/* ** Copyright 2003-2010, VisualOn, Inc. ** ** Licensed under the Apache License, Version 2.0 (the "License"); ** you may not use this file except in compliance with the License. ** You may obtain a copy of the License at ** ** http://www.apache.org/licenses/LICENSE-2.0 ** ** Unless required by applicable law or agreed to in writing, software ** distributed under the License is distributed on an "AS IS" BASIS, ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. ** See the License for the specific language governing permissions and ** limitations under the License. */ /*********************************************************************** * File: pred_lt4.c * * * * Description: Compute the result of long term prediction with * * fractional interpolation of resolution 1/4 * * on return exc[0..L_subr-1] contains the interpolated signal * * (adaptive codebook excitation) * * * ************************************************************************/ #include "typedef.h" #include "basic_op.h" #define UP_SAMP 4 #define L_INTERPOL2 16 /* 1/4 resolution interpolation filter (-3 dB at 0.856*fs/2) in Q14 */ Word16 inter4_2[4][32] = { {0,-2,4,-2,-10,38,-88,165,-275,424,-619,871,-1207,1699,-2598,5531,14031,-2147,780,-249, -16,153,-213,226,-209,175,-133,91,-55,28,-10,2}, {1,-7,19,-33,47,-52,43,-9,-60,175,-355,626,-1044,1749,-3267,10359,10359,-3267,1749,-1044, 626,-355,175,-60,-9,43,-52,47,-33,19, -7, 1}, {2,-10,28,-55,91,-133,175,-209,226,-213,153,-16,-249,780,-2147,14031,5531,-2598,1699,-1207, 871,-619,424,-275,165,-88,38,-10,-2,4,-2,0}, {1,-7,22,-49,92,-153,231,-325,431,-544,656,-762,853,-923,968,15401,968,-923,853,-762, 656,-544,431,-325,231,-153,92,-49,22,-7, 1, 0} }; void Pred_lt4( Word16 exc[], /* in/out: excitation buffer */ Word16 T0, /* input : integer pitch lag */ Word16 frac, /* input : fraction of lag */ Word16 L_subfr /* input : subframe size */ ) { Word16 j, k, *x; Word32 L_sum; Word16 *ptr, *ptr1; Word16 *ptr2; x = exc - T0; frac = -frac; if (frac < 0) { frac += UP_SAMP; x--; } x -= 15; /* x = L_INTERPOL2 - 1 */ k = 3 - frac; /* k = UP_SAMP - 1 - frac */ ptr2 = &(inter4_2[k][0]); for (j = 0; j < L_subfr; j++) { ptr = ptr2; ptr1 = x; L_sum = vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum += vo_mult32((*ptr1++), (*ptr++)); L_sum = L_shl2(L_sum, 2); exc[j] = extract_h(L_add(L_sum, 0x8000)); x++; } return; }