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FFmpeg/libavcodec/mips/aacsbr_mips.c
Vicente Olivert Riera ad16eff64b mips: add support for R6 
Understanding the mips32r6 and mips64r6 ISAs in the configure script is
not enough. In order to have full support for MIPS R6 in FFmpeg we need
to be able to build it, and for that we need to make sure we don't use
incompatible assembler code which makes the build fail. Ifdefing the
offending code is sufficient to fix the problem.

Signed-off-by: Vicente Olivert Riera <Vincent.Riera@imgtec.com>
Signed-off-by: Michael Niedermayer <michael@niedermayer.cc>
2016-03-09 20:05:04 +01:00

624 lines
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/*
* Copyright (c) 2012
* MIPS Technologies, Inc., California.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the MIPS Technologies, Inc., nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE MIPS TECHNOLOGIES, INC. ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE MIPS TECHNOLOGIES, INC. BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* Authors: Djordje Pesut (djordje@mips.com)
* Mirjana Vulin (mvulin@mips.com)
*
* This file is part of FFmpeg.
*
* FFmpeg 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.
*
* FFmpeg 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 FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
/**
* @file
* Reference: libavcodec/aacsbr.c
*/
#include "libavcodec/aac.h"
#include "libavcodec/aacsbr.h"
#include "libavutil/mips/asmdefs.h"
#define ENVELOPE_ADJUSTMENT_OFFSET 2
#if HAVE_INLINE_ASM
static int sbr_lf_gen_mips(AACContext *ac, SpectralBandReplication *sbr,
float X_low[32][40][2], const float W[2][32][32][2],
int buf_idx)
{
int i, k;
int temp0, temp1, temp2, temp3, temp4, temp5, temp6, temp7;
float *p_x_low = &X_low[0][8][0];
float *p_w = (float*)&W[buf_idx][0][0][0];
float *p_x1_low = &X_low[0][0][0];
float *p_w1 = (float*)&W[1-buf_idx][24][0][0];
float *loop_end=p_x1_low + 2560;
/* loop unrolled 8 times */
__asm__ volatile (
"1: \n\t"
"sw $0, 0(%[p_x1_low]) \n\t"
"sw $0, 4(%[p_x1_low]) \n\t"
"sw $0, 8(%[p_x1_low]) \n\t"
"sw $0, 12(%[p_x1_low]) \n\t"
"sw $0, 16(%[p_x1_low]) \n\t"
"sw $0, 20(%[p_x1_low]) \n\t"
"sw $0, 24(%[p_x1_low]) \n\t"
"sw $0, 28(%[p_x1_low]) \n\t"
PTR_ADDIU "%[p_x1_low],%[p_x1_low], 32 \n\t"
"bne %[p_x1_low], %[loop_end], 1b \n\t"
