ref: 81cae8475c46dd7e376efb542f97b52dc53c89fd
dir: /amr-wb/p_med_ol.c/
/*------------------------------------------------------------------------* * P_MED_OL.C * *------------------------------------------------------------------------* * Compute the open loop pitch lag. * *------------------------------------------------------------------------*/ #include "typedef.h" #include "basic_op.h" #include "acelp.h" #include "oper_32b.h" #include "count.h" #include "math_op.h" #include "p_med_ol.tab" Word16 Pitch_med_ol( /* output: open loop pitch lag */ Word16 wsp[], /* input : signal used to compute the open loop pitch */ /* wsp[-pit_max] to wsp[-1] should be known */ Word16 L_min, /* input : minimum pitch lag */ Word16 L_max, /* input : maximum pitch lag */ Word16 L_frame, /* input : length of frame to compute pitch */ Word16 L_0, /* input : old_ open-loop pitch */ Word16 * gain, /* output: normalize correlation of hp_wsp for the Lag */ Word16 * hp_wsp_mem, /* i:o : memory of the hypass filter for hp_wsp[] (lg=9) */ Word16 * old_hp_wsp, /* i:o : hypass wsp[] */ Word16 wght_flg /* input : is weighting function used */ ) { Word16 i, j, Tm; Word16 hi, lo; Word16 *ww, *we, *hp_wsp; Word16 exp_R0, exp_R1, exp_R2; Word32 max, R0, R1, R2; ww = &corrweight[198]; move16(); we = &corrweight[98 + L_max - L_0]; move16(); max = MIN_32; move32(); Tm = 0; move16(); for (i = L_max; i > L_min; i--) { /* Compute the correlation */ R0 = 0; move32(); for (j = 0; j < L_frame; j++) R0 = L_mac(R0, wsp[j], wsp[j - i]); /* Weighting of the correlation function. */ L_Extract(R0, &hi, &lo); R0 = Mpy_32_16(hi, lo, *ww); ww--; test(); test(); if ((L_0 > 0) && (wght_flg > 0)) { /* Weight the neighbourhood of the old lag. */ L_Extract(R0, &hi, &lo); R0 = Mpy_32_16(hi, lo, *we); we--; move16(); } test(); if (L_sub(R0, max) >= 0) { max = R0; move32(); Tm = i; move16(); } } /* Hypass the wsp[] vector */ hp_wsp = old_hp_wsp + L_max; move16(); Hp_wsp(wsp, hp_wsp, L_frame, hp_wsp_mem); /* Compute normalize correlation at delay Tm */ R0 = 0; move32(); R1 = 1L; move32(); R2 = 1L; move32(); for (j = 0; j < L_frame; j++) { R0 = L_mac(R0, hp_wsp[j], hp_wsp[j - Tm]); R1 = L_mac(R1, hp_wsp[j - Tm], hp_wsp[j - Tm]); R2 = L_mac(R2, hp_wsp[j], hp_wsp[j]); } /* gain = R0/ sqrt(R1*R2) */ exp_R0 = norm_l(R0); R0 = L_shl(R0, exp_R0); exp_R1 = norm_l(R1); R1 = L_shl(R1, exp_R1); exp_R2 = norm_l(R2); R2 = L_shl(R2, exp_R2); R1 = L_mult(round(R1), round(R2)); i = norm_l(R1); R1 = L_shl(R1, i); exp_R1 = add(exp_R1, exp_R2); exp_R1 = add(exp_R1, i); exp_R1 = sub(62, exp_R1); Isqrt_n(&R1, &exp_R1); R0 = L_mult(round(R0), round(R1)); exp_R0 = sub(31, exp_R0); exp_R0 = add(exp_R0, exp_R1); *gain = round(L_shl(R0, exp_R0)); move16(); /* Shitf hp_wsp[] for next frame */ for (i = 0; i < L_max; i++) { old_hp_wsp[i] = old_hp_wsp[i + L_frame]; move16(); } return (Tm); } /*____________________________________________________________________ | | | FUNCTION NAME median5 | | Returns the median of the set {X[-2], X[-1],..., X[2]}, | whose elements are 16-bit integers. | | INPUT | X[-2:2] 16-bit integers. | | RETURN VALUE | The median of {X[-2], X[-1],..., X[2]}. |_____________________________________________________________________ */ Word16 median5(Word16 x[]) { Word16 x1, x2, x3, x4, x5; Word16 tmp; x1 = x[-2]; move16(); x2 = x[-1]; move16(); x3 = x[0]; move16(); x4 = x[1]; move16(); x5 = x[2]; move16(); test();test();test();test();test();test();test();test();test(); if (sub(x2, x1) < 0) { tmp = x1; x1 = x2; x2 = tmp; move16();move16();move16(); } if (sub(x3, x1) < 0) { tmp = x1; x1 = x3; x3 = tmp; move16();move16();move16(); } if (sub(x4, x1) < 0) { tmp = x1; x1 = x4; x4 = tmp; move16();move16();move16(); } if (sub(x5, x1) < 0) { x5 = x1; move16(); } if (sub(x3, x2) < 0) { tmp = x2; x2 = x3; x3 = tmp; move16();move16();move16(); } if (sub(x4, x2) < 0) { tmp = x2; x2 = x4; x4 = tmp; move16();move16();move16(); } if (sub(x5, x2) < 0) { x5 = x2; move16(); } if (sub(x4, x3) < 0) { x3 = x4; move16(); } if (sub(x5, x3) < 0) { x3 = x5; move16(); } return (x3); } /*____________________________________________________________________ | | | FUNCTION NAME med_olag | | |_____________________________________________________________________ */ Word16 Med_olag( /* output : median of 5 previous open-loop lags */ Word16 prev_ol_lag, /* input : previous open-loop lag */ Word16 old_ol_lag[5] ) { Word16 i; /* Use median of 5 previous open-loop lags as old lag */ for (i = 4; i > 0; i--) { old_ol_lag[i] = old_ol_lag[i - 1]; move16(); } old_ol_lag[0] = prev_ol_lag; move16(); i = median5(&old_ol_lag[2]); return i; }