📄 sbr_qmf.c
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void sbr_qmf_synthesis_64(sbr_info *sbr, qmfs_info *qmfs, qmf_t X[MAX_NTSRHFG][64],
real_t *output)
{
ALIGN real_t x[64];
ALIGN real_t y[64];
int32_t n, k, out = 0;
uint8_t l;
/* qmf subsample l */
for (l = 0; l < sbr->numTimeSlotsRate; l++)
{
/* shift buffers */
/* we are not shifting v, it is a double ringbuffer */
//memmove(qmfs->v + 128, qmfs->v, (1280-128)*sizeof(real_t));
/* calculate 128 samples */
for (k = 0; k < 32; k++)
{
#ifdef FIXED_POINT
y[k] = (QMF_RE(X[l][k]) - QMF_RE(X[l][63 - k]));
x[k] = (QMF_RE(X[l][k]) + QMF_RE(X[l][63 - k]));
#else
y[k] = (QMF_RE(X[l][k]) - QMF_RE(X[l][63 - k])) / 32.0;
x[k] = (QMF_RE(X[l][k]) + QMF_RE(X[l][63 - k])) / 32.0;
#endif
}
/* even n samples */
DCT2_32_unscaled(x, x);
/* odd n samples */
DCT4_32(y, y);
for (n = 16; n < 48; n++)
{
qmfs->v[qmfs->v_index + n*2] = qmfs->v[qmfs->v_index + 1280 + n*2] = x[n-16];
qmfs->v[qmfs->v_index + n*2+1] = qmfs->v[qmfs->v_index + 1280 + n*2+1] = y[n-16];
}
for (n = 0; n < 32; n++)
{
qmfs->v[qmfs->v_index + n] = qmfs->v[qmfs->v_index + 1280 + n] = qmfs->v[qmfs->v_index + 64-n];
}
qmfs->v[qmfs->v_index + 96] = qmfs->v[qmfs->v_index + 1280 + 96] = 0;
for (n = 1; n < 32; n++)
{
qmfs->v[qmfs->v_index + 96+n] = qmfs->v[qmfs->v_index + 1280 + 96+n] = -qmfs->v[qmfs->v_index + 96-n];
}
/* calculate 64 output samples and window */
for (k = 0; k < 64; k++)
{
output[out++] = MUL_F(qmfs->v[qmfs->v_index + k], qmf_c[k]) +
MUL_F(qmfs->v[qmfs->v_index + 192 + k], qmf_c[64 + k]) +
MUL_F(qmfs->v[qmfs->v_index + 256 + k], qmf_c[128 + k]) +
MUL_F(qmfs->v[qmfs->v_index + 256 + 192 + k], qmf_c[128 + 64 + k]) +
MUL_F(qmfs->v[qmfs->v_index + 512 + k], qmf_c[256 + k]) +
MUL_F(qmfs->v[qmfs->v_index + 512 + 192 + k], qmf_c[256 + 64 + k]) +
MUL_F(qmfs->v[qmfs->v_index + 768 + k], qmf_c[384 + k]) +
MUL_F(qmfs->v[qmfs->v_index + 768 + 192 + k], qmf_c[384 + 64 + k]) +
MUL_F(qmfs->v[qmfs->v_index + 1024 + k], qmf_c[512 + k]) +
MUL_F(qmfs->v[qmfs->v_index + 1024 + 192 + k], qmf_c[512 + 64 + k]);
}
/* update the ringbuffer index */
qmfs->v_index -= 128;
if (qmfs->v_index < 0)
qmfs->v_index = (1280-128);
}
}
#else
void sbr_qmf_synthesis_32(sbr_info *sbr, qmfs_info *qmfs, qmf_t X[MAX_NTSRHFG][64],
real_t *output)
{
ALIGN real_t x1[32], x2[32];
#ifndef FIXED_POINT
real_t scale = 1.f/64.f;
#endif
int32_t n, k, out = 0;
uint8_t l;
/* qmf subsample l */