PTR_ADDIU "%[p_x1_low],%[p_x1_low], -10240 \n\t"
: [p_x1_low]"+r"(p_x1_low)
: [loop_end]"r"(loop_end)
: "memory"
);
for (k = 0; k < sbr->kx[1]; k++) {
for (i = 0; i < 32; i+=4) {
/* loop unrolled 4 times */
__asm__ volatile (
"lw %[temp0], 0(%[p_w]) \n\t"
"lw %[temp1], 4(%[p_w]) \n\t"
"lw %[temp2], 256(%[p_w]) \n\t"
"lw %[temp3], 260(%[p_w]) \n\t"
"lw %[temp4], 512(%[p_w]) \n\t"
"lw %[temp5], 516(%[p_w]) \n\t"
"lw %[temp6], 768(%[p_w]) \n\t"
"lw %[temp7], 772(%[p_w]) \n\t"
"sw %[temp0], 0(%[p_x_low]) \n\t"
"sw %[temp1], 4(%[p_x_low]) \n\t"
"sw %[temp2], 8(%[p_x_low]) \n\t"
"sw %[temp3], 12(%[p_x_low]) \n\t"
"sw %[temp4], 16(%[p_x_low]) \n\t"
"sw %[temp5], 20(%[p_x_low]) \n\t"
"sw %[temp6], 24(%[p_x_low]) \n\t"
"sw %[temp7], 28(%[p_x_low]) \n\t"
PTR_ADDIU "%[p_x_low], %[p_x_low], 32 \n\t"
PTR_ADDIU "%[p_w], %[p_w], 1024 \n\t"
: [temp0]"=&r"(temp0), [temp1]"=&r"(temp1),
[temp2]"=&r"(temp2), [temp3]"=&r"(temp3),
[temp4]"=&r"(temp4), [temp5]"=&r"(temp5),
[temp6]"=&r"(temp6), [temp7]"=&r"(temp7),
[p_w]"+r"(p_w), [p_x_low]"+r"(p_x_low)
:
: "memory"
);
}
p_x_low += 16;
p_w -= 2046;
}
for (k = 0; k < sbr->kx[0]; k++) {
for (i = 0; i < 2; i++) {
/* loop unrolled 4 times */
__asm__ volatile (
"lw %[temp0], 0(%[p_w1]) \n\t"
"lw %[temp1], 4(%[p_w1]) \n\t"
"lw %[temp2], 256(%[p_w1]) \n\t"
"lw %[temp3], 260(%[p_w1]) \n\t"
"lw %[temp4], 512(%[p_w1]) \n\t"
"lw %[temp5], 516(%[p_w1]) \n\t"
"lw %[temp6], 768(%[p_w1]) \n\t"
"lw %[temp7], 772(%[p_w1]) \n\t"
"sw %[temp0], 0(%[p_x1_low]) \n\t"
"sw %[temp1], 4(%[p_x1_low]) \n\t"
"sw %[temp2], 8(%[p_x1_low]) \n\t"
"sw %[temp3], 12(%[p_x1_low]) \n\t"
"sw %[temp4], 16(%[p_x1_low]) \n\t"
"sw %[temp5], 20(%[p_x1_low]) \n\t"
"sw %[temp6], 24(%[p_x1_low]) \n\t"
"sw %[temp7], 28(%[p_x1_low]) \n\t"
PTR_ADDIU "%[p_x1_low], %[p_x1_low], 32 \n\t"
PTR_ADDIU "%[p_w1], %[p_w1], 1024 \n\t"
: [temp0]"=&r"(temp0), [temp1]"=&r"(temp1),
[temp2]"=&r"(temp2), [temp3]"=&r"(temp3),
[temp4]"=&r"(temp4), [temp5]"=&r"(temp5),
[temp6]"=&r"(temp6), [temp7]"=&r"(temp7),
[p_w1]"+r"(p_w1), [p_x1_low]"+r"(p_x1_low)
:
: "memory"
);
}
p_x1_low += 64;
p_w1 -= 510;
}
return 0;
}
static int sbr_x_gen_mips(SpectralBandReplication *sbr, float X[2][38][64],
const float Y0[38][64][2], const float Y1[38][64][2],
const float X_low[32][40][2], int ch)
{
int k, i;
const int i_f = 32;
int temp0, temp1, temp2, temp3;
const float *X_low1, *Y01, *Y11;
