2 * 11/19/04 1.0 moved to LGPL.
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4 * 04/01/00 Fixes for running under build 23xx Microsoft JVM. mdm.
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6 * 19/12/99 Performance improvements to compute_pcm_samples().
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7 * Mat McGowan. mdm@techie.com.
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9 * 16/02/99 Java Conversion by E.B , javalayer@javazoom.net
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11 * @(#) synthesis_filter.h 1.8, last edit: 6/15/94 16:52:00
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12 * @(#) Copyright (C) 1993, 1994 Tobias Bading (bading@cs.tu-berlin.de)
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13 * @(#) Berlin University of Technology
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15 *-----------------------------------------------------------------------
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16 * This program is free software; you can redistribute it and/or modify
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17 * it under the terms of the GNU Library General Public License as published
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18 * by the Free Software Foundation; either version 2 of the License, or
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19 * (at your option) any later version.
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21 * This program is distributed in the hope that it will be useful,
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22 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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23 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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24 * GNU Library General Public License for more details.
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26 * You should have received a copy of the GNU Library General Public
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27 * License along with this program; if not, write to the Free Software
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28 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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29 *----------------------------------------------------------------------
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33 * A class for the synthesis filter bank. This class does a fast downsampling
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34 * from 32, 44.1 or 48 kHz to 8 kHz, if ULAW is defined. Frequencies above 4 kHz
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35 * are removed by ignoring higher subbands.
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37 @LATTICE("OUT<V1,V1<V,V<NEWV,NEWV<SAMPLE,SAMPLE<EQ,EQ<IDX,NEWV*,IDX*")
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38 @METHODDEFAULT("OUT<THIS,THIS<C,C<IN,C*,THISLOC=THIS,GLOBALLOC=THIS")
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39 final class SynthesisFilter {
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47 // private float[] actual_v; // v1 or v2
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49 private int actual_write_pos; // 0-15
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51 private float[] samples; // 32 new subband samples
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53 public final int channel;
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55 public final float scalefactor;
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60 * Quality value for controlling CPU usage/quality tradeoff.
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63 * private int quality;
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65 * private int v_inc;
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69 * public static final int HIGH_QUALITY = 1; public static final int
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70 * MEDIUM_QUALITY = 2; public static final int LOW_QUALITY = 4;
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74 * Contructor. The scalefactor scales the calculated float pcm samples to
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75 * short values (raw pcm samples are in [-1.0, 1.0], if no violations occur).
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77 public SynthesisFilter(int channelnumber, float factor, float[] eq0) {
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80 d16 = splitArray(d, 16);
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82 v1 = new float[512];
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83 v2 = new float[512];
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84 samples = new float[32];
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85 channel = channelnumber;
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86 scalefactor = factor;
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88 // setQuality(HIGH_QUALITY);
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92 for (int i = 0; i < 32; i++)
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95 if (eq.length < 32) {
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96 throw new IllegalArgumentException("eq0");
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101 for (int p = 0; p < 512; p++)
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102 v1[p] = v2[p] = 0.0f;
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104 for (int p2 = 0; p2 < 32; p2++)
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105 samples[p2] = 0.0f;
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108 actual_write_pos = 15;
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113 * private void setQuality(int quality0) { switch (quality0) { case
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114 * HIGH_QUALITY: case MEDIUM_QUALITY: case LOW_QUALITY: v_inc = 16 * quality0;
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115 * quality = quality0; break; default : throw new
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116 * IllegalArgumentException("Unknown quality value"); } }
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118 * public int getQuality() { return quality; }
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124 public void input_sample(@LOC("IN") float sample, @LOC("IN") int subbandnumber) {
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125 samples[subbandnumber] = eq[subbandnumber] * sample;
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128 public void input_samples(@LOC("IN") float[] s) {
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129 TERMINATE: for (@LOC("C") int i = 31; i >= 0; i--) {
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130 samples[i] = s[i] * eq[i];
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134 private void compute_new_v2_v1() {
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136 @LOC("THIS,SynthesisFilter.NEWV") float new_v0 = 0.0f;
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137 @LOC("THIS,SynthesisFilter.NEWV") float new_v1 = 0.0f;
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138 @LOC("THIS,SynthesisFilter.NEWV") float new_v2 = 0.0f;
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139 @LOC("THIS,SynthesisFilter.NEWV") float new_v3 = 0.0f;
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140 @LOC("THIS,SynthesisFilter.NEWV") float new_v4 = 0.0f;
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141 @LOC("THIS,SynthesisFilter.NEWV") float new_v5 = 0.0f;
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142 @LOC("THIS,SynthesisFilter.NEWV") float new_v6 = 0.0f;
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143 @LOC("THIS,SynthesisFilter.NEWV") float new_v7 = 0.0f;
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144 @LOC("THIS,SynthesisFilter.NEWV") float new_v8 = 0.0f;
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145 @LOC("THIS,SynthesisFilter.NEWV") float new_v9 = 0.0f;
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146 @LOC("THIS,SynthesisFilter.NEWV") float new_v10 = 0.0f;
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147 @LOC("THIS,SynthesisFilter.NEWV") float new_v11 = 0.0f;
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148 @LOC("THIS,SynthesisFilter.NEWV") float new_v12 = 0.0f;
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149 @LOC("THIS,SynthesisFilter.NEWV") float new_v13 = 0.0f;
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150 @LOC("THIS,SynthesisFilter.NEWV") float new_v14 = 0.0f;
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151 @LOC("THIS,SynthesisFilter.NEWV") float new_v15 = 0.0f;
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152 @LOC("THIS,SynthesisFilter.NEWV") float new_v16 = 0.0f;
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153 @LOC("THIS,SynthesisFilter.NEWV") float new_v17 = 0.0f;
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154 @LOC("THIS,SynthesisFilter.NEWV") float new_v18 = 0.0f;
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155 @LOC("THIS,SynthesisFilter.NEWV") float new_v19 = 0.0f;
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156 @LOC("THIS,SynthesisFilter.NEWV") float new_v20 = 0.0f;
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157 @LOC("THIS,SynthesisFilter.NEWV") float new_v21 = 0.0f;
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158 @LOC("THIS,SynthesisFilter.NEWV") float new_v22 = 0.0f;
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159 @LOC("THIS,SynthesisFilter.NEWV") float new_v23 = 0.0f;
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160 @LOC("THIS,SynthesisFilter.NEWV") float new_v24 = 0.0f;
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161 @LOC("THIS,SynthesisFilter.NEWV") float new_v25 = 0.0f;
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162 @LOC("THIS,SynthesisFilter.NEWV") float new_v26 = 0.0f;
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163 @LOC("THIS,SynthesisFilter.NEWV") float new_v27 = 0.0f;
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164 @LOC("THIS,SynthesisFilter.NEWV") float new_v28 = 0.0f;
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165 @LOC("THIS,SynthesisFilter.NEWV") float new_v29 = 0.0f;
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166 @LOC("THIS,SynthesisFilter.NEWV") float new_v30 = 0.0f;
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167 @LOC("THIS,SynthesisFilter.NEWV") float new_v31 = 0.0f;
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169 // float[] new_v = new float[32]; // new V[0-15] and V[33-48] of Figure
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170 // 3-A.2 in ISO DIS 11172-3
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171 // float[] p = new float[16];
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172 // float[] pp = new float[16];
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174 // float[] s = samples;
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176 @LOC("THIS,SynthesisFilter.NEWV") float s0 = samples[0];
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177 @LOC("THIS,SynthesisFilter.NEWV") float s1 = samples[1];
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178 @LOC("THIS,SynthesisFilter.NEWV") float s2 = samples[2];
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179 @LOC("THIS,SynthesisFilter.NEWV") float s3 = samples[3];
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180 @LOC("THIS,SynthesisFilter.NEWV") float s4 = samples[4];
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181 @LOC("THIS,SynthesisFilter.NEWV") float s5 = samples[5];
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182 @LOC("THIS,SynthesisFilter.NEWV") float s6 = samples[6];
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183 @LOC("THIS,SynthesisFilter.NEWV") float s7 = samples[7];
