ref: 65f0f47558b878892b5e2b8b77bc3c4f958abbe0
dir: /amr-wb/agc2.c/
/*------------------------------------------------------------------------* * AGC2.C * *------------------------------------------------------------------------* * Performs adaptive gain control * *------------------------------------------------------------------------*/ #include <stdio.h> #include <stdlib.h> #include "cnst.h" #include "acelp.h" #include "typedef.h" #include "basic_op.h" #include "count.h" #include "math_op.h" void agc2( Word16 * sig_in, /* (i) : postfilter input signal */ Word16 * sig_out, /* (i/o) : postfilter output signal */ Word16 l_trm /* (i) : subframe size */ ) { Word16 i, exp; Word16 gain_in, gain_out, g0; Word32 s; Word16 temp; /* calculate gain_out with exponent */ temp = shr(sig_out[0], 2); s = L_mult(temp, temp); for (i = 1; i < l_trm; i++) { temp = shr(sig_out[i], 2); s = L_mac(s, temp, temp); } test(); if (s == 0) { return; } exp = sub(norm_l(s), 1); gain_out = roundL(L_shl(s, exp)); /* calculate gain_in with exponent */ temp = shr(sig_in[0], 2); s = L_mult(temp, temp); for (i = 1; i < l_trm; i++) { temp = shr(sig_in[i], 2); s = L_mac(s, temp, temp); } test(); if (s == 0) { g0 = 0; move16(); } else { i = norm_l(s); gain_in = roundL(L_shl(s, i)); exp = sub(exp, i); /*---------------------------------------------------* * g0 = sqrt(gain_in/gain_out); * *---------------------------------------------------*/ s = L_deposit_l(div_s(gain_out, gain_in)); s = L_shl(s, 7); /* s = gain_out / gain_in */ s = L_shr(s, exp); /* add exponent */ s = Isqrt(s); g0 = roundL(L_shl(s, 9)); } /* sig_out(n) = gain(n) sig_out(n) */ for (i = 0; i < l_trm; i++) { sig_out[i] = extract_h(L_shl(L_mult(sig_out[i], g0), 2)); move16(); } return; }