• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
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 Portions of this file are derived from the following 3GPP standard:
20 
21     3GPP TS 26.073
22     ANSI-C code for the Adaptive Multi-Rate (AMR) speech codec
23     Available from http://www.3gpp.org
24 
25 (C) 2004, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TTA, TTC)
26 Permission to distribute, modify and use this file under the standard license
27 terms listed above has been obtained from the copyright holder.
28 ****************************************************************************************/
29 /*
30 ------------------------------------------------------------------------------
31 
32 
33 
34  Filename:  /audio/gsm-amr/c/src/amrencode.c
35  Functions: AMREncode
36             AMREncodeInit
37             AMREncodeReset
38             AMREncodeExit
39 
40      Date: 01/26/2002
41 
42 ------------------------------------------------------------------------------
43  REVISION HISTORY
44 
45  Description: Added input_type in the parameter list and updated code to
46               check the type of output formatting to use.
47 
48  Description: Corrected typo in Include section.
49 
50  Description: Added code to support ETS format.
51 
52  Description: Modified file by adding the return of the number of encoder
53               frame bytes.
54 
55  Description: Added call to sid_sync function to support TX_NO_DATA case.
56               Added SID type and mode info to ets_output_bfr for ETS SID
57               frames. Created AMREncodeInit, AMREncodeReset, and AMREncodeExit
58               functions.
59 
60  Description: Modified design of handling of ETS outputs such that the ETS
61               testvectors could be compared directly to the output of this
62               function.
63 
64  Description: Added conditional compile around calls to AMR Encoder interface
65               functions to allow amrencode.c to be used in the ETS reference
66               console.
67 
68  Description:  Replaced "int" and/or "char" with OSCL defined types.
69 
70  Description:
71 
72 ------------------------------------------------------------------------------
73  MODULE DESCRIPTION
74 
75  This file contains the functions required to initialize, reset, exit, and
76  invoke the ETS 3GPP GSM AMR encoder.
77 
78 ------------------------------------------------------------------------------
79 */
80 
81 
82 /*----------------------------------------------------------------------------
83 ; INCLUDES
84 ----------------------------------------------------------------------------*/
85 #include "cnst.h"
86 #include "mode.h"
87 #include "frame_type_3gpp.h"
88 #include "typedef.h"
89 
90 #include "amrencode.h"
91 #include "ets_to_if2.h"
92 #include "ets_to_wmf.h"
93 #include "sid_sync.h"
94 #include "sp_enc.h"
95 
96 /*----------------------------------------------------------------------------
97 ; MACROS [optional]
98 ; [Define module specific macros here]
99 ----------------------------------------------------------------------------*/
100 
101 /*----------------------------------------------------------------------------
102 ; DEFINES [optional]
103 ; [Include all pre-processor statements here. Include conditional
104 ; compile variables also.]
105 ----------------------------------------------------------------------------*/
106 
107 /*----------------------------------------------------------------------------
108 ; LOCAL FUNCTION DEFINITIONS
109 ; [List function prototypes here]
110 ----------------------------------------------------------------------------*/
111 
112 /*----------------------------------------------------------------------------
113 ; LOCAL VARIABLE DEFINITIONS
114 ; [Variable declaration - defined here and used outside this module]
115 ----------------------------------------------------------------------------*/
116 
117 
118 /*
119 ------------------------------------------------------------------------------
120  FUNCTION NAME: AMREncodeInit
121 ------------------------------------------------------------------------------
122  INPUT AND OUTPUT DEFINITIONS
123 
124  Inputs:
125     pEncStructure = pointer containing the pointer to a structure used by
126                     the encoder (void)
127     pSidSyncStructure = pointer containing the pointer to a structure used for
128                         SID synchronization (void)
129     dtx_enable = flag to turn off or turn on DTX (Flag)
130 
131  Outputs:
132     None
133 
134  Returns:
135     init_status = 0, if initialization was successful; -1, otherwise (int)
136 
137  Global Variables Used:
138     None
139 
140  Local Variables Needed:
141     speech_encoder_state = pointer to encoder frame structure
142                            (Speech_Encode_FrameState)
143     sid_state = pointer to SID sync structure (sid_syncState)
144 
145 ------------------------------------------------------------------------------
146  FUNCTION DESCRIPTION
147 
148  This function initializes the GSM AMR Encoder library by calling
149  GSMInitEncode and sid_sync_init. If initialization was successful,
150  init_status is set to zero, otherwise, it is set to -1.
