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diff --git a/!NotAdopted/Tlen/codec/gsm_short.c b/!NotAdopted/Tlen/codec/gsm_short.c
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+++ b/!NotAdopted/Tlen/codec/gsm_short.c
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+/*
+
+Tlen Protocol Plugin for Miranda IM
+Copyright (C) 2004-2007 Piotr Piastucki
+
+This program is based on GSM 06.10 source code developed by
+Jutta Degener and Carsten Bormann,
+Copyright 1992, 1993, 1994 by Jutta Degener and Carsten Bormann,
+Technische Universitaet Berlin
+
+This program is free software; you can redistribute it and/or
+modify it under the terms of the GNU General Public License
+as published by the Free Software Foundation; either version 2
+of the License, or (at your option) any later version.
+
+This program is distributed in the hope that it will be useful,
+but WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+GNU General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with this program; if not, write to the Free Software
+Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+
+*/
+#include "gsm.h"
+#include <math.h>
+#include <stdio.h>
+#include <stdlib.h>
+extern void lpcAnalysis(gsm_state *state, short *in);
+
+/*
+ * Dequantize LAR coefficients
+ */
+static void dequantizeLARs(int *qLARs, int *LARs)
+{
+ int dqA[]={13107, 13107, 13107, 13107, 19223, 17476, 31454, 29708};
+ int dqB[]={0, 0, 2048, -2560, 94, -1792, -341, -1144};
+ int dqMin[]={-32, -32, -16, -16, -8, -8, -4, -4};
+ int i;
+ for (i = 0; i < 8; i++) {
+ int temp;
+ temp = ((((qLARs[i] + dqMin[i]) << 10) - (dqB[i] << 1)) * dqA[i] + 16384) >> 15;
+ LARs[i] = temp + temp;
+ }
+}
+/*
+ * Interpolate LAR coefficients (samples 0..12)
+ */
+static void interpolateLARs_0_12 (int *LARpp_j_1, int *LARpp_j, int *LARp)
+{ int i;
+ for (i = 0; i < 8; i++) {
+ LARp[i] = (LARpp_j_1[i] >> 1) + (LARpp_j_1[i] >> 2) + (LARpp_j[i] >> 2);
+ }
+}
+/*
+ * Interpolate LAR coefficients (samples 13..26)
+ */
+static void interpolateLARs_13_26 (int *LARpp_j_1, int *LARpp_j, int *LARp)
+{ int i;
+ for (i = 0; i < 8; i++) {
+ LARp[i] = (LARpp_j_1[i] >> 1) + (LARpp_j[i] >> 1);
+ }
+}
+/*
+ * Interpolate LAR coefficients (samples 27..39)
+ */
+static void interpolateLARs_27_39 (int *LARpp_j_1, int *LARpp_j, int *LARp)
+{ int i;
+ for (i = 0; i < 8; i++) {
+ LARp[i] = (LARpp_j[i] >> 1) + (LARpp_j_1[i] >> 2) + (LARpp_j[i] >> 2);
+ }
+}
+/*
+ * Interpolate LAR coefficients (samples 40..159)
+ */
+static void interpolateLARs_40_159 (int *LARpp_j_1, int *LARpp_j, int *LARp)
+{ int i;
+ for (i = 0; i < 8; i++) {
+ LARp[i] = LARpp_j[i];
+ }
+}
+/*
+ * Convert LAR coefficients to reflection coefficients
+ */
+static void LARToR( int * LARp)
+{
+ int i;
+ int temp;
+ for (i = 0; i < 8; i++) {
+ temp = abs(LARp[i]);
+ if (temp < 11059) temp <<= 1;
+ else if (temp < 20070) temp += 11059;
+ else temp = (temp >> 2) + 26112;
+ LARp[i] = LARp[i] < 0 ? -temp : temp;
+ }
+}
+
+/*
+ * This procedure computes the short term residual signal d[..] to be fed
+ * to the RPE-LTP loop from the s[..] signal and from the local rp[..]
+ * array (quantized reflection coefficients). As the call of this
+ * procedure can be done in many ways (see the interpolation of the LAR
+ * coefficient), it is assumed that the computation begins with index
+ * k_start (for arrays d[..] and s[..]) and stops with index k_end
+ * (k_start and k_end are defined in 4.2.9.1). This procedure also
+ * needs to keep the array u[0..7] in memory for each call.
