ref: e80265f904b1e0e1b7f1abf37fa811aecf3aba36
dir: /amr-wb/qisf_ns.c/
/*-------------------------------------------------------------------* * QISF_NS.C * *-------------------------------------------------------------------* * * * Coding/Decoding of ISF parameters for background noise. * * * * The ISF vector is quantized using VQ with split-by-5 * *-------------------------------------------------------------------*/ #include "typedef.h" #include "basic_op.h" #include "acelp.h" #include "count.h" #include "qisf_ns.tab" /* Codebooks of ISFs */ /*------------------------------------------------------------------* * routine: Qisf_ns() * * ~~~~~~~~~ * *------------------------------------------------------------------*/ void Qisf_ns( Word16 * isf1, /* input : ISF in the frequency domain (0..0.5) */ Word16 * isf_q, /* output: quantized ISF */ Word16 * indice /* output: quantization indices */ ) { Word16 i; Word32 tmp; for (i = 0; i < ORDER; i++) { isf_q[i] = sub(isf1[i], mean_isf_noise[i]); move16(); } indice[0] = Sub_VQ(&isf_q[0], dico1_isf_noise, 2, SIZE_BK_NOISE1, &tmp); move16(); indice[1] = Sub_VQ(&isf_q[2], dico2_isf_noise, 3, SIZE_BK_NOISE2, &tmp); move16(); indice[2] = Sub_VQ(&isf_q[5], dico3_isf_noise, 3, SIZE_BK_NOISE3, &tmp); move16(); indice[3] = Sub_VQ(&isf_q[8], dico4_isf_noise, 4, SIZE_BK_NOISE4, &tmp); move16(); indice[4] = Sub_VQ(&isf_q[12], dico5_isf_noise, 4, SIZE_BK_NOISE5, &tmp); move16(); /* decoding the ISFs */ Disf_ns(indice, isf_q); return; } /*-------------------------------------------------------------------* * routine: Disf_ns() * * ~~~~~~~~~ * * Decoding of ISF parameters * *-------------------------------------------------------------------* * Arguments: * * indice[] : indices of the selected codebook entries * * isf[] : quantized ISFs (in frequency domain) * *-------------------------------------------------------------------*/ void Disf_ns( Word16 * indice, /* input: quantization indices */ Word16 * isf_q /* input : ISF in the frequency domain (0..0.5) */ ) { Word16 i; for (i = 0; i < 2; i++) { isf_q[i] = dico1_isf_noise[indice[0] * 2 + i]; move16(); } for (i = 0; i < 3; i++) { isf_q[i + 2] = dico2_isf_noise[indice[1] * 3 + i]; move16(); } for (i = 0; i < 3; i++) { isf_q[i + 5] = dico3_isf_noise[indice[2] * 3 + i]; move16(); } for (i = 0; i < 4; i++) { isf_q[i + 8] = dico4_isf_noise[indice[3] * 4 + i]; move16(); } for (i = 0; i < 4; i++) { isf_q[i + 12] = dico5_isf_noise[indice[4] * 4 + i]; move16(); } for (i = 0; i < ORDER; i++) { isf_q[i] = add(isf_q[i], mean_isf_noise[i]); move16(); } Reorder_isf(isf_q, ISF_GAP, ORDER); return; }