\n"
"vmlal.s16 q9, d7, d1\n"
"vld1.16 {d4, d5}, [%1, :128]!\n"
"vmlal.s16 q6, d4, d2\n"
"vld1.16 {d6, d7}, [%1, :128]!\n"
"vmlal.s16 q7, d5, d2\n"
"vmlal.s16 q8, d6, d2\n"
"vmlal.s16 q9, d7, d2\n"
"vld1.16 {d4, d5}, [%1, :128]!\n"
"vmlal.s16 q6, d4, d3\n"
"vld1.16 {d6, d7}, [%1, :128]!\n"
"vmlal.s16 q7, d5, d3\n"
"vmlal.s16 q8, d6, d3\n"
"vmlal.s16 q9, d7, d3\n"
"vpadd.s32 d0, d12, d13\n" /* TODO: can be eliminated */
"vpadd.s32 d1, d14, d15\n" /* TODO: can be eliminated */
"vpadd.s32 d2, d16, d17\n" /* TODO: can be eliminated */
"vpadd.s32 d3, d18, d19\n" /* TODO: can be eliminated */
"vst1.32 {d0, d1, d2, d3}, [%2, :128]\n"
: "+r" (in), "+r" (consts)
: "r" (out),
"i" (SBC_PROTO_FIXED8_SCALE)
: "memory",
"d0", "d1", "d2", "d3", "d4", "d5",
"d6", "d7", "d8", "d9", "d10", "d11",
"d12", "d13", "d14", "d15", "d16", "d17",
"d18", "d19");
}
static inline void sbc_analyze_4b_4s_neon(int16_t *pcm, int16_t *x,
int32_t *out, int out_stride)
{
/* Fetch audio samples and do input data reordering for SIMD */
x[64] = x[0] = pcm[8 + 7];
x[65] = x[1] = pcm[8 + 3];
x[66] = x[2] = pcm[8 + 6];
x[67] = x[3] = pcm[8 + 4];
x[68] = x[4] = pcm[8 + 0];
x[69] = x[5] = pcm[8 + 2];
x[70] = x[6] = pcm[8 + 1];
x[71] = x[7] = pcm[8 + 5];
x[72] = x[8] = pcm[0 + 7];
x[73] = x[9] = pcm[0 + 3];
x[74] = x[10] = pcm[0 + 6];
x[75] = x[11] = pcm[0 + 4];
x[76] = x[12] = pcm[0 + 0];
x[77] = x[13] = pcm[0 + 2];
x[78] = x[14] = pcm[0 + 1];
x[79] = x[15] = pcm[0 + 5];
/* Analyze blocks */
_sbc_analyze_four_neon(x + 12, out, analysis_consts_fixed4_simd_odd);
out += out_stride;
_sbc_analyze_four_neon(x + 8, out, analysis_consts_fixed4_simd_even);
out += out_stride;
_sbc_analyze_four_neon(x + 4, out, analysis_consts_fixed4_simd_odd);
out += out_stride;
_sbc_analyze_four_neon(x + 0, out, analysis_consts_fixed4_simd_even);
}
static inline void sbc_analyze_4b_8s_neon(int16_t *pcm, int16_t *x,
int32_t *out, int out_stride)
{
/* Fetch audio samples and do input data reordering for SIMD */
x[128] = x[0] = pcm[16 + 15];
x[129] = x[1] = pcm[16 + 7];
x[130] = x[2] = pcm[16 + 14];
x[131] = x[3] = pcm[16 + 8];
x[132] = x[4] = pcm[16 + 13];
x[133] = x[5] = pcm[16 + 9];
x[134] = x[6] = pcm[16 + 12];
x[135] = x[7] = pcm[16 + 10];
x[136] = x[8] = pcm[16 + 11];
x[137] = x[9] = pcm[16 + 3];
x[138] = x[10] = pcm[16 + 6];
x[139] = x[11] = pcm[16 + 0];
x[140] = x[12] = pcm[16 + 5];
x[141] = x[13] = pcm[16 + 1];
x[142] = x[14] = pcm[16 + 4];
x[143] = x[15] = pcm[16 + 2];
x[144] = x[16] = pcm[0 + 15];
x[145] = x[17] = pcm[0 + 7];
x[146] = x[18] = pcm[0 + 14];
x[147] = x[19] = pcm[0 + 8];
x[148] = x[20] = pcm[0 + 13];
x[149] = x[21] = pcm[0 + 9];
x[150] = x[22] = pcm[0 + 12];
x[151] = x[23] = pcm[0 + 10];
x[152] = x[24] = pcm[0 + 11];
x[153] = x[25] = pcm[0 + 3];
x[154] = x[26] = pcm[0 + 6];
x[155] = x[27] = pcm[0 + 0];
x[156] = x[28] = pcm[0 + 5];
x[157] = x[29] = pcm[0 + 1];
x[158] = x[30] = pcm[0 + 4];
x[159] = x[31] = pcm[0 + 2];
/* Analyze blocks */
_sbc_analyze_eight_neon(x + 24, out, analysis_consts_fixed8_simd_odd);
out += out_stride;
_sbc_analyze_eight_neon(x + 16, out, analysis_consts_fixed8_simd_even);
out += out_stride;
_sbc_analyze_eight_neon(x + 8, out, analysis_consts_fixed8_simd_odd);
out += out_stride;
_sbc_analyze_eight_neon(x + 0, out, analysis_consts_fixed8_simd_even);
}
void sbc_init_primitives_neon(struct sbc_encoder_state *state)
{
state->sbc_analyze_4b_4s = sbc_analyze_4b_4s_neon;
state->sbc_analyze_4b_8s = sbc_analyze_4b_8s_neon;
}
#endif
|