+ */
+static void shortTermAnalysisFilter (gsm_state * state, int * rp, int len, short * in)
+{
+ int * u = state->u;
+ int i;
+ int di, ui, sav, rpi;
+ for (; len--; in++) {
+ di = sav = *in;
+ for (i = 0; i < 8; i++) {
+ ui = u[i];
+ rpi = rp[i];
+ u[i] = sav;
+ sav = ui + ((rpi * di + 16384) >> 15);
+ di = di + ((rpi * ui + 16384) >> 15);
+ }
+ *in = di;
+ }
+}
+
+static void shortTermSynthesisFilter(gsm_state * state, int * rrp, int len, short * in, short *out)
+{
+ int * v = state->v;
+ int i;
+ int sri;
+ for (; len--; in++, out++) {
+ sri = *in;
+ for (i = 8; i--;) {
+ sri -= (rrp[i] * v[i] + 16384) >> 15;
+ if (sri < -32768) sri = -32768;
+ else if (sri > 32767) sri = 32767;
+ v[i+1] = v[i] + ((rrp[i] * sri + 16384) >> 15);
+ if (v[i+1] < -32768) v[i+1] = -32768;
+ else if (v[i+1] > 32767) v[i+1] = 32767;
+ }
+ *out = v[0] = sri;
+ }
+}
+
+void shortTermAnalysis(gsm_state *state, short *in)
+{
+ int * qLARs = state->qLARs;
+ int * LARpp_j = state->LARpp[state->j];
+ int * LARpp_j_1 = state->LARpp[state->j ^1];
+ int LARp[8];
+// int i;
+
+ lpcAnalysis(state, in);//i_samples);
+/*
+ printf("short term in: \n");
+ for (i=0;i<160;i++) {
+ printf("%7d ", in[i]);//((float)i_lpc[i])/32768.0f);
+ }
+ printf("\n");
+ */
+ dequantizeLARs(qLARs, LARpp_j);
+ interpolateLARs_0_12(LARpp_j_1, LARpp_j, LARp);
+ LARToR(LARp);
+ shortTermAnalysisFilter(state, LARp, 13, in);
+ interpolateLARs_13_26(LARpp_j_1, LARpp_j, LARp);
+ LARToR(LARp);
+ shortTermAnalysisFilter(state, LARp, 14, in+13);
+ interpolateLARs_27_39(LARpp_j_1, LARpp_j, LARp);
+ LARToR(LARp);
+ shortTermAnalysisFilter(state, LARp, 13, in+27);
+ interpolateLARs_40_159(LARpp_j_1, LARpp_j, LARp);
+ LARToR(LARp);
+ shortTermAnalysisFilter(state, LARp, 120, in+40);
+ /*
+ printf("short-term residuals: \n");
+ for (i=0;i<160;i++) {
+ printf("%7d ", in[i]);//((float)i_lpc[i])/32768.0f);
+ }
+ printf("\n");
+ */
+}
+
+void shortTermSynthesis(gsm_state *state, short *in, short *out)
+{
+ int * qLARs = state->qLARs;
+ int * LARpp_j = state->LARpp[state->j];
+ int * LARpp_j_1 = state->LARpp[state->j ^1];
+ int LARp[8];
+// int i;
+
+ dequantizeLARs(qLARs, LARpp_j);
+ interpolateLARs_0_12(LARpp_j_1, LARpp_j, LARp);
+ LARToR(LARp);
+ shortTermSynthesisFilter(state, LARp, 13, in, out);
+ interpolateLARs_13_26(LARpp_j_1, LARpp_j, LARp);
+ LARToR(LARp);
+ shortTermSynthesisFilter(state, LARp, 14, in+13, out+13);
+ interpolateLARs_27_39(LARpp_j_1, LARpp_j, LARp);
+ LARToR(LARp);
+ shortTermSynthesisFilter(state, LARp, 13, in+27, out+27);
+ interpolateLARs_40_159(LARpp_j_1, LARpp_j, LARp);
+ LARToR(LARp);
+ shortTermSynthesisFilter(state, LARp, 120, in+40, out+40);
+ /*
+ printf("samples[reconstructed]: \n");
+ for (i=0;i<160;i++) {
+ printf("%7d ", out[i]);
+ }
+ */
+}