float *x1=&X[0][0][0];
float *j=x1+4864;
const int i_Temp = FFMAX(2*sbr->data[ch].t_env_num_env_old - i_f, 0);
/* loop unrolled 8 times */
__asm__ volatile (
"1: \n\t"
"sw $0, 0(%[x1]) \n\t"
"sw $0, 4(%[x1]) \n\t"
"sw $0, 8(%[x1]) \n\t"
"sw $0, 12(%[x1]) \n\t"
"sw $0, 16(%[x1]) \n\t"
"sw $0, 20(%[x1]) \n\t"
"sw $0, 24(%[x1]) \n\t"
"sw $0, 28(%[x1]) \n\t"
PTR_ADDIU "%[x1],%[x1], 32 \n\t"
"bne %[x1], %[j], 1b \n\t"
PTR_ADDIU "%[x1],%[x1], -19456 \n\t"
: [x1]"+r"(x1)
: [j]"r"(j)
: "memory"
);
if (i_Temp != 0) {
X_low1=&X_low[0][2][0];
for (k = 0; k < sbr->kx[0]; k++) {
__asm__ volatile (
"move %[i], $zero \n\t"
"2: \n\t"
"lw %[temp0], 0(%[X_low1]) \n\t"
"lw %[temp1], 4(%[X_low1]) \n\t"
"sw %[temp0], 0(%[x1]) \n\t"
"sw %[temp1], 9728(%[x1]) \n\t"
PTR_ADDIU "%[x1], %[x1], 256 \n\t"
PTR_ADDIU "%[X_low1], %[X_low1], 8 \n\t"
"addiu %[i], %[i], 1 \n\t"
"bne %[i], %[i_Temp], 2b \n\t"
: [x1]"+r"(x1), [X_low1]"+r"(X_low1), [i]"=&r"(i),
[temp0]"=&r"(temp0), [temp1]"=&r"(temp1)
: [i_Temp]"r"(i_Temp)
: "memory"
);
x1-=(i_Temp<<6)-1;
X_low1-=(i_Temp<<1)-80;
}
x1=&X[0][0][k];
Y01=(float*)&Y0[32][k][0];
for (; k < sbr->kx[0] + sbr->m[0]; k++) {
__asm__ volatile (
"move %[i], $zero \n\t"
"3: \n\t"
"lw %[temp0], 0(%[Y01]) \n\t"
"lw %[temp1], 4(%[Y01]) \n\t"
"sw %[temp0], 0(%[x1]) \n\t"
"sw %[temp1], 9728(%[x1]) \n\t"
PTR_ADDIU "%[x1], %[x1], 256 \n\t"
PTR_ADDIU "%[Y01], %[Y01], 512 \n\t"
"addiu %[i], %[i], 1 \n\t"
"bne %[i], %[i_Temp], 3b \n\t"
: [x1]"+r"(x1), [Y01]"+r"(Y01), [i]"=&r"(i),
[temp0]"=&r"(temp0), [temp1]"=&r"(temp1)
: [i_Temp]"r"(i_Temp)
: "memory"
);
x1 -=(i_Temp<<6)-1;
Y01 -=(i_Temp<<7)-2;
}
}
x1=&X[0][i_Temp][0];
X_low1=&X_low[0][i_Temp+2][0];
temp3=38;
for (k = 0; k < sbr->kx[1]; k++) {
__asm__ volatile (
"move %[i], %[i_Temp] \n\t"
"4: \n\t"
"lw %[temp0], 0(%[X_low1]) \n\t"
"lw %[temp1], 4(%[X_low1]) \n\t"
"sw %[temp0], 0(%[x1]) \n\t"
"sw %[temp1], 9728(%[x1]) \n\t"
PTR_ADDIU "%[x1], %[x1], 256 \n\t"
PTR_ADDIU "%[X_low1],%[X_low1], 8 \n\t"
"addiu %[i], %[i], 1 \n\t"
"bne %[i], %[temp3], 4b \n\t"
: [x1]"+r"(x1), [X_low1]"+r"(X_low1), [i]"=&r"(i),
[temp0]"=&r"(temp0), [temp1]"=&r"(temp1),
[temp2]"=&r"(temp2)
: [i_Temp]"r"(i_Temp), [temp3]"r"(temp3)
: "memory"
);
x1 -= ((38-i_Temp)<<6)-1;
X_low1 -= ((38-i_Temp)<<1)- 80;
}
x1=&X[0][i_Temp][k];
Y11=&Y1[i_Temp][k][0];
temp2=32;
for (; k < sbr->kx[1] + sbr->m[1]; k++) {