for (l = 0; l < sbr->numTimeSlotsRate; l++)
{
/* shift buffer v */
/* buffer is not shifted, we are using a ringbuffer */
//memmove(qmfs->v + 64, qmfs->v, (640-64)*sizeof(real_t));
/* calculate 64 samples */
/* complex pre-twiddle */
for (k = 0; k < 32; k++)
{
x1[k] = MUL_F(QMF_RE(X[l][k]), RE(qmf32_pre_twiddle[k])) - MUL_F(QMF_IM(X[l][k]), IM(qmf32_pre_twiddle[k]));
x2[k] = MUL_F(QMF_IM(X[l][k]), RE(qmf32_pre_twiddle[k])) + MUL_F(QMF_RE(X[l][k]), IM(qmf32_pre_twiddle[k]));
#ifndef FIXED_POINT
x1[k] *= scale;
x2[k] *= scale;
#else
x1[k] >>= 1;
x2[k] >>= 1;
#endif
}
/* transform */
DCT4_32(x1, x1);
DST4_32(x2, x2);
for (n = 0; n < 32; n++)
{
qmfs->v[qmfs->v_index + n] = qmfs->v[qmfs->v_index + 640 + n] = -x1[n] + x2[n];
qmfs->v[qmfs->v_index + 63 - n] = qmfs->v[qmfs->v_index + 640 + 63 - n] = x1[n] + x2[n];
}
/* calculate 32 output samples and window */
for (k = 0; k < 32; k++)
{
output[out++] = MUL_F(qmfs->v[qmfs->v_index + k], qmf_c[2*k]) +
MUL_F(qmfs->v[qmfs->v_index + 96 + k], qmf_c[64 + 2*k]) +
MUL_F(qmfs->v[qmfs->v_index + 128 + k], qmf_c[128 + 2*k]) +
MUL_F(qmfs->v[qmfs->v_index + 224 + k], qmf_c[192 + 2*k]) +
MUL_F(qmfs->v[qmfs->v_index + 256 + k], qmf_c[256 + 2*k]) +
MUL_F(qmfs->v[qmfs->v_index + 352 + k], qmf_c[320 + 2*k]) +
MUL_F(qmfs->v[qmfs->v_index + 384 + k], qmf_c[384 + 2*k]) +
MUL_F(qmfs->v[qmfs->v_index + 480 + k], qmf_c[448 + 2*k]) +
MUL_F(qmfs->v[qmfs->v_index + 512 + k], qmf_c[512 + 2*k]) +
MUL_F(qmfs->v[qmfs->v_index + 608 + k], qmf_c[576 + 2*k]);
}
/* update ringbuffer index */
qmfs->v_index -= 64;
if (qmfs->v_index < 0)
qmfs->v_index = (640 - 64);
}
}
void sbr_qmf_synthesis_64(sbr_info *sbr, qmfs_info *qmfs, qmf_t X[MAX_NTSRHFG][64],
real_t *output)
{
// ALIGN real_t x1[64], x2[64];
#ifndef SBR_LOW_POWER
ALIGN real_t in_real1[32], in_imag1[32], out_real1[32], out_imag1[32];
ALIGN real_t in_real2[32], in_imag2[32], out_real2[32], out_imag2[32];
#endif
qmf_t * pX;
real_t * pring_buffer_1, * pring_buffer_3;
// real_t * ptemp_1, * ptemp_2;
#ifdef PREFER_POINTERS
// These pointers are used if target platform has autoinc address generators
real_t * pring_buffer_2, * pring_buffer_4;
real_t * pring_buffer_5, * pring_buffer_6;
real_t * pring_buffer_7, * pring_buffer_8;
real_t * pring_buffer_9, * pring_buffer_10;
const real_t * pqmf_c_1, * pqmf_c_2, * pqmf_c_3, * pqmf_c_4;
const real_t * pqmf_c_5, * pqmf_c_6, * pqmf_c_7, * pqmf_c_8;
const real_t * pqmf_c_9, * pqmf_c_10;
