1 2 /* ----------------------------------------------------------------------------------------------------------- 3 Software License for The Fraunhofer FDK AAC Codec Library for Android 4 5 Copyright 1995 - 2012 Fraunhofer-Gesellschaft zur Frderung der angewandten Forschung e.V. 6 All rights reserved. 7 8 1. INTRODUCTION 9 The Fraunhofer FDK AAC Codec Library for Android ("FDK AAC Codec") is software that implements 10 the MPEG Advanced Audio Coding ("AAC") encoding and decoding scheme for digital audio. 11 This FDK AAC Codec software is intended to be used on a wide variety of Android devices. 12 13 AAC's HE-AAC and HE-AAC v2 versions are regarded as today's most efficient general perceptual 14 audio codecs. AAC-ELD is considered the best-performing full-bandwidth communications codec by 15 independent studies and is widely deployed. AAC has been standardized by ISO and IEC as part 16 of the MPEG specifications. 17 18 Patent licenses for necessary patent claims for the FDK AAC Codec (including those of Fraunhofer) 19 may be obtained through Via Licensing (www.vialicensing.com) or through the respective patent owners 20 individually for the purpose of encoding or decoding bit streams in products that are compliant with 21 the ISO/IEC MPEG audio standards. Please note that most manufacturers of Android devices already license 22 these patent claims through Via Licensing or directly from the patent owners, and therefore FDK AAC Codec 23 software may already be covered under those patent licenses when it is used for those licensed purposes only. 24 25 Commercially-licensed AAC software libraries, including floating-point versions with enhanced sound quality, 26 are also available from Fraunhofer. Users are encouraged to check the Fraunhofer website for additional 27 applications information and documentation. 28 29 2. COPYRIGHT LICENSE 30 31 Redistribution and use in source and binary forms, with or without modification, are permitted without 32 payment of copyright license fees provided that you satisfy the following conditions: 33 34 You must retain the complete text of this software license in redistributions of the FDK AAC Codec or 35 your modifications thereto in source code form. 36 37 You must retain the complete text of this software license in the documentation and/or other materials 38 provided with redistributions of the FDK AAC Codec or your modifications thereto in binary form. 39 You must make available free of charge copies of the complete source code of the FDK AAC Codec and your 40 modifications thereto to recipients of copies in binary form. 41 42 The name of Fraunhofer may not be used to endorse or promote products derived from this library without 43 prior written permission. 44 45 You may not charge copyright license fees for anyone to use, copy or distribute the FDK AAC Codec 46 software or your modifications thereto. 47 48 Your modified versions of the FDK AAC Codec must carry prominent notices stating that you changed the software 49 and the date of any change. For modified versions of the FDK AAC Codec, the term 50 "Fraunhofer FDK AAC Codec Library for Android" must be replaced by the term 51 "Third-Party Modified Version of the Fraunhofer FDK AAC Codec Library for Android." 52 53 3. NO PATENT LICENSE 54 55 NO EXPRESS OR IMPLIED LICENSES TO ANY PATENT CLAIMS, including without limitation the patents of Fraunhofer, 56 ARE GRANTED BY THIS SOFTWARE LICENSE. Fraunhofer provides no warranty of patent non-infringement with 57 respect to this software. 58 59 You may use this FDK AAC Codec software or modifications thereto only for purposes that are authorized 60 by appropriate patent licenses. 61 62 4. DISCLAIMER 63 64 This FDK AAC Codec software is provided by Fraunhofer on behalf of the copyright holders and contributors 65 "AS IS" and WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES, including but not limited to the implied warranties 66 of merchantability and fitness for a particular purpose. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR 67 CONTRIBUTORS BE LIABLE for any direct, indirect, incidental, special, exemplary, or consequential damages, 68 including but not limited to procurement of substitute goods or services; loss of use, data, or profits, 69 or business interruption, however caused and on any theory of liability, whether in contract, strict 70 liability, or tort (including negligence), arising in any way out of the use of this software, even if 71 advised of the possibility of such damage. 72 73 5. CONTACT INFORMATION 74 75 Fraunhofer Institute for Integrated Circuits IIS 76 Attention: Audio and Multimedia Departments - FDK AAC LL 77 Am Wolfsmantel 33 78 91058 Erlangen, Germany 79 80 www.iis.fraunhofer.de/amm 81 amm-info (at) iis.fraunhofer.de 82 ----------------------------------------------------------------------------------------------------------- */ 83 84 #include "fram_gen.h" 85 #include "sbr_misc.h" 86 87 #include "genericStds.h" 88 89 static const SBR_FRAME_INFO frameInfo1_2048 = { 90 1, 91 { 0, 16}, 92 {FREQ_RES_HIGH}, 93 0, 94 1, 95 {0, 16} }; 96 97 static const SBR_FRAME_INFO frameInfo2_2048 = { 98 2, 99 { 0, 8, 16}, 100 {FREQ_RES_HIGH, FREQ_RES_HIGH}, 101 0, 102 2, 103 { 0, 8, 16} }; 104 105 static const SBR_FRAME_INFO frameInfo4_2048 = { 106 4, 107 { 0, 4, 8, 12, 16}, 108 {FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH}, 109 0, 110 2, 111 { 0, 8, 16} }; 112 113 static const SBR_FRAME_INFO frameInfo1_2304 = { 114 1, 115 { 0, 18}, 116 {FREQ_RES_HIGH}, 117 0, 118 1, 119 { 0, 18} }; 120 121 static const SBR_FRAME_INFO frameInfo2_2304 = { 122 2, 123 { 0, 9, 18}, 124 {FREQ_RES_HIGH, FREQ_RES_HIGH}, 125 0, 126 2, 127 { 0, 9, 18} }; 128 129 static const SBR_FRAME_INFO frameInfo4_2304 = { 130 4, 131 { 0, 5, 9, 14, 18}, 132 {FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH}, 133 0, 134 2, 135 { 0, 9, 18} }; 136 137 static const SBR_FRAME_INFO frameInfo1_1920 = { 138 1, 139 { 0, 15}, 140 {FREQ_RES_HIGH}, 141 0, 142 1, 143 { 0, 15} }; 144 145 static const SBR_FRAME_INFO frameInfo2_1920 = { 146 2, 147 { 0, 8, 15}, 148 {FREQ_RES_HIGH, FREQ_RES_HIGH}, 149 0, 150 2, 151 { 0, 8, 15} }; 152 153 static const SBR_FRAME_INFO frameInfo4_1920 = { 154 4, 155 { 0, 4, 8, 12, 15}, 156 {FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH}, 157 0, 158 2, 159 { 0, 8, 15} }; 160 161 static const SBR_FRAME_INFO frameInfo1_1152 = { 162 1, 163 { 0, 9}, 164 {FREQ_RES_HIGH}, 165 0, 166 1, 167 { 0, 9} }; 168 169 static const SBR_FRAME_INFO frameInfo2_1152 = { 170 2, 171 { 0, 5, 9}, 172 {FREQ_RES_HIGH, FREQ_RES_HIGH}, 173 0, 174 2, 175 { 0, 5, 9} }; 176 177 static const SBR_FRAME_INFO frameInfo4_1152 = { 178 4, 179 { 0, 2, 5, 180 7, 9}, 181 {FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH}, 182 0, 183 2, 184 { 0, 5, 9} }; 185 186 187 /* AACLD frame info */ 188 static const SBR_FRAME_INFO frameInfo1_512LD = { 189 1, 190 {0, 8}, 191 {FREQ_RES_HIGH}, 192 0, 193 1, 194 {0, 8}}; 195 196 static const SBR_FRAME_INFO frameInfo2_512LD = { 197 2, 198 {0, 4, 8}, 199 {FREQ_RES_HIGH, FREQ_RES_HIGH}, 200 0, 201 2, 202 {0, 4, 8}}; 203 204 static const SBR_FRAME_INFO frameInfo4_512LD = { 205 4, 206 {0, 2, 4, 6, 8}, 207 {FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH}, 208 0, 209 2, 210 {0, 4, 8}}; 211 212 static int 213 calcFillLengthMax (int tranPos, /*!< input : transient position (ref: tran det) */ 214 int numberTimeSlots /*!< input : number of timeslots */ 215 ); 216 217 static void 218 fillFrameTran (const int *v_tuningSegm, /*!< tuning: desired segment lengths */ 219 const int *v_tuningFreq, /*!< tuning: desired frequency resolutions */ 220 int tran, /*!< input : position of transient */ 221 int *v_bord, /*!< memNew: borders */ 222 int *length_v_bord, /*!< memNew: # borders */ 223 int *v_freq, /*!< memNew: frequency resolutions */ 224 int *length_v_freq, /*!< memNew: # frequency resolutions */ 225 int *bmin, /*!< hlpNew: first mandatory border */ 226 int *bmax /*!