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Copy pathSKP_Silk_find_LTP_FIX.go
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SKP_Silk_find_LTP_FIX.go
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package silk
import "unsafe"
const LTP_CORRS_HEAD_ROOM = 2
func SKP_Silk_find_LTP_FIX(b_Q14 [20]int16, WLTP [100]int32, LTPredCodGain_Q7 *int32, r_first []int16, r_last []int16, lag [4]int32, Wght_Q15 [4]int32, subfr_length int32, mem_offset int32, corr_rshifts [4]int32) {
var (
i int32
k int32
lshift int32
r_ptr []int16
lag_ptr *int16
b_Q14_ptr *int16
regu int32
WLTP_ptr []int32
b_Q16 [5]int32
delta_b_Q14 [5]int32
d_Q14 [4]int32
nrg [4]int32
g_Q26 int32
w [4]int32
WLTP_max int32
max_abs_d_Q14 int32
max_w_bits int32
temp32 int32
denom32 int32
extra_shifts int32
rr_shifts int32
maxRshifts int32
maxRshifts_wxtra int32
LZs int32
LPC_res_nrg int32
LPC_LTP_res_nrg int32
div_Q16 int32
Rr [5]int32
rr [4]int32
wd int32
m_Q12 int32
)
b_Q14_ptr = &b_Q14[0]
WLTP_ptr = ([]int32)(WLTP[:])
r_ptr = ([]int16)(&r_first[mem_offset])
for k = 0; k < NB_SUBFR; k++ {
if k == (NB_SUBFR >> 1) {
r_ptr = ([]int16)(&r_last[mem_offset])
}
lag_ptr = (*int16)(unsafe.Add(unsafe.Pointer(&r_ptr[0]), -int(unsafe.Sizeof(int16(0))*uintptr(lag[k]+LTP_ORDER/2))))
SKP_Silk_sum_sqr_shift(&rr[k], &rr_shifts, r_ptr, subfr_length)
LZs = SKP_Silk_CLZ32(rr[k])
if LZs < LTP_CORRS_HEAD_ROOM {
rr[k] = SKP_RSHIFT_ROUND(rr[k], LTP_CORRS_HEAD_ROOM-LZs)
rr_shifts += LTP_CORRS_HEAD_ROOM - LZs
}
corr_rshifts[k] = rr_shifts
SKP_Silk_corrMatrix_FIX(([]int16)(lag_ptr), subfr_length, LTP_ORDER, LTP_CORRS_HEAD_ROOM, &WLTP_ptr[0], &corr_rshifts[k])
SKP_Silk_corrVector_FIX(([]int16)(lag_ptr), r_ptr, subfr_length, LTP_ORDER, Rr[:], corr_rshifts[k])
if corr_rshifts[k] > rr_shifts {
rr[k] = (rr[k]) >> (corr_rshifts[k] - rr_shifts)
}
SKP_assert(rr[k] >= 0)
regu = 1
regu = SKP_SMLAWB(regu, rr[k], SKP_FIX_CONST(0.01/3, 16))
regu = SKP_SMLAWB(regu, WLTP_ptr[LTP_ORDER*0+0], SKP_FIX_CONST(0.01/3, 16))
regu = SKP_SMLAWB(regu, WLTP_ptr[(LTP_ORDER-1)*LTP_ORDER+(LTP_ORDER-1)], SKP_FIX_CONST(0.01/3, 16))
SKP_Silk_regularize_correlations_FIX(WLTP_ptr, ([]int32)(&rr[k]), regu, LTP_ORDER)
SKP_Silk_solve_LDL_FIX(&WLTP_ptr[0], LTP_ORDER, &Rr[0], &b_Q16[0])
SKP_Silk_fit_LTP(b_Q16[:], ([]int16)(b_Q14_ptr))
nrg[k] = SKP_Silk_residual_energy16_covar_FIX(b_Q14_ptr, &WLTP_ptr[0], &Rr[0], rr[k], LTP_ORDER, 14)
extra_shifts = SKP_min_int(corr_rshifts[k], LTP_CORRS_HEAD_ROOM)
denom32 = SKP_LSHIFT_SAT32(SKP_SMULWB(nrg[k], Wght_Q15[k]), extra_shifts+1) + (SKP_SMULWB(subfr_length, 655) >> (corr_rshifts[k] - extra_shifts))
if denom32 > 1 {
denom32 = denom32
} else {
denom32 = 1
}
SKP_assert((int64(Wght_Q15[k]) << 16) < SKP_int32_MAX)
temp32 = ((Wght_Q15[k]) << 16) / denom32
temp32 = temp32 >> (corr_rshifts[k] + 31 - extra_shifts - 26)
WLTP_max = 0
for i = 0; i < LTP_ORDER*LTP_ORDER; i++ {
if (WLTP_ptr[i]) > WLTP_max {
WLTP_max = WLTP_ptr[i]
} else {
WLTP_max = WLTP_max
}
}
lshift = SKP_Silk_CLZ32(WLTP_max) - 1 - 3
SKP_assert(lshift+(26-18) >= 0)
if lshift+(26-18) < 31 {
temp32 = SKP_min_32(temp32, 1<<(lshift+(26-18)))
}
SKP_Silk_scale_vector32_Q26_lshift_18(WLTP_ptr, temp32, LTP_ORDER*LTP_ORDER)