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184 @LOC("THIS,SynthesisFilter.NEWV") float s8 = samples[8];
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185 @LOC("THIS,SynthesisFilter.NEWV") float s9 = samples[9];
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186 @LOC("THIS,SynthesisFilter.NEWV") float s10 = samples[10];
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187 @LOC("THIS,SynthesisFilter.NEWV") float s11 = samples[11];
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188 @LOC("THIS,SynthesisFilter.NEWV") float s12 = samples[12];
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189 @LOC("THIS,SynthesisFilter.NEWV") float s13 = samples[13];
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190 @LOC("THIS,SynthesisFilter.NEWV") float s14 = samples[14];
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191 @LOC("THIS,SynthesisFilter.NEWV") float s15 = samples[15];
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192 @LOC("THIS,SynthesisFilter.NEWV") float s16 = samples[16];
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193 @LOC("THIS,SynthesisFilter.NEWV") float s17 = samples[17];
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194 @LOC("THIS,SynthesisFilter.NEWV") float s18 = samples[18];
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195 @LOC("THIS,SynthesisFilter.NEWV") float s19 = samples[19];
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196 @LOC("THIS,SynthesisFilter.NEWV") float s20 = samples[20];
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197 @LOC("THIS,SynthesisFilter.NEWV") float s21 = samples[21];
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198 @LOC("THIS,SynthesisFilter.NEWV") float s22 = samples[22];
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199 @LOC("THIS,SynthesisFilter.NEWV") float s23 = samples[23];
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200 @LOC("THIS,SynthesisFilter.NEWV") float s24 = samples[24];
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201 @LOC("THIS,SynthesisFilter.NEWV") float s25 = samples[25];
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202 @LOC("THIS,SynthesisFilter.NEWV") float s26 = samples[26];
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203 @LOC("THIS,SynthesisFilter.NEWV") float s27 = samples[27];
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204 @LOC("THIS,SynthesisFilter.NEWV") float s28 = samples[28];
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205 @LOC("THIS,SynthesisFilter.NEWV") float s29 = samples[29];
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206 @LOC("THIS,SynthesisFilter.NEWV") float s30 = samples[30];
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207 @LOC("THIS,SynthesisFilter.NEWV") float s31 = samples[31];
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209 @LOC("THIS,SynthesisFilter.NEWV") float p0 = s0 + s31;
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210 @LOC("THIS,SynthesisFilter.NEWV") float p1 = s1 + s30;
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211 @LOC("THIS,SynthesisFilter.NEWV") float p2 = s2 + s29;
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212 @LOC("THIS,SynthesisFilter.NEWV") float p3 = s3 + s28;
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213 @LOC("THIS,SynthesisFilter.NEWV") float p4 = s4 + s27;
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214 @LOC("THIS,SynthesisFilter.NEWV") float p5 = s5 + s26;
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215 @LOC("THIS,SynthesisFilter.NEWV") float p6 = s6 + s25;
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216 @LOC("THIS,SynthesisFilter.NEWV") float p7 = s7 + s24;
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217 @LOC("THIS,SynthesisFilter.NEWV") float p8 = s8 + s23;
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218 @LOC("THIS,SynthesisFilter.NEWV") float p9 = s9 + s22;
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219 @LOC("THIS,SynthesisFilter.NEWV") float p10 = s10 + s21;
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220 @LOC("THIS,SynthesisFilter.NEWV") float p11 = s11 + s20;
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221 @LOC("THIS,SynthesisFilter.NEWV") float p12 = s12 + s19;
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222 @LOC("THIS,SynthesisFilter.NEWV") float p13 = s13 + s18;
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223 @LOC("THIS,SynthesisFilter.NEWV") float p14 = s14 + s17;
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224 @LOC("THIS,SynthesisFilter.NEWV") float p15 = s15 + s16;
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226 @LOC("THIS,SynthesisFilter.NEWV") float pp0 = p0 + p15;
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227 @LOC("THIS,SynthesisFilter.NEWV") float pp1 = p1 + p14;
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228 @LOC("THIS,SynthesisFilter.NEWV") float pp2 = p2 + p13;
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229 @LOC("THIS,SynthesisFilter.NEWV") float pp3 = p3 + p12;
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230 @LOC("THIS,SynthesisFilter.NEWV") float pp4 = p4 + p11;
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231 @LOC("THIS,SynthesisFilter.NEWV") float pp5 = p5 + p10;
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232 @LOC("THIS,SynthesisFilter.NEWV") float pp6 = p6 + p9;
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233 @LOC("THIS,SynthesisFilter.NEWV") float pp7 = p7 + p8;
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234 @LOC("THIS,SynthesisFilter.NEWV") float pp8 = (p0 - p15) * cos1_32;
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235 @LOC("THIS,SynthesisFilter.NEWV") float pp9 = (p1 - p14) * cos3_32;
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236 @LOC("THIS,SynthesisFilter.NEWV") float pp10 = (p2 - p13) * cos5_32;
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237 @LOC("THIS,SynthesisFilter.NEWV") float pp11 = (p3 - p12) * cos7_32;
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238 @LOC("THIS,SynthesisFilter.NEWV") float pp12 = (p4 - p11) * cos9_32;
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239 @LOC("THIS,SynthesisFilter.NEWV") float pp13 = (p5 - p10) * cos11_32;
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240 @LOC("THIS,SynthesisFilter.NEWV") float pp14 = (p6 - p9) * cos13_32;
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241 @LOC("THIS,SynthesisFilter.NEWV") float pp15 = (p7 - p8) * cos15_32;
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247 p4 = (pp0 - pp7) * cos1_16;
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248 p5 = (pp1 - pp6) * cos3_16;
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249 p6 = (pp2 - pp5) * cos5_16;
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250 p7 = (pp3 - pp4) * cos7_16;
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255 p12 = (pp8 - pp15) * cos1_16;
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256 p13 = (pp9 - pp14) * cos3_16;
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257 p14 = (pp10 - pp13) * cos5_16;
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258 p15 = (pp11 - pp12) * cos7_16;
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262 pp2 = (p0 - p3) * cos1_8;
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263 pp3 = (p1 - p2) * cos3_8;
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266 pp6 = (p4 - p7) * cos1_8;
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267 pp7 = (p5 - p6) * cos3_8;
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270 pp10 = (p8 - p11) * cos1_8;
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271 pp11 = (p9 - p10) * cos3_8;
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274 pp14 = (p12 - p15) * cos1_8;
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275 pp15 = (p13 - p14) * cos3_8;
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278 p1 = (pp0 - pp1) * cos1_4;
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280 p3 = (pp2 - pp3) * cos1_4;
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282 p5 = (pp4 - pp5) * cos1_4;
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284 p7 = (pp6 - pp7) * cos1_4;
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286 p9 = (pp8 - pp9) * cos1_4;
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288 p11 = (pp10 - pp11) * cos1_4;
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290 p13 = (pp12 - pp13) * cos1_4;
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292 p15 = (pp14 - pp15) * cos1_4;
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294 // this is pretty insane coding
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295 @LOC("THIS,SynthesisFilter.NEWV") float tmp1;
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296 new_v19/* 36-17 */= -(new_v4 = (new_v12 = p7) + p5) - p6;
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297 new_v27/* 44-17 */= -p6 - p7 - p4;
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298 new_v6 = (new_v10 = (new_v14 = p15) + p11) + p13;
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299 new_v17/* 34-17 */= -(new_v2 = p15 + p13 + p9) - p14;
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300 new_v21/* 38-17 */= (tmp1 = -p14 - p15 - p10 - p11) - p13;
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301 new_v29/* 46-17 */= -p14 - p15 - p12 - p8;
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302 new_v25/* 42-17 */= tmp1 - p12;
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303 new_v31/* 48-17 */= -p0;
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305 new_v23/* 40-17 */= -(new_v8 = p3) - p2;
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307 p0 = (s0 - s31) * cos1_64;
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308 p1 = (s1 - s30) * cos3_64;
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309 p2 = (s2 - s29) * cos5_64;
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310 p3 = (s3 - s28) * cos7_64;
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311 p4 = (s4 - s27) * cos9_64;
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312 p5 = (s5 - s26) * cos11_64;
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313 p6 = (s6 - s25) * cos13_64;
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314 p7 = (s7 - s24) * cos15_64;
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315 p8 = (s8 - s23) * cos17_64;
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316 p9 = (s9 - s22) * cos19_64;
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317 p10 = (s10 - s21) * cos21_64;
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318 p11 = (s11 - s20) * cos23_64;
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319 p12 = (s12 - s19) * cos25_64;
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320 p13 = (s13 - s18) * cos27_64;
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321 p14 = (s14 - s17) * cos29_64;
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322 p15 = (s15 - s16) * cos31_64;
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332 pp8 = (p0 - p15) * cos1_32;
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333 pp9 = (p1 - p14) * cos3_32;
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334 pp10 = (p2 - p13) * cos5_32;
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335 pp11 = (p3 - p12) * cos7_32;
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336 pp12 = (p4 - p11) * cos9_32;
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337 pp13 = (p5 - p10) * cos11_32;
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338 pp14 = (p6 - p9) * cos13_32;
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339 pp15 = (p7 - p8) * cos15_32;
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345 p4 = (pp0 - pp7) * cos1_16;
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346 p5 = (pp1 - pp6) * cos3_16;
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347 p6 = (pp2 - pp5) * cos5_16;