< hlpNew: last mandatory border */ 227 ); 228 229 static void fillFramePre (INT dmax, INT *v_bord, INT *length_v_bord, 230 INT *v_freq, INT *length_v_freq, INT bmin, 231 INT rest); 232 233 static void fillFramePost (INT *parts, INT *d, INT dmax, INT *v_bord, 234 INT *length_v_bord, INT *v_freq, 235 INT *length_v_freq, INT bmax, 236 INT bufferFrameStart, INT numberTimeSlots, INT fmax); 237 238 static void fillFrameInter (INT *nL, const int *v_tuningSegm, INT *v_bord, 239 INT *length_v_bord, INT bmin, INT *v_freq, 240 INT *length_v_freq, INT *v_bordFollow, 241 INT *length_v_bordFollow, INT *v_freqFollow, 242 INT *length_v_freqFollow, INT i_fillFollow, 243 INT dmin, INT dmax, INT numberTimeSlots); 244 245 static void calcFrameClass (FRAME_CLASS *frameClass, FRAME_CLASS *frameClassOld, INT tranFlag, 246 INT *spreadFlag); 247 248 static void specialCase (INT *spreadFlag, INT allowSpread, INT *v_bord, 249 INT *length_v_bord, INT *v_freq, INT *length_v_freq, 250 INT *parts, INT d); 251 252 static void calcCmonBorder (INT *i_cmon, INT *i_tran, INT *v_bord, 253 INT *length_v_bord, INT tran, 254 INT bufferFrameStart, INT numberTimeSlots); 255 256 static void keepForFollowUp (INT *v_bordFollow, INT *length_v_bordFollow, 257 INT *v_freqFollow, INT *length_v_freqFollow, 258 INT *i_tranFollow, INT *i_fillFollow, 259 INT *v_bord, INT *length_v_bord, INT *v_freq, 260 INT i_cmon, INT i_tran, INT parts, INT numberTimeSlots); 261 262 static void calcCtrlSignal (HANDLE_SBR_GRID hSbrGrid, FRAME_CLASS frameClass, 263 INT *v_bord, INT length_v_bord, INT *v_freq, 264 INT length_v_freq, INT i_cmon, INT i_tran, 265 INT spreadFlag, INT nL); 266 267 static void ctrlSignal2FrameInfo (HANDLE_SBR_GRID hSbrGrid, 268 HANDLE_SBR_FRAME_INFO hFrameInfo, 269 INT freq_res_fixfix); 270 271 272 /* table for 8 time slot index */ 273 static const int envelopeTable_8 [8][5] = { 274 /* transientIndex nEnv, tranIdx, shortEnv, border1, border2, ... */ 275 /* borders from left to right side; -1 = not in use */ 276 /*[|T-|------]*/ { 2, 0, 0, 1, -1 }, 277 /*[|-T-|-----]*/ { 2, 0, 0, 2, -1 }, 278 /*[--|T-|----]*/ { 3, 1, 1, 2, 4 }, 279 /*[---|T-|---]*/ { 3, 1, 1, 3, 5 }, 280 /*[----|T-|--]*/ { 3, 1, 1, 4, 6 }, 281 /*[-----|T--|]*/ { 2, 1, 1, 5, -1 }, 282 /*[------|T-|]*/ { 2, 1, 1, 6, -1 }, 283 /*[-------|T|]*/ { 2, 1, 1, 7, -1 }, 284 }; 285 286 /* table for 16 time slot index */ 287 static const int envelopeTable_16 [16][6] = { 288 /* transientIndex nEnv, tranIdx, shortEnv, border1, border2, ... */ 289 /* length from left to right side; -1 = not in use */ 290 /*[|T---|------------|]*/ { 2, 0, 0, 4, -1, -1}, 291 /*[|-T---|-----------|]*/ { 2, 0, 0, 5, -1, -1}, 292 /*[|--|T---|----------]*/ { 3, 1, 1, 2, 6, -1}, 293 /*[|---|T---|---------]*/ { 3, 1, 1, 3, 7, -1}, 294 /*[|----|T---|--------]*/ { 3, 1, 1, 4, 8, -1}, 295 /*[|-----|T---|-------]*/ { 3, 1, 1, 5, 9, -1}, 296 /*[|------|T---|------]*/ { 3, 1, 1, 6, 10, -1}, 297 /*[|-------|T---|-----]*/ { 3, 1, 1, 7, 11, -1}, 298 /*[|--------|T---|----]*/ { 3, 1, 1, 8, 12, -1}, 299 /*[|---------|T---|---]*/ { 3, 1, 1, 9, 13, -1}, 300 /*[|----------|T---|--]*/ { 3, 1, 1,10, 14, -1}, 301 /*[|-----------|T----|]*/ { 2, 1, 1,11, -1, -1}, 302 /*[|------------|T---|]*/ { 2, 1, 1,12, -1, -1}, 303 /*[|-------------|T--|]*/ { 2, 1, 1,13, -1, -1}, 304 /*[|--------------|T-|]*/ { 2, 1, 1,14, -1, -1}, 305 /*[|---------------|T|]*/ { 2, 1, 1,15, -1, -1}, 306 }; 307 308 /* table for 15 time slot index */ 309 static const int envelopeTable_15 [15][6] = { 310 /* transientIndex nEnv, tranIdx, shortEnv, border1, border2, ... */ 311 /* length from left to right side; -1 = not in use */ 312 /*[|T---|------------]*/ { 2, 0, 0, 4, -1, -1}, 313 /*[|-T---|-----------]*/ { 2, 0, 0, 5, -1, -1}, 314 /*[|--|T---|---------]*/ { 3, 1, 1, 2, 6, -1}, 315 /*[|---|T---|--------]*/ { 3, 1, 1, 3, 7, -1}, 316 /*[|----|T---|-------]*/ { 3, 1, 1, 4, 8, -1}, 317 /*[|-----|T---|------]*/ { 3, 1, 1, 5, 9, -1}, 318 /*[|------|T---|-----]*/ { 3, 1, 1, 6, 10, -1}, 319 /*[|-------|T---|----]*/ { 3, 1, 1, 7, 11, -1}, 320 /*[|--------|T---|---]*/ { 3, 1, 1, 8, 12, -1}, 321 /*[|---------|T---|--]*/ { 3, 1, 1, 9, 13, -1}, 322 /*[|----------|T----|]*/ { 2, 1, 1,10, -1, -1}, 323 /*[|-----------|T---|]*/ { 2, 1, 1,11, -1, -1}, 324 /*[|------------|T--|]*/ { 2, 1, 1,12, -1, -1}, 325 /*[|-------------|T-|]*/ { 2, 1, 1,13, -1, -1}, 326 /*[|--------------|T|]*/ { 2, 1, 1,14, -1, -1}, 327 }; 328 329 static const int minFrameTranDistance = 4; 330 331 static const FREQ_RES freqRes_table_8[] = {FREQ_RES_LOW, FREQ_RES_LOW, FREQ_RES_LOW, FREQ_RES_LOW, FREQ_RES_LOW, 332 FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH}; 333 334 static const FREQ_RES freqRes_table_16[16] = { 335 /* size of envelope */ 336 /* 0-4 */ FREQ_RES_LOW, FREQ_RES_LOW, FREQ_RES_LOW, FREQ_RES_LOW, FREQ_RES_LOW, 337 /* 5-9 */ FREQ_RES_LOW, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, 338 /* 10-16 */ FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, FREQ_RES_HIGH, 339 FREQ_RES_HIGH }; 340 341 static void generateFixFixOnly ( HANDLE_SBR_FRAME_INFO hSbrFrameInfo, 342 HANDLE_SBR_GRID hSbrGrid, 343 int tranPosInternal, 344 int numberTimeSlots 345 ); 346 347 348 /*! 349 Functionname: FDKsbrEnc_frameInfoGenerator 350 351 Description: produces the FRAME_INFO struct for the current frame 352 353 Arguments: hSbrEnvFrame - pointer to sbr envelope handle 354 v_pre_transient_info - pointer to transient info vector 355 v_transient_info - pointer to previous transient info vector 356 v_tuning - pointer to tuning vector 357 358 Return: frame_info - pointer to SBR_FRAME_INFO struct 359 360 *******************************************************************************/ 361 HANDLE_SBR_FRAME_INFO 362 FDKsbrEnc_frameInfoGenerator (HANDLE_SBR_ENVELOPE_FRAME hSbrEnvFrame, 363 UCHAR *v_transient_info, 364 UCHAR *v_transient_info_pre, 365 int ldGrid, 366 const int *v_tuning) 367 { 368 INT numEnv, tranPosInternal=0, bmin=0, bmax=0, parts, d, i_cmon=0, i_tran=0, nL; 369 INT fmax = 0; 370 371 INT *v_bord = hSbrEnvFrame->v_bord; 372 INT *v_freq = hSbrEnvFrame->v_freq; 373 INT *v_bordFollow = hSbrEnvFrame->v_bordFollow; 374 INT *v_freqFollow = hSbrEnvFrame->v_freqFollow; 375 376 377 INT *length_v_bordFollow = &hSbrEnvFrame->length_v_bordFollow; 378 INT *length_v_freqFollow = &hSbrEnvFrame->length_v_freqFollow; 379 INT *length_v_bord = &hSbrEnvFrame->length_v_bord; 380 INT *length_v_freq = &hSbrEnvFrame->length_v_freq; 381 INT *spreadFlag = &hSbrEnvFrame->spreadFlag; 382 INT *i_tranFollow = &hSbrEnvFrame->i_tranFollow; 383 INT *i_fillFollow = &hSbrEnvFrame->i_fillFollow; 384 FRAME_CLASS *frameClassOld = &hSbrEnvFrame->frameClassOld; 385 FRAME_CLASS frameClass = FIXFIX; 386 387 388 INT allowSpread = hSbrEnvFrame->allowSpread; 389 INT numEnvStatic = hSbrEnvFrame->numEnvStatic; 390 INT staticFraming = hSbrEnvFrame->staticFraming; 391 INT dmin = hSbrEnvFrame->dmin; 392 INT dmax = hSbrEnvFrame->dmax; 393 394 INT bufferFrameStart = hSbrEnvFrame->SbrGrid.bufferFrameStart; 395 INT numberTimeSlots = hSbrEnvFrame->SbrGrid.numberTimeSlots; 396 INT frameMiddleSlot = hSbrEnvFrame->frameMiddleSlot; 397 398 INT tranPos = v_transient_info[0]; 399 INT tranFlag = v_transient_info[1]; 400 401 const int *v_tuningSegm = v_tuning; 402 const int *v_tuningFreq = v_tuning + 3; 403 404 hSbrEnvFrame->v_tuningSegm = v_tuningSegm; 405 INT freq_res_fixfix = hSbrEnvFrame->freq_res_fixfix; 406 407 if (ldGrid) { 408 /* in case there was a transient at the very end of the previous frame, start with a transient envelope */ 409 if(v_transient_info_pre[1] && (numberTimeSlots - v_transient_info_pre[0] < minFrameTranDistance)){ 410 tranFlag = 1; 411 tranPos = 0; 412 } 413 } 414 415 /* 416 * Synopsis: 417 * 418 * The frame generator creates the time-/frequency-grid for one SBR frame. 419 * Input signals are provided by the transient detector and the frame 420 * splitter (transientDetectNew() & FrameSplitter() in tran_det.c). The 421 * framing is controlled by adjusting tuning parameters stored in 422 * FRAME_GEN_TUNING. The parameter values are dependent on frame lengths 423 * and bitrates, and may in the future be signal dependent. 424 * 425 * The envelope borders are stored for frame generator internal use in 426 * aBorders. The contents of aBorders represent positions along the time 427 * axis given in the figures in fram_gen.h (the "frame-generator" rows). 428 * The unit is "time slot". The figures in fram_gen.h also define the 429 * detection ranges for the transient detector. For every border in 430 * aBorders, there is a corresponding entry in aFreqRes, which defines the 431 * frequency resolution of the envelope following (delimited by) the 432 * border. 