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1 /* -----------------------------------------------------------------------------
2 Software License for The Fraunhofer FDK AAC Codec Library for Android
3 
4 © Copyright  1995 - 2019 Fraunhofer-Gesellschaft zur Förderung der angewandten
5 Forschung e.V. All rights reserved.
6 
7  1.    INTRODUCTION
8 The Fraunhofer FDK AAC Codec Library for Android ("FDK AAC Codec") is software
9 that implements the MPEG Advanced Audio Coding ("AAC") encoding and decoding
10 scheme for digital audio. This FDK AAC Codec software is intended to be used on
11 a wide variety of Android devices.
12 
13 AAC's HE-AAC and HE-AAC v2 versions are regarded as today's most efficient
14 general perceptual audio codecs. AAC-ELD is considered the best-performing
15 full-bandwidth communications codec by independent studies and is widely
16 deployed. AAC has been standardized by ISO and IEC as part of the MPEG
17 specifications.
18 
19 Patent licenses for necessary patent claims for the FDK AAC Codec (including
20 those of Fraunhofer) may be obtained through Via Licensing
21 (www.vialicensing.com) or through the respective patent owners individually for
22 the purpose of encoding or decoding bit streams in products that are compliant
23 with the ISO/IEC MPEG audio standards. Please note that most manufacturers of
24 Android devices already license these patent claims through Via Licensing or
25 directly from the patent owners, and therefore FDK AAC Codec software may
26 already be covered under those patent licenses when it is used for those
27 licensed purposes only.
28 
29 Commercially-licensed AAC software libraries, including floating-point versions
30 with enhanced sound quality, are also available from Fraunhofer. Users are
31 encouraged to check the Fraunhofer website for additional applications
32 information and documentation.
33 
34 2.    COPYRIGHT LICENSE
35 
36 Redistribution and use in source and binary forms, with or without modification,
37 are permitted without payment of copyright license fees provided that you
38 satisfy the following conditions:
39 
40 You must retain the complete text of this software license in redistributions of
41 the FDK AAC Codec or your modifications thereto in source code form.
42 
43 You must retain the complete text of this software license in the documentation
44 and/or other materials provided with redistributions of the FDK AAC Codec or
45 your modifications thereto in binary form. You must make available free of
46 charge copies of the complete source code of the FDK AAC Codec and your
47 modifications thereto to recipients of copies in binary form.
48 
49 The name of Fraunhofer may not be used to endorse or promote products derived
50 from this library without prior written permission.
51 
52 You may not charge copyright license fees for anyone to use, copy or distribute
53 the FDK AAC Codec software or your modifications thereto.
54 
55 Your modified versions of the FDK AAC Codec must carry prominent notices stating
56 that you changed the software and the date of any change. For modified versions
57 of the FDK AAC Codec, the term "Fraunhofer FDK AAC Codec Library for Android"
58 must be replaced by the term "Third-Party Modified Version of the Fraunhofer FDK
59 AAC Codec Library for Android."
60 
61 3.    NO PATENT LICENSE
62 
63 NO EXPRESS OR IMPLIED LICENSES TO ANY PATENT CLAIMS, including without
64 limitation the patents of Fraunhofer, ARE GRANTED BY THIS SOFTWARE LICENSE.
65 Fraunhofer provides no warranty of patent non-infringement with respect to this
66 software.
67 
68 You may use this FDK AAC Codec software or modifications thereto only for
69 purposes that are authorized by appropriate patent licenses.
70 
71 4.    DISCLAIMER
72 
73 This FDK AAC Codec software is provided by Fraunhofer on behalf of the copyright
74 holders and contributors "AS IS" and WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES,
75 including but not limited to the implied warranties of merchantability and
76 fitness for a particular purpose. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
77 CONTRIBUTORS BE LIABLE for any direct, indirect, incidental, special, exemplary,
78 or consequential damages, including but not limited to procurement of substitute
79 goods or services; loss of use, data, or profits, or business interruption,
80 however caused and on any theory of liability, whether in contract, strict
81 liability, or tort (including negligence), arising in any way out of the use of
82 this software, even if advised of the possibility of such damage.
