1/* ------------------------------------------------------------------ 2 * Copyright (C) 1998-2009 PacketVideo 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either 13 * express or implied. 14 * See the License for the specific language governing permissions 15 * and limitations under the License. 16 * ------------------------------------------------------------------- 17 */ 18/* 19------------------------------------------------------------------------------ 20 21 PacketVideo Corp. 22 MP3 Decoder Library 23 24 Filename: pvmp3_equalizer.cpp 25 26 27 Date: 09/21/2007 28 29------------------------------------------------------------------------------ 30 REVISION HISTORY 31 32 33 Description: 34 35------------------------------------------------------------------------------ 36 INPUT AND OUTPUT DEFINITIONS 37 38 Input 39 int32 *inData, pointer to the spectrum frequency-line 40 e_equalization equalizerType, equalization mode 41 int32 *pt_work_buff 42 43 Output 44 int32 *pt_work_buff pointer to the equalized frequency-line 45 46------------------------------------------------------------------------------ 47 FUNCTION DESCRIPTION 48 49 Equalizer 50 Each subband sample is scaled according to a spectrum shape setting 51 defined by "equalizerType" 52 53------------------------------------------------------------------------------ 54 REQUIREMENTS 55 56 57------------------------------------------------------------------------------ 58 REFERENCES 59 60------------------------------------------------------------------------------ 61 PSEUDO-CODE 62 63------------------------------------------------------------------------------ 64*/ 65 66 67/*---------------------------------------------------------------------------- 68; INCLUDES 69----------------------------------------------------------------------------*/ 70 71#include "pvmp3_equalizer.h" 72#include "pv_mp3dec_fxd_op.h" 73#include "pvmp3_dec_defs.h" 74 75/*---------------------------------------------------------------------------- 76; MACROS 77; Define module specific macros here 78----------------------------------------------------------------------------*/ 79 80 81/*---------------------------------------------------------------------------- 82; DEFINES 83; Include all pre-processor statements here. Include conditional 84; compile variables also. 85----------------------------------------------------------------------------*/ 86#define LEVEL__0__dB 0.999999970f 87#define LEVEL__1_5dB 0.841395142f 88#define LEVEL__3__dB 0.707106781f 89#define LEVEL__4_5dB 0.595662143f 90#define LEVEL__6__dB 0.500000000f 91#define LEVEL__7_5dB 0.421696503f 92#define LEVEL__9__dB 0.353553393f 93#define LEVEL_12__dB 0.250000000f 94#define LEVEL_15__dB 0.176776695f 95#define LEVEL_18__dB 0.125000000f 96#define LEVEL_21__dB 0.088388347f 97#define LEVEL_30__dB 0.031250000f 98#define LEVEL_45__dB 0.005524271f 99#define LEVEL_60__dB 0.000976562f 100 101#define Qmf31( x) (int32)(x*(float)0x7FFFFFFF) 102 103 104/*---------------------------------------------------------------------------- 105; LOCAL FUNCTION DEFINITIONS 106; Function Prototype declaration 107----------------------------------------------------------------------------*/ 108 109/*---------------------------------------------------------------------------- 110; LOCAL STORE/BUFFER/POINTER DEFINITIONS 111; Variable declaration - defined here and used outside this module 112----------------------------------------------------------------------------*/ 113 114const int32 equalizerTbl[8][SUBBANDS_NUMBER] = 115{ 116 /* FLAT */ 117 { 118 Qmf31(LEVEL__0__dB), 119 120 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 121 122 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 123 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 124 125 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 126 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 127 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 128 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 129 130 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 131 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 132 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 133 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 134 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 135 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 136 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 137 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 138 Qmf31(LEVEL__0__dB) 139 }, 140 /* BASS BOOST */ 141 { 142 Qmf31(LEVEL__0__dB), 143 144 Qmf31(LEVEL__1_5dB), Qmf31(LEVEL__3__dB), 145 146 Qmf31(LEVEL__4_5dB), Qmf31(LEVEL__6__dB), 147 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 148 149 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 150 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 151 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 152 