__asm__ volatile (
"move %[i], %[i_Temp] \n\t"
"5: \n\t"
"lw %[temp0], 0(%[Y11]) \n\t"
"lw %[temp1], 4(%[Y11]) \n\t"
"sw %[temp0], 0(%[x1]) \n\t"
"sw %[temp1], 9728(%[x1]) \n\t"
PTR_ADDIU "%[x1], %[x1], 256 \n\t"
PTR_ADDIU "%[Y11], %[Y11], 512 \n\t"
"addiu %[i], %[i], 1 \n\t"
"bne %[i], %[temp2], 5b \n\t"
: [x1]"+r"(x1), [Y11]"+r"(Y11), [i]"=&r"(i),
[temp0]"=&r"(temp0), [temp1]"=&r"(temp1)
: [i_Temp]"r"(i_Temp), [temp3]"r"(temp3),
[temp2]"r"(temp2)
: "memory"
);
x1 -= ((32-i_Temp)<<6)-1;
Y11 -= ((32-i_Temp)<<7)-2;
}
return 0;
}
#if HAVE_MIPSFPU
#if !HAVE_MIPS32R6 && !HAVE_MIPS64R6
static void sbr_hf_assemble_mips(float Y1[38][64][2],
const float X_high[64][40][2],
SpectralBandReplication *sbr, SBRData *ch_data,
const int e_a[2])
{
int e, i, j, m;
const int h_SL = 4 * !sbr->bs_smoothing_mode;
const int kx = sbr->kx[1];
const int m_max = sbr->m[1];
static const float h_smooth[5] = {
0.33333333333333,
0.30150283239582,
0.21816949906249,
0.11516383427084,
0.03183050093751,
};
float (*g_temp)[48] = ch_data->g_temp, (*q_temp)[48] = ch_data->q_temp;
int indexnoise = ch_data->f_indexnoise;
int indexsine = ch_data->f_indexsine;
float *g_temp1, *q_temp1, *pok, *pok1;
float temp1, temp2, temp3, temp4;
int size = m_max;
if (sbr->reset) {
for (i = 0; i < h_SL; i++) {
memcpy(g_temp[i + 2*ch_data->t_env[0]], sbr->gain[0], m_max * sizeof(sbr->gain[0][0]));
memcpy(q_temp[i + 2*ch_data->t_env[0]], sbr->q_m[0], m_max * sizeof(sbr->q_m[0][0]));
}
} else if (h_SL) {
memcpy(g_temp[2*ch_data->t_env[0]], g_temp[2*ch_data->t_env_num_env_old], 4*sizeof(g_temp[0]));
memcpy(q_temp[2*ch_data->t_env[0]], q_temp[2*ch_data->t_env_num_env_old], 4*sizeof(q_temp[0]));
}
for (e = 0; e < ch_data->bs_num_env; e++) {
for (i = 2 * ch_data->t_env[e]; i < 2 * ch_data->t_env[e + 1]; i++) {
g_temp1 = g_temp[h_SL + i];
pok = sbr->gain[e];
q_temp1 = q_temp[h_SL + i];
pok1 = sbr->q_m[e];
/* loop unrolled 4 times */
for (j=0; j<(size>>2); j++) {
__asm__ volatile (
"lw %[temp1], 0(%[pok]) \n\t"
"lw %[temp2], 4(%[pok]) \n\t"
"lw %[temp3], 8(%[pok]) \n\t"
"lw %[temp4], 12(%[pok]) \n\t"
"sw %[temp1], 0(%[g_temp1]) \n\t"
"sw %[temp2], 4(%[g_temp1]) \n\t"
"sw %[temp3], 8(%[g_temp1]) \n\t"
"sw %[temp4], 12(%[g_temp1]) \n\t"
"lw %[temp1], 0(%[pok1]) \n\t"
"lw %[temp2], 4(%[pok1]) \n\t"
"lw %[temp3], 8(%[pok1]) \n\t"
"lw %[temp4], 12(%[pok1]) \n\t"
"sw %[temp1], 0(%[q_temp1]) \n\t"