433 * 434 * When no transients are present, FIXFIX class frames are used. The 435 * frame splitter decides whether to use one or two envelopes in the 436 * FIXFIX frame. "Sparse transients" (separated by a few frames without 437 * transients) are handeled by [FIXVAR, VARFIX] pairs or (depending on 438 * tuning and transient position relative the nominal frame boundaries) 439 * by [FIXVAR, VARVAR, VARFIX] triples. "Tight transients" (in 440 * consecutive frames) are handeled by [..., VARVAR, VARVAR, ...] 441 * sequences. 442 * 443 * The generator assumes that transients are "sparse", and designs 444 * borders for [FIXVAR, VARFIX] pairs right away, where the first frame 445 * corresponds to the present frame. At the next call of the generator 446 * it is known whether the transient actually is "sparse" or not. If 447 * 'yes', the already calculated VARFIX borders are used. If 'no', new 448 * borders, meeting the requirements of the "tight" transient, are 449 * calculated. 450 * 451 * The generator produces two outputs: A "clear-text bitstream" stored in 452 * SBR_GRID, and a straight-forward representation of the grid stored in 453 * SBR_FRAME_INFO. The former is subsequently converted to the actual 454 * bitstream sbr_grid() (encodeSbrGrid() in bit_sbr.c). The latter is 455 * used by other encoder functions, such as the envelope estimator 456 * (calculateSbrEnvelope() in env_est.c) and the noise floor and missing 457 * harmonics detector (TonCorrParamExtr() in nf_est.c). 458 */ 459 460 if (staticFraming) { 461 /*-------------------------------------------------------------------------- 462 Ignore transient detector 463 ---------------------------------------------------------------------------*/ 464 465 frameClass = FIXFIX; 466 numEnv = numEnvStatic; /* {1,2,4,8} */ 467 *frameClassOld = FIXFIX; /* for change to dyn */ 468 hSbrEnvFrame->SbrGrid.bs_num_env = numEnv; 469 hSbrEnvFrame->SbrGrid.frameClass = frameClass; 470 } 471 else { 472 /*-------------------------------------------------------------------------- 473 Calculate frame class to use 474 ---------------------------------------------------------------------------*/ 475 calcFrameClass (&frameClass, frameClassOld, tranFlag, spreadFlag); 476 477 /* patch for new frame class FIXFIXonly for AAC LD */ 478 if (tranFlag && ldGrid) { 479 frameClass = FIXFIXonly; 480 *frameClassOld = FIXFIX; 481 } 482 483 /* 484 * every transient is processed below by inserting 485 * 486 * - one border at the onset of the transient 487 * - one or more "decay borders" (after the onset of the transient) 488 * - optionally one "attack border" (before the onset of the transient) 489 * 490 * those borders are referred to as "mandatory borders" and are 491 * defined by the 'segmentLength' array in FRAME_GEN_TUNING 492 * 493 * the frequency resolutions of the corresponding envelopes are 494 * defined by the 'segmentRes' array in FRAME_GEN_TUNING 495 */ 496 497 /*-------------------------------------------------------------------------- 498 Design frame (or follow-up old design) 499 ---------------------------------------------------------------------------*/ 500 if (tranFlag) { /* Always for FixVar, often but not always for VarVar */ 501 /*-------------------------------------------------------------------------- 502 Design part of T/F-grid around the new transient 503 ---------------------------------------------------------------------------*/ 504 505 tranPosInternal = frameMiddleSlot + tranPos + bufferFrameStart ; /* FH 00-06-26 */ 506 /* 507 add mandatory borders around transient 508 */ 509 510 fillFrameTran ( v_tuningSegm, 511 v_tuningFreq, 512 tranPosInternal, 513 v_bord, 514 length_v_bord, 515 v_freq, 516 length_v_freq, 517 &bmin, 518 &bmax ); 519 520 /* make sure we stay within the maximum SBR frame overlap */ 521 fmax = calcFillLengthMax(tranPos, numberTimeSlots); 522 } 523 524 switch (frameClass) { 525 526 case FIXFIXonly: 527 FDK_ASSERT(ldGrid); 528 tranPosInternal = tranPos; 529 generateFixFixOnly ( &(hSbrEnvFrame->SbrFrameInfo), 530 &(hSbrEnvFrame->SbrGrid), 531 tranPosInternal, 532 numberTimeSlots 533 ); 534 535 return &(hSbrEnvFrame->SbrFrameInfo); 536 537 case FIXVAR: 538 539 /*-------------------------------------------------------------------------- 540 Design remaining parts of T/F-grid (assuming next frame is VarFix) 541 ---------------------------------------------------------------------------*/ 542 543 /*-------------------------------------------------------------------------- 544 Fill region before new transient: 545 ---------------------------------------------------------------------------*/ 546 fillFramePre (dmax, v_bord, length_v_bord, v_freq, length_v_freq, 547 bmin, bmin - bufferFrameStart); /* FH 00-06-26 */ 548 549 /*-------------------------------------------------------------------------- 550 Fill region after new transient: 551 ---------------------------------------------------------------------------*/ 552 fillFramePost (&parts, &d, dmax, v_bord, length_v_bord, v_freq, 553 length_v_freq, bmax, bufferFrameStart, numberTimeSlots, fmax); 554 555 /*-------------------------------------------------------------------------- 556 Take care of special case: 557 ---------------------------------------------------------------------------*/ 558 if (parts == 1 && d < dmin) /* no fill, short last envelope */ 559 specialCase (spreadFlag, allowSpread, v_bord, length_v_bord, 560 v_freq, length_v_freq, &parts, d); 561 562 /*-------------------------------------------------------------------------- 563 Calculate common border (split-point) 564 ---------------------------------------------------------------------------*/ 565 calcCmonBorder (&i_cmon, &i_tran, v_bord, length_v_bord, tranPosInternal, 566 bufferFrameStart, numberTimeSlots); /* FH 00-06-26 */ 567 568 /*-------------------------------------------------------------------------- 569 Extract data for proper follow-up in next frame 570 ---------------------------------------------------------------------------*/ 571 keepForFollowUp (v_bordFollow, length_v_bordFollow, v_freqFollow, 572 length_v_freqFollow, i_tranFollow, i_fillFollow, 573 v_bord, length_v_bord, v_freq, i_cmon, i_tran, parts, numberTimeSlots); /* FH 00-06-26 */ 574 575 /*-------------------------------------------------------------------------- 576 Calculate control signal 577 ---------------------------------------------------------------------------*/ 578 calcCtrlSignal (&hSbrEnvFrame->SbrGrid, frameClass, 579 v_bord, *length_v_bord, v_freq, *length_v_freq, 580 i_cmon, i_tran, *spreadFlag, DC); 581 break; 582 case VARFIX: 583 /*-------------------------------------------------------------------------- 584 Follow-up old transient - calculate control signal 585 ---------------------------------------------------------------------------*/ 586 calcCtrlSignal (&hSbrEnvFrame->SbrGrid, frameClass, 587 v_bordFollow, *length_v_bordFollow, v_freqFollow, 588 *length_v_freqFollow, DC, *i_tranFollow, 589 *spreadFlag, DC); 590 break; 591 case VARVAR: 592 if (*spreadFlag) { /* spread across three frames */ 593 /*-------------------------------------------------------------------------- 594 Follow-up old transient - calculate control signal 595 ---------------------------------------------------------------------------*/ 596 calcCtrlSignal (&hSbrEnvFrame->SbrGrid, 597 frameClass, v_bordFollow, *length_v_bordFollow, 598 v_freqFollow, *length_v_freqFollow, DC, 599 *i_tranFollow, *spreadFlag, DC); 600 601 *spreadFlag = 0; 602 603 /*-------------------------------------------------------------------------- 604 Extract data for proper follow-up in next frame 605 ---------------------------------------------------------------------------*/ 606 v_bordFollow[0] = hSbrEnvFrame->SbrGrid.bs_abs_bord_1 - numberTimeSlots; /* FH 00-06-26 */ 607 v_freqFollow[0] = 1; 608 *length_v_bordFollow = 1; 609 *length_v_freqFollow = 1; 610 611 *i_tranFollow = -DC; 612 *i_fillFollow = -DC; 613 } 614 else { 615 /*-------------------------------------------------------------------------- 616 Design remaining parts of T/F-grid (assuming next frame is VarFix) 617 adapt or fill region