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 153 154 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 155 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 156 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 157 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 158 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 159 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 160 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 161 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 162 Qmf31(LEVEL__6__dB) 163 }, 164 /* ROCK */ 165 { 166 Qmf31(LEVEL__0__dB), 167 168 Qmf31(LEVEL__1_5dB), Qmf31(LEVEL__3__dB), 169 170 Qmf31(LEVEL__4_5dB), Qmf31(LEVEL__6__dB), 171 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 172 173 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 174 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 175 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 176 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__1_5dB), 177 178 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 179 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 180 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 181 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 182 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 183 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 184 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 185 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 186 Qmf31(LEVEL__0__dB) 187 }, 188 /* POP */ 189 { 190 Qmf31(LEVEL__6__dB), 191 192 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 193 194 Qmf31(LEVEL__1_5dB), Qmf31(LEVEL__0__dB), 195 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 196 197 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 198 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 199 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 200 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 201 202 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 203 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 204 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 205 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 206 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 207 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 208 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 209 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 210 Qmf31(LEVEL__9__dB) 211 }, 212 /* JAZZ */ 213 { 214 Qmf31(LEVEL__0__dB), 215 216 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 217 218 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 219 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 220 221 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 222 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 223 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 224 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__1_5dB), 225 226 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 227 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 228 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 229 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 230 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 231 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 232 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 233 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 234 Qmf31(LEVEL__0__dB) 235 }, 236 /* CLASSICAL */ 237 { 238 Qmf31(LEVEL__0__dB), 239 240 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 241 242 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 243 Qmf31(LEVEL__9__dB), Qmf31(LEVEL__9__dB), 244 245 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 246 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 247 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 248 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__1_5dB), 249 250 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 251 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 252 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 253 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 254 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 255 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 256 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 257 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 258 Qmf31(LEVEL__0__dB) 259 }, 260 /* TALK */ 261 { 262 Qmf31(LEVEL__9__dB), 263 264 Qmf31(LEVEL__6__dB), Qmf31(LEVEL__6__dB), 265 266 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 267 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 268 269 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 270 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 271 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 272 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__1_5dB), 273 274 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 275 