"sw %[temp2], 4(%[q_temp1]) \n\t"
"sw %[temp3], 8(%[q_temp1]) \n\t"
"sw %[temp4], 12(%[q_temp1]) \n\t"
PTR_ADDIU "%[pok], %[pok], 16 \n\t"
PTR_ADDIU "%[g_temp1], %[g_temp1], 16 \n\t"
PTR_ADDIU "%[pok1], %[pok1], 16 \n\t"
PTR_ADDIU "%[q_temp1], %[q_temp1], 16 \n\t"
: [temp1]"=&r"(temp1), [temp2]"=&r"(temp2),
[temp3]"=&r"(temp3), [temp4]"=&r"(temp4),
[pok]"+r"(pok), [g_temp1]"+r"(g_temp1),
[pok1]"+r"(pok1), [q_temp1]"+r"(q_temp1)
:
: "memory"
);
}
for (j=0; j<(size&3); j++) {
__asm__ volatile (
"lw %[temp1], 0(%[pok]) \n\t"
"lw %[temp2], 0(%[pok1]) \n\t"
"sw %[temp1], 0(%[g_temp1]) \n\t"
"sw %[temp2], 0(%[q_temp1]) \n\t"
PTR_ADDIU "%[pok], %[pok], 4 \n\t"
PTR_ADDIU "%[g_temp1], %[g_temp1], 4 \n\t"
PTR_ADDIU "%[pok1], %[pok1], 4 \n\t"
PTR_ADDIU "%[q_temp1], %[q_temp1], 4 \n\t"
: [temp1]"=&r"(temp1), [temp2]"=&r"(temp2),
[temp3]"=&r"(temp3), [temp4]"=&r"(temp4),
[pok]"+r"(pok), [g_temp1]"+r"(g_temp1),
[pok1]"+r"(pok1), [q_temp1]"+r"(q_temp1)
:
: "memory"
);
}
}
}
for (e = 0; e < ch_data->bs_num_env; e++) {
for (i = 2 * ch_data->t_env[e]; i < 2 * ch_data->t_env[e + 1]; i++) {
LOCAL_ALIGNED_16(float, g_filt_tab, [48]);
LOCAL_ALIGNED_16(float, q_filt_tab, [48]);
float *g_filt, *q_filt;
if (h_SL && e != e_a[0] && e != e_a[1]) {
g_filt = g_filt_tab;
q_filt = q_filt_tab;
for (m = 0; m < m_max; m++) {
const int idx1 = i + h_SL;
g_filt[m] = 0.0f;
q_filt[m] = 0.0f;
for (j = 0; j <= h_SL; j++) {
g_filt[m] += g_temp[idx1 - j][m] * h_smooth[j];
q_filt[m] += q_temp[idx1 - j][m] * h_smooth[j];
}
}
} else {
g_filt = g_temp[i + h_SL];
q_filt = q_temp[i];
}
sbr->dsp.hf_g_filt(Y1[i] + kx, X_high + kx, g_filt, m_max,
i + ENVELOPE_ADJUSTMENT_OFFSET);
if (e != e_a[0] && e != e_a[1]) {
sbr->dsp.hf_apply_noise[indexsine](Y1[i] + kx, sbr->s_m[e],
q_filt, indexnoise,
kx, m_max);
} else {
int idx = indexsine&1;
int A = (1-((indexsine+(kx & 1))&2));
int B = (A^(-idx)) + idx;
float *out = &Y1[i][kx][idx];
float *in = sbr->s_m[e];
float temp0, temp1, temp2, temp3, temp4, temp5;
float A_f = (float)A;
float B_f = (float)B;
for (m = 0; m+1 < m_max; m+=2) {
temp2 = out[0];
temp3 = out[2];
__asm__ volatile(
"lwc1 %[temp0], 0(%[in]) \n\t"
"lwc1 %[temp1], 4(%[in]) \n\t"
"madd.s %[temp4], %[temp2], %[temp0], %[A_f] \n\t"
"madd.s %[temp5], %[temp3], %[temp1], %[B_f] \n\t"
"swc1 %[temp4], 0(%[out]) \n\t"
"swc1 %[temp5], 8(%[out]) \n\t"