#endif // #ifdef PREFER_POINTERS
#ifndef FIXED_POINT
real_t scale = 1.f/64.f;
#endif
int32_t n, k, out = 0;
uint8_t l;
/* qmf subsample l */
for (l = 0; l < sbr->numTimeSlotsRate; l++)
{
/* shift buffer v */
/* buffer is not shifted, we use double ringbuffer */
//memmove(qmfs->v + 128, qmfs->v, (1280-128)*sizeof(real_t));
/* calculate 128 samples */
#ifndef FIXED_POINT
pX = X[l];
in_imag1[31] = scale*QMF_RE(pX[1]);
in_real1[0] = scale*QMF_RE(pX[0]);
in_imag2[31] = scale*QMF_IM(pX[63-1]);
in_real2[0] = scale*QMF_IM(pX[63-0]);
for (k = 1; k < 31; k++)
{
in_imag1[31 - k] = scale*QMF_RE(pX[2*k + 1]);
in_real1[ k] = scale*QMF_RE(pX[2*k ]);
in_imag2[31 - k] = scale*QMF_IM(pX[63 - (2*k + 1)]);
in_real2[ k] = scale*QMF_IM(pX[63 - (2*k )]);
}
in_imag1[0] = scale*QMF_RE(pX[63]);
in_real1[31] = scale*QMF_RE(pX[62]);
in_imag2[0] = scale*QMF_IM(pX[63-63]);
in_real2[31] = scale*QMF_IM(pX[63-62]);
#else
pX = X[l];
in_imag1[31] = QMF_RE(pX[1]) >> 1;
in_real1[0] = QMF_RE(pX[0]) >> 1;
in_imag2[31] = QMF_IM(pX[62]) >> 1;
in_real2[0] = QMF_IM(pX[63]) >> 1;
for (k = 1; k < 31; k++)
{
in_imag1[31 - k] = QMF_RE(pX[2*k + 1]) >> 1;
in_real1[ k] = QMF_RE(pX[2*k ]) >> 1;
in_imag2[31 - k] = QMF_IM(pX[63 - (2*k + 1)]) >> 1;
in_real2[ k] = QMF_IM(pX[63 - (2*k )]) >> 1;
}
in_imag1[0] = QMF_RE(pX[63]) >> 1;
in_real1[31] = QMF_RE(pX[62]) >> 1;
in_imag2[0] = QMF_IM(pX[0]) >> 1;
in_real2[31] = QMF_IM(pX[1]) >> 1;
#endif
// dct4_kernel is DCT_IV without reordering which is done before and after FFT
dct4_kernel(in_real1, in_imag1, out_real1, out_imag1);
dct4_kernel(in_real2, in_imag2, out_real2, out_imag2);
pring_buffer_1 = qmfs->v + qmfs->v_index;
pring_buffer_3 = pring_buffer_1 + 1280;
#ifdef PREFER_POINTERS
pring_buffer_2 = pring_buffer_1 + 127;
pring_buffer_4 = pring_buffer_1 + (1280 + 127);
#endif // #ifdef PREFER_POINTERS
// ptemp_1 = x1;
// ptemp_2 = x2;
#ifdef PREFER_POINTERS
for (n = 0; n < 32; n ++)
{
//real_t x1 = *ptemp_1++;
//real_t x2 = *ptemp_2++;
// pring_buffer_3 and pring_buffer_4 are needed only for double ring buffer
*pring_buffer_1++ = *pring_buffer_3++ = out_real2[n] - out_real1[n];
*pring_buffer_2-- = *pring_buffer_4-- = out_real2[n] + out_real1[n];
//x1 = *ptemp_1++;
//x2 = *ptemp_2++;
*pring_buffer_1++ = *pring_buffer_3++ = out_imag2[31-n] + out_imag1[31-n];
*pring_buffer_2-- = *pring_buffer_4-- = out_imag2[31-n] - out_imag1[31-n];
}
#else // #ifdef PREFER_POINTERS
for (n = 0; n < 32; n++)