before new transient: 618 ---------------------------------------------------------------------------*/ 619 fillFrameInter (&nL, v_tuningSegm, v_bord, length_v_bord, bmin, 620 v_freq, length_v_freq, v_bordFollow, 621 length_v_bordFollow, v_freqFollow, 622 length_v_freqFollow, *i_fillFollow, dmin, dmax, 623 numberTimeSlots); 624 625 /*-------------------------------------------------------------------------- 626 Fill after transient: 627 ---------------------------------------------------------------------------*/ 628 fillFramePost (&parts, &d, dmax, v_bord, length_v_bord, v_freq, 629 length_v_freq, bmax, bufferFrameStart, numberTimeSlots, fmax); 630 631 /*-------------------------------------------------------------------------- 632 Take care of special case: 633 ---------------------------------------------------------------------------*/ 634 if (parts == 1 && d < dmin) /*% no fill, short last envelope */ 635 specialCase (spreadFlag, allowSpread, v_bord, length_v_bord, 636 v_freq, length_v_freq, &parts, d); 637 638 /*-------------------------------------------------------------------------- 639 Calculate common border (split-point) 640 ---------------------------------------------------------------------------*/ 641 calcCmonBorder (&i_cmon, &i_tran, v_bord, length_v_bord, tranPosInternal, 642 bufferFrameStart, numberTimeSlots); 643 644 /*-------------------------------------------------------------------------- 645 Extract data for proper follow-up in next frame 646 ---------------------------------------------------------------------------*/ 647 keepForFollowUp (v_bordFollow, length_v_bordFollow, 648 v_freqFollow, length_v_freqFollow, 649 i_tranFollow, i_fillFollow, v_bord, 650 length_v_bord, v_freq, i_cmon, i_tran, parts, numberTimeSlots); 651 652 /*-------------------------------------------------------------------------- 653 Calculate control signal 654 ---------------------------------------------------------------------------*/ 655 calcCtrlSignal (&hSbrEnvFrame->SbrGrid, 656 frameClass, v_bord, *length_v_bord, v_freq, 657 *length_v_freq, i_cmon, i_tran, 0, nL); 658 } 659 break; 660 case FIXFIX: 661 if (tranPos == 0) 662 numEnv = 1; 663 else 664 numEnv = 2; 665 666 hSbrEnvFrame->SbrGrid.bs_num_env = numEnv; 667 hSbrEnvFrame->SbrGrid.frameClass = frameClass; 668 669 break; 670 default: 671 FDK_ASSERT(0); 672 } 673 } 674 675 /*------------------------------------------------------------------------- 676 Convert control signal to frame info struct 677 ---------------------------------------------------------------------------*/ 678 ctrlSignal2FrameInfo (&hSbrEnvFrame->SbrGrid, 679 &hSbrEnvFrame->SbrFrameInfo, 680 freq_res_fixfix); 681 682 return &hSbrEnvFrame->SbrFrameInfo; 683 } 684 685 686 /***************************************************************************/ 687 /*! 688 \brief Gnerates frame info for FIXFIXonly frame class used for low delay version 689 690 \return nothing 691 ****************************************************************************/ 692 static void generateFixFixOnly ( HANDLE_SBR_FRAME_INFO hSbrFrameInfo, 693 HANDLE_SBR_GRID hSbrGrid, 694 int tranPosInternal, 695 int numberTimeSlots 696 ) 697 { 698 int nEnv, i, k=0, tranIdx; 699 const int *pTable = NULL; 700 const FREQ_RES *freqResTable = NULL; 701 702 switch (numberTimeSlots) { 703 case 8: 704 pTable = envelopeTable_8[tranPosInternal]; 705 freqResTable = freqRes_table_8; 706 break; 707 case 15: 708 pTable = envelopeTable_15[tranPosInternal]; 709 freqResTable = freqRes_table_16; 710 break; 711 case 16: 712 pTable = envelopeTable_16[tranPosInternal]; 713 freqResTable = freqRes_table_16; 714 break; 715 } 716 717 /* look number of envolpes in table */ 718 nEnv = pTable[0]; 719 /* look up envolpe distribution in table */ 720 for (i=1; i<nEnv; i++) 721 hSbrFrameInfo->borders[i] = pTable[i+2]; 722 723 /* open and close frame border */ 724 hSbrFrameInfo->borders[0] = 0; 725 hSbrFrameInfo->borders[nEnv] = numberTimeSlots; 726 727 /* adjust segment-frequency-resolution according to the segment-length */ 728 for (i=0; i<nEnv; i++){ 729 k = hSbrFrameInfo->borders[i+1] - hSbrFrameInfo->borders[i]; 730 hSbrFrameInfo->freqRes[i] = freqResTable[k]; 731 hSbrGrid->v_f[i] = freqResTable[k]; 732 } 733 734 hSbrFrameInfo->nEnvelopes = nEnv; 735 hSbrFrameInfo->shortEnv = pTable[2]; 736 /* transient idx */ 737 tranIdx = pTable[1]; 738 739 /* add noise floors */ 740 hSbrFrameInfo->bordersNoise[0] = 0; 741 hSbrFrameInfo->bordersNoise[1] = hSbrFrameInfo->borders[tranIdx?tranIdx:1]; 742 hSbrFrameInfo->bordersNoise[2] = numberTimeSlots; 743 hSbrFrameInfo->nNoiseEnvelopes = 2; 744 745 hSbrGrid->frameClass = FIXFIXonly; 746 hSbrGrid->bs_abs_bord = tranPosInternal; 747 hSbrGrid->bs_num_env = nEnv; 748 749 } 750 751 752 753 /******************************************************************************* 754 Functionname: FDKsbrEnc_initFrameInfoGenerator 755 ******************************************************************************* 756 757 Description: 758 759 Arguments: hSbrEnvFrame - pointer to sbr envelope handle 760 allowSpread - commandline parameter 761 numEnvStatic - commandline parameter 762 staticFraming - commandline parameter 763 764 Return: none 765 766 *******************************************************************************/ 767 void 768 FDKsbrEnc_initFrameInfoGenerator (HANDLE_SBR_ENVELOPE_FRAME hSbrEnvFrame, 769 INT allowSpread, 770 INT numEnvStatic, 771 INT staticFraming, 772 INT timeSlots, 773 INT freq_res_fixfix 774 ,int ldGrid 775 ) 776 777 { /* FH 00-06-26 */ 778 779 FDKmemclear(hSbrEnvFrame,sizeof(SBR_ENVELOPE_FRAME )); 780 781 782 /* Initialisation */ 783 hSbrEnvFrame->frameClassOld = FIXFIX; 784 hSbrEnvFrame->spreadFlag = 0; 785 786 hSbrEnvFrame->allowSpread = allowSpread; 787 hSbrEnvFrame->numEnvStatic = numEnvStatic; 788 hSbrEnvFrame->staticFraming = staticFraming; 789 hSbrEnvFrame->freq_res_fixfix = freq_res_fixfix; 790 791 hSbrEnvFrame->length_v_bord = 0; 792 hSbrEnvFrame->length_v_bordFollow = 0; 793 794 hSbrEnvFrame->length_v_freq = 0; 795 hSbrEnvFrame->length_v_freqFollow = 0; 796 797 hSbrEnvFrame->i_tranFollow = 0; 798 hSbrEnvFrame->i_fillFollow = 0; 799 800 hSbrEnvFrame->SbrGrid.numberTimeSlots = timeSlots; 801 802 if (ldGrid) { 803 /*case CODEC_AACLD:*/ 804 hSbrEnvFrame->dmin = 2; 805 hSbrEnvFrame->dmax = 16; 806 hSbrEnvFrame->frameMiddleSlot = FRAME_MIDDLE_SLOT_512LD; 807 } else 808 switch(timeSlots){ 809 case NUMBER_TIME_SLOTS_1920: 810 hSbrEnvFrame->dmin = 4; 811 hSbrEnvFrame->dmax = 12; 812 hSbrEnvFrame->SbrGrid.bufferFrameStart = 0; 813 hSbrEnvFrame->frameMiddleSlot = FRAME_MIDDLE_SLOT_1920; 814 break; 815 case NUMBER_TIME_SLOTS_2048: 816 hSbrEnvFrame->dmin = 4; 817 hSbrEnvFrame->dmax = 12; 818 hSbrEnvFrame->SbrGrid.bufferFrameStart = 0; 819 hSbrEnvFrame->frameMiddleSlot = FRAME_MIDDLE_SLOT_2048; 820 break; 821 case NUMBER_TIME_SLOTS_1152: 822 hSbrEnvFrame->dmin = 2; 823 hSbrEnvFrame->dmax = 8; 824 hSbrEnvFrame->SbrGrid.bufferFrameStart = 0; 825 hSbrEnvFrame->frameMiddleSlot = FRAME_MIDDLE_SLOT_1152; 826 break; 827 case NUMBER_TIME_SLOTS_2304: 828 hSbrEnvFrame->dmin = 4; 829 hSbrEnvFrame->dmax = 15; 830 hSbrEnvFrame->SbrGrid.bufferFrameStart = 0; 831 hSbrEnvFrame->frameMiddleSlot = FRAME_MIDDLE_SLOT_2304; 832 break; 833 default: 834 FDK_ASSERT(0); 835 } 836 837 } 838 839 840 /******************************************************************************* 841 Functionname: fillFrameTran 842 ******************************************************************************* 843 844 Description: Add mandatory borders, as described by the tuning vector 845 and the current transient position 846 847 Arguments: 848 modified: 849 v_bord - int pointer to v_bord vector 850 length_v_bord - length of v_bord vector 851 v_freq - int pointer to v_freq vector 852 length_v_freq - length of v_freq vector 853 bmin - int pointer to bmin (call by reference) 854 bmax - int pointer to bmax (call by reference) 855 not modified: 856 tran - position of transient 857 v_tuningSegm - int pointer to v_tuningSegm vector 858 v_tuningFreq - int pointer to v_tuningFreq vector 859 860 Return: none 861 862 *******************************************************************************/ 863 static void 864 fillFrameTran (const int *v_tuningSegm, /*!