PTR_ADDIU "%[in], %[in], 8 \n\t"
PTR_ADDIU "%[out], %[out], 16 \n\t"
: [temp0]"=&f" (temp0), [temp1]"=&f"(temp1),
[temp4]"=&f" (temp4), [temp5]"=&f"(temp5),
[in]"+r"(in), [out]"+r"(out)
: [A_f]"f"(A_f), [B_f]"f"(B_f), [temp2]"f"(temp2),
[temp3]"f"(temp3)
: "memory"
);
}
if(m_max&1)
out[2*m ] += in[m ] * A;
}
indexnoise = (indexnoise + m_max) & 0x1ff;
indexsine = (indexsine + 1) & 3;
}
}
ch_data->f_indexnoise = indexnoise;
ch_data->f_indexsine = indexsine;
}
static void sbr_hf_inverse_filter_mips(SBRDSPContext *dsp,
float (*alpha0)[2], float (*alpha1)[2],
const float X_low[32][40][2], int k0)
{
int k;
float temp0, temp1, temp2, temp3, temp4, temp5, temp6, temp7, c;
float *phi1, *alpha_1, *alpha_0, res1, res2, temp_real, temp_im;
c = 1.000001f;
for (k = 0; k < k0; k++) {
LOCAL_ALIGNED_16(float, phi, [3], [2][2]);
float dk;
phi1 = &phi[0][0][0];
alpha_1 = &alpha1[k][0];
alpha_0 = &alpha0[k][0];
dsp->autocorrelate(X_low[k], phi);
__asm__ volatile (
"lwc1 %[temp0], 40(%[phi1]) \n\t"
"lwc1 %[temp1], 16(%[phi1]) \n\t"
"lwc1 %[temp2], 24(%[phi1]) \n\t"
"lwc1 %[temp3], 28(%[phi1]) \n\t"
"mul.s %[dk], %[temp0], %[temp1] \n\t"
"lwc1 %[temp4], 0(%[phi1]) \n\t"
"mul.s %[res2], %[temp2], %[temp2] \n\t"
"lwc1 %[temp5], 4(%[phi1]) \n\t"
"madd.s %[res2], %[res2], %[temp3], %[temp3] \n\t"
"lwc1 %[temp6], 8(%[phi1]) \n\t"
"div.s %[res2], %[res2], %[c] \n\t"
"lwc1 %[temp0], 12(%[phi1]) \n\t"
"sub.s %[dk], %[dk], %[res2] \n\t"
: [temp0]"=&f"(temp0), [temp1]"=&f"(temp1), [temp2]"=&f"(temp2),
[temp3]"=&f"(temp3), [temp4]"=&f"(temp4), [temp5]"=&f"(temp5),
[temp6]"=&f"(temp6), [res2]"=&f"(res2), [dk]"=&f"(dk)
: [phi1]"r"(phi1), [c]"f"(c)
: "memory"
);
if (!dk) {
alpha_1[0] = 0;
alpha_1[1] = 0;
} else {
__asm__ volatile (
"mul.s %[temp_real], %[temp4], %[temp2] \n\t"
"nmsub.s %[temp_real], %[temp_real], %[temp5], %[temp3] \n\t"
"nmsub.s %[temp_real], %[temp_real], %[temp6], %[temp1] \n\t"
"mul.s %[temp_im], %[temp4], %[temp3] \n\t"
"madd.s %[temp_im], %[temp_im], %[temp5], %[temp2] \n\t"
"nmsub.s %[temp_im], %[temp_im], %[temp0], %[temp1] \n\t"
"div.s %[temp_real], %[temp_real], %[dk] \n\t"
"div.s %[temp_im], %[temp_im], %[dk] \n\t"
"swc1 %[temp_real], 0(%[alpha_1]) \n\t"
"swc1 %[temp_im], 4(%[alpha_1]) \n\t"
: [temp_real]"=&f" (temp_real), [temp_im]"=&f"(temp_im)
: [phi1]"r"(phi1), [temp0]"f"(temp0), [temp1]"f"(temp1),