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348 p7 = (pp3 - pp4) * cos7_16;
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353 p12 = (pp8 - pp15) * cos1_16;
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354 p13 = (pp9 - pp14) * cos3_16;
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355 p14 = (pp10 - pp13) * cos5_16;
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356 p15 = (pp11 - pp12) * cos7_16;
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360 pp2 = (p0 - p3) * cos1_8;
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361 pp3 = (p1 - p2) * cos3_8;
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364 pp6 = (p4 - p7) * cos1_8;
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365 pp7 = (p5 - p6) * cos3_8;
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368 pp10 = (p8 - p11) * cos1_8;
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369 pp11 = (p9 - p10) * cos3_8;
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372 pp14 = (p12 - p15) * cos1_8;
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373 pp15 = (p13 - p14) * cos3_8;
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376 p1 = (pp0 - pp1) * cos1_4;
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378 p3 = (pp2 - pp3) * cos1_4;
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380 p5 = (pp4 - pp5) * cos1_4;
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382 p7 = (pp6 - pp7) * cos1_4;
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384 p9 = (pp8 - pp9) * cos1_4;
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386 p11 = (pp10 - pp11) * cos1_4;
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388 p13 = (pp12 - pp13) * cos1_4;
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390 p15 = (pp14 - pp15) * cos1_4;
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392 // manually doing something that a compiler should handle sucks
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393 // coding like this is hard to read
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394 @LOC("THIS,SynthesisFilter.NEWV") float tmp2;
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395 new_v5 = (new_v11 = (new_v13 = (new_v15 = p15) + p7) + p11) + p5 + p13;
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396 new_v7 = (new_v9 = p15 + p11 + p3) + p13;
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397 new_v16/* 33-17 */= -(new_v1 = (tmp1 = p13 + p15 + p9) + p1) - p14;
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398 new_v18/* 35-17 */= -(new_v3 = tmp1 + p5 + p7) - p6 - p14;
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400 new_v22/* 39-17 */= (tmp1 = -p10 - p11 - p14 - p15) - p13 - p2 - p3;
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401 new_v20/* 37-17 */= tmp1 - p13 - p5 - p6 - p7;
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402 new_v24/* 41-17 */= tmp1 - p12 - p2 - p3;
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403 new_v26/* 43-17 */= tmp1 - p12 - (tmp2 = p4 + p6 + p7);
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404 new_v30/* 47-17 */= (tmp1 = -p8 - p12 - p14 - p15) - p0;
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405 new_v28/* 45-17 */= tmp1 - tmp2;
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407 // insert V[0-15] (== new_v[0-15]) into actual v:
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408 // float[] x2 = actual_v + actual_write_pos;
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409 // float dest[] = actual_v; v2
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411 @LOC("THIS,SynthesisFilter.NEWV") int pos = actual_write_pos;
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413 v2[0 + pos] = new_v0;
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414 v2[16 + pos] = new_v1;
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415 v2[32 + pos] = new_v2;
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416 v2[48 + pos] = new_v3;
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417 v2[64 + pos] = new_v4;
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418 v2[80 + pos] = new_v5;
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419 v2[96 + pos] = new_v6;
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420 v2[112 + pos] = new_v7;
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421 v2[128 + pos] = new_v8;
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422 v2[144 + pos] = new_v9;
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423 v2[160 + pos] = new_v10;
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424 v2[176 + pos] = new_v11;
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425 v2[192 + pos] = new_v12;
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426 v2[208 + pos] = new_v13;
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427 v2[224 + pos] = new_v14;
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428 v2[240 + pos] = new_v15;
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430 // V[16] is always 0.0:
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431 v2[256 + pos] = 0.0f;
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433 // insert V[17-31] (== -new_v[15-1]) into actual v:
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434 v2[272 + pos] = -new_v15;
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435 v2[288 + pos] = -new_v14;
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436 v2[304 + pos] = -new_v13;
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437 v2[320 + pos] = -new_v12;
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438 v2[336 + pos] = -new_v11;
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439 v2[352 + pos] = -new_v10;
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440 v2[368 + pos] = -new_v9;
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441 v2[384 + pos] = -new_v8;
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442 v2[400 + pos] = -new_v7;
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443 v2[416 + pos] = -new_v6;
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444 v2[432 + pos] = -new_v5;
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445 v2[448 + pos] = -new_v4;
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446 v2[464 + pos] = -new_v3;
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447 v2[480 + pos] = -new_v2;
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448 v2[496 + pos] = -new_v1;
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450 // insert V[32] (== -new_v[0]) into other v:
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451 // dest = (actual_v == v1) ? v2 : v1;
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453 v1[0 + pos] = -new_v0;
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454 // insert V[33-48] (== new_v[16-31]) into other v:
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455 v1[16 + pos] = new_v16;
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456 v1[32 + pos] = new_v17;
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457 v1[48 + pos] = new_v18;
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458 v1[64 + pos] = new_v19;
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459 v1[80 + pos] = new_v20;
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460 v1[96 + pos] = new_v21;
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461 v1[112 + pos] = new_v22;
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462 v1[128 + pos] = new_v23;
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463 v1[144 + pos] = new_v24;
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464 v1[160 + pos] = new_v25;
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465 v1[176 + pos] = new_v26;
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466 v1[192 + pos] = new_v27;
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467 v1[208 + pos] = new_v28;
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468 v1[224 + pos] = new_v29;
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469 v1[240 + pos] = new_v30;
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470 v1[256 + pos] = new_v31;
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472 // insert V[49-63] (== new_v[30-16]) into other v:
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473 v1[272 + pos] = new_v30;
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474 v1[288 + pos] = new_v29;
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475 v1[304 + pos] = new_v28;
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476 v1[320 + pos] = new_v27;
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477 v1[336 + pos] = new_v26;
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478 v1[352 + pos] = new_v25;
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479 v1[368 + pos] = new_v24;
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480 v1[384 + pos] = new_v23;
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481 v1[400 + pos] = new_v22;
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482 v1[416 + pos] = new_v21;
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483 v1[432 + pos] = new_v20;
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484 v1[448 + pos] = new_v19;
\r
485 v1[464 + pos] = new_v18;
\r
486 v1[480 + pos] = new_v17;
\r
487 v1[496 + pos] = new_v16;
\r
490 private void compute_new_v1_v2() {
\r
492 @LOC("THIS,SynthesisFilter.NEWV") float new_v0 = 0.0f;
\r
493 @LOC("THIS,SynthesisFilter.NEWV") float new_v1 = 0.0f;
\r
494 @LOC("THIS,SynthesisFilter.NEWV") float new_v2 = 0.0f;
\r
495 @LOC("THIS,SynthesisFilter.NEWV") float new_v3 = 0.0f;
\r
496 @LOC("THIS,SynthesisFilter.NEWV") float new_v4 = 0.0f;
\r
497 @LOC("THIS,SynthesisFilter.NEWV") float new_v5 = 0.0f;
\r
498 @LOC("THIS,SynthesisFilter.NEWV") float new_v6 = 0.0f;
\r
499 @LOC("THIS,SynthesisFilter.NEWV") float new_v7 = 0.0f;
\r
500 @LOC("THIS,SynthesisFilter.NEWV") float new_v8 = 0.0f;
\r
501 @LOC("THIS,SynthesisFilter.NEWV") float new_v9 = 0.0f;
\r
502 @LOC("THIS,SynthesisFilter.NEWV") float new_v10 = 0.0f;
\r
503 @LOC("THIS,SynthesisFilter.NEWV") float new_v11 = 0.0f;
\r
504 @LOC("THIS,SynthesisFilter.NEWV") float new_v12 = 0.0f;
\r
505 @LOC("THIS,SynthesisFilter.NEWV") float new_v13 = 0.0f;
\r
506 @LOC("THIS,SynthesisFilter.NEWV") float new_v14 = 0.0f;
\r
507 @LOC("THIS,SynthesisFilter.NEWV") float new_v15 = 0.0f;
\r
508 @LOC("THIS,SynthesisFilter.NEWV") float new_v16 = 0.0f;
\r
509 @LOC("THIS,SynthesisFilter.NEWV") float new_v17 = 0.0f;
\r
510 @LOC("THIS,SynthesisFilter.NEWV") float new_v18 = 0.0f;
\r
511 @LOC("THIS,SynthesisFilter.NEWV") float new_v19 = 0.0f;
\r
512 @LOC("THIS,SynthesisFilter.NEWV") float new_v20 = 0.0f;
\r
513 @LOC("THIS,SynthesisFilter.NEWV") float new_v21 = 0.0f;
\r
514 @LOC("THIS,SynthesisFilter.NEWV") float new_v22 = 0.0f;
\r
515 @LOC("THIS,SynthesisFilter.NEWV") float new_v23 = 0.0f;
\r
516 @LOC("THIS,SynthesisFilter.NEWV") float new_v24 = 0.0f;
\r
517 @LOC("THIS,SynthesisFilter.NEWV") float new_v25 = 0.0f;
\r
518 @LOC("THIS,SynthesisFilter.NEWV") float new_v26 = 0.0f;
\r
519 @LOC("THIS,SynthesisFilter.NEWV") float new_v27 = 0.0f;
\r
520 @LOC("THIS,SynthesisFilter.NEWV") float new_v28 = 0.0f;
\r
521 @LOC("THIS,SynthesisFilter.NEWV") float new_v29 = 0.0f;
\r
522 @LOC("THIS,SynthesisFilter.NEWV") float new_v30 = 0.0f;
\r
523 @LOC("THIS,SynthesisFilter.NEWV") float new_v31 = 0.0f;
\r
525 // float[] new_v = new float[32]; // new V[0-15] and V[33-48] of Figure
\r
526 // 3-A.2 in ISO DIS 11172-3
\r
527 // float[] p = new float[16];
\r
528 // float[] pp = new float[16];
\r
530 // float[] s = samples;
\r
532 @LOC("THIS,SynthesisFilter.NEWV") float s0 = samples[0];
\r
533 @LOC("THIS,SynthesisFilter.NEWV") float s1 = samples[1];
\r
534 @LOC("THIS,SynthesisFilter.NEWV") float s2 = samples[2];
\r
535 @LOC("THIS,SynthesisFilter.NEWV") float s3 = samples[3];
\r