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 276 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 277 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 278 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 279 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 280 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 281 Qmf31(LEVEL__3__dB), Qmf31(LEVEL__3__dB), 282 Qmf31(LEVEL__3__dB) 283 }, 284 /* FLAT */ 285 { 286 Qmf31(LEVEL__0__dB), 287 288 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 289 290 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 291 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 292 293 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 294 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 295 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 296 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 297 298 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 299 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 300 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 301 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 302 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 303 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 304 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 305 Qmf31(LEVEL__0__dB), Qmf31(LEVEL__0__dB), 306 Qmf31(LEVEL__0__dB) 307 } 308}; 309 310/*---------------------------------------------------------------------------- 311; EXTERNAL FUNCTION REFERENCES 312; Declare functions defined elsewhere and referenced in this module 313----------------------------------------------------------------------------*/ 314 315/*---------------------------------------------------------------------------- 316; EXTERNAL GLOBAL STORE/BUFFER/POINTER REFERENCES 317; Declare variables used in this module but defined elsewhere 318----------------------------------------------------------------------------*/ 319 320 321/*---------------------------------------------------------------------------- 322; FUNCTION CODE 323----------------------------------------------------------------------------*/ 324 325void pvmp3_equalizer(int32 *circ_buffer, 326 e_equalization equalizerType, 327 int32 *work_buff) 328{ 329 330 if (equalizerType == flat) 331 { 332 for (int32 band = 0; band < FILTERBANK_BANDS; band += 2) 333 { 334 335 int32 *pt_work_buff = &work_buff[band]; 336 int32 *inData = &circ_buffer[544 - (band<<5)]; 337 338 int32 i; 339 for (i = 0; i < SUBBANDS_NUMBER*FILTERBANK_BANDS; i += FILTERBANK_BANDS << 2) 340 { 341 int32 temp1 = (pt_work_buff[ i ]); 342 int32 temp2 = (pt_work_buff[ i + FILTERBANK_BANDS ]); 343 int32 temp3 = (pt_work_buff[ i + 2*FILTERBANK_BANDS ]); 344 int32 temp4 = (pt_work_buff[ i + 3*FILTERBANK_BANDS ]); 345 *(inData++) = temp1; 346 *(inData++) = temp2; 347 *(inData++) = temp3; 348 *(inData++) = temp4; 349 } 350 351 inData -= SUBBANDS_NUMBER << 1; 352 pt_work_buff++; 353 354 for (i = 0; i < SUBBANDS_NUMBER*FILTERBANK_BANDS; i += FILTERBANK_BANDS << 2) 355 { 356 int32 temp1 = (pt_work_buff[ i ]); 357 int32 temp2 = (pt_work_buff[ i + FILTERBANK_BANDS ]); 358 int32 temp3 = (pt_work_buff[ i + 2*FILTERBANK_BANDS ]); 359 int32 temp4 = (pt_work_buff[ i + 3*FILTERBANK_BANDS ]); 360 *(inData++) = temp1; 361 *(inData++) = temp2; 362 *(inData++) = temp3; 363 *(inData++) = temp4; 364 } 365 } 366 } 367 else 368 { 369 const int32 *pt_equalizer = equalizerTbl[equalizerType&7]; 370 371 372 for (int32 band = 0; band < FILTERBANK_BANDS; band += 3) 373 { 374 int32 *inData = &circ_buffer[544 - (band<<5)]; 375 376 int32 *pt_work_buff = &work_buff[band]; 377 int32 i; 378 379 for (i = 0; i < SUBBANDS_NUMBER*FILTERBANK_BANDS; i += FILTERBANK_BANDS << 2) 380 { 381 int32 temp1 = (pt_work_buff[ i ]); 382 int32 temp2 = (pt_work_buff[ i + FILTERBANK_BANDS ]); 383 int32 temp3 = (pt_work_buff[ i + 2*FILTERBANK_BANDS ]); 384 int32 temp4 = (pt_work_buff[ i + 3*FILTERBANK_BANDS ]); 385 *(inData++) = fxp_mul32_Q32(temp1 << 1, *(pt_equalizer++)); 386 *(inData++) = fxp_mul32_Q32(temp2 << 1, *(pt_equalizer++)); 387 *(inData++) = fxp_mul32_Q32(temp3 << 1, *(pt_equalizer++)); 388 *(inData++) = fxp_mul32_Q32(temp4 << 1, *(pt_equalizer++)); 389 } 390 391 pt_equalizer -= SUBBANDS_NUMBER; 392 393 inData -= SUBBANDS_NUMBER << 1; 394 pt_work_buff++; 395 396 for (i = 0; i < SUBBANDS_NUMBER*FILTERBANK_BANDS; i += FILTERBANK_BANDS << 2) 397 { 398 int32 temp1 = (pt_work_buff[ i ]); 399 int32 temp2 = (pt_work_buff[ i + FILTERBANK_BANDS ]); 400 int32 temp3 = (pt_work_buff[ i + 2*FILTERBANK_BANDS ]); 401 int32 temp4 = (pt_work_buff[ i + 3*FILTERBANK_BANDS ]); 402 *(inData++) = fxp_mul32_Q32(temp1 << 1, *(pt_equalizer++)); 403 *(inData++) = fxp_mul32_Q32(temp2 << 1, *(pt_equalizer++)); 404 *(inData++) = fxp_mul32_Q32(temp3 << 1, *(pt_equalizer++)); 405 *(inData++) = fxp_mul32_Q32(temp4 << 1, *(pt_equalizer++)); 406 } 407 pt_equalizer -= SUBBANDS_NUMBER; 408 409 } 410 } 411} 412 413 414 415 416