151 
152 ------------------------------------------------------------------------------
153  REQUIREMENTS
154 
155  None
156 
157 ------------------------------------------------------------------------------
158  REFERENCES
159 
160  None
161 
162 ------------------------------------------------------------------------------
163  PSEUDO-CODE
164 
165  // Initialize GSM AMR Encoder
166  CALL GSMInitEncode(state_data = &pEncStructure,
167                     dtx = dtx_enable,
168                     id = char_id            )
169    MODIFYING(nothing)
170    RETURNING(return_value = enc_init_status)
171 
172  // Initialize SID synchronization
173  CALL sid_sync_init(state = &pSidSyncStructure)
174    MODIFYING(nothing)
175    RETURNING(return_value = sid_sync_init_status)
176 
177  IF ((enc_init_status != 0) || (sid_sync_init != 0))
178  THEN
179      init_status = -1
180 
181  ENDIF
182 
183  MODIFY(nothing)
184  RETURN(init_status)
185 
186 ------------------------------------------------------------------------------
187  RESOURCES USED [optional]
188 
189  When the code is written for a specific target processor the
190  the resources used should be documented below.
191 
192  HEAP MEMORY USED: x bytes
193 
194  STACK MEMORY USED: x bytes
195 
196  CLOCK CYCLES: (cycle count equation for this function) + (variable
197                 used to represent cycle count for each subroutine
198                 called)
199      where: (cycle count variable) = cycle count for [subroutine
200                                      name]
201 
202 ------------------------------------------------------------------------------
203  CAUTION [optional]
204  [State any special notes, constraints or cautions for users of this function]
205 
206 ------------------------------------------------------------------------------
207 */
AMREncodeInit(void ** pEncStructure,void ** pSidSyncStructure,Flag dtx_enable)208 Word16 AMREncodeInit(
209     void **pEncStructure,
210     void **pSidSyncStructure,
211     Flag dtx_enable)
212 {
213     Word16 enc_init_status = 0;
214     Word16 sid_sync_init_status = 0;
215     Word16 init_status = 0;
216 
217     /* Initialize GSM AMR Encoder */
218 #ifdef CONSOLE_ENCODER_REF
219     /* Change to original ETS input types */
220     Speech_Encode_FrameState **speech_encode_frame =
221         (Speech_Encode_FrameState **)(pEncStructure);
222 
223     sid_syncState **sid_sync_state = (sid_syncState **)(pSidSyncStructure);
224 
225     /* Use ETS version of sp_enc.c */
226     enc_init_status = Speech_Encode_Frame_init(speech_encode_frame,
227                       dtx_enable,
228                       (Word8*)"encoder");
229 
230     /* Initialize SID synchronization */
231     sid_sync_init_status = sid_sync_init(sid_sync_state);
232 
233 #else
234     /* Use PV version of sp_enc.c */
235     enc_init_status = GSMInitEncode(pEncStructure,
236                                     dtx_enable,
237                                     (Word8*)"encoder");
238 
239     /* Initialize SID synchronization */
240     sid_sync_init_status = sid_sync_init(pSidSyncStructure);
241 
242 
243 #endif
244 
245     if ((enc_init_status != 0) || (sid_sync_init_status != 0))
246     {
247         init_status = -1;
248     }
249 
250     return(init_status);
251 }
252 
253 
254 /****************************************************************************/
255 
256 /*
257 ------------------------------------------------------------------------------
258  FUNCTION NAME: AMREncodeReset
259 ------------------------------------------------------------------------------
260  INPUT AND OUTPUT DEFINITIONS
261 
262  Inputs:
263     pEncStructure = pointer to a structure used by the encoder (void)
264     pSidSyncStructure = pointer to a structure used for SID synchronization
265                         (void)
266 
267  Outputs:
268     None
269 
270  Returns:
271     reset_status = 0, if reset was successful; -1, otherwise (int)
272 
273  Global Variables Used:
274     None
275 
276  Local Variables Needed:
277     speech_encoder_state = pointer to encoder frame structure
278                            (Speech_Encode_FrameState)
279     sid_state = pointer to SID sync structure (sid_syncState)
280 
281 ------------------------------------------------------------------------------
282  FUNCTION DESCRIPTION
283 
284  This function resets the state memory used by the Encoder and SID sync
285  function. If reset was successful, reset_status is set to zero, otherwise,
286  it is set to -1.