536 @LOC("THIS,SynthesisFilter.NEWV") float s4 = samples[4];
\r
537 @LOC("THIS,SynthesisFilter.NEWV") float s5 = samples[5];
\r
538 @LOC("THIS,SynthesisFilter.NEWV") float s6 = samples[6];
\r
539 @LOC("THIS,SynthesisFilter.NEWV") float s7 = samples[7];
\r
540 @LOC("THIS,SynthesisFilter.NEWV") float s8 = samples[8];
\r
541 @LOC("THIS,SynthesisFilter.NEWV") float s9 = samples[9];
\r
542 @LOC("THIS,SynthesisFilter.NEWV") float s10 = samples[10];
\r
543 @LOC("THIS,SynthesisFilter.NEWV") float s11 = samples[11];
\r
544 @LOC("THIS,SynthesisFilter.NEWV") float s12 = samples[12];
\r
545 @LOC("THIS,SynthesisFilter.NEWV") float s13 = samples[13];
\r
546 @LOC("THIS,SynthesisFilter.NEWV") float s14 = samples[14];
\r
547 @LOC("THIS,SynthesisFilter.NEWV") float s15 = samples[15];
\r
548 @LOC("THIS,SynthesisFilter.NEWV") float s16 = samples[16];
\r
549 @LOC("THIS,SynthesisFilter.NEWV") float s17 = samples[17];
\r
550 @LOC("THIS,SynthesisFilter.NEWV") float s18 = samples[18];
\r
551 @LOC("THIS,SynthesisFilter.NEWV") float s19 = samples[19];
\r
552 @LOC("THIS,SynthesisFilter.NEWV") float s20 = samples[20];
\r
553 @LOC("THIS,SynthesisFilter.NEWV") float s21 = samples[21];
\r
554 @LOC("THIS,SynthesisFilter.NEWV") float s22 = samples[22];
\r
555 @LOC("THIS,SynthesisFilter.NEWV") float s23 = samples[23];
\r
556 @LOC("THIS,SynthesisFilter.NEWV") float s24 = samples[24];
\r
557 @LOC("THIS,SynthesisFilter.NEWV") float s25 = samples[25];
\r
558 @LOC("THIS,SynthesisFilter.NEWV") float s26 = samples[26];
\r
559 @LOC("THIS,SynthesisFilter.NEWV") float s27 = samples[27];
\r
560 @LOC("THIS,SynthesisFilter.NEWV") float s28 = samples[28];
\r
561 @LOC("THIS,SynthesisFilter.NEWV") float s29 = samples[29];
\r
562 @LOC("THIS,SynthesisFilter.NEWV") float s30 = samples[30];
\r
563 @LOC("THIS,SynthesisFilter.NEWV") float s31 = samples[31];
\r
565 @LOC("THIS,SynthesisFilter.NEWV") float p0 = s0 + s31;
\r
566 @LOC("THIS,SynthesisFilter.NEWV") float p1 = s1 + s30;
\r
567 @LOC("THIS,SynthesisFilter.NEWV") float p2 = s2 + s29;
\r
568 @LOC("THIS,SynthesisFilter.NEWV") float p3 = s3 + s28;
\r
569 @LOC("THIS,SynthesisFilter.NEWV") float p4 = s4 + s27;
\r
570 @LOC("THIS,SynthesisFilter.NEWV") float p5 = s5 + s26;
\r
571 @LOC("THIS,SynthesisFilter.NEWV") float p6 = s6 + s25;
\r
572 @LOC("THIS,SynthesisFilter.NEWV") float p7 = s7 + s24;
\r
573 @LOC("THIS,SynthesisFilter.NEWV") float p8 = s8 + s23;
\r
574 @LOC("THIS,SynthesisFilter.NEWV") float p9 = s9 + s22;
\r
575 @LOC("THIS,SynthesisFilter.NEWV") float p10 = s10 + s21;
\r
576 @LOC("THIS,SynthesisFilter.NEWV") float p11 = s11 + s20;
\r
577 @LOC("THIS,SynthesisFilter.NEWV") float p12 = s12 + s19;
\r
578 @LOC("THIS,SynthesisFilter.NEWV") float p13 = s13 + s18;
\r
579 @LOC("THIS,SynthesisFilter.NEWV") float p14 = s14 + s17;
\r
580 @LOC("THIS,SynthesisFilter.NEWV") float p15 = s15 + s16;
\r
582 @LOC("THIS,SynthesisFilter.NEWV") float pp0 = p0 + p15;
\r
583 @LOC("THIS,SynthesisFilter.NEWV") float pp1 = p1 + p14;
\r
584 @LOC("THIS,SynthesisFilter.NEWV") float pp2 = p2 + p13;
\r
585 @LOC("THIS,SynthesisFilter.NEWV") float pp3 = p3 + p12;
\r
586 @LOC("THIS,SynthesisFilter.NEWV") float pp4 = p4 + p11;
\r
587 @LOC("THIS,SynthesisFilter.NEWV") float pp5 = p5 + p10;
\r
588 @LOC("THIS,SynthesisFilter.NEWV") float pp6 = p6 + p9;
\r
589 @LOC("THIS,SynthesisFilter.NEWV") float pp7 = p7 + p8;
\r
590 @LOC("THIS,SynthesisFilter.NEWV") float pp8 = (p0 - p15) * cos1_32;
\r
591 @LOC("THIS,SynthesisFilter.NEWV") float pp9 = (p1 - p14) * cos3_32;
\r
592 @LOC("THIS,SynthesisFilter.NEWV") float pp10 = (p2 - p13) * cos5_32;
\r
593 @LOC("THIS,SynthesisFilter.NEWV") float pp11 = (p3 - p12) * cos7_32;
\r
594 @LOC("THIS,SynthesisFilter.NEWV") float pp12 = (p4 - p11) * cos9_32;
\r
595 @LOC("THIS,SynthesisFilter.NEWV") float pp13 = (p5 - p10) * cos11_32;
\r
596 @LOC("THIS,SynthesisFilter.NEWV") float pp14 = (p6 - p9) * cos13_32;
\r
597 @LOC("THIS,SynthesisFilter.NEWV") float pp15 = (p7 - p8) * cos15_32;
\r
603 p4 = (pp0 - pp7) * cos1_16;
\r
604 p5 = (pp1 - pp6) * cos3_16;
\r
605 p6 = (pp2 - pp5) * cos5_16;
\r
606 p7 = (pp3 - pp4) * cos7_16;
\r
611 p12 = (pp8 - pp15) * cos1_16;
\r
612 p13 = (pp9 - pp14) * cos3_16;
\r
613 p14 = (pp10 - pp13) * cos5_16;
\r
614 p15 = (pp11 - pp12) * cos7_16;
\r
618 pp2 = (p0 - p3) * cos1_8;
\r
619 pp3 = (p1 - p2) * cos3_8;
\r
622 pp6 = (p4 - p7) * cos1_8;
\r
623 pp7 = (p5 - p6) * cos3_8;
\r
626 pp10 = (p8 - p11) * cos1_8;
\r
627 pp11 = (p9 - p10) * cos3_8;
\r
630 pp14 = (p12 - p15) * cos1_8;
\r
631 pp15 = (p13 - p14) * cos3_8;
\r
634 p1 = (pp0 - pp1) * cos1_4;
\r
636 p3 = (pp2 - pp3) * cos1_4;
\r
638 p5 = (pp4 - pp5) * cos1_4;
\r
640 p7 = (pp6 - pp7) * cos1_4;
\r
642 p9 = (pp8 - pp9) * cos1_4;
\r
644 p11 = (pp10 - pp11) * cos1_4;
\r
646 p13 = (pp12 - pp13) * cos1_4;
\r
648 p15 = (pp14 - pp15) * cos1_4;
\r
650 // this is pretty insane coding
\r
651 @LOC("THIS,SynthesisFilter.NEWV") float tmp1;
\r
652 new_v19/* 36-17 */= -(new_v4 = (new_v12 = p7) + p5) - p6;
\r
653 new_v27/* 44-17 */= -p6 - p7 - p4;
\r
654 new_v6 = (new_v10 = (new_v14 = p15) + p11) + p13;
\r
655 new_v17/* 34-17 */= -(new_v2 = p15 + p13 + p9) - p14;
\r
656 new_v21/* 38-17 */= (tmp1 = -p14 - p15 - p10 - p11) - p13;
\r
657 new_v29/* 46-17 */= -p14 - p15 - p12 - p8;
\r
658 new_v25/* 42-17 */= tmp1 - p12;
\r
659 new_v31/* 48-17 */= -p0;
\r
661 new_v23/* 40-17 */= -(new_v8 = p3) - p2;
\r
663 p0 = (s0 - s31) * cos1_64;
\r
664 p1 = (s1 - s30) * cos3_64;
\r
665 p2 = (s2 - s29) * cos5_64;
\r
666 p3 = (s3 - s28) * cos7_64;
\r
667 p4 = (s4 - s27) * cos9_64;
\r
668 p5 = (s5 - s26) * cos11_64;
\r
669 p6 = (s6 - s25) * cos13_64;
\r
670 p7 = (s7 - s24) * cos15_64;
\r
671 p8 = (s8 - s23) * cos17_64;
\r
672 p9 = (s9 - s22) * cos19_64;
\r
673 p10 = (s10 - s21) * cos21_64;
\r
674 p11 = (s11 - s20) * cos23_64;
\r
675 p12 = (s12 - s19) * cos25_64;
\r
676 p13 = (s13 - s18) * cos27_64;
\r
677 p14 = (s14 - s17) * cos29_64;
\r
678 p15 = (s15 - s16) * cos31_64;
\r
688 pp8 = (p0 - p15) * cos1_32;
\r
689 pp9 = (p1 - p14) * cos3_32;
\r
690 pp10 = (p2 - p13) * cos5_32;
\r
691 pp11 = (p3 - p12) * cos7_32;
\r
692 pp12 = (p4 - p11) * cos9_32;
\r
693 pp13 = (p5 - p10) * cos11_32;
\r
694 pp14 = (p6 - p9) * cos13_32;
\r
695 pp15 = (p7 - p8) * cos15_32;
\r
701 p4 = (pp0 - pp7) * cos1_16;
\r
702 p5 = (pp1 - pp6) * cos3_16;
\r
703 p6 = (pp2 - pp5) * cos5_16;
\r
704 p7 = (pp3 - pp4) * cos7_16;
\r
709 p12 = (pp8 - pp15) * cos1_16;
\r
710 p13 = (pp9 - pp14) * cos3_16;
\r
711 p14 = (pp10 - pp13) * cos5_16;
\r
712 p15 = (pp11 - pp12) * cos7_16;
\r
716 pp2 = (p0 - p3) * cos1_8;
\r
717 pp3 = (p1 - p2) * cos3_8;
\r
720 pp6 = (p4 - p7) * cos1_8;
\r
721 pp7 = (p5 - p6) * cos3_8;
\r
724 pp10 = (p8 - p11) * cos1_8;
\r
725 pp11 = (p9 - p10) * cos3_8;
\r
728 pp14 = (p12 - p15) * cos1_8;
\r
729 pp15 = (p13 - p14) * cos3_8;
\r
732 p1 = (pp0 - pp1) * cos1_4;
\r
734 p3 = (pp2 - pp3) * cos1_4;
\r
736 p5 = (pp4 - pp5) * cos1_4;
\r
738 p7 = (pp6 - pp7) * cos1_4;
\r
740 p9 = (pp8 - pp9) * cos1_4;
\r
742 p11 = (pp10 - pp11) * cos1_4;
\r
744 p13 = (pp12 - pp13) * cos1_4;
\r
746 p15 = (pp14 - pp15) * cos1_4;
\r
748 // manually doing something that a compiler should handle sucks
\r
749 // coding like this is hard to read
\r
750 @LOC("THIS,SynthesisFilter.NEWV") float tmp2;
\r
751 new_v5 = (new_v11 = (new_v13 = (new_v15 = p15) + p7) + p11) + p5 + p13;
\r
752 new_v7 = (new_v9 = p15 + p11 + p3) + p13;
\r
753 new_v16/* 33-17 */= -(new_v1 = (tmp1 = p13 + p15 + p9) + p1) - p14;
\r
754 new_v18/* 35-17 */= -(new_v3 = tmp1 + p5 + p7) - p6 - p14;
\r
756 new_v22/* 39-17 */= (tmp1 = -p10 - p11 - p14 - p15) - p13 - p2 - p3;
\r
757 new_v20/* 37-17 */= tmp1 - p13 - p5 - p6 - p7;
\r
758 new_v24/* 41-17 */= tmp1 - p12 - p2 - p3;
\r
759 new_v26/* 43-17 */= tmp1 - p12 - (tmp2 = p4 + p6 + p7);
\r
760 new_v30/* 47-17 */= (tmp1 = -p8 - p12 - p14 - p15) - p0;
\r
761 new_v28/* 45-17 */= tmp1 - tmp2;
\r
763 // insert V[0-15] (== new_v[0-15]) into actual v:
\r
764 // float[] x2 = actual_v + actual_write_pos;
\r
765 // float dest[] = actual_v; actual_v=v1;
\r
767 @LOC("THIS,SynthesisFilter.NEWV") int pos = actual_write_pos;
\r
769 v1[0 + pos] = new_v0;
\r
770 v1[16 + pos] = new_v1;
\r
771 v1[32 + pos] = new_v2;
\r
772 v1[48 + pos] = new_v3;
\r
773 v1[64 + pos] = new_v4;
\r
774 v1[80 + pos] = new_v5;
\r
775 v1[96 + pos] = new_v6;
\r
776 v1[112 + pos] = new_v7;
\r
777 v1[128 + pos] = new_v8;
\r
778 v1[144 + pos] = new_v9;
\r
779 v1[160 + pos] = new_v10;
\r
780 v1[176 + pos] = new_v11;
\r
781 v1[192 + pos] = new_v12;
\r
782 v1[208 + pos] = new_v13;
\r
783 v1[224 + pos] = new_v14;
\r
784 v1[240 + pos] = new_v15;
\r
786 // V[16] is always 0.0:
\r
787 v1[256 + pos] = 0.0f;
\r
789 // insert V[17-31] (== -new_v[15-1]) into actual v:
\r
790 v1[272 + pos] = -new_v15;
\r
791 v1[288 + pos] = -new_v14;
\r
792 v1[304 + pos] = -new_v13;
\r
793 v1[320 + pos] = -new_v12;
\r
794 v1[336 + pos] = -new_v11;
\r
795 v1[352 + pos] = -new_v10;
\r
796 v1[368 + pos] = -new_v9;
\r
797 v1[384 + pos] = -new_v8;
\r
798 v1[400 + pos] = -new_v7;
\r
799 v1[416 + pos] = -new_v6;
\r
800 v1[432 + pos] = -new_v5;
\r
801 v1[448 + pos] = -new_v4;
\r
802 v1[464 + pos] = -new_v3;
\r
803 v1[480 + pos] = -new_v2;
\r
804 v1[496 + pos] = -new_v1;
\r
806 // insert V[32] (== -new_v[0]) into other v:
\r
807 // dest = (actual_v == v1) ? v2 : v1;
\r
809 v2[0 + pos] = -new_v0;
\r
810 // insert V[33-48] (== new_v[16-31]) into other v:
\r
811 v2[16 + pos] = new_v16;
\r
812 v2[32 + pos] = new_v17;
\r
813 v2[48 + pos] = new_v18;
\r
814 v2[64 + pos] = new_v19;
\r
815 v2[80 + pos] = new_v20;
\r
816 v2[96 + pos] = new_v21;
\r
817 v2[112 + pos] = new_v22;
\r
818 v2[128 + pos] = new_v23;
\r
819 v2[144 + pos] = new_v24;
\r
820 v2[160 + pos] = new_v25;
\r
821 v2[176 + pos] = new_v26;
\r
822 v2[192 + pos] = new_v27;
\r
823 v2[208 + pos] = new_v28;
\r
824 v2[224 + pos] = new_v29;
\r
825 v2[240 + pos] = new_v30;
\r
826 v2[256 + pos] = new_v31;
\r
828 // insert V[49-63] (== new_v[30-16]) into other v:
\r
829 v2[272 + pos] = new_v30;
\r
830 v2[288 + pos] = new_v29;
\r
831 v2[304 + pos] = new_v28;
\r
832 v2[320 + pos] = new_v27;
\r
833 v2[336 + pos] = new_v26;
\r
834 v2[352 + pos] = new_v25;
\r
835 v2[368 + pos] = new_v24;
\r
836 v2[384 + pos] = new_v23;
\r
837 v2[400 + pos] = new_v22;
\r
838 v2[416 + pos] = new_v21;
\r
839 v2[432 + pos] = new_v20;
\r
840 v2[448 + pos] = new_v19;
\r
841 v2[464 + pos] = new_v18;
\r
842 v2[480 + pos] = new_v17;
\r
843 v2[496 + pos] = new_v16;
\r
847 * Compute PCM Samples.
\r
851 private float[] _tmpOut = new float[32];
\r
853 private void compute_pcm_samples0() {
\r
856 // final float[] vp = actual_v;
\r
857 // int inc = v_inc;
\r
858 // final float[] tmpOut = _tmpOut;
\r
859 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
861 // fat chance of having this loop unroll
\r
862 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
863 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
864 // final float[] dp = d16[i];
\r
866 (float) (((v1[0 + dvp] * d16[i][0]) + (v1[15 + dvp] * d16[i][1])
\r
867 + (v1[14 + dvp] * d16[i][2]) + (v1[13 + dvp] * d16[i][3])
\r
868 + (v1[12 + dvp] * d16[i][4]) + (v1[11 + dvp] * d16[i][5])
\r
869 + (v1[10 + dvp] * d16[i][6]) + (v1[9 + dvp] * d16[i][7])
\r
870 + (v1[8 + dvp] * d16[i][8]) + (v1[7 + dvp] * d16[i][9])
\r
871 + (v1[6 + dvp] * d16[i][10]) + (v1[5 + dvp] * d16[i][11])
\r
872 + (v1[4 + dvp] * d16[i][12]) + (v1[3 + dvp] * d16[i][13])
\r
873 + (v1[2 + dvp] * d16[i][14]) + (v1[1 + dvp] * d16[i][15])) * scalefactor);
\r
875 _tmpOut[i] = pcm_sample;
\r
880 // final float[] vp = actual_v;
\r
881 // int inc = v_inc;
\r
882 // final float[] tmpOut = _tmpOut;
\r
883 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
885 // fat chance of having this loop unroll
\r
886 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
887 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
888 // final float[] dp = d16[i];
\r
890 (float) (((v2[0 + dvp] * d16[i][0]) + (v2[15 + dvp] * d16[i][1])
\r