83 
84 5.    CONTACT INFORMATION
85 
86 Fraunhofer Institute for Integrated Circuits IIS
87 Attention: Audio and Multimedia Departments - FDK AAC LL
88 Am Wolfsmantel 33
89 91058 Erlangen, Germany
90 
91 www.iis.fraunhofer.de/amm
92 amm-info@iis.fraunhofer.de
93 ----------------------------------------------------------------------------- */
94 
95 /******************* Library for basic calculation routines ********************
96 
97    Author(s):   Matthias Hildenbrand
98 
99    Description: Module to efficiently handle QMF data for multiple channels and
100                 to share the data between e.g. SBR and MPS
101 
102 *******************************************************************************/
103 
104 #ifndef FDK_QMF_DOMAIN_H
105 #define FDK_QMF_DOMAIN_H
106 
107 #include "qmf.h"
108 
109 typedef enum {
110   QMF_DOMAIN_OK = 0x0, /*!< No error occurred. */
111   QMF_DOMAIN_OUT_OF_MEMORY =
112       0x1, /*!< QMF-Configuration demands for more memory than allocated on
113               heap. */
114   QMF_DOMAIN_INIT_ERROR =
115       0x2, /*!< An error during filterbank-setup occurred. */
116   QMF_DOMAIN_RESAMPLER_INIT_ERROR =
117       0x3 /*!< An error during QMF-resampler-setup occurred. */
118 } QMF_DOMAIN_ERROR;
119 
120 #define CMPLX_MOD (2)
121 
122 #define QMF_MAX_WB_SECTIONS (5) /* maximum number of workbuffer sections */
123 #define QMF_WB_SECTION_SIZE (1024 * 2)
124 
125 H_ALLOC_MEM_OVERLAY(QmfWorkBufferCore1, FIXP_DBL)
126 H_ALLOC_MEM_OVERLAY(QmfWorkBufferCore3, FIXP_DBL)
127 H_ALLOC_MEM_OVERLAY(QmfWorkBufferCore4, FIXP_DBL)
128 H_ALLOC_MEM_OVERLAY(QmfWorkBufferCore6, FIXP_DBL)
129 H_ALLOC_MEM_OVERLAY(QmfWorkBufferCore7, FIXP_DBL)
130 
131 #define QMF_DOMAIN_MAX_ANALYSIS_QMF_BANDS (64)
132 #define QMF_DOMAIN_MAX_SYNTHESIS_QMF_BANDS (QMF_MAX_SYNTHESIS_BANDS)
133 #define QMF_DOMAIN_MAX_QMF_PROC_BANDS (64)
134 #define QMF_DOMAIN_MAX_TIMESLOTS (64)
135 #define QMF_DOMAIN_MAX_OV_TIMESLOTS (12)
136 
137 #define QMF_DOMAIN_ANALYSIS_QMF_BANDS_16 (16)
138 #define QMF_DOMAIN_ANALYSIS_QMF_BANDS_24 (24)
139 #define QMF_DOMAIN_ANALYSIS_QMF_BANDS_32 (32)
140 
141 #define QMF_DOMAIN_TIMESLOTS_16 (16)
142 #define QMF_DOMAIN_TIMESLOTS_32 (32)
143 
144 #define QMF_DOMAIN_OV_TIMESLOTS_16 (3)
145 #define QMF_DOMAIN_OV_TIMESLOTS_32 (6)
146 
147 H_ALLOC_MEM(AnaQmfStates, FIXP_DBL)
148 H_ALLOC_MEM(SynQmfStates, FIXP_QSS)
149 H_ALLOC_MEM(QmfSlotsReal, FIXP_DBL *)
150 H_ALLOC_MEM(QmfSlotsImag, FIXP_DBL *)
151 H_ALLOC_MEM(QmfOverlapBuffer, FIXP_DBL)
152 
153 H_ALLOC_MEM(AnaQmfStates16, FIXP_DBL)
154 H_ALLOC_MEM(AnaQmfStates24, FIXP_DBL)
155 H_ALLOC_MEM(AnaQmfStates32, FIXP_DBL)
156 H_ALLOC_MEM(QmfSlotsReal16, FIXP_DBL *)
157 H_ALLOC_MEM(QmfSlotsReal32, FIXP_DBL *)
158 H_ALLOC_MEM(QmfSlotsImag16, FIXP_DBL *)
159 H_ALLOC_MEM(QmfSlotsImag32, FIXP_DBL *)
160 H_ALLOC_MEM(QmfOverlapBuffer16, FIXP_DBL)
161 H_ALLOC_MEM(QmfOverlapBuffer32, FIXP_DBL)
162 
163 /**
164  * Structure to hold the configuration data which is global whithin a QMF domain
165  * instance.