287 
288 ------------------------------------------------------------------------------
289  REQUIREMENTS
290 
291  None
292 
293 ------------------------------------------------------------------------------
294  REFERENCES
295 
296  None
297 
298 ------------------------------------------------------------------------------
299  PSEUDO-CODE
300 
301  // Reset GSM AMR Encoder
302  CALL Speech_Encode_Frame_reset(state_data = pEncStructure)
303    MODIFYING(nothing)
304    RETURNING(return_value = enc_reset_status)
305 
306  // Reset SID synchronization
307  CALL sid_sync_reset(state = pSidSyncStructure)
308    MODIFYING(nothing)
309    RETURNING(return_value = sid_sync_reset_status)
310 
311  IF ((enc_reset_status != 0) || (sid_sync_reset_status != 0))
312  THEN
313      reset_status = -1
314 
315  ENDIF
316 
317  MODIFY(nothing)
318  RETURN(reset_status)
319 
320 ------------------------------------------------------------------------------
321  RESOURCES USED [optional]
322 
323  When the code is written for a specific target processor the
324  the resources used should be documented below.
325 
326  HEAP MEMORY USED: x bytes
327 
328  STACK MEMORY USED: x bytes
329 
330  CLOCK CYCLES: (cycle count equation for this function) + (variable
331                 used to represent cycle count for each subroutine
332                 called)
333      where: (cycle count variable) = cycle count for [subroutine
334                                      name]
335 
336 ------------------------------------------------------------------------------
337  CAUTION [optional]
338  [State any special notes, constraints or cautions for users of this function]
339 
340 ------------------------------------------------------------------------------
341 */
AMREncodeReset(void * pEncStructure,void * pSidSyncStructure)342 Word16 AMREncodeReset(
343     void *pEncStructure,
344     void *pSidSyncStructure)
345 {
346     Word16 enc_reset_status = 0;
347     Word16 sid_sync_reset_status = 0;
348     Word16 reset_status = 0;
349 
350     /* Reset GSM AMR Encoder */
351     enc_reset_status = Speech_Encode_Frame_reset(pEncStructure);
352 
353 
354     /* Reset SID synchronization */
355     sid_sync_reset_status = sid_sync_reset(pSidSyncStructure);
356 
357     if ((enc_reset_status != 0) || (sid_sync_reset_status != 0))
358     {
359         reset_status = -1;
360     }
361 
362     return(reset_status);
363 }
364 
365 
366 /****************************************************************************/
367 
368 /*
369 ------------------------------------------------------------------------------
370  FUNCTION NAME: AMREncodeExit
371 ------------------------------------------------------------------------------
372  INPUT AND OUTPUT DEFINITIONS
373 
374  Inputs:
375     pEncStructure = pointer containing the pointer to a structure used by
376                     the encoder (void)
377     pSidSyncStructure = pointer containing the pointer to a structure used for
378                         SID synchronization (void)
379 
380  Outputs:
381     None
382 
383  Returns:
384     None
385 
386  Global Variables Used:
387     None
388 
389  Local Variables Needed:
390     speech_encoder_state = pointer to encoder frame structure
391                            (Speech_Encode_FrameState)
392     sid_state = pointer to SID sync structure (sid_syncState)
393 
394 ------------------------------------------------------------------------------
395  FUNCTION DESCRIPTION
396 
397  This function frees up the state memory used by the Encoder and SID
398  synchronization function.