891 + (v2[14 + dvp] * d16[i][2]) + (v2[13 + dvp] * d16[i][3])
\r
892 + (v2[12 + dvp] * d16[i][4]) + (v2[11 + dvp] * d16[i][5])
\r
893 + (v2[10 + dvp] * d16[i][6]) + (v2[9 + dvp] * d16[i][7])
\r
894 + (v2[8 + dvp] * d16[i][8]) + (v2[7 + dvp] * d16[i][9])
\r
895 + (v2[6 + dvp] * d16[i][10]) + (v2[5 + dvp] * d16[i][11])
\r
896 + (v2[4 + dvp] * d16[i][12]) + (v2[3 + dvp] * d16[i][13])
\r
897 + (v2[2 + dvp] * d16[i][14]) + (v2[1 + dvp] * d16[i][15])) * scalefactor);
\r
899 _tmpOut[i] = pcm_sample;
\r
907 private void compute_pcm_samples1() {
\r
910 // final float[] vp = actual_v;
\r
911 // int inc = v_inc;
\r
912 // final float[] tmpOut = _tmpOut;
\r
913 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
915 // fat chance of having this loop unroll
\r
916 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
917 // final float[] dp = d16[i];
\r
918 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
921 (float) (((v1[1 + dvp] * d16[i][0]) + (v1[0 + dvp] * d16[i][1])
\r
922 + (v1[15 + dvp] * d16[i][2]) + (v1[14 + dvp] * d16[i][3])
\r
923 + (v1[13 + dvp] * d16[i][4]) + (v1[12 + dvp] * d16[i][5])
\r
924 + (v1[11 + dvp] * d16[i][6]) + (v1[10 + dvp] * d16[i][7])
\r
925 + (v1[9 + dvp] * d16[i][8]) + (v1[8 + dvp] * d16[i][9])
\r
926 + (v1[7 + dvp] * d16[i][10]) + (v1[6 + dvp] * d16[i][11])
\r
927 + (v1[5 + dvp] * d16[i][12]) + (v1[4 + dvp] * d16[i][13])
\r
928 + (v1[3 + dvp] * d16[i][14]) + (v1[2 + dvp] * d16[i][15])) * scalefactor);
\r
930 _tmpOut[i] = pcm_sample;
\r
935 // final float[] vp = actual_v;
\r
936 // int inc = v_inc;
\r
937 // final float[] tmpOut = _tmpOut;
\r
938 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
940 // fat chance of having this loop unroll
\r
941 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
942 // final float[] dp = d16[i];
\r
943 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
946 (float) (((v2[1 + dvp] * d16[i][0]) + (v2[0 + dvp] * d16[i][1])
\r
947 + (v2[15 + dvp] * d16[i][2]) + (v2[14 + dvp] * d16[i][3])
\r
948 + (v2[13 + dvp] * d16[i][4]) + (v2[12 + dvp] * d16[i][5])
\r
949 + (v2[11 + dvp] * d16[i][6]) + (v2[10 + dvp] * d16[i][7])
\r
950 + (v2[9 + dvp] * d16[i][8]) + (v2[8 + dvp] * d16[i][9])
\r
951 + (v2[7 + dvp] * d16[i][10]) + (v2[6 + dvp] * d16[i][11])
\r
952 + (v2[5 + dvp] * d16[i][12]) + (v2[4 + dvp] * d16[i][13])
\r
953 + (v2[3 + dvp] * d16[i][14]) + (v2[2 + dvp] * d16[i][15])) * scalefactor);
\r
955 _tmpOut[i] = pcm_sample;
\r
963 private void compute_pcm_samples2() {
\r
966 // final float[] vp = actual_v;
\r
967 // int inc = v_inc;
\r
968 // final float[] tmpOut = _tmpOut;
\r
969 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
971 // fat chance of having this loop unroll
\r
972 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
973 // final float[] dp = d16[i];
\r
974 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
977 (float) (((v1[2 + dvp] * d16[i][0]) + (v1[1 + dvp] * d16[i][1])
\r
978 + (v1[0 + dvp] * d16[i][2]) + (v1[15 + dvp] * d16[i][3])
\r
979 + (v1[14 + dvp] * d16[i][4]) + (v1[13 + dvp] * d16[i][5])
\r
980 + (v1[12 + dvp] * d16[i][6]) + (v1[11 + dvp] * d16[i][7])
\r
981 + (v1[10 + dvp] * d16[i][8]) + (v1[9 + dvp] * d16[i][9])
\r
982 + (v1[8 + dvp] * d16[i][10]) + (v1[7 + dvp] * d16[i][11])
\r
983 + (v1[6 + dvp] * d16[i][12]) + (v1[5 + dvp] * d16[i][13])
\r
984 + (v1[4 + dvp] * d16[i][14]) + (v1[3 + dvp] * d16[i][15])) * scalefactor);
\r
986 _tmpOut[i] = pcm_sample;
\r
991 // final float[] vp = actual_v;
\r
992 // int inc = v_inc;
\r
993 // final float[] tmpOut = _tmpOut;
\r
994 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
996 // fat chance of having this loop unroll
\r
997 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
998 // final float[] dp = d16[i];
\r
999 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1002 (float) (((v2[2 + dvp] * d16[i][0]) + (v2[1 + dvp] * d16[i][1])
\r
1003 + (v2[0 + dvp] * d16[i][2]) + (v2[15 + dvp] * d16[i][3])
\r
1004 + (v2[14 + dvp] * d16[i][4]) + (v2[13 + dvp] * d16[i][5])
\r
1005 + (v2[12 + dvp] * d16[i][6]) + (v2[11 + dvp] * d16[i][7])
\r
1006 + (v2[10 + dvp] * d16[i][8]) + (v2[9 + dvp] * d16[i][9])
\r
1007 + (v2[8 + dvp] * d16[i][10]) + (v2[7 + dvp] * d16[i][11])
\r
1008 + (v2[6 + dvp] * d16[i][12]) + (v2[5 + dvp] * d16[i][13])
\r
1009 + (v2[4 + dvp] * d16[i][14]) + (v2[3 + dvp] * d16[i][15])) * scalefactor);
\r
1011 _tmpOut[i] = pcm_sample;
\r
1019 private void compute_pcm_samples3() {
\r
1022 // final float[] vp = actual_v;
\r
1024 // int inc = v_inc;
\r
1025 // final float[] tmpOut = _tmpOut;
\r
1026 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1028 // fat chance of having this loop unroll
\r
1029 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1030 // final float[] dp = d16[i];
\r
1031 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1034 (float) (((v1[3 + dvp] * d16[i][0]) + (v1[2 + dvp] * d16[i][1])
\r
1035 + (v1[1 + dvp] * d16[i][2]) + (v1[0 + dvp] * d16[i][3])
\r
1036 + (v1[15 + dvp] * d16[i][4]) + (v1[14 + dvp] * d16[i][5])
\r
1037 + (v1[13 + dvp] * d16[i][6]) + (v1[12 + dvp] * d16[i][7])
\r
1038 + (v1[11 + dvp] * d16[i][8]) + (v1[10 + dvp] * d16[i][9])
\r
1039 + (v1[9 + dvp] * d16[i][10]) + (v1[8 + dvp] * d16[i][11])
\r
1040 + (v1[7 + dvp] * d16[i][12]) + (v1[6 + dvp] * d16[i][13])
\r
1041 + (v1[5 + dvp] * d16[i][14]) + (v1[4 + dvp] * d16[i][15])) * scalefactor);
\r
1043 _tmpOut[i] = pcm_sample;
\r
1048 // final float[] vp = actual_v;
\r
1050 // int inc = v_inc;
\r
1051 // final float[] tmpOut = _tmpOut;
\r
1052 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1054 // fat chance of having this loop unroll
\r
1055 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1056 // final float[] dp = d16[i];
\r
1057 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1060 (float) (((v2[3 + dvp] * d16[i][0]) + (v2[2 + dvp] * d16[i][1])
\r
1061 + (v2[1 + dvp] * d16[i][2]) + (v2[0 + dvp] * d16[i][3])
\r
1062 + (v2[15 + dvp] * d16[i][4]) + (v2[14 + dvp] * d16[i][5])
\r
1063 + (v2[13 + dvp] * d16[i][6]) + (v2[12 + dvp] * d16[i][7])
\r
1064 + (v2[11 + dvp] * d16[i][8]) + (v2[10 + dvp] * d16[i][9])
\r
1065 + (v2[9 + dvp] * d16[i][10]) + (v2[8 + dvp] * d16[i][11])
\r
1066 + (v2[7 + dvp] * d16[i][12]) + (v2[6 + dvp] * d16[i][13])
\r
1067 + (v2[5 + dvp] * d16[i][14]) + (v2[4 + dvp] * d16[i][15])) * scalefactor);
\r
1069 _tmpOut[i] = pcm_sample;
\r
1077 private void compute_pcm_samples4() {
\r
1080 // final float[] vp = actual_v;
\r
1082 // int inc = v_inc;
\r
1083 // final float[] tmpOut = _tmpOut;
\r
1084 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1086 // fat chance of having this loop unroll
\r
1087 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1088 // final float[] dp = d16[i];
\r
1089 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1092 (float) (((v1[4 + dvp] * d16[i][0]) + (v1[3 + dvp] * d16[i][1])
\r
1093 + (v1[2 + dvp] * d16[i][2]) + (v1[1 + dvp] * d16[i][3]) + (v1[0 + dvp] * d16[i][4])
\r
1094 + (v1[15 + dvp] * d16[i][5]) + (v1[14 + dvp] * d16[i][6])
\r
1095 + (v1[13 + dvp] * d16[i][7]) + (v1[12 + dvp] * d16[i][8])
\r
1096 + (v1[11 + dvp] * d16[i][9]) + (v1[10 + dvp] * d16[i][10])
\r
1097 + (v1[9 + dvp] * d16[i][11]) + (v1[8 + dvp] * d16[i][12])
\r
1098 + (v1[7 + dvp] * d16[i][13]) + (v1[6 + dvp] * d16[i][14]) + (v1[5 + dvp] * d16[i][15])) * scalefactor);
\r
1100 _tmpOut[i] = pcm_sample;
\r
1105 // final float[] vp = actual_v;
\r
1107 // int inc = v_inc;
\r
1108 // final float[] tmpOut = _tmpOut;
\r
1109 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1111 // fat chance of having this loop unroll
\r
1112 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1113 // final float[] dp = d16[i];
\r
1114 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1117 (float) (((v2[4 + dvp] * d16[i][0]) + (v2[3 + dvp] * d16[i][1])
\r
1118 + (v2[2 + dvp] * d16[i][2]) + (v2[1 + dvp] * d16[i][3]) + (v2[0 + dvp] * d16[i][4])
\r
1119 + (v2[15 + dvp] * d16[i][5]) + (v2[14 + dvp] * d16[i][6])
\r
1120 + (v2[13 + dvp] * d16[i][7]) + (v2[12 + dvp] * d16[i][8])
\r
1121 + (v2[11 + dvp] * d16[i][9]) + (v2[10 + dvp] * d16[i][10])
\r
1122 + (v2[9 + dvp] * d16[i][11]) + (v2[8 + dvp] * d16[i][12])
\r
1123 + (v2[7 + dvp] * d16[i][13]) + (v2[6 + dvp] * d16[i][14]) + (v2[5 + dvp] * d16[i][15])) * scalefactor);
\r
1125 _tmpOut[i] = pcm_sample;
\r
1133 private void compute_pcm_samples5() {
\r
1136 // final float[] vp = actual_v;
\r
1138 // int inc = v_inc;
\r
1139 // final float[] tmpOut = _tmpOut;
\r
1140 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1142 // fat chance of having this loop unroll
\r
1143 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1144 // final float[] dp = d16[i];
\r
1145 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1148 (float) (((v1[5 + dvp] * d16[i][0]) + (v1[4 + dvp] * d16[i][1])
\r
1149 + (v1[3 + dvp] * d16[i][2]) + (v1[2 + dvp] * d16[i][3]) + (v1[1 + dvp] * d16[i][4])
\r
1150 + (v1[0 + dvp] * d16[i][5]) + (v1[15 + dvp] * d16[i][6])
\r
1151 + (v1[14 + dvp] * d16[i][7]) + (v1[13 + dvp] * d16[i][8])
\r
1152 + (v1[12 + dvp] * d16[i][9]) + (v1[11 + dvp] * d16[i][10])
\r
1153 + (v1[10 + dvp] * d16[i][11]) + (v1[9 + dvp] * d16[i][12])
\r
1154 + (v1[8 + dvp] * d16[i][13]) + (v1[7 + dvp] * d16[i][14]) + (v1[6 + dvp] * d16[i][15])) * scalefactor);
\r
1156 _tmpOut[i] = pcm_sample;
\r
1161 // final float[] vp = actual_v;
\r
1163 // int inc = v_inc;
\r
1164 // final float[] tmpOut = _tmpOut;
\r
1165 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1167 // fat chance of having this loop unroll
\r
1168 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1169 // final float[] dp = d16[i];
\r
1170 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1173 (float) (((v2[5 + dvp] * d16[i][0]) + (v2[4 + dvp] * d16[i][1])
\r
1174 + (v2[3 + dvp] * d16[i][2]) + (v2[2 + dvp] * d16[i][3]) + (v2[1 + dvp] * d16[i][4])
\r
1175 + (v2[0 + dvp] * d16[i][5]) + (v2[15 + dvp] * d16[i][6])
\r
1176 + (v2[14 + dvp] * d16[i][7]) + (v2[13 + dvp] * d16[i][8])
\r
1177 + (v2[12 + dvp] * d16[i][9]) + (v2[11 + dvp] * d16[i][10])
\r
1178 + (v2[10 + dvp] * d16[i][11]) + (v2[9 + dvp] * d16[i][12])
\r
1179 + (v2[8 + dvp] * d16[i][13]) + (v2[7 + dvp] * d16[i][14]) + (v2[6 + dvp] * d16[i][15])) * scalefactor);
\r
1181 _tmpOut[i] = pcm_sample;
\r
1189 private void compute_pcm_samples6() {
\r
1193 // final float[] vp = actual_v;
\r
1194 // int inc = v_inc;
\r
1195 // final float[] tmpOut = _tmpOut;
\r
1196 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1198 // fat chance of having this loop unroll
\r
1199 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1200 // final float[] dp = d16[i];
\r
1201 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1204 (float) (((v1[6 + dvp] * d16[i][0]) + (v1[5 + dvp] * d16[i][1])
\r
1205 + (v1[4 + dvp] * d16[i][2]) + (v1[3 + dvp] * d16[i][3]) + (v1[2 + dvp] * d16[i][4])
\r
1206 + (v1[1 + dvp] * d16[i][5]) + (v1[0 + dvp] * d16[i][6])
\r
1207 + (v1[15 + dvp] * d16[i][7]) + (v1[14 + dvp] * d16[i][8])
\r
1208 + (v1[13 + dvp] * d16[i][9]) + (v1[12 + dvp] * d16[i][10])
\r
1209 + (v1[11 + dvp] * d16[i][11]) + (v1[10 + dvp] * d16[i][12])
\r
1210 + (v1[9 + dvp] * d16[i][13]) + (v1[8 + dvp] * d16[i][14]) + (v1[7 + dvp] * d16[i][15])) * scalefactor);
\r
1212 _tmpOut[i] = pcm_sample;
\r
1218 // final float[] vp = actual_v;
\r
1219 // int inc = v_inc;
\r
1220 // final float[] tmpOut = _tmpOut;
\r
1221 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1223 // fat chance of having this loop unroll
\r
1224 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1225 // final float[] dp = d16[i];
\r
1226 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1229 (float) (((v2[6 + dvp] * d16[i][0]) + (v2[5 + dvp] * d16[i][1])
\r
1230 + (v2[4 + dvp] * d16[i][2]) + (v2[3 + dvp] * d16[i][3]) + (v2[2 + dvp] * d16[i][4])
\r
1231 + (v2[1 + dvp] * d16[i][5]) + (v2[0 + dvp] * d16[i][6])
\r
1232 + (v2[15 + dvp] * d16[i][7]) + (v2[14 + dvp] * d16[i][8])
\r
1233 + (v2[13 + dvp] * d16[i][9]) + (v2[12 + dvp] * d16[i][10])
\r