166  */
167 typedef struct {
168   UCHAR qmfDomainExplicitConfig;   /*!< Flag to signal that QMF domain is set
169                                       explicitly instead of SBR and MPS init
170                                       routines. */
171   UCHAR nInputChannels;            /*!< Number of QMF input channels. */
172   UCHAR nInputChannels_requested;  /*!< Corresponding requested not yet active
173                                       configuration parameter. */
174   UCHAR nOutputChannels;           /*!< Number of QMF output channels. */
175   UCHAR nOutputChannels_requested; /*!< Corresponding requested not yet active
176                                       configuration parameter. */
177   UCHAR
178   parkChannel; /*!< signal to automatically allocate additional memory to
179                   park a channel if only one processing channel is
180                   available. */
181   UCHAR parkChannel_requested;
182   FIXP_DBL *
183       pWorkBuffer[QMF_MAX_WB_SECTIONS]; /*!< Pointerarray to volatile memory. */
184   UINT flags; /*!< Flags to be set on all QMF analysis/synthesis filter
185                  instances. */
186   UINT flags_requested; /*!< Corresponding requested not yet active
187                            configuration parameter. */
188   UCHAR nBandsAnalysis; /*!< Number of QMF analysis bands for all input
189                            channels. */
190   UCHAR nBandsAnalysis_requested; /*!< Corresponding requested not yet active
191                                      configuration parameter. */
192   USHORT nBandsSynthesis; /*!< Number of QMF synthesis bands for all output
193                              channels. */
194   USHORT
195   nBandsSynthesis_requested; /*!< Corresponding requested not yet active
196                                 configuration parameter. */
197   UCHAR nQmfTimeSlots; /*!< Number of QMF time slots (stored in work buffer
198                           memory). */
199   UCHAR nQmfTimeSlots_requested; /*!< Corresponding requested not yet active
200                                     configuration parameter. */
201   UCHAR
202   nQmfOvTimeSlots; /*!< Number of QMF overlap/delay time slots (stored in
203                       persistent memory). */
204   UCHAR nQmfOvTimeSlots_requested; /*!< Corresponding requested not yet active
205                                       configuration parameter. */
206   UCHAR nQmfProcBands; /*!< Number of QMF bands which are processed by the
207                           decoder. Typically this is equal to nBandsSynthesis
208                           but it may differ if the QMF based resampler is being
209                           used. */
210   UCHAR nQmfProcBands_requested; /*!< Corresponding requested not yet active
211                                     configuration parameter. */
212   UCHAR
213   nQmfProcChannels; /*!< Number of complete QMF channels which need to
214                        coexist in memory at the same time. For most cases
215                        this is 1 which means the work buffer can be shared
216                        between audio channels. */
217   UCHAR
218   nQmfProcChannels_requested; /*!< Corresponding requested not yet active
219                                  configuration parameter. */
220 } FDK_QMF_DOMAIN_GC;
221 typedef FDK_QMF_DOMAIN_GC *HANDLE_FDK_QMF_DOMAIN_GC;
222 
223 /**
224  * Structure representing one QMF input channel. This includes the QMF analysis
225  * and the QMF domain data representation needed by the codec. Work buffer data
226  * may be shared between channels if the codec processes all QMF channels in a
227  * consecutive order.