< tuning: desired segment lengths */ 865 const int *v_tuningFreq, /*!< tuning: desired frequency resolutions */ 866 int tran, /*!< input : position of transient */ 867 int *v_bord, /*!< memNew: borders */ 868 int *length_v_bord, /*!< memNew: # borders */ 869 int *v_freq, /*!< memNew: frequency resolutions */ 870 int *length_v_freq, /*!< memNew: # frequency resolutions */ 871 int *bmin, /*!< hlpNew: first mandatory border */ 872 int *bmax /*!< hlpNew: last mandatory border */ 873 ) 874 { 875 int bord, i; 876 877 *length_v_bord = 0; 878 *length_v_freq = 0; 879 880 /* add attack env leading border (optional) */ 881 if (v_tuningSegm[0]) { 882 /* v_bord = [(Ba)] start of attack env */ 883 FDKsbrEnc_AddRight (v_bord, length_v_bord, (tran - v_tuningSegm[0])); 884 885 /* v_freq = [(Fa)] res of attack env */ 886 FDKsbrEnc_AddRight (v_freq, length_v_freq, v_tuningFreq[0]); 887 } 888 889 /* add attack env trailing border/first decay env leading border */ 890 bord = tran; 891 FDKsbrEnc_AddRight (v_bord, length_v_bord, tran); /* v_bord = [(Ba),Bd1] */ 892 893 /* add first decay env trailing border/2:nd decay env leading border */ 894 if (v_tuningSegm[1]) { 895 bord += v_tuningSegm[1]; 896 897 /* v_bord = [(Ba),Bd1,Bd2] */ 898 FDKsbrEnc_AddRight (v_bord, length_v_bord, bord); 899 900 /* v_freq = [(Fa),Fd1] */ 901 FDKsbrEnc_AddRight (v_freq, length_v_freq, v_tuningFreq[1]); 902 } 903 904 /* add 2:nd decay env trailing border (optional) */ 905 if (v_tuningSegm[2] != 0) { 906 bord += v_tuningSegm[2]; 907 908 /* v_bord = [(Ba),Bd1, Bd2,(Bd3)] */ 909 FDKsbrEnc_AddRight (v_bord, length_v_bord, bord); 910 911 /* v_freq = [(Fa),Fd1,(Fd2)] */ 912 FDKsbrEnc_AddRight (v_freq, length_v_freq, v_tuningFreq[2]); 913 } 914 915 /* v_freq = [(Fa),Fd1,(Fd2),1] */ 916 FDKsbrEnc_AddRight (v_freq, length_v_freq, 1); 917 918 919 /* calc min and max values of mandatory borders */ 920 *bmin = v_bord[0]; 921 for (i = 0; i < *length_v_bord; i++) 922 if (v_bord[i] < *bmin) 923 *bmin = v_bord[i]; 924 925 *bmax = v_bord[0]; 926 for (i = 0; i < *length_v_bord; i++) 927 if (v_bord[i] > *bmax) 928 *bmax = v_bord[i]; 929 930 } 931 932 933 934 /******************************************************************************* 935 Functionname: fillFramePre 936 ******************************************************************************* 937 938 Description: Add borders before mandatory borders, if needed 939 940 Arguments: 941 modified: 942 v_bord - int pointer to v_bord vector 943 length_v_bord - length of v_bord vector 944 v_freq - int pointer to v_freq vector 945 length_v_freq - length of v_freq vector 946 not modified: 947 dmax - int value 948 bmin - int value 949 rest - int value 950 951 Return: none 952 953 *******************************************************************************/ 954 static void 955 fillFramePre (INT dmax, 956 INT *v_bord, INT *length_v_bord, 957 INT *v_freq, INT *length_v_freq, 958 INT bmin, INT rest) 959 { 960 /* 961 input state: 962 v_bord = [(Ba),Bd1, Bd2 ,(Bd3)] 963 v_freq = [(Fa),Fd1,(Fd2),1 ] 964 */ 965 966 INT parts, d, j, S, s = 0, segm, bord; 967 968 /* 969 start with one envelope 970 */ 971 972 parts = 1; 973 d = rest; 974 975 /* 976 calc # of additional envelopes and corresponding lengths 977 */ 978 979 while (d > dmax) { 980 parts++; 981 982 segm = rest / parts; 983 S = (segm - 2)>>1; 984 s = fixMin (8, 2 * S + 2); 985 d = rest - (parts - 1) * s; 986 } 987 988 /* 989 add borders before mandatory borders 990 */ 991 992 bord = bmin; 993 994 for (j = 0; j <= parts - 2; j++) { 995 bord = bord - s; 996 997 /* v_bord = [...,(Bf),(Ba),Bd1, Bd2 ,(Bd3)] */ 998 FDKsbrEnc_AddLeft (v_bord, length_v_bord, bord); 999 1000 /* v_freq = [...,(1 ),(Fa),Fd1,(Fd2), 1 ] */ 1001 FDKsbrEnc_AddLeft (v_freq, length_v_freq, 1); 1002 } 1003 } 1004 1005 /***************************************************************************/ 1006 /*! 1007 \brief Overlap control 1008 1009 Calculate max length of trailing fill segments, such that we always get a 1010 border within the frame overlap region 1011 1012 \return void 1013 1014 ****************************************************************************/ 1015 static int 1016 calcFillLengthMax (int tranPos, /*!< input : transient position (ref: tran det) */ 1017 int numberTimeSlots /*!< input : number of timeslots */ 1018 ) 1019 { 1020 int fmax; 1021 1022 /* 1023 calculate transient position within envelope buffer 1024 */ 1025 switch (numberTimeSlots) 1026 { 1027 case NUMBER_TIME_SLOTS_2048: 1028 if (tranPos < 4) 1029 fmax = 6; 1030 else if (tranPos == 4 || tranPos == 5) 1031 fmax = 4; 1032 else 1033 fmax = 8; 1034 break; 1035 1036 case NUMBER_TIME_SLOTS_1920: 1037 if (tranPos < 4) 1038 fmax = 5; 1039 else if (tranPos == 4 || tranPos == 5) 1040 fmax = 3; 1041 else 1042 fmax = 7; 1043 break; 1044 1045 default: 1046 fmax = 8; 1047 break; 1048 } 1049 1050 return fmax; 1051 } 1052 1053 /******************************************************************************* 1054 Functionname: fillFramePost 1055 ******************************************************************************* 1056 1057 Description: -Add borders after mandatory borders, if needed 1058 Make a preliminary design of next frame, 1059 assuming no transient is present there 1060 1061 Arguments: 1062 modified: 1063 parts - int pointer to parts (call by reference) 1064 d - int pointer to d (call by reference) 1065 v_bord - int pointer to v_bord vector 1066 length_v_bord - length of v_bord vector 1067 v_freq - int pointer to v_freq vector 1068 length_v_freq - length of v_freq vector 1069 not modified: 1070 bmax - int value 1071 dmax - int value 1072 1073 Return: none 1074 1075 *******************************************************************************/ 1076 static void 1077 fillFramePost (INT *parts, INT *d, INT dmax, INT *v_bord, INT *length_v_bord, 1078 INT *v_freq, INT *length_v_freq, INT bmax, 1079 INT bufferFrameStart, INT numberTimeSlots, INT fmax) 1080 { 1081 INT j, rest, segm, S, s = 0, bord; 1082 1083 /* 1084 input state: 1085 v_bord = [...,(Bf),(Ba),Bd1, Bd2 ,(Bd3)] 1086 v_freq = [...,(1 ),(Fa),Fd1,(Fd2),1 ] 1087 */ 1088 1089 rest = bufferFrameStart + 2 * numberTimeSlots - bmax; 1090 *d = rest; 1091 1092 if (*d > 0) { 1093 *parts = 1; /* start with one envelope */ 1094 1095 /* calc # of additional envelopes and corresponding lengths */ 1096 1097 while (*d > dmax) { 1098 *parts = *parts + 1; 1099 1100 segm = rest / (*parts); 1101 S = (segm - 2)>>1; 1102 s = fixMin (fmax, 2 * S + 2); 1103 *d = rest - (*parts - 1) * s; 1104 } 1105 1106 /* add borders after mandatory borders */ 1107 1108 bord = bmax; 1109 for (j = 0; j <= *parts - 2; j++) { 1110 bord += s; 1111 1112 /* v_bord = [...,(Bf),(Ba),Bd1, Bd2 ,(Bd3),(Bf)] */ 1113 FDKsbrEnc_AddRight (v_bord, length_v_bord, bord); 1114 1115 /* v_freq = [...,(1 ),(Fa),Fd1,(Fd2), 1 , 1! ,1] */ 1116 FDKsbrEnc_AddRight (v_freq, length_v_freq, 1); 1117 } 1118 } 1119 else { 1120 *parts = 1; 1121 1122 /* remove last element from v_bord and v_freq */ 1123 1124 *length_v_bord = *length_v_bord - 1; 1125 *length_v_freq = *length_v_freq - 1; 1126 1127 } 1128 } 1129 1130 1131 1132 /******************************************************************************* 1133 Functionname: fillFrameInter 1134 ******************************************************************************* 1135 1136 Description: 1137 1138 Arguments: nL - 1139 v_tuningSegm - 1140 v_bord - 1141 length_v_bord - 1142 bmin - 1143 v_freq - 1144 length_v_freq - 1145 v_bordFollow - 1146 length_v_bordFollow - 1147 v_freqFollow - 1148 length_v_freqFollow - 1149 i_fillFollow - 1150 dmin - 1151 dmax - 1152 1153 Return: none 1154 1155 *******************************************************************************/ 1156 static void 1157 fillFrameInter (INT *nL, const int *v_tuningSegm, INT *v_bord, INT *length_v_bord, 1158 INT bmin, INT *v_freq, INT *length_v_freq, INT *v_bordFollow, 1159 INT *length_v_bordFollow, INT *v_freqFollow, 1160 INT *length_v_freqFollow, INT i_fillFollow, INT dmin, 1161 INT dmax, INT numberTimeSlots) 1162 { 1163 INT middle, b_new, numBordFollow, bordMaxFollow, i; 1164 1165 if (numberTimeSlots != NUMBER_TIME_SLOTS_1152) { 1166 1167 /* % remove fill borders: */ 1168 if (i_fillFollow >= 1) { 1169 *length_v_bordFollow = i_fillFollow; 1170 *length_v_freqFollow = i_fillFollow; 1171 } 1172 1173 numBordFollow = *length_v_bordFollow; 1174 bordMaxFollow = v_bordFollow[numBordFollow - 1]; 1175 1176 /* remove even more borders if needed */ 1177 middle = bmin - bordMaxFollow; 1178 while (middle < 0) { 1179 numBordFollow--; 1180 bordMaxFollow = v_bordFollow[numBordFollow - 1]; 1181 middle = bmin - bordMaxFollow; 1182 } 1183 1184 *length_v_bordFollow = numBordFollow; 1185 *length_v_freqFollow = numBordFollow; 1186 *nL = numBordFollow - 1; 1187 1188 b_new = *length_v_bord; 1189 1190 1191 if (middle <= dmax) { 1192 if (middle >= dmin) { /* concatenate */ 1193 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, *length_v_bordFollow); 1194 FDKsbrEnc_AddVecLeft (v_freq, length_v_freq, v_freqFollow, *length_v_freqFollow); 1195 } 1196 1197 else { 1198 if (v_tuningSegm[0] != 0) { /* remove one new border and concatenate */ 1199 *length_v_bord = b_new - 1; 1200 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, 1201 *length_v_bordFollow); 1202 1203 *length_v_freq = b_new - 1; 1204 FDKsbrEnc_AddVecLeft (v_freq + 1, length_v_freq, v_freqFollow, 1205 *length_v_freqFollow); 1206 } 1207 else { 1208 if (*length_v_bordFollow > 1) { /* remove one old border and concatenate */ 1209 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, 1210 *length_v_bordFollow - 1); 1211 FDKsbrEnc_AddVecLeft (v_freq, length_v_freq, v_freqFollow, 1212 *length_v_bordFollow - 1); 1213 1214 *nL = *nL - 1; 1215 } 1216 else { /* remove new "transient" border and concatenate */ 1217 1218 for (i = 0; i < *length_v_bord - 1; i++) 1219 v_bord[i] = v_bord[i + 1]; 1220 1221 for (i = 0; i < *length_v_freq - 1; i++) 1222 v_freq[i] = v_freq[i + 1]; 1223 1224 *length_v_bord = b_new - 1; 1225 *length_v_freq = b_new - 1; 1226 1227 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, 1228 *length_v_bordFollow); 1229 FDKsbrEnc_AddVecLeft (v_freq, length_v_freq, v_freqFollow, 1230 *length_v_freqFollow); 1231 } 1232 } 1233 } 1234 } 1235 else { /* middle > dmax */ 1236 1237 fillFramePre (dmax, v_bord, length_v_bord, v_freq, length_v_freq, bmin, 1238 middle); 1239 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, *length_v_bordFollow); 1240 FDKsbrEnc_AddVecLeft (v_freq, length_v_freq, v_freqFollow, *length_v_freqFollow); 1241 } 1242 1243 1244 } 1245 else { /* numberTimeSlots==NUMBER_TIME_SLOTS_1152 */ 1246 1247 INT l,m; 1248 1249 1250 /*------------------------------------------------------------------------ 1251 remove fill borders 1252 ------------------------------------------------------------------------*/ 1253 if (i_fillFollow >= 1) { 1254 *length_v_bordFollow = i_fillFollow; 1255 *length_v_freqFollow = i_fillFollow; 1256 } 1257 1258 numBordFollow = *length_v_bordFollow; 1259 bordMaxFollow = v_bordFollow[numBordFollow - 1]; 1260 1261 /*------------------------------------------------------------------------ 1262 remove more borders if necessary to eliminate overlap 1263 ------------------------------------------------------------------------*/ 1264 1265 /* check for overlap */ 1266 middle = bmin - bordMaxFollow; 1267 1268 /* intervals: 1269 i) middle < 0 : overlap, must remove borders 1270 ii) 0 <= middle < dmin : no overlap but too tight, must remove borders 1271 iii) dmin <= middle <= dmax : ok, just concatenate 1272 iv) dmax <= middle : too wide, must add borders 1273 */ 1274 1275 /* first remove old non-fill-borders... */ 1276 while (middle < 0) { 1277 1278 /* ...but don't remove all of them */ 1279 if (numBordFollow == 1) 1280 break; 1281 1282 numBordFollow--; 1283 bordMaxFollow = v_bordFollow[numBordFollow - 1]; 1284 middle = bmin - bordMaxFollow; 1285 } 1286 1287 /* if this isn't enough, remove new non-fill borders */ 1288 if (middle < 0) 1289 { 1290 for (l = 0, m = 0 ; l < *length_v_bord ; l++) 1291 { 1292 if(v_bord[l]> bordMaxFollow) 1293 { 1294 v_bord[m] = v_bord[l]; 1295 v_freq[m] = v_freq[l]; 1296 m++; 1297 } 1298 } 1299 1300 *length_v_bord = l; 1301 *length_v_freq = l; 1302 1303 bmin = v_bord[0]; 1304 1305 } 1306 1307 /*------------------------------------------------------------------------ 1308 update modified follow-up data 1309 ------------------------------------------------------------------------*/ 1310 1311 *length_v_bordFollow = numBordFollow; 1312 *length_v_freqFollow = numBordFollow; 1313 1314 /* left relative borders correspond to follow-up */ 1315 *nL = numBordFollow - 1; 1316 1317 /*------------------------------------------------------------------------ 1318 take care of intervals ii through iv 1319 ------------------------------------------------------------------------*/ 1320 1321 /* now middle should be >= 0 */ 1322 middle = bmin - bordMaxFollow; 1323 1324 if (middle <= dmin) /* (ii) */ 1325 { 1326 b_new = *length_v_bord; 1327 1328 if (v_tuningSegm[0] != 0) 1329 { 1330 /* remove new "luxury" border and concatenate */ 1331 *length_v_bord = b_new - 1; 1332 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, 1333 *length_v_bordFollow); 1334 1335 *length_v_freq = b_new - 1; 1336 FDKsbrEnc_AddVecLeft (v_freq + 1, length_v_freq, v_freqFollow, 1337 *length_v_freqFollow); 1338 1339 } 1340 else if (*length_v_bordFollow > 1) 1341 { 1342 /* remove old border and concatenate */ 1343 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, 1344 *length_v_bordFollow - 1); 1345 FDKsbrEnc_AddVecLeft (v_freq, length_v_freq, v_freqFollow, 1346 *length_v_bordFollow - 1); 1347 1348 *nL = *nL - 1; 1349 } 1350 else 1351 { 1352 /* remove new border and concatenate */ 1353 for (i = 0; i < *length_v_bord - 1; i++) 1354 v_bord[i] = v_bord[i + 1]; 1355 1356 for (i = 0; i < *length_v_freq - 1; i++) 1357 v_freq[i] = v_freq[i + 1]; 1358 1359 *length_v_bord = b_new - 1; 1360 *length_v_freq = b_new - 1; 1361 1362 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, 1363 *length_v_bordFollow); 1364 FDKsbrEnc_AddVecLeft (v_freq, length_v_freq, v_freqFollow, 1365 *length_v_freqFollow); 1366 } 1367 } 1368 else if ((middle >= dmin) && (middle <= dmax)) /* (iii) */ 1369 { 1370 /* concatenate */ 1371 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, *length_v_bordFollow); 1372 FDKsbrEnc_AddVecLeft (v_freq, length_v_freq, v_freqFollow, *length_v_freqFollow); 1373 1374 } 1375 else /* (iv) */ 1376 { 1377 fillFramePre (dmax, v_bord, length_v_bord, v_freq, length_v_freq, bmin, 1378 middle); 1379 FDKsbrEnc_AddVecLeft (v_bord, length_v_bord, v_bordFollow, *length_v_bordFollow); 1380 FDKsbrEnc_AddVecLeft (v_freq, length_v_freq, v_freqFollow, *length_v_freqFollow); 1381 } 1382 } 1383 } 1384 1385 1386 1387 /******************************************************************************* 1388 Functionname: calcFrameClass 1389 ******************************************************************************* 1390 1391 Description: 1392 1393 Arguments: INT* frameClass, INT* frameClassOld, INT tranFlag, INT* spreadFlag) 1394 1395 Return: none 1396 1397 *******************************************************************************/ 1398 static void 1399 calcFrameClass (FRAME_CLASS *frameClass, FRAME_CLASS *frameClassOld, INT tranFlag, 1400 INT *spreadFlag) 1401 { 1402 1403 switch (*frameClassOld) { 1404 case FIXFIXonly: 1405 case FIXFIX: 1406 if (tranFlag) *frameClass = FIXVAR; 1407 else *frameClass = FIXFIX; 1408 break; 1409 case FIXVAR: 1410 if (tranFlag) { *frameClass = VARVAR; *spreadFlag = 0; } 1411 else { 1412 if (*spreadFlag) *frameClass = VARVAR; 1413 else *frameClass = VARFIX; 1414 } 1415 break; 1416 case VARFIX: 1417 if (tranFlag) *frameClass = FIXVAR; 1418 else *frameClass = FIXFIX; 1419 break; 1420 case VARVAR: 1421 if (tranFlag) { *frameClass = VARVAR; *spreadFlag = 0; } 1422 else { 1423 if (*spreadFlag) *frameClass = VARVAR; 1424 else *frameClass = VARFIX; 1425 } 1426 break; 1427 }; 1428 1429 *frameClassOld = *frameClass; 1430 } 1431 1432 1433 1434 /******************************************************************************* 1435 Functionname: specialCase 1436 ******************************************************************************* 1437 1438 Description: 1439 1440 Arguments: spreadFlag 1441 allowSpread 1442 v_bord 1443 length_v_bord 1444 v_freq 1445 length_v_freq 1446 parts 1447 d 1448 1449 Return: none 1450 1451 *******************************************************************************/ 