399 
400 ------------------------------------------------------------------------------
401  REQUIREMENTS
402 
403  None
404 
405 ------------------------------------------------------------------------------
406  REFERENCES
407 
408  None
409 
410 ------------------------------------------------------------------------------
411  PSEUDO-CODE
412 
413  // Exit GSM AMR Encoder
414  CALL GSMEncodeFrameExit(state_data = &pEncStructure)
415    MODIFYING(nothing)
416    RETURNING(nothing)
417 
418  // Exit SID synchronization
419  CALL sid_sync_exit(state = &pSidSyncStructure)
420    MODIFYING(nothing)
421    RETURNING(nothing)
422 
423  MODIFY(nothing)
424  RETURN(nothing)
425 
426 ------------------------------------------------------------------------------
427  RESOURCES USED [optional]
428 
429  When the code is written for a specific target processor the
430  the resources used should be documented below.
431 
432  HEAP MEMORY USED: x bytes
433 
434  STACK MEMORY USED: x bytes
435 
436  CLOCK CYCLES: (cycle count equation for this function) + (variable
437                 used to represent cycle count for each subroutine
438                 called)
439      where: (cycle count variable) = cycle count for [subroutine
440                                      name]
441 
442 ------------------------------------------------------------------------------
443  CAUTION [optional]
444  [State any special notes, constraints or cautions for users of this function]
445 
446 ------------------------------------------------------------------------------
447 */
AMREncodeExit(void ** pEncStructure,void ** pSidSyncStructure)448 void AMREncodeExit(
449     void **pEncStructure,
450     void **pSidSyncStructure)
451 {
452     /* Exit GSM AMR Encoder */
453 
454 #ifdef CONSOLE_ENCODER_REF
455     /* Change to original ETS input types */
456     Speech_Encode_FrameState ** speech_encode_frame =
457         (Speech_Encode_FrameState **)(pEncStructure);
458 
459     sid_syncState ** sid_sync_state = (sid_syncState **)(pSidSyncStructure);
460 
461     /* Use ETS version of sp_enc.c */
462     Speech_Encode_Frame_exit(speech_encode_frame);
463 
464 
465     /* Exit SID synchronization */
466     sid_sync_exit(sid_sync_state);
467 
468 #else
469 
470     /* Use PV version of sp_enc.c */
471     GSMEncodeFrameExit(pEncStructure);
472 
473     /* Exit SID synchronization */
474     sid_sync_exit(pSidSyncStructure);
475 
476 #endif
477 
478     return;
479 }
480 
481 
482 /****************************************************************************/
483 
484 /*
485 ------------------------------------------------------------------------------
486  FUNCTION NAME: AMREncode
487 ------------------------------------------------------------------------------
488  INPUT AND OUTPUT DEFINITIONS
489 
490  Inputs:
491     pEncState = pointer to encoder state structure (void)
492     pSidSyncState = pointer to SID sync state structure (void)
493     mode = codec mode (enum Mode)
494     pEncInput = pointer to the input speech samples (Word16)
495     pEncOutput = pointer to the encoded bit stream (unsigned char)
496     p3gpp_frame_type = pointer to the 3GPP frame type (enum Frame_Type_3GPP)
497     output_format = output format type (Word16); valid values are AMR_WMF,
498                     AMR_IF2, and AMR_ETS
499 
500  Outputs:
501     pEncOutput buffer contains to the newly encoded bit stream
502     p3gpp_frame_type store contains the new 3GPP frame type
503 
504  Returns:
505     num_enc_bytes = number of encoded bytes for a particular
506                     mode or -1, if an error occurred (int)
507 
508  Global Variables Used:
509     WmfEncBytesPerFrame = table containing the number of encoder frame
510                           data bytes per codec mode for WMF output
511                           format (const int)
512     If2EncBytesPerFrame = table containing the number of encoder frame
513                           data bytes per codec mode for IF2 output
514                           format (const int)
515 
516  Local Variables Needed:
517     None
518 
519 ------------------------------------------------------------------------------