{
// pring_buffer_3 and pring_buffer_4 are needed only for double ring buffer
pring_buffer_1[2*n] = pring_buffer_3[2*n] = out_real2[n] - out_real1[n];
pring_buffer_1[127-2*n] = pring_buffer_3[127-2*n] = out_real2[n] + out_real1[n];
pring_buffer_1[2*n+1] = pring_buffer_3[2*n+1] = out_imag2[31-n] + out_imag1[31-n];
pring_buffer_1[127-(2*n+1)] = pring_buffer_3[127-(2*n+1)] = out_imag2[31-n] - out_imag1[31-n];
}
#endif // #ifdef PREFER_POINTERS
pring_buffer_1 = qmfs->v + qmfs->v_index;
#ifdef PREFER_POINTERS
pring_buffer_2 = pring_buffer_1 + 192;
pring_buffer_3 = pring_buffer_1 + 256;
pring_buffer_4 = pring_buffer_1 + (256 + 192);
pring_buffer_5 = pring_buffer_1 + 512;
pring_buffer_6 = pring_buffer_1 + (512 + 192);
pring_buffer_7 = pring_buffer_1 + 768;
pring_buffer_8 = pring_buffer_1 + (768 + 192);
pring_buffer_9 = pring_buffer_1 + 1024;
pring_buffer_10 = pring_buffer_1 + (1024 + 192);
pqmf_c_1 = qmf_c;
pqmf_c_2 = qmf_c + 64;
pqmf_c_3 = qmf_c + 128;
pqmf_c_4 = qmf_c + 192;
pqmf_c_5 = qmf_c + 256;
pqmf_c_6 = qmf_c + 320;
pqmf_c_7 = qmf_c + 384;
pqmf_c_8 = qmf_c + 448;
pqmf_c_9 = qmf_c + 512;
pqmf_c_10 = qmf_c + 576;
#endif // #ifdef PREFER_POINTERS
/* calculate 64 output samples and window */
for (k = 0; k < 64; k++)
{
#ifdef PREFER_POINTERS
output[out++] =
MUL_F(*pring_buffer_1++, *pqmf_c_1++) +
MUL_F(*pring_buffer_2++, *pqmf_c_2++) +
MUL_F(*pring_buffer_3++, *pqmf_c_3++) +
MUL_F(*pring_buffer_4++, *pqmf_c_4++) +
MUL_F(*pring_buffer_5++, *pqmf_c_5++) +
MUL_F(*pring_buffer_6++, *pqmf_c_6++) +
MUL_F(*pring_buffer_7++, *pqmf_c_7++) +
MUL_F(*pring_buffer_8++, *pqmf_c_8++) +
MUL_F(*pring_buffer_9++, *pqmf_c_9++) +
MUL_F(*pring_buffer_10++, *pqmf_c_10++);
#else // #ifdef PREFER_POINTERS
output[out++] =
MUL_F(pring_buffer_1[k+0], qmf_c[k+0]) +
MUL_F(pring_buffer_1[k+192], qmf_c[k+64]) +
MUL_F(pring_buffer_1[k+256], qmf_c[k+128]) +
MUL_F(pring_buffer_1[k+(256+192)], qmf_c[k+192]) +
MUL_F(pring_buffer_1[k+512], qmf_c[k+256]) +
MUL_F(pring_buffer_1[k+(512+192)], qmf_c[k+320]) +
MUL_F(pring_buffer_1[k+768], qmf_c[k+384]) +
MUL_F(pring_buffer_1[k+(768+192)], qmf_c[k+448]) +
MUL_F(pring_buffer_1[k+1024], qmf_c[k+512]) +
MUL_F(pring_buffer_1[k+(1024+192)], qmf_c[k+576]);
#endif // #ifdef PREFER_POINTERS
}
/* update ringbuffer index */
qmfs->v_index -= 128;
if (qmfs->v_index < 0)
qmfs->v_index = (1280 - 128);
}
}
#endif
#endif
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