1452 static void 1453 specialCase (INT *spreadFlag, INT allowSpread, INT *v_bord, 1454 INT *length_v_bord, INT *v_freq, INT *length_v_freq, INT *parts, 1455 INT d) 1456 { 1457 INT L; 1458 1459 L = *length_v_bord; 1460 1461 if (allowSpread) { /* add one "step 8" */ 1462 *spreadFlag = 1; 1463 FDKsbrEnc_AddRight (v_bord, length_v_bord, v_bord[L - 1] + 8); 1464 FDKsbrEnc_AddRight (v_freq, length_v_freq, 1); 1465 (*parts)++; 1466 } 1467 else { 1468 if (d == 1) { /* stretch one slot */ 1469 *length_v_bord = L - 1; 1470 *length_v_freq = L - 1; 1471 } 1472 else { 1473 if ((v_bord[L - 1] - v_bord[L - 2]) > 2) { /* compress one quant step */ 1474 v_bord[L - 1] = v_bord[L - 1] - 2; 1475 v_freq[*length_v_freq - 1] = 0; /* use low res for short segment */ 1476 } 1477 } 1478 } 1479 } 1480 1481 1482 1483 /******************************************************************************* 1484 Functionname: calcCmonBorder 1485 ******************************************************************************* 1486 1487 Description: 1488 1489 Arguments: i_cmon 1490 i_tran 1491 v_bord 1492 length_v_bord 1493 tran 1494 1495 Return: none 1496 1497 *******************************************************************************/ 1498 static void 1499 calcCmonBorder (INT *i_cmon, INT *i_tran, INT *v_bord, INT *length_v_bord, 1500 INT tran, INT bufferFrameStart, INT numberTimeSlots) 1501 { /* FH 00-06-26 */ 1502 INT i; 1503 1504 for (i = 0; i < *length_v_bord; i++) 1505 if (v_bord[i] >= bufferFrameStart + numberTimeSlots) { /* FH 00-06-26 */ 1506 *i_cmon = i; 1507 break; 1508 } 1509 1510 /* keep track of transient: */ 1511 for (i = 0; i < *length_v_bord; i++) 1512 if (v_bord[i] >= tran) { 1513 *i_tran = i; 1514 break; 1515 } 1516 else 1517 *i_tran = EMPTY; 1518 } 1519 1520 /******************************************************************************* 1521 Functionname: keepForFollowUp 1522 ******************************************************************************* 1523 1524 Description: 1525 1526 Arguments: v_bordFollow 1527 length_v_bordFollow 1528 v_freqFollow 1529 length_v_freqFollow 1530 i_tranFollow 1531 i_fillFollow 1532 v_bord 1533 length_v_bord 1534 v_freq 1535 i_cmon 1536 i_tran 1537 parts) 1538 1539 Return: none 1540 1541 *******************************************************************************/ 1542 static void 1543 keepForFollowUp (INT *v_bordFollow, INT *length_v_bordFollow, 1544 INT *v_freqFollow, INT *length_v_freqFollow, 1545 INT *i_tranFollow, INT *i_fillFollow, INT *v_bord, 1546 INT *length_v_bord, INT *v_freq, INT i_cmon, INT i_tran, 1547 INT parts, INT numberTimeSlots) 1548 { /* FH 00-06-26 */ 1549 INT L, i, j; 1550 1551 L = *length_v_bord; 1552 1553 (*length_v_bordFollow) = 0; 1554 (*length_v_freqFollow) = 0; 1555 1556 for (j = 0, i = i_cmon; i < L; i++, j++) { 1557 v_bordFollow[j] = v_bord[i] - numberTimeSlots; /* FH 00-06-26 */ 1558 v_freqFollow[j] = v_freq[i]; 1559 (*length_v_bordFollow)++; 1560 (*length_v_freqFollow)++; 1561 } 1562 if (i_tran != EMPTY) 1563 *i_tranFollow = i_tran - i_cmon; 1564 else 1565 *i_tranFollow = EMPTY; 1566 *i_fillFollow = L - (parts - 1) - i_cmon; 1567 1568 } 1569 1570 /******************************************************************************* 1571 Functionname: calcCtrlSignal 1572 ******************************************************************************* 1573 1574 Description: 1575 1576 Arguments: hSbrGrid 1577 frameClass 1578 v_bord 1579 length_v_bord 1580 v_freq 1581 length_v_freq 1582 i_cmon 1583 i_tran 1584 spreadFlag 1585 nL 1586 1587 Return: none 1588 1589 *******************************************************************************/ 1590 static void 1591 calcCtrlSignal (HANDLE_SBR_GRID hSbrGrid, 1592 FRAME_CLASS frameClass, INT *v_bord, INT length_v_bord, INT *v_freq, 1593 INT length_v_freq, INT i_cmon, INT i_tran, INT spreadFlag, 1594 INT nL) 1595 { 1596 1597 1598 INT i, r, a, n, p, b, aL, aR, ntot, nmax, nR; 1599 1600 INT *v_f = hSbrGrid->v_f; 1601 INT *v_fLR = hSbrGrid->v_fLR; 1602 INT *v_r = hSbrGrid->bs_rel_bord; 1603 INT *v_rL = hSbrGrid->bs_rel_bord_0; 1604 INT *v_rR = hSbrGrid->bs_rel_bord_1; 1605 1606 INT length_v_r = 0; 1607 INT length_v_rR = 0; 1608 INT length_v_rL = 0; 1609 1610 switch (frameClass) { 1611 case FIXVAR: 1612 /* absolute border: */ 1613 1614 a = v_bord[i_cmon]; 1615 1616 /* relative borders: */ 1617 length_v_r = 0; 1618 i = i_cmon; 1619 1620 while (i >= 1) { 1621 r = v_bord[i] - v_bord[i - 1]; 1622 FDKsbrEnc_AddRight (v_r, &length_v_r, r); 1623 i--; 1624 } 1625 1626 1627 /* number of relative borders: */ 1628 n = length_v_r; 1629 1630 1631 /* freq res: */ 1632 for (i = 0; i < i_cmon; i++) 1633 v_f[i] = v_freq[i_cmon - 1 - i]; 1634 v_f[i_cmon] = 1; 1635 1636 /* pointer: */ 1637 p = (i_cmon >= i_tran && i_tran != EMPTY) ? (i_cmon - i_tran + 1) : (0) ; 1638 1639 hSbrGrid->frameClass = frameClass; 1640 hSbrGrid->bs_abs_bord = a; 1641 hSbrGrid->n = n; 1642 hSbrGrid->p = p; 1643 1644 break; 1645 case VARFIX: 1646 /* absolute border: */ 1647 a = v_bord[0]; 1648 1649 /* relative borders: */ 1650 length_v_r = 0; 1651 1652 for (i = 1; i < length_v_bord; i++) { 1653 r = v_bord[i] - v_bord[i - 1]; 1654 FDKsbrEnc_AddRight (v_r, &length_v_r, r); 1655 } 1656 1657 /* number of relative borders: */ 1658 n = length_v_r; 1659 1660 /* freq res: */ 1661 FDKmemcpy (v_f, v_freq, length_v_freq * sizeof (INT)); 1662 1663 1664 /* pointer: */ 1665 p = (i_tran >= 0 && i_tran != EMPTY) ? (i_tran + 1) : (0) ; 1666 1667 hSbrGrid->frameClass = frameClass; 1668 hSbrGrid->bs_abs_bord = a; 1669 hSbrGrid->n = n; 1670 hSbrGrid->p = p; 1671 1672 break; 1673 case VARVAR: 1674 if (spreadFlag) { 1675 /* absolute borders: */ 1676 b = length_v_bord; 1677 1678 aL = v_bord[0]; 1679 aR = v_bord[b - 1]; 1680 1681 1682 /* number of relative borders: */ 1683 ntot = b - 2; 1684 1685 nmax = 2; /* n: {0,1,2} */ 1686 if (ntot > nmax) { 1687 nL = nmax; 1688 nR = ntot - nmax; 1689 } 1690 else { 1691 nL = ntot; 1692 nR = 0; 1693 } 1694 1695 /* relative borders: */ 1696 length_v_rL = 0; 1697 for (i = 1; i <= nL; i++) { 1698 r = v_bord[i] - v_bord[i - 1]; 1699 FDKsbrEnc_AddRight (v_rL, &length_v_rL, r); 1700 } 1701 1702 length_v_rR = 0; 1703 i = b - 1; 1704 while (i >= b - nR) { 1705 r = v_bord[i] - v_bord[i - 1]; 1706 FDKsbrEnc_AddRight (v_rR, &length_v_rR, r); 1707 i--; 1708 } 1709 1710 /* pointer (only one due to constraint in frame info): */ 1711 p = (i_tran > 0 && i_tran != EMPTY) ? (b - i_tran) : (0) ; 1712 1713 /* freq res: */ 1714 1715 for (i = 0; i < b - 1; i++) 1716 v_fLR[i] = v_freq[i]; 1717 } 1718 else { 1719 1720 length_v_bord = i_cmon + 1; 1721 length_v_freq = i_cmon + 1; 1722 1723 1724 /* absolute borders: */ 1725 b = length_v_bord; 1726 1727 aL = v_bord[0]; 1728 aR = v_bord[b - 1]; 1729 1730 /* number of relative borders: */ 1731 ntot = b - 2; 1732 nR = ntot - nL; 1733 1734 /* relative borders: */ 1735 length_v_rL = 0; 1736 for (i = 1; i <= nL; i++) { 1737 r = v_bord[i] - v_bord[i - 1]; 1738 FDKsbrEnc_AddRight (v_rL, &length_v_rL, r); 1739 } 1740 1741 length_v_rR = 0; 1742 i = b - 1; 1743 while (i >= b - nR) { 1744 r = v_bord[i] - v_bord[i - 1]; 1745 FDKsbrEnc_AddRight (v_rR, &length_v_rR, r); 1746 i--; 1747 } 1748 1749 /* pointer (only one due to constraint in frame info): */ 1750 p = (i_cmon >= i_tran && i_tran != EMPTY) ? (i_cmon - i_tran + 1) : (0) ; 1751 1752 /* freq res: */ 1753 for (i = 0; i < b - 1; i++) 1754 v_fLR[i] = v_freq[i]; 1755 } 1756 1757 hSbrGrid->frameClass = frameClass; 1758 hSbrGrid->bs_abs_bord_0 = aL; 1759 hSbrGrid->bs_abs_bord_1 = aR; 1760 hSbrGrid->bs_num_rel_0 = nL; 1761 hSbrGrid->bs_num_rel_1 = nR; 1762 hSbrGrid->p = p; 1763 1764 break; 1765 1766 default: 1767 /* do nothing */ 1768 break; 1769 } 1770 } 1771 1772 /******************************************************************************* 1773 Functionname: createDefFrameInfo 1774 ******************************************************************************* 1775 1776 Description: Copies the default (static) frameInfo structs to the frameInfo 1777 passed by reference; only used for FIXFIX frames 1778 1779 Arguments: hFrameInfo - HANLDE_SBR_FRAME_INFO 1780 nEnv - INT 1781 nTimeSlots - INT 1782 1783 Return: none; hSbrFrameInfo contains a copy of the default frameInfo 1784 1785 