228  */
229 typedef struct {
230   HANDLE_FDK_QMF_DOMAIN_GC
231   pGlobalConf;               /*!< Pointer to global configuration structure. */
232   QMF_FILTER_BANK fb;        /*!< QMF (analysis) filter bank structure. */
233   QMF_SCALE_FACTOR scaling;  /*!< Structure with scaling information. */
234   UCHAR workBuf_nTimeSlots;  /*!< Work buffer dimension for this channel is
235                                 (workBuf_nTimeSlots * workBuf_nBands *
236                                 CMPLX_MOD). */
237   UCHAR workBuf_nBands;      /*!< Work buffer dimension for this channel is
238                                 (workBuf_nTimeSlots * workBuf_nBands * CMPLX_MOD). */
239   USHORT workBufferOffset;   /*!< Offset within work buffer. */
240   USHORT workBufferSectSize; /*!< Size of work buffer section. */
241   FIXP_DBL *
242       pAnaQmfStates; /*!< Pointer to QMF analysis states (persistent memory). */
243   FIXP_DBL
244   *pOverlapBuffer;        /*!< Pointer to QMF overlap/delay memory (persistent
245                              memory). */
246   FIXP_DBL **pWorkBuffer; /*!< Pointer array to available work buffers. */
247   FIXP_DBL *
248       *hQmfSlotsReal; /*!< Handle for QMF real data time slot pointer array. */
249   FIXP_DBL **hQmfSlotsImag; /*!< Handle for QMF imaginary data time slot pointer
250                                array. */
251 } FDK_QMF_DOMAIN_IN;
252 typedef FDK_QMF_DOMAIN_IN *HANDLE_FDK_QMF_DOMAIN_IN;
253 
254 /**
255  * Structure representing one QMF output channel.
256  */
257 typedef struct {
258   QMF_FILTER_BANK fb;      /*!< QMF (synthesis) filter bank structure. */
259   FIXP_QSS *pSynQmfStates; /*!< Pointer to QMF synthesis states (persistent
260                               memory). */
261 } FDK_QMF_DOMAIN_OUT;
262 typedef FDK_QMF_DOMAIN_OUT *HANDLE_FDK_QMF_DOMAIN_OUT;
263 
264 /**
265  * Structure representing the QMF domain for multiple channels.
266  */
267 typedef struct {
268   FDK_QMF_DOMAIN_GC globalConf; /*!< Global configuration structure. */
269   FDK_QMF_DOMAIN_IN
270   QmfDomainIn[((8) + (1))]; /*!< Array of QMF domain input structures */
271   FDK_QMF_DOMAIN_OUT
272   QmfDomainOut[((8) + (1))]; /*!< Array of QMF domain output structures */
273 } FDK_QMF_DOMAIN;
274 typedef FDK_QMF_DOMAIN *HANDLE_FDK_QMF_DOMAIN;
275 
276 /**
277  * \brief Check whether analysis- and synthesis-filterbank-states have been
278  * initialized.
279  *
280  * \param qd Pointer to QMF domain structure.
281  *
282  * \return  1 if initialized, 0 else
283  */
284 int FDK_QmfDomain_IsInitialized(const HANDLE_FDK_QMF_DOMAIN qd);
285 
286 /**
287  * \brief Initialize QMF analysis and synthesis filter banks and set up QMF data
288  * representation.
289  *
290  * \param qd Pointer to QMF domain structure.
291  * \param extra_flags Initialize filter banks with extra flags which were not
292  * set in the global config flags field.
293  *
294  * \return  0 on success.
295  */
296 int FDK_QmfDomain_InitFilterBank(HANDLE_FDK_QMF_DOMAIN qd, UINT extra_flags);
297 
298 /**
299  * \brief When QMF processing of one channel is finished copy the overlap/delay
300  * part into the persistent memory to be used in the next frame.
301  *
302  * \param qd_ch Pointer to a QMF domain input channel.
303  * \param offset
304  *
305  * \return  void
306  */
307 void FDK_QmfDomain_SaveOverlap(HANDLE_FDK_QMF_DOMAIN_IN qd_ch, int offset);
308 
309 /**
310  * \brief Get one slot of QMF data and adapt the scaling.
311  *
312  * \param qd_ch Pointer to a QMF domain input channel.
313  * \param ts Time slot number to be obtained.
314  * \param start_band Start index of QMF bands to be obtained.
315  * \param stop_band Stop index of QMF band to be obtained.
316  * \param pQmfOutReal Output buffer (real QMF data).