w[k] = WLTP_ptr[(LTP_ORDER>>1)*LTP_ORDER+(LTP_ORDER>>1)]
SKP_assert(w[k] >= 0)
r_ptr += ([]int16)(subfr_length)
b_Q14_ptr = (*int16)(unsafe.Add(unsafe.Pointer(b_Q14_ptr), unsafe.Sizeof(int16(0))*uintptr(LTP_ORDER)))
WLTP_ptr += LTP_ORDER * LTP_ORDER
}
maxRshifts = 0
for k = 0; k < NB_SUBFR; k++ {
maxRshifts = SKP_max_int(corr_rshifts[k], maxRshifts)
}
if LTPredCodGain_Q7 != nil {
LPC_LTP_res_nrg = 0
LPC_res_nrg = 0
SKP_assert(LTP_CORRS_HEAD_ROOM >= 2)
for k = 0; k < NB_SUBFR; k++ {
LPC_res_nrg = LPC_res_nrg + ((SKP_SMULWB(rr[k], Wght_Q15[k]) + 1) >> ((maxRshifts - corr_rshifts[k]) + 1))
LPC_LTP_res_nrg = LPC_LTP_res_nrg + ((SKP_SMULWB(nrg[k], Wght_Q15[k]) + 1) >> ((maxRshifts - corr_rshifts[k]) + 1))
}
if LPC_LTP_res_nrg > 1 {
LPC_LTP_res_nrg = LPC_LTP_res_nrg
} else {
LPC_LTP_res_nrg = 1
}
div_Q16 = SKP_DIV32_varQ(LPC_res_nrg, LPC_LTP_res_nrg, 16)
*LTPredCodGain_Q7 = SKP_SMULBB(3, SKP_Silk_lin2log(div_Q16)-(16<<7))
SKP_assert(*LTPredCodGain_Q7 == int32(SKP_SAT16((SKP_Silk_lin2log(div_Q16)-(16<<7))*3)))
}
b_Q14_ptr = &b_Q14[0]
for k = 0; k < NB_SUBFR; k++ {
d_Q14[k] = 0
for i = 0; i < LTP_ORDER; i++ {
d_Q14[k] += int32(*(*int16)(unsafe.Add(unsafe.Pointer(b_Q14_ptr), unsafe.Sizeof(int16(0))*uintptr(i))))
}
b_Q14_ptr = (*int16)(unsafe.Add(unsafe.Pointer(b_Q14_ptr), unsafe.Sizeof(int16(0))*uintptr(LTP_ORDER)))
}
max_abs_d_Q14 = 0
max_w_bits = 0
for k = 0; k < NB_SUBFR; k++ {
max_abs_d_Q14 = SKP_max_32(max_abs_d_Q14, int32(SKP_abs(int64(d_Q14[k]))))
max_w_bits = SKP_max_32(max_w_bits, 32-SKP_Silk_CLZ32(w[k])+corr_rshifts[k]-maxRshifts)
}
SKP_assert(max_abs_d_Q14 <= (5 << 15))
extra_shifts = max_w_bits + 32 - SKP_Silk_CLZ32(max_abs_d_Q14) - 14
extra_shifts -= maxRshifts + (32 - 1 - 2)
extra_shifts = SKP_max_int(extra_shifts, 0)
maxRshifts_wxtra = maxRshifts + extra_shifts
temp32 = (262 >> (maxRshifts + extra_shifts)) + 1
wd = 0
for k = 0; k < NB_SUBFR; k++ {
temp32 = temp32 + ((w[k]) >> (maxRshifts_wxtra - corr_rshifts[k]))
wd = wd + (SKP_SMULWW((w[k])>>(maxRshifts_wxtra-corr_rshifts[k]), d_Q14[k]) << 2)
}
m_Q12 = SKP_DIV32_varQ(wd, temp32, 12)
b_Q14_ptr = &b_Q14[0]
for k = 0; k < NB_SUBFR; k++ {
if 2-corr_rshifts[k] > 0 {
temp32 = (w[k]) >> (2 - corr_rshifts[k])
} else {
temp32 = SKP_LSHIFT_SAT32(w[k], corr_rshifts[k]-2)
}
g_Q26 = (SKP_FIX_CONST(0.1, 26) / ((SKP_FIX_CONST(0.1, 26) >> 10) + temp32)) * SKP_LSHIFT_SAT32(SKP_SUB_SAT32(m_Q12, (d_Q14[k])>>2), 4)
temp32 = 0
for i = 0; i < LTP_ORDER; i++ {
delta_b_Q14[i] = int32(SKP_max_16(*(*int16)(unsafe.Add(unsafe.Pointer(b_Q14_ptr), unsafe.Sizeof(int16(0))*uintptr(i))), 1638))
temp32 += delta_b_Q14[i]
}
temp32 = g_Q26 / temp32
for i = 0; i < LTP_ORDER; i++ {
*(*int16)(unsafe.Add(unsafe.Pointer(b_Q14_ptr), unsafe.Sizeof(int16(0))*uintptr(i))) = int16(SKP_LIMIT_32(int32(*(*int16)(unsafe.Add(unsafe.Pointer(b_Q14_ptr), unsafe.Sizeof(int16(0))*uintptr(i))))+SKP_SMULWB(SKP_LSHIFT_SAT32(temp32, 4), delta_b_Q14[i]), -16000, 28000))
}
b_Q14_ptr = (*int16)(unsafe.Add(unsafe.Pointer(b_Q14_ptr), unsafe.Sizeof(int16(0))*uintptr(LTP_ORDER)))
}
}
func SKP_Silk_fit_LTP(LTP_coefs_Q16 []int32, LTP_coefs_Q14 []int16) {
var i int32
for i = 0; i < LTP_ORDER; i++ {
LTP_coefs_Q14[i] = SKP_SAT16(SKP_RSHIFT_ROUND(LTP_coefs_Q16[i], 2))
}
}