1234 + (v2[11 + dvp] * d16[i][11]) + (v2[10 + dvp] * d16[i][12])
\r
1235 + (v2[9 + dvp] * d16[i][13]) + (v2[8 + dvp] * d16[i][14]) + (v2[7 + dvp] * d16[i][15])) * scalefactor);
\r
1237 _tmpOut[i] = pcm_sample;
\r
1245 private void compute_pcm_samples7() {
\r
1248 // final float[] vp = actual_v;
\r
1250 // int inc = v_inc;
\r
1251 // final float[] tmpOut = _tmpOut;
\r
1252 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1254 // fat chance of having this loop unroll
\r
1255 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1256 // final float[] dp = d16[i];
\r
1257 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1260 (float) (((v1[7 + dvp] * d16[i][0]) + (v1[6 + dvp] * d16[i][1])
\r
1261 + (v1[5 + dvp] * d16[i][2]) + (v1[4 + dvp] * d16[i][3]) + (v1[3 + dvp] * d16[i][4])
\r
1262 + (v1[2 + dvp] * d16[i][5]) + (v1[1 + dvp] * d16[i][6]) + (v1[0 + dvp] * d16[i][7])
\r
1263 + (v1[15 + dvp] * d16[i][8]) + (v1[14 + dvp] * d16[i][9])
\r
1264 + (v1[13 + dvp] * d16[i][10]) + (v1[12 + dvp] * d16[i][11])
\r
1265 + (v1[11 + dvp] * d16[i][12]) + (v1[10 + dvp] * d16[i][13])
\r
1266 + (v1[9 + dvp] * d16[i][14]) + (v1[8 + dvp] * d16[i][15])) * scalefactor);
\r
1268 _tmpOut[i] = pcm_sample;
\r
1273 // final float[] vp = actual_v;
\r
1275 // int inc = v_inc;
\r
1276 // final float[] tmpOut = _tmpOut;
\r
1277 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1279 // fat chance of having this loop unroll
\r
1280 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1281 // final float[] dp = d16[i];
\r
1282 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1285 (float) (((v2[7 + dvp] * d16[i][0]) + (v2[6 + dvp] * d16[i][1])
\r
1286 + (v2[5 + dvp] * d16[i][2]) + (v2[4 + dvp] * d16[i][3]) + (v2[3 + dvp] * d16[i][4])
\r
1287 + (v2[2 + dvp] * d16[i][5]) + (v2[1 + dvp] * d16[i][6]) + (v2[0 + dvp] * d16[i][7])
\r
1288 + (v2[15 + dvp] * d16[i][8]) + (v2[14 + dvp] * d16[i][9])
\r
1289 + (v2[13 + dvp] * d16[i][10]) + (v2[12 + dvp] * d16[i][11])
\r
1290 + (v2[11 + dvp] * d16[i][12]) + (v2[10 + dvp] * d16[i][13])
\r
1291 + (v2[9 + dvp] * d16[i][14]) + (v2[8 + dvp] * d16[i][15])) * scalefactor);
\r
1293 _tmpOut[i] = pcm_sample;
\r
1301 private void compute_pcm_samples8() {
\r
1305 // final float[] vp = actual_v;
\r
1307 // int inc = v_inc;
\r
1308 // final float[] tmpOut = _tmpOut;
\r
1309 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1311 // fat chance of having this loop unroll
\r
1312 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1313 // final float[] dp = d16[i];
\r
1314 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1317 (float) (((v1[8 + dvp] * d16[i][0]) + (v1[7 + dvp] * d16[i][1])
\r
1318 + (v1[6 + dvp] * d16[i][2]) + (v1[5 + dvp] * d16[i][3]) + (v1[4 + dvp] * d16[i][4])
\r
1319 + (v1[3 + dvp] * d16[i][5]) + (v1[2 + dvp] * d16[i][6]) + (v1[1 + dvp] * d16[i][7])
\r
1320 + (v1[0 + dvp] * d16[i][8]) + (v1[15 + dvp] * d16[i][9])
\r
1321 + (v1[14 + dvp] * d16[i][10]) + (v1[13 + dvp] * d16[i][11])
\r
1322 + (v1[12 + dvp] * d16[i][12]) + (v1[11 + dvp] * d16[i][13])
\r
1323 + (v1[10 + dvp] * d16[i][14]) + (v1[9 + dvp] * d16[i][15])) * scalefactor);
\r
1325 _tmpOut[i] = pcm_sample;
\r
1331 // final float[] vp = actual_v;
\r
1333 // int inc = v_inc;
\r
1334 // final float[] tmpOut = _tmpOut;
\r
1335 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1337 // fat chance of having this loop unroll
\r
1338 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1339 // final float[] dp = d16[i];
\r
1340 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1343 (float) (((v2[8 + dvp] * d16[i][0]) + (v2[7 + dvp] * d16[i][1])
\r
1344 + (v2[6 + dvp] * d16[i][2]) + (v2[5 + dvp] * d16[i][3]) + (v2[4 + dvp] * d16[i][4])
\r
1345 + (v2[3 + dvp] * d16[i][5]) + (v2[2 + dvp] * d16[i][6]) + (v2[1 + dvp] * d16[i][7])
\r
1346 + (v2[0 + dvp] * d16[i][8]) + (v2[15 + dvp] * d16[i][9])
\r
1347 + (v2[14 + dvp] * d16[i][10]) + (v2[13 + dvp] * d16[i][11])
\r
1348 + (v2[12 + dvp] * d16[i][12]) + (v2[11 + dvp] * d16[i][13])
\r
1349 + (v2[10 + dvp] * d16[i][14]) + (v2[9 + dvp] * d16[i][15])) * scalefactor);
\r
1351 _tmpOut[i] = pcm_sample;
\r
1359 private void compute_pcm_samples9() {
\r
1362 // final float[] vp = actual_v;
\r
1364 // int inc = v_inc;
\r
1365 // final float[] tmpOut = _tmpOut;
\r
1366 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1368 // fat chance of having this loop unroll
\r
1369 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1370 // final float[] dp = d16[i];
\r
1371 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1374 (float) (((v1[9 + dvp] * d16[i][0]) + (v1[8 + dvp] * d16[i][1])
\r
1375 + (v1[7 + dvp] * d16[i][2]) + (v1[6 + dvp] * d16[i][3]) + (v1[5 + dvp] * d16[i][4])
\r
1376 + (v1[4 + dvp] * d16[i][5]) + (v1[3 + dvp] * d16[i][6]) + (v1[2 + dvp] * d16[i][7])
\r
1377 + (v1[1 + dvp] * d16[i][8]) + (v1[0 + dvp] * d16[i][9])
\r
1378 + (v1[15 + dvp] * d16[i][10]) + (v1[14 + dvp] * d16[i][11])
\r
1379 + (v1[13 + dvp] * d16[i][12]) + (v1[12 + dvp] * d16[i][13])
\r
1380 + (v1[11 + dvp] * d16[i][14]) + (v1[10 + dvp] * d16[i][15])) * scalefactor);
\r
1382 _tmpOut[i] = pcm_sample;
\r
1387 // final float[] vp = actual_v;
\r
1389 // int inc = v_inc;
\r
1390 // final float[] tmpOut = _tmpOut;
\r
1391 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1393 // fat chance of having this loop unroll
\r
1394 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1395 // final float[] dp = d16[i];
\r
1396 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1399 (float) (((v2[9 + dvp] * d16[i][0]) + (v2[8 + dvp] * d16[i][1])
\r
1400 + (v2[7 + dvp] * d16[i][2]) + (v2[6 + dvp] * d16[i][3]) + (v2[5 + dvp] * d16[i][4])
\r
1401 + (v2[4 + dvp] * d16[i][5]) + (v2[3 + dvp] * d16[i][6]) + (v2[2 + dvp] * d16[i][7])
\r
1402 + (v2[1 + dvp] * d16[i][8]) + (v2[0 + dvp] * d16[i][9])
\r
1403 + (v2[15 + dvp] * d16[i][10]) + (v2[14 + dvp] * d16[i][11])
\r
1404 + (v2[13 + dvp] * d16[i][12]) + (v2[12 + dvp] * d16[i][13])
\r
1405 + (v2[11 + dvp] * d16[i][14]) + (v2[10 + dvp] * d16[i][15])) * scalefactor);
\r
1407 _tmpOut[i] = pcm_sample;
\r
1415 private void compute_pcm_samples10() {
\r
1417 // final float[] vp = actual_v;
\r
1418 // int inc = v_inc;
\r
1419 // final float[] tmpOut = _tmpOut;
\r
1420 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1422 // fat chance of having this loop unroll
\r
1423 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1424 // final float[] dp = d16[i];
\r
1425 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1428 (float) (((v1[10 + dvp] * d16[i][0]) + (v1[9 + dvp] * d16[i][1])
\r
1429 + (v1[8 + dvp] * d16[i][2]) + (v1[7 + dvp] * d16[i][3]) + (v1[6 + dvp] * d16[i][4])
\r
1430 + (v1[5 + dvp] * d16[i][5]) + (v1[4 + dvp] * d16[i][6]) + (v1[3 + dvp] * d16[i][7])
\r
1431 + (v1[2 + dvp] * d16[i][8]) + (v1[1 + dvp] * d16[i][9])
\r
1432 + (v1[0 + dvp] * d16[i][10]) + (v1[15 + dvp] * d16[i][11])
\r
1433 + (v1[14 + dvp] * d16[i][12]) + (v1[13 + dvp] * d16[i][13])
\r
1434 + (v1[12 + dvp] * d16[i][14]) + (v1[11 + dvp] * d16[i][15])) * scalefactor);
\r
1436 _tmpOut[i] = pcm_sample;
\r
1441 // final float[] vp = actual_v;
\r
1442 // int inc = v_inc;
\r
1443 // final float[] tmpOut = _tmpOut;
\r
1444 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1446 // fat chance of having this loop unroll
\r
1447 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1448 // final float[] dp = d16[i];
\r
1449 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1452 (float) (((v2[10 + dvp] * d16[i][0]) + (v2[9 + dvp] * d16[i][1])
\r
1453 + (v2[8 + dvp] * d16[i][2]) + (v2[7 + dvp] * d16[i][3]) + (v2[6 + dvp] * d16[i][4])
\r
1454 + (v2[5 + dvp] * d16[i][5]) + (v2[4 + dvp] * d16[i][6]) + (v2[3 + dvp] * d16[i][7])
\r
1455 + (v2[2 + dvp] * d16[i][8]) + (v2[1 + dvp] * d16[i][9])
\r
1456 + (v2[0 + dvp] * d16[i][10]) + (v2[15 + dvp] * d16[i][11])
\r
1457 + (v2[14 + dvp] * d16[i][12]) + (v2[13 + dvp] * d16[i][13])
\r
1458 + (v2[12 + dvp] * d16[i][14]) + (v2[11 + dvp] * d16[i][15])) * scalefactor);
\r
1460 _tmpOut[i] = pcm_sample;
\r
1468 private void compute_pcm_samples11() {
\r
1471 // final float[] vp = actual_v;
\r
1473 // int inc = v_inc;
\r
1474 // final float[] tmpOut = _tmpOut;
\r
1475 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1477 // fat chance of having this loop unroll
\r
1478 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1479 // final float[] dp = d16[i];
\r
1480 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1483 (float) (((v1[11 + dvp] * d16[i][0]) + (v1[10 + dvp] * d16[i][1])
\r
1484 + (v1[9 + dvp] * d16[i][2]) + (v1[8 + dvp] * d16[i][3]) + (v1[7 + dvp] * d16[i][4])
\r
1485 + (v1[6 + dvp] * d16[i][5]) + (v1[5 + dvp] * d16[i][6]) + (v1[4 + dvp] * d16[i][7])
\r
1486 + (v1[3 + dvp] * d16[i][8]) + (v1[2 + dvp] * d16[i][9])
\r
1487 + (v1[1 + dvp] * d16[i][10]) + (v1[0 + dvp] * d16[i][11])
\r
1488 + (v1[15 + dvp] * d16[i][12]) + (v1[14 + dvp] * d16[i][13])
\r
1489 + (v1[13 + dvp] * d16[i][14]) + (v1[12 + dvp] * d16[i][15])) * scalefactor);
\r
1491 _tmpOut[i] = pcm_sample;
\r
1496 // final float[] vp = actual_v;
\r
1498 // int inc = v_inc;
\r
1499 // final float[] tmpOut = _tmpOut;
\r
1500 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1502 // fat chance of having this loop unroll
\r
1503 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1504 // final float[] dp = d16[i];
\r
1505 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1508 (float) (((v2[11 + dvp] * d16[i][0]) + (v2[10 + dvp] * d16[i][1])
\r
1509 + (v2[9 + dvp] * d16[i][2]) + (v2[8 + dvp] * d16[i][3]) + (v2[7 + dvp] * d16[i][4])
\r
1510 + (v2[6 + dvp] * d16[i][5]) + (v2[5 + dvp] * d16[i][6]) + (v2[4 + dvp] * d16[i][7])
\r
1511 + (v2[3 + dvp] * d16[i][8]) + (v2[2 + dvp] * d16[i][9])
\r
1512 + (v2[1 + dvp] * d16[i][10]) + (v2[0 + dvp] * d16[i][11])
\r
1513 + (v2[15 + dvp] * d16[i][12]) + (v2[14 + dvp] * d16[i][13])
\r
1514 + (v2[13 + dvp] * d16[i][14]) + (v2[12 + dvp] * d16[i][15])) * scalefactor);
\r
1516 _tmpOut[i] = pcm_sample;
\r
1524 private void compute_pcm_samples12() {
\r
1527 // final float[] vp = actual_v;
\r
1528 // int inc = v_inc;
\r
1529 // final float[] tmpOut = _tmpOut;
\r
1530 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1532 // fat chance of having this loop unroll
\r
1533 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1534 // final float[] dp = d16[i];
\r
1535 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1538 (float) (((v1[12 + dvp] * d16[i][0]) + (v1[11 + dvp] * d16[i][1])
\r
1539 + (v1[10 + dvp] * d16[i][2]) + (v1[9 + dvp] * d16[i][3])
\r
1540 + (v1[8 + dvp] * d16[i][4]) + (v1[7 + dvp] * d16[i][5]) + (v1[6 + dvp] * d16[i][6])
\r
1541 + (v1[5 + dvp] * d16[i][7]) + (v1[4 + dvp] * d16[i][8]) + (v1[3 + dvp] * d16[i][9])
\r
1542 + (v1[2 + dvp] * d16[i][10]) + (v1[1 + dvp] * d16[i][11])
\r
1543 + (v1[0 + dvp] * d16[i][12]) + (v1[15 + dvp] * d16[i][13])
\r
1544 + (v1[14 + dvp] * d16[i][14]) + (v1[13 + dvp] * d16[i][15])) * scalefactor);
\r
1546 _tmpOut[i] = pcm_sample;
\r
1551 // final float[] vp = actual_v;
\r
1552 // int inc = v_inc;
\r
1553 // final float[] tmpOut = _tmpOut;
\r
1554 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1556 // fat chance of having this loop unroll
\r
1557 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1558 // final float[] dp = d16[i];
\r
1559 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1562 (float) (((v2[12 + dvp] * d16[i][0]) + (v2[11 + dvp] * d16[i][1])
\r
1563 + (v2[10 + dvp] * d16[i][2]) + (v2[9 + dvp] * d16[i][3])
\r
1564 + (v2[8 + dvp] * d16[i][4]) + (v2[7 + dvp] * d16[i][5]) + (v2[6 + dvp] * d16[i][6])
\r
1565 + (v2[5 + dvp] * d16[i][7]) + (v2[4 + dvp] * d16[i][8]) + (v2[3 + dvp] * d16[i][9])
\r
1566 + (v2[2 + dvp] * d16[i][10]) + (v2[1 + dvp] * d16[i][11])
\r
1567 + (v2[0 + dvp] * d16[i][12]) + (v2[15 + dvp] * d16[i][13])
\r
1568 + (v2[14 + dvp] * d16[i][14]) + (v2[13 + dvp] * d16[i][15])) * scalefactor);
\r
1570 _tmpOut[i] = pcm_sample;
\r
1578 private void compute_pcm_samples13() {
\r