Written: Andreas Schneider 1786 Revised: 1787 *******************************************************************************/ 1788 static void 1789 createDefFrameInfo(HANDLE_SBR_FRAME_INFO hSbrFrameInfo, INT nEnv, INT nTimeSlots) 1790 { 1791 switch (nEnv) { 1792 case 1: 1793 switch (nTimeSlots) { 1794 case NUMBER_TIME_SLOTS_1920: 1795 FDKmemcpy (hSbrFrameInfo, &frameInfo1_1920, sizeof (SBR_FRAME_INFO)); 1796 break; 1797 case NUMBER_TIME_SLOTS_2048: 1798 FDKmemcpy (hSbrFrameInfo, &frameInfo1_2048, sizeof (SBR_FRAME_INFO)); 1799 break; 1800 case NUMBER_TIME_SLOTS_1152: 1801 FDKmemcpy (hSbrFrameInfo, &frameInfo1_1152, sizeof (SBR_FRAME_INFO)); 1802 break; 1803 case NUMBER_TIME_SLOTS_2304: 1804 FDKmemcpy (hSbrFrameInfo, &frameInfo1_2304, sizeof (SBR_FRAME_INFO)); 1805 break; 1806 case NUMBER_TIME_SLOTS_512LD: 1807 FDKmemcpy (hSbrFrameInfo, &frameInfo1_512LD, sizeof (SBR_FRAME_INFO)); 1808 break; 1809 default: 1810 FDK_ASSERT(0); 1811 } 1812 break; 1813 case 2: 1814 switch (nTimeSlots) { 1815 case NUMBER_TIME_SLOTS_1920: 1816 FDKmemcpy (hSbrFrameInfo, &frameInfo2_1920, sizeof (SBR_FRAME_INFO)); 1817 break; 1818 case NUMBER_TIME_SLOTS_2048: 1819 FDKmemcpy (hSbrFrameInfo, &frameInfo2_2048, sizeof (SBR_FRAME_INFO)); 1820 break; 1821 case NUMBER_TIME_SLOTS_1152: 1822 FDKmemcpy (hSbrFrameInfo, &frameInfo2_1152, sizeof (SBR_FRAME_INFO)); 1823 break; 1824 case NUMBER_TIME_SLOTS_2304: 1825 FDKmemcpy (hSbrFrameInfo, &frameInfo2_2304, sizeof (SBR_FRAME_INFO)); 1826 break; 1827 case NUMBER_TIME_SLOTS_512LD: 1828 FDKmemcpy (hSbrFrameInfo, &frameInfo2_512LD, sizeof (SBR_FRAME_INFO)); 1829 break; 1830 default: 1831 FDK_ASSERT(0); 1832 } 1833 break; 1834 case 4: 1835 switch (nTimeSlots) { 1836 case NUMBER_TIME_SLOTS_1920: 1837 FDKmemcpy (hSbrFrameInfo, &frameInfo4_1920, sizeof (SBR_FRAME_INFO)); 1838 break; 1839 case NUMBER_TIME_SLOTS_2048: 1840 FDKmemcpy (hSbrFrameInfo, &frameInfo4_2048, sizeof (SBR_FRAME_INFO)); 1841 break; 1842 case NUMBER_TIME_SLOTS_1152: 1843 FDKmemcpy (hSbrFrameInfo, &frameInfo4_1152, sizeof (SBR_FRAME_INFO)); 1844 break; 1845 case NUMBER_TIME_SLOTS_2304: 1846 FDKmemcpy (hSbrFrameInfo, &frameInfo4_2304, sizeof (SBR_FRAME_INFO)); 1847 break; 1848 case NUMBER_TIME_SLOTS_512LD: 1849 FDKmemcpy (hSbrFrameInfo, &frameInfo4_512LD, sizeof (SBR_FRAME_INFO)); 1850 break; 1851 default: 1852 FDK_ASSERT(0); 1853 } 1854 break; 1855 default: 1856 FDK_ASSERT(0); 1857 } 1858 } 1859 1860 1861 /******************************************************************************* 1862 Functionname: ctrlSignal2FrameInfo 1863 ******************************************************************************* 1864 1865 Description: Calculates frame_info struct from control signal. 1866 1867 Arguments: hSbrGrid - source 1868 hSbrFrameInfo - destination 1869 1870 Return: void; hSbrFrameInfo contains the updated FRAME_INFO struct 1871 1872 *******************************************************************************/ 1873 static void 1874 ctrlSignal2FrameInfo (HANDLE_SBR_GRID hSbrGrid, 1875 HANDLE_SBR_FRAME_INFO hSbrFrameInfo, 1876 INT freq_res_fixfix) 1877 { 1878 INT nEnv = 0, border = 0, i, k, p /*?*/; 1879 INT *v_r = hSbrGrid->bs_rel_bord; 1880 INT *v_f = hSbrGrid->v_f; 1881 1882 FRAME_CLASS frameClass = hSbrGrid->frameClass; 1883 INT bufferFrameStart = hSbrGrid->bufferFrameStart; 1884 INT numberTimeSlots = hSbrGrid->numberTimeSlots; 1885 1886 switch (frameClass) { 1887 case FIXFIX: 1888 createDefFrameInfo(hSbrFrameInfo, hSbrGrid->bs_num_env, numberTimeSlots); 1889 1890 /* At this point all frequency resolutions are set to FREQ_RES_HIGH, so 1891 * only if freq_res_fixfix is set to FREQ_RES_LOW, they all have to be 1892 * changed. 1893 * snd */ 1894 if (freq_res_fixfix == FREQ_RES_LOW) { 1895 for (i = 0; i < hSbrFrameInfo->nEnvelopes; i++) { 1896 hSbrFrameInfo->freqRes[i] = FREQ_RES_LOW; 1897 } 1898 } 1899 /* ELD: store current frequency resolution */ 1900 hSbrGrid->v_f[0] = hSbrFrameInfo->freqRes[0]; 1901 break; 1902 1903 case FIXVAR: 1904 case VARFIX: 1905 nEnv = hSbrGrid->n + 1; /* read n [SBR_NUM_BITS bits] */ /*? snd*/ 1906 FDK_ASSERT(nEnv <= MAX_ENVELOPES_FIXVAR_VARFIX); 1907 1908 hSbrFrameInfo->nEnvelopes = nEnv; 1909 1910 border = hSbrGrid->bs_abs_bord; /* read the absolute border */ 1911 1912 if (nEnv == 1) 1913 hSbrFrameInfo->nNoiseEnvelopes = 1; 1914 else 1915 hSbrFrameInfo->nNoiseEnvelopes = 2; 1916 1917 break; 1918 1919 default: 1920 /* do nothing */ 1921 break; 1922 } 1923 1924 switch (frameClass) { 1925 case FIXVAR: 1926 hSbrFrameInfo->borders[0] = bufferFrameStart; /* start-position of 1st envelope */ 1927 1928 hSbrFrameInfo->borders[nEnv] = border; 1929 1930 for (k = 0, i = nEnv - 1; k < nEnv - 1; k++, i--) { 1931 border -= v_r[k]; 1932 hSbrFrameInfo->borders[i] = border; 1933 } 1934 1935 /* make either envelope nr. nEnv + 1 - p short; or don't shorten if p == 0 */ 1936 p = hSbrGrid->p; 1937 if (p == 0) { 1938 hSbrFrameInfo->shortEnv = 0; 1939 } else { 1940 hSbrFrameInfo->shortEnv = nEnv + 1 - p; 1941 } 1942 1943 for (k = 0, i = nEnv - 1; k < nEnv; k++, i--) { 1944 hSbrFrameInfo->freqRes[i] = (FREQ_RES)v_f[k]; 1945 } 1946 1947 /* if either there is no short envelope or the last envelope is short... */ 1948 if (p == 0 || p == 1) { 1949 hSbrFrameInfo->bordersNoise[1] = hSbrFrameInfo->borders[nEnv - 1]; 1950 } else { 1951 hSbrFrameInfo->bordersNoise[1] = hSbrFrameInfo->borders[hSbrFrameInfo->shortEnv]; 1952 } 1953 1954 break; 1955 1956 case VARFIX: 1957 /* in this case 'border' indicates the start of the 1st envelope */ 1958 hSbrFrameInfo->borders[0] = border; 1959 1960 for (k = 0; k < nEnv - 1; k++) { 1961 border += v_r[k]; 1962 hSbrFrameInfo->borders[k + 1] = border; 1963 } 1964 1965 hSbrFrameInfo->borders[nEnv] = bufferFrameStart + numberTimeSlots; 1966 1967 p = hSbrGrid->p; 1968 if (p == 0 || p == 1) { 1969 hSbrFrameInfo->shortEnv = 0; 1970 } else { 1971 hSbrFrameInfo->shortEnv = p - 1; 1972 } 1973 1974 for (k = 0; k < nEnv; k++) { 1975 hSbrFrameInfo->freqRes[k] = (FREQ_RES)v_f[k]; 1976 } 1977 1978 switch (p) { 1979 case 0: 1980 hSbrFrameInfo->bordersNoise[1] = hSbrFrameInfo->borders[1]; 1981 break; 1982 case 1: 1983 hSbrFrameInfo->bordersNoise[1] = hSbrFrameInfo->borders[nEnv - 1]; 1984 break; 1985 default: 1986 hSbrFrameInfo->bordersNoise[1] = hSbrFrameInfo->borders[hSbrFrameInfo->shortEnv]; 1987 break; 1988 } 1989 break; 1990 1991 case VARVAR: 1992 nEnv = hSbrGrid->bs_num_rel_0 + hSbrGrid->bs_num_rel_1 + 1; 1993 FDK_ASSERT(nEnv <= MAX_ENVELOPES_VARVAR); /* just to be sure */ 1994 hSbrFrameInfo->nEnvelopes = nEnv; 1995 1996 hSbrFrameInfo->borders[0] = border = hSbrGrid->bs_abs_bord_0; 1997 1998 for (k = 0, i = 1; k < hSbrGrid->bs_num_rel_0; k++, i++) { 1999 border += hSbrGrid->bs_rel_bord_0[k]; 2000 hSbrFrameInfo->borders[i] = border; 2001 } 2002 2003 border = hSbrGrid->bs_abs_bord_1; 2004 hSbrFrameInfo->borders[nEnv] = border; 2005 2006 for (k = 0, i = nEnv - 1; k < hSbrGrid->bs_num_rel_1; k++, i--) { 2007 border -= hSbrGrid->bs_rel_bord_1[k]; 2008 hSbrFrameInfo->borders[i] = border; 2009 } 2010 2011 p = hSbrGrid->p; 2012 if (p == 0) { 2013 hSbrFrameInfo->shortEnv = 0; 2014 } else { 2015 hSbrFrameInfo->shortEnv = nEnv + 1 - p; 2016 } 2017 2018 for (k = 0; k < nEnv; k++) { 2019 hSbrFrameInfo->freqRes[k] = (FREQ_RES)hSbrGrid->v_fLR[k]; 2020 } 2021 2022 if (nEnv == 1) { 2023 hSbrFrameInfo->nNoiseEnvelopes = 1; 2024 hSbrFrameInfo->bordersNoise[0] = hSbrGrid->bs_abs_bord_0; 2025 hSbrFrameInfo->bordersNoise[1] = hSbrGrid->bs_abs_bord_1; 2026 } else { 2027 hSbrFrameInfo->nNoiseEnvelopes = 2; 2028 hSbrFrameInfo->bordersNoise[0] = hSbrGrid->bs_abs_bord_0; 2029 2030 if (p == 0 || p == 1) { 2031 hSbrFrameInfo->bordersNoise[1] = hSbrFrameInfo->borders[nEnv - 1]; 2032 } else { 2033 hSbrFrameInfo->bordersNoise[1] = hSbrFrameInfo->borders[hSbrFrameInfo->shortEnv]; 2034 } 2035 hSbrFrameInfo->bordersNoise[2] = hSbrGrid->bs_abs_bord_1; 2036 } 2037 break; 2038 2039 default: 2040 /* do nothing */ 2041 break; 2042 } 2043 2044 if (frameClass == VARFIX || frameClass == FIXVAR) { 2045 hSbrFrameInfo->bordersNoise[0] = hSbrFrameInfo->borders[0]; 2046 if (nEnv == 1) { 2047 hSbrFrameInfo->bordersNoise[1] = hSbrFrameInfo->borders[nEnv]; 2048 } else { 2049 hSbrFrameInfo->bordersNoise[2] = hSbrFrameInfo->borders[nEnv]; 2050 } 2051 } 2052 } 2053 2054