[temp2]"f"(temp2), [temp3]"f"(temp3), [temp4]"f"(temp4),
[temp5]"f"(temp5), [temp6]"f"(temp6),
[alpha_1]"r"(alpha_1), [dk]"f"(dk)
: "memory"
);
}
if (!phi1[4]) {
alpha_0[0] = 0;
alpha_0[1] = 0;
} else {
__asm__ volatile (
"lwc1 %[temp6], 0(%[alpha_1]) \n\t"
"lwc1 %[temp7], 4(%[alpha_1]) \n\t"
"mul.s %[temp_real], %[temp6], %[temp2] \n\t"
"add.s %[temp_real], %[temp_real], %[temp4] \n\t"
"madd.s %[temp_real], %[temp_real], %[temp7], %[temp3] \n\t"
"mul.s %[temp_im], %[temp7], %[temp2] \n\t"
"add.s %[temp_im], %[temp_im], %[temp5] \n\t"
"nmsub.s %[temp_im], %[temp_im], %[temp6], %[temp3] \n\t"
"div.s %[temp_real], %[temp_real], %[temp1] \n\t"
"div.s %[temp_im], %[temp_im], %[temp1] \n\t"
"neg.s %[temp_real], %[temp_real] \n\t"
"neg.s %[temp_im], %[temp_im] \n\t"
"swc1 %[temp_real], 0(%[alpha_0]) \n\t"
"swc1 %[temp_im], 4(%[alpha_0]) \n\t"
: [temp_real]"=&f"(temp_real), [temp_im]"=&f"(temp_im),
[temp6]"=&f"(temp6), [temp7]"=&f"(temp7),
[res1]"=&f"(res1), [res2]"=&f"(res2)
: [alpha_1]"r"(alpha_1), [alpha_0]"r"(alpha_0),
[temp0]"f"(temp0), [temp1]"f"(temp1), [temp2]"f"(temp2),
[temp3]"f"(temp3), [temp4]"f"(temp4), [temp5]"f"(temp5)
: "memory"
);
}
__asm__ volatile (
"lwc1 %[temp1], 0(%[alpha_1]) \n\t"
"lwc1 %[temp2], 4(%[alpha_1]) \n\t"
"lwc1 %[temp_real], 0(%[alpha_0]) \n\t"
"lwc1 %[temp_im], 4(%[alpha_0]) \n\t"
"mul.s %[res1], %[temp1], %[temp1] \n\t"
"madd.s %[res1], %[res1], %[temp2], %[temp2] \n\t"
"mul.s %[res2], %[temp_real], %[temp_real] \n\t"
"madd.s %[res2], %[res2], %[temp_im], %[temp_im] \n\t"
: [temp_real]"=&f"(temp_real), [temp_im]"=&f"(temp_im),
[temp1]"=&f"(temp1), [temp2]"=&f"(temp2),
[res1]"=&f"(res1), [res2]"=&f"(res2)
: [alpha_1]"r"(alpha_1), [alpha_0]"r"(alpha_0)
: "memory"
);
if (res1 >= 16.0f || res2 >= 16.0f) {
alpha_1[0] = 0;
alpha_1[1] = 0;
alpha_0[0] = 0;
alpha_0[1] = 0;
}
}
}
#endif /* !HAVE_MIPS32R6 && !HAVE_MIPS64R6 */
#endif /* HAVE_MIPSFPU */
#endif /* HAVE_INLINE_ASM */
void ff_aacsbr_func_ptr_init_mips(AACSBRContext *c)
{
#if HAVE_INLINE_ASM
c->sbr_lf_gen = sbr_lf_gen_mips;
c->sbr_x_gen = sbr_x_gen_mips;
#if HAVE_MIPSFPU
#if !HAVE_MIPS32R6 && !HAVE_MIPS64R6
c->sbr_hf_inverse_filter = sbr_hf_inverse_filter_mips;
c->sbr_hf_assemble = sbr_hf_assemble_mips;
#endif /* !HAVE_MIPS32R6 && !HAVE_MIPS64R6 */
#endif /* HAVE_MIPSFPU */
#endif /* HAVE_INLINE_ASM */
}
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