1581 // final float[] vp = actual_v;
\r
1583 // int inc = v_inc;
\r
1584 // final float[] tmpOut = _tmpOut;
\r
1585 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1587 // fat chance of having this loop unroll
\r
1588 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1589 // final float[] dp = d16[i];
\r
1590 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1593 (float) (((v1[13 + dvp] * d16[i][0]) + (v1[12 + dvp] * d16[i][1])
\r
1594 + (v1[11 + dvp] * d16[i][2]) + (v1[10 + dvp] * d16[i][3])
\r
1595 + (v1[9 + dvp] * d16[i][4]) + (v1[8 + dvp] * d16[i][5]) + (v1[7 + dvp] * d16[i][6])
\r
1596 + (v1[6 + dvp] * d16[i][7]) + (v1[5 + dvp] * d16[i][8]) + (v1[4 + dvp] * d16[i][9])
\r
1597 + (v1[3 + dvp] * d16[i][10]) + (v1[2 + dvp] * d16[i][11])
\r
1598 + (v1[1 + dvp] * d16[i][12]) + (v1[0 + dvp] * d16[i][13])
\r
1599 + (v1[15 + dvp] * d16[i][14]) + (v1[14 + dvp] * d16[i][15])) * scalefactor);
\r
1601 _tmpOut[i] = pcm_sample;
\r
1606 // final float[] vp = actual_v;
\r
1608 // int inc = v_inc;
\r
1609 // final float[] tmpOut = _tmpOut;
\r
1610 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1612 // fat chance of having this loop unroll
\r
1613 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1614 // final float[] dp = d16[i];
\r
1615 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1618 (float) (((v2[13 + dvp] * d16[i][0]) + (v2[12 + dvp] * d16[i][1])
\r
1619 + (v2[11 + dvp] * d16[i][2]) + (v2[10 + dvp] * d16[i][3])
\r
1620 + (v2[9 + dvp] * d16[i][4]) + (v2[8 + dvp] * d16[i][5]) + (v2[7 + dvp] * d16[i][6])
\r
1621 + (v2[6 + dvp] * d16[i][7]) + (v2[5 + dvp] * d16[i][8]) + (v2[4 + dvp] * d16[i][9])
\r
1622 + (v2[3 + dvp] * d16[i][10]) + (v2[2 + dvp] * d16[i][11])
\r
1623 + (v2[1 + dvp] * d16[i][12]) + (v2[0 + dvp] * d16[i][13])
\r
1624 + (v2[15 + dvp] * d16[i][14]) + (v2[14 + dvp] * d16[i][15])) * scalefactor);
\r
1626 _tmpOut[i] = pcm_sample;
\r
1634 private void compute_pcm_samples14() {
\r
1637 // final float[] vp = actual_v;
\r
1639 // int inc = v_inc;
\r
1640 // final float[] tmpOut = _tmpOut;
\r
1641 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1643 // fat chance of having this loop unroll
\r
1644 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1645 // final float[] dp = d16[i];
\r
1646 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1649 (float) (((v1[14 + dvp] * d16[i][0]) + (v1[13 + dvp] * d16[i][1])
\r
1650 + (v1[12 + dvp] * d16[i][2]) + (v1[11 + dvp] * d16[i][3])
\r
1651 + (v1[10 + dvp] * d16[i][4]) + (v1[9 + dvp] * d16[i][5])
\r
1652 + (v1[8 + dvp] * d16[i][6]) + (v1[7 + dvp] * d16[i][7]) + (v1[6 + dvp] * d16[i][8])
\r
1653 + (v1[5 + dvp] * d16[i][9]) + (v1[4 + dvp] * d16[i][10])
\r
1654 + (v1[3 + dvp] * d16[i][11]) + (v1[2 + dvp] * d16[i][12])
\r
1655 + (v1[1 + dvp] * d16[i][13]) + (v1[0 + dvp] * d16[i][14]) + (v1[15 + dvp] * d16[i][15])) * scalefactor);
\r
1657 _tmpOut[i] = pcm_sample;
\r
1662 // final float[] vp = actual_v;
\r
1664 // int inc = v_inc;
\r
1665 // final float[] tmpOut = _tmpOut;
\r
1666 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1668 // fat chance of having this loop unroll
\r
1669 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1670 // final float[] dp = d16[i];
\r
1671 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1674 (float) (((v2[14 + dvp] * d16[i][0]) + (v2[13 + dvp] * d16[i][1])
\r
1675 + (v2[12 + dvp] * d16[i][2]) + (v2[11 + dvp] * d16[i][3])
\r
1676 + (v2[10 + dvp] * d16[i][4]) + (v2[9 + dvp] * d16[i][5])
\r
1677 + (v2[8 + dvp] * d16[i][6]) + (v2[7 + dvp] * d16[i][7]) + (v2[6 + dvp] * d16[i][8])
\r
1678 + (v2[5 + dvp] * d16[i][9]) + (v2[4 + dvp] * d16[i][10])
\r
1679 + (v2[3 + dvp] * d16[i][11]) + (v2[2 + dvp] * d16[i][12])
\r
1680 + (v2[1 + dvp] * d16[i][13]) + (v2[0 + dvp] * d16[i][14]) + (v2[15 + dvp] * d16[i][15])) * scalefactor);
\r
1682 _tmpOut[i] = pcm_sample;
\r
1690 private void compute_pcm_samples15() {
\r
1692 // final float[] vp = actual_v;
\r
1694 // int inc = v_inc;
\r
1695 // final float[] tmpOut = _tmpOut;
\r
1696 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1698 // fat chance of having this loop unroll
\r
1699 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1700 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1701 // final float d16[i][] = d16[i];
\r
1703 (float) (((v1[15 + dvp] * d16[i][0]) + (v1[14 + dvp] * d16[i][1])
\r
1704 + (v1[13 + dvp] * d16[i][2]) + (v1[12 + dvp] * d16[i][3])
\r
1705 + (v1[11 + dvp] * d16[i][4]) + (v1[10 + dvp] * d16[i][5])
\r
1706 + (v1[9 + dvp] * d16[i][6]) + (v1[8 + dvp] * d16[i][7]) + (v1[7 + dvp] * d16[i][8])
\r
1707 + (v1[6 + dvp] * d16[i][9]) + (v1[5 + dvp] * d16[i][10])
\r
1708 + (v1[4 + dvp] * d16[i][11]) + (v1[3 + dvp] * d16[i][12])
\r
1709 + (v1[2 + dvp] * d16[i][13]) + (v1[1 + dvp] * d16[i][14]) + (v1[0 + dvp] * d16[i][15])) * scalefactor);
\r
1711 _tmpOut[i] = pcm_sample;
\r
1715 // final float[] vp = actual_v;
\r
1717 // int inc = v_inc;
\r
1718 // final float[] tmpOut = _tmpOut;
\r
1719 @LOC("THIS,SynthesisFilter.NEWV") int dvp = 0;
\r
1721 // fat chance of having this loop unroll
\r
1722 for (@LOC("THIS,SynthesisFilter.NEWV") int i = 0; i < 32; i++) {
\r
1723 @LOC("THIS,SynthesisFilter.V1") float pcm_sample;
\r
1724 // final float d16[i][] = d16[i];
\r
1726 (float) (((v2[15 + dvp] * d16[i][0]) + (v2[14 + dvp] * d16[i][1])
\r
1727 + (v2[13 + dvp] * d16[i][2]) + (v2[12 + dvp] * d16[i][3])
\r
1728 + (v2[11 + dvp] * d16[i][4]) + (v2[10 + dvp] * d16[i][5])
\r
1729 + (v2[9 + dvp] * d16[i][6]) + (v2[8 + dvp] * d16[i][7]) + (v2[7 + dvp] * d16[i][8])
\r
1730 + (v2[6 + dvp] * d16[i][9]) + (v2[5 + dvp] * d16[i][10])
\r
1731 + (v2[4 + dvp] * d16[i][11]) + (v2[3 + dvp] * d16[i][12])
\r
1732 + (v2[2 + dvp] * d16[i][13]) + (v2[1 + dvp] * d16[i][14]) + (v2[0 + dvp] * d16[i][15])) * scalefactor);
\r
1734 _tmpOut[i] = pcm_sample;
\r
1741 private void compute_pcm_samples() {
\r
1743 switch (actual_write_pos) {
\r
1745 compute_pcm_samples0();
\r
1748 compute_pcm_samples1();
\r
1751 compute_pcm_samples2();
\r
1754 compute_pcm_samples3();
\r
1757 compute_pcm_samples4();
\r
1760 compute_pcm_samples5();
\r
1763 compute_pcm_samples6();
\r
1766 compute_pcm_samples7();
\r
1769 compute_pcm_samples8();
\r
1772 compute_pcm_samples9();
\r
1775 compute_pcm_samples10();
\r
1778 compute_pcm_samples11();
\r
1781 compute_pcm_samples12();
\r
1784 compute_pcm_samples13();
\r
1787 compute_pcm_samples14();
\r
1790 compute_pcm_samples15();
\r
1794 // if (buffer != null) {
\r
1795 // buffer.appendSamples(channel, _tmpOut);
\r
1797 SampleBufferWrapper.appendSamples(channel, _tmpOut);
\r
1800 * // MDM: I was considering putting in quality control for // low-spec
\r
1801 * CPUs, but the performance gain (about 10-15%) // did not justify the
\r
1802 * considerable drop in audio quality. switch (inc) { case 16:
\r
1803 * buffer.appendSamples(channel, tmpOut); break; case 32: for (int i=0;
\r
1804 * i<16; i++) { buffer.append(channel, (short)tmpOut[i]);
\r
1805 * buffer.append(channel, (short)tmpOut[i]); } break; case 64: for (int i=0;
\r
1806 * i<8; i++) { buffer.append(channel, (short)tmpOut[i]);
\r
1807 * buffer.append(channel, (short)tmpOut[i]); buffer.append(channel,
\r
1808 * (short)tmpOut[i]); buffer.append(channel, (short)tmpOut[i]); } break;
\r
1815 * Calculate 32 PCM samples and put the into the Obuffer-object.
\r
1818 public void calculate_pcm_samples() {
\r
1821 compute_new_v1_v2();
\r
1823 compute_new_v2_v1();
\r
1826 // System.out.println("1.actual_v=" + (actual_v == v1) + " vidx=" + vidx);
\r
1827 // compute_new_v();
\r
1828 // System.out.println("2.actual_v=" + (actual_v == v1) + " vidx=" + vidx);
\r
1829 compute_pcm_samples();
\r
1830 // System.out.println("3.actual_v=" + (actual_v == v1) + " vidx=" + vidx);
\r
1832 actual_write_pos = (actual_write_pos + 1) & 0xf;
\r
1833 // actual_v = (actual_v == v1) ? v2 : v1;
\r
1841 // initialize samples[]:
\r
1842 // for (register float *floatp = samples + 32; floatp > samples; )
\r
1843 // *--floatp = 0.0f;
\r
1845 // MDM: this may not be necessary. The Layer III decoder always
\r
1846 // outputs 32 subband samples, but I haven't checked layer I & II.
\r
1847 for (@LOC("C") int p = 0; p < 32; p++)
\r
1848 samples[p] = 0.0f;
\r
1851 private static final double MY_PI = 3.14159265358979323846;
\r
1852 private static final float cos1_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI / 64.0)));
\r
1853 private static final float cos3_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 3.0 / 64.0)));
\r
1854 private static final float cos5_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 5.0 / 64.0)));
\r
1855 private static final float cos7_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 7.0 / 64.0)));
\r
1856 private static final float cos9_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 9.0 / 64.0)));
\r
1857 private static final float cos11_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 11.0 / 64.0)));
\r
1858 private static final float cos13_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 13.0 / 64.0)));
\r
1859 private static final float cos15_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 15.0 / 64.0)));
\r
1860 private static final float cos17_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 17.0 / 64.0)));
\r
1861 private static final float cos19_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 19.0 / 64.0)));
\r
1862 private static final float cos21_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 21.0 / 64.0)));
\r
1863 private static final float cos23_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 23.0 / 64.0)));
\r
1864 private static final float cos25_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 25.0 / 64.0)));
\r
1865 private static final float cos27_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 27.0 / 64.0)));
\r
1866 private static final float cos29_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 29.0 / 64.0)));
\r
1867 private static final float cos31_64 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 31.0 / 64.0)));
\r
1868 private static final float cos1_32 = (float) (1.0 / (2.0 * Math.cos(MY_PI / 32.0)));
\r
1869 private static final float cos3_32 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 3.0 / 32.0)));
\r
1870 private static final float cos5_32 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 5.0 / 32.0)));
\r
1871 private static final float cos7_32 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 7.0 / 32.0)));
\r
1872 private static final float cos9_32 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 9.0 / 32.0)));
\r
1873 private static final float cos11_32 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 11.0 / 32.0)));
\r
1874 private static final float cos13_32 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 13.0 / 32.0)));
\r
1875 private static final float cos15_32 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 15.0 / 32.0)));
\r
1876 private static final float cos1_16 = (float) (1.0 / (2.0 * Math.cos(MY_PI / 16.0)));
\r
1877 private static final float cos3_16 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 3.0 / 16.0)));
\r
1878 private static final float cos5_16 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 5.0 / 16.0)));
\r
1879 private static final float cos7_16 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 7.0 / 16.0)));
\r
1880 private static final float cos1_8 = (float) (1.0 / (2.0 * Math.cos(MY_PI / 8.0)));
\r
1881 private static final float cos3_8 = (float) (1.0 / (2.0 * Math.cos(MY_PI * 3.0 / 8.0)));
\r
1882 private static final float cos1_4 = (float) (1.0 / (2.0 * Math.cos(MY_PI / 4.0)));
\r
1884 // Note: These values are not in the same order
\r
1885 // as in Annex 3-B.3 of the ISO/IEC DIS 11172-3
\r
1886 // private float d[] = {0.000000000, -4.000442505};
\r
1889 * d[] split into subarrays of length 16. This provides for more faster access
\r
1890 * by allowing a block of 16 to be addressed with constant offset.