317  * \param pQmfOutImag  Output buffer (imag QMF data).
318  * \param exp_out Target exponent (scaling) of data.
319  *
320  * \return  void
321  */
322 void FDK_QmfDomain_GetSlot(const HANDLE_FDK_QMF_DOMAIN_IN qd_ch, const int ts,
323                            const int start_band, const int stop_band,
324                            FIXP_DBL *pQmfOutReal, FIXP_DBL *pQmfOutImag,
325                            const int exp_out);
326 
327 /**
328  * \brief Direct access to the work buffer associated with a certain channel (no
329  * time slot pointer array is used).
330  *
331  * \param qd_ch Pointer to a QMF domain input channel.
332  * \param ts Time slot number to be obtained.
333  * \param ppQmfReal Returns the pointer to the requested part of the work buffer
334  * (real time slot).
335  * \param ppQmfImag Returns the pointer to the requested part of the work buffer
336  * (imag time slot).
337  *
338  * \return  void
339  */
340 void FDK_QmfDomain_GetWorkBuffer(const HANDLE_FDK_QMF_DOMAIN_IN qd_ch,
341                                  const int ts, FIXP_DBL **ppQmfReal,
342                                  FIXP_DBL **ppQmfImag);
343 
344 /**
345  * \brief For the case that the work buffer associated to this channel is not
346  * identical to the processing channel work buffer copy the data into the
347  * processing channel.
348  *
349  * \param qd_ch Pointer to a QMF domain input channel.
350  * \return  void
351  */
352 void FDK_QmfDomain_WorkBuffer2ProcChannel(const HANDLE_FDK_QMF_DOMAIN_IN qd_ch);
353 
354 /**
355  * \brief For the case of stereoCfgIndex3 with HBE the HBE buffer is copied into
356  * the processing channel work buffer and the processing channel work buffer is
357  * copied into the HBE buffer.
358  *
359  * \param qd_ch Pointer to a QMF domain input channel.
360  * \param ppQmfReal Pointer to a HBE QMF data buffer (real).
361  * \param ppQmfImag Pointer to a HBE QMF data buffer (imag).
362  *
363  * \return  void
364  */
365 void FDK_QmfDomain_QmfData2HBE(HANDLE_FDK_QMF_DOMAIN_IN qd_ch,
366                                FIXP_DBL **ppQmfReal, FIXP_DBL **ppQmfImag);
367 
368 /**
369  * \brief Set all fields for requested parametervalues in global config struct
370  * FDK_QMF_DOMAIN_GC to 0.
371  *
372  * \param hgc  Pointer to a QMF domain global config struct.
373  */
374 void FDK_QmfDomain_ClearRequested(HANDLE_FDK_QMF_DOMAIN_GC hgc);
375 
376 /**
377  * \brief Check for parameter-change requests in global config and
378  * (re-)configure QMF domain accordingly.
379  *
380  * \param  hqd  Pointer to QMF domain
381  *
382  * \return  errorcode
383  */
384 QMF_DOMAIN_ERROR FDK_QmfDomain_Configure(HANDLE_FDK_QMF_DOMAIN hqd);
385 
386 /**
387  * \brief Free QMF workbuffer, QMF persistent memory and configuration
388  * variables.
389  *
390  * \param  hqd  Pointer to QMF domain
391  */
392 void FDK_QmfDomain_FreeMem(HANDLE_FDK_QMF_DOMAIN hqd);
393 
394 /**
395  * \brief Clear QMF overlap buffers and QMF filter bank states.
396  *
397  * \param  hqd  Pointer to QMF domain
398  */
399 QMF_DOMAIN_ERROR FDK_QmfDomain_ClearPersistentMemory(HANDLE_FDK_QMF_DOMAIN hqd);
400 
401 /**
402  * \brief Free QMF workbuffer and QMF persistent memory.
403  *
404  * \param  hqd  Pointer to QMF domain
405  *
406  * \param  dmx_lp_mode  downmix low power mode flag
407  */
408 void FDK_QmfDomain_Close(HANDLE_FDK_QMF_DOMAIN hqd);
409 
410 #endif /* FDK_QMF_DOMAIN_H */
411