\r
1893 private static float d16[][] = null;
\r
1896 * Converts a 1D array into a number of smaller arrays. This is used to
\r
1897 * achieve offset + constant indexing into an array. Each sub-array represents
\r
1898 * a block of values of the original array.
\r
1901 * The array to split up into blocks.
\r
1902 * @param blockSize
\r
1903 * The size of the blocks to split the array into. This must be an
\r
1904 * exact divisor of the length of the array, or some data will be
\r
1905 * lost from the main array.
\r
1907 * @return An array of arrays in which each element in the returned array will
\r
1908 * be of length <code>blockSize</code>.
\r
1910 static private float[][] splitArray(final float[] array, final int blockSize) {
\r
1911 int size = array.length / blockSize;
\r
1912 float[][] split = new float[size][];
\r
1913 for (int i = 0; i < size; i++) {
\r
1914 split[i] = subArray(array, i * blockSize, blockSize);
\r
1920 * Returns a subarray of an existing array.
\r
1923 * The array to retrieve a subarra from.
\r
1925 * The offset in the array that corresponds to the first index of the
\r
1928 * The number of indeces in the subarray.
\r
1929 * @return The subarray, which may be of length 0.
\r
1931 static private float[] subArray(final float[] array, final int offs, int len) {
\r
1932 if (offs + len > array.length) {
\r
1933 len = array.length - offs;
\r
1939 float[] subarray = new float[len];
\r
1940 for (int i = 0; i < len; i++) {
\r
1941 subarray[i] = array[offs + i];
\r
1947 // The original data for d[]. This data is loaded from a file
\r
1948 // to reduce the overall package size and to improve performance.
\r
1950 static final float d[] = { 0.000000000f, -0.000442505f, 0.003250122f, -0.007003784f,
\r
1951 0.031082153f, -0.078628540f, 0.100311279f, -0.572036743f, 1.144989014f, 0.572036743f,
\r
1952 0.100311279f, 0.078628540f, 0.031082153f, 0.007003784f, 0.003250122f, 0.000442505f,
\r
1953 -0.000015259f, -0.000473022f, 0.003326416f, -0.007919312f, 0.030517578f, -0.084182739f,
\r
1954 0.090927124f, -0.600219727f, 1.144287109f, 0.543823242f, 0.108856201f, 0.073059082f,
\r
1955 0.031478882f, 0.006118774f, 0.003173828f, 0.000396729f, -0.000015259f, -0.000534058f,
\r
1956 0.003387451f, -0.008865356f, 0.029785156f, -0.089706421f, 0.080688477f, -0.628295898f,
\r
1957 1.142211914f, 0.515609741f, 0.116577148f, 0.067520142f, 0.031738281f, 0.005294800f,
\r
1958 0.003082275f, 0.000366211f, -0.000015259f, -0.000579834f, 0.003433228f, -0.009841919f,
\r
1959 0.028884888f, -0.095169067f, 0.069595337f, -0.656219482f, 1.138763428f, 0.487472534f,
\r
1960 0.123474121f, 0.061996460f, 0.031845093f, 0.004486084f, 0.002990723f, 0.000320435f,
\r
1961 -0.000015259f, -0.000625610f, 0.003463745f, -0.010848999f, 0.027801514f, -0.100540161f,
\r
1962 0.057617188f, -0.683914185f, 1.133926392f, 0.459472656f, 0.129577637f, 0.056533813f,
\r
1963 0.031814575f, 0.003723145f, 0.002899170f, 0.000289917f, -0.000015259f, -0.000686646f,
\r
1964 0.003479004f, -0.011886597f, 0.026535034f, -0.105819702f, 0.044784546f, -0.711318970f,
\r
1965 1.127746582f, 0.431655884f, 0.134887695f, 0.051132202f, 0.031661987f, 0.003005981f,
\r
1966 0.002792358f, 0.000259399f, -0.000015259f, -0.000747681f, 0.003479004f, -0.012939453f,
\r
1967 0.025085449f, -0.110946655f, 0.031082153f, -0.738372803f, 1.120223999f, 0.404083252f,
\r
1968 0.139450073f, 0.045837402f, 0.031387329f, 0.002334595f, 0.002685547f, 0.000244141f,
\r
1969 -0.000030518f, -0.000808716f, 0.003463745f, -0.014022827f, 0.023422241f, -0.115921021f,
\r
1970 0.016510010f, -0.765029907f, 1.111373901f, 0.376800537f, 0.143264771f, 0.040634155f,
\r
1971 0.031005859f, 0.001693726f, 0.002578735f, 0.000213623f, -0.000030518f, -0.000885010f,
\r
1972 0.003417969f, -0.015121460f, 0.021575928f, -0.120697021f, 0.001068115f, -0.791213989f,
\r
1973 1.101211548f, 0.349868774f, 0.146362305f, 0.035552979f, 0.030532837f, 0.001098633f,
\r
1974 0.002456665f, 0.000198364f, -0.000030518f, -0.000961304f, 0.003372192f, -0.016235352f,
\r
1975 0.019531250f, -0.125259399f, -0.015228271f, -0.816864014f, 1.089782715f, 0.323318481f,
\r
1976 0.148773193f, 0.030609131f, 0.029937744f, 0.000549316f, 0.002349854f, 0.000167847f,
\r
1977 -0.000030518f, -0.001037598f, 0.003280640f, -0.017349243f, 0.017257690f, -0.129562378f,
\r
1978 -0.032379150f, -0.841949463f, 1.077117920f, 0.297210693f, 0.150497437f, 0.025817871f,
\r
1979 0.029281616f, 0.000030518f, 0.002243042f, 0.000152588f, -0.000045776f, -0.001113892f,
\r
1980 0.003173828f, -0.018463135f, 0.014801025f, -0.133590698f, -0.050354004f, -0.866363525f,
\r
1981 1.063217163f, 0.271591187f, 0.151596069f, 0.021179199f, 0.028533936f, -0.000442505f,
\r
1982 0.002120972f, 0.000137329f, -0.000045776f, -0.001205444f, 0.003051758f, -0.019577026f,
\r
1983 0.012115479f, -0.137298584f, -0.069168091f, -0.890090942f, 1.048156738f, 0.246505737f,
\r
1984 0.152069092f, 0.016708374f, 0.027725220f, -0.000869751f, 0.002014160f, 0.000122070f,
\r
1985 -0.000061035f, -0.001296997f, 0.002883911f, -0.020690918f, 0.009231567f, -0.140670776f,
\r
1986 -0.088775635f, -0.913055420f, 1.031936646f, 0.221984863f, 0.151962280f, 0.012420654f,
\r
1987 0.026840210f, -0.001266479f, 0.001907349f, 0.000106812f, -0.000061035f, -0.001388550f,
\r
1988 0.002700806f, -0.021789551f, 0.006134033f, -0.143676758f, -0.109161377f, -0.935195923f,
\r
1989 1.014617920f, 0.198059082f, 0.151306152f, 0.008316040f, 0.025909424f, -0.001617432f,
\r
1990 0.001785278f, 0.000106812f, -0.000076294f, -0.001480103f, 0.002487183f, -0.022857666f,
\r
1991 0.002822876f, -0.146255493f, -0.130310059f, -0.956481934f, 0.996246338f, 0.174789429f,
\r
1992 0.150115967f, 0.004394531f, 0.024932861f, -0.001937866f, 0.001693726f, 0.000091553f,
\r
1993 -0.000076294f, -0.001586914f, 0.002227783f, -0.023910522f, -0.000686646f, -0.148422241f,
\r
1994 -0.152206421f, -0.976852417f, 0.976852417f, 0.152206421f, 0.148422241f, 0.000686646f,
\r
1995 0.023910522f, -0.002227783f, 0.001586914f, 0.000076294f, -0.000091553f, -0.001693726f,
\r
1996 0.001937866f, -0.024932861f, -0.004394531f, -0.150115967f, -0.174789429f, -0.996246338f,
\r
1997 0.956481934f, 0.130310059f, 0.146255493f, -0.002822876f, 0.022857666f, -0.002487183f,
\r
1998 0.001480103f, 0.000076294f, -0.000106812f, -0.001785278f, 0.001617432f, -0.025909424f,
\r
1999 -0.008316040f, -0.151306152f, -0.198059082f, -1.014617920f, 0.935195923f, 0.109161377f,
\r
2000 0.143676758f, -0.006134033f, 0.021789551f, -0.002700806f, 0.001388550f, 0.000061035f,
\r
2001 -0.000106812f, -0.001907349f, 0.001266479f, -0.026840210f, -0.012420654f, -0.151962280f,
\r
2002 -0.221984863f, -1.031936646f, 0.913055420f, 0.088775635f, 0.140670776f, -0.009231567f,
\r
2003 0.020690918f, -0.002883911f, 0.001296997f, 0.000061035f, -0.000122070f, -0.002014160f,
\r
2004 0.000869751f, -0.027725220f, -0.016708374f, -0.152069092f, -0.246505737f, -1.048156738f,
\r
2005 0.890090942f, 0.069168091f, 0.137298584f, -0.012115479f, 0.019577026f, -0.003051758f,
\r
2006 0.001205444f, 0.000045776f, -0.000137329f, -0.002120972f, 0.000442505f, -0.028533936f,
\r
2007 -0.021179199f, -0.151596069f, -0.271591187f, -1.063217163f, 0.866363525f, 0.050354004f,
\r
2008 0.133590698f, -0.014801025f, 0.018463135f, -0.003173828f, 0.001113892f, 0.000045776f,
\r
2009 -0.000152588f, -0.002243042f, -0.000030518f, -0.029281616f, -0.025817871f, -0.150497437f,
\r
2010 -0.297210693f, -1.077117920f, 0.841949463f, 0.032379150f, 0.129562378f, -0.017257690f,
\r
2011 0.017349243f, -0.003280640f, 0.001037598f, 0.000030518f, -0.000167847f, -0.002349854f,
\r
2012 -0.000549316f, -0.029937744f, -0.030609131f, -0.148773193f, -0.323318481f, -1.089782715f,
\r
2013 0.816864014f, 0.015228271f, 0.125259399f, -0.019531250f, 0.016235352f, -0.003372192f,
\r
2014 0.000961304f, 0.000030518f, -0.000198364f, -0.002456665f, -0.001098633f, -0.030532837f,
\r
2015 -0.035552979f, -0.146362305f, -0.349868774f, -1.101211548f, 0.791213989f, -0.001068115f,
\r
2016 0.120697021f, -0.021575928f, 0.015121460f, -0.003417969f, 0.000885010f, 0.000030518f,
\r
2017 -0.000213623f, -0.002578735f, -0.001693726f, -0.031005859f, -0.040634155f, -0.143264771f,
\r
2018 -0.376800537f, -1.111373901f, 0.765029907f, -0.016510010f, 0.115921021f, -0.023422241f,
\r
2019 0.014022827f, -0.003463745f, 0.000808716f, 0.000030518f, -0.000244141f, -0.002685547f,
\r
2020 -0.002334595f, -0.031387329f, -0.045837402f, -0.139450073f, -0.404083252f, -1.120223999f,
\r
2021 0.738372803f, -0.031082153f, 0.110946655f, -0.025085449f, 0.012939453f, -0.003479004f,
\r
2022 0.000747681f, 0.000015259f, -0.000259399f, -0.002792358f, -0.003005981f, -0.031661987f,
\r
2023 -0.051132202f, -0.134887695f, -0.431655884f, -1.127746582f, 0.711318970f, -0.044784546f,
\r
2024 0.105819702f, -0.026535034f, 0.011886597f, -0.003479004f, 0.000686646f, 0.000015259f,
\r
2025 -0.000289917f, -0.002899170f, -0.003723145f, -0.031814575f, -0.056533813f, -0.129577637f,
\r
2026 -0.459472656f, -1.133926392f, 0.683914185f, -0.057617188f, 0.100540161f, -0.027801514f,
\r
2027 0.010848999f, -0.003463745f, 0.000625610f, 0.000015259f, -0.000320435f, -0.002990723f,
\r
2028 -0.004486084f, -0.031845093f, -0.061996460f, -0.123474121f, -0.487472534f, -1.138763428f,
\r
2029 0.656219482f, -0.069595337f, 0.095169067f, -0.028884888f, 0.009841919f, -0.003433228f,
\r
2030 0.000579834f, 0.000015259f, -0.000366211f, -0.003082275f, -0.005294800f, -0.031738281f,
\r
2031 -0.067520142f, -0.116577148f, -0.515609741f, -1.142211914f, 0.628295898f, -0.080688477f,
\r
2032 0.089706421f, -0.029785156f, 0.008865356f, -0.003387451f, 0.000534058f, 0.000015259f,
\r
2033 -0.000396729f, -0.003173828f, -0.006118774f, -0.031478882f, -0.073059082f, -0.108856201f,
\r
2034 -0.543823242f, -1.144287109f, 0.600219727f, -0.090927124f, 0.084182739f, -0.030517578f,
\r
2035 0.007919312f, -0.003326416f, 0.000473022f, 0.000015259f };
\r