520  FUNCTION DESCRIPTION
521 
522  This function is the top-level entry point to the GSM AMR Encoder library.
523 
524  The following describes the encoding process for WMF or IF2 formatted output
525  data. This functions calls GSMEncodeFrame to encode one frame's worth of
526  input speech samples, and returns the newly encoded bit stream in the buffer
527  pointed to by pEncOutput.Then the function sid_sync is called to determine
528  the transmit frame type. If the transmit frame type is TX_SPEECH_GOOD or
529  TX_SID_FIRST or TX_SID_UPDATE, p3gpp_frame_type will be set to the encoder
530  used mode. For SID frames, the SID type information and mode information are
531  added to the encoded parameter bitstream according to the SID frame format
532  described in [1]. If the transmit frame type is TX_NO_DATA, the store
533  pointed to by p3gpp_frame_type will be set to NO_DATA. Then the output
534  format type (output_format) will be checked to determine the format of the
535  encoded data.
536 
537  If output_format is AMR_TX_WMF, the function ets_to_wmf will be called to
538  convert from ETS format (1 bit/word, where 1 word = 16 bits, information in
539  least significant bit) to WMF (aka, non-IF2). The WMF format stores the data
540  in octets. The least significant 4 bits of the first octet contains the 3GPP
541  frame type information and the most significant 4 bits are zeroed out. The
542  succeeding octets contain the packed encoded speech bits. The total number of
543  WMF bytes encoded is obtained from WmfEncBytesPerFrame table and returned via
544  num_enc_bytes.
545 
546  If output_format is AMR_TX_IF2, the function if2_to_ets will be called to
547  convert from ETS format to IF2 [1]. The IF2 format stores the data in octets.
548  The least significant nibble of the first octet contains the 3GPP frame type
549  and the most significant nibble contains the first 4 encoded speech bits. The
550  suceeding octets contain the packed encoded speech bits. The total number of
551  IF2 bytes encoded is obtained from If2EncBytesPerFrame table and returned via
552  num_enc_bytes.
553 
554  If output_format is AMR_TX_ETS, GSMFrameEncode is called to generate the
555  encoded speech parameters, then, sid_sync is called to determine the transmit
556  frame type. If the transmit frame type is not TX_NO_DATA, then the transmit
557  frame type information is saved in the first location of the ets_output_bfr,
558  followed by the encoded speech parameters. The codec mode information is
559  stored immediately after the MAX_SERIAL_SIZE encoded speech parameters. If
560  the transmit frame type is TX_NO_DATA, the transmit frame type, encoded
561  speech parameters, and codec mode are stored in the same order as before
562  in ets_output_bfr. However, for the no data case, the codec mode is set to
563  -1.
564 
565  After all the required information is generated, the 16-bit data generated
566  by the Encoder (in ets_output_bfr) is copied to the buffer pointed to by
567  pEncOutput in the little endian configuration, i.e., least significant byte,
568  followed by most significant byte. The num_enc_bytes is set to
569  2*(MAX_SERIAL_SIZE+2).
570 
571  If output_format is invalid, this function flags the error and sets
572  num_enc_bytes to -1.
573 
574 ------------------------------------------------------------------------------
575  REQUIREMENTS
576 
577  None
578 
579 ------------------------------------------------------------------------------
580  REFERENCES
581 
582  [1] "AMR Speech Codec Frame Structure", 3GPP TS 26.101 version 4.1.0
583      Release 4, June 2001
584 
585 ------------------------------------------------------------------------------
586  PSEUDO-CODE
587 
588  IF ((output_format == AMR_TX_WMF) | (output_format == AMR_TX_IF2))
589  THEN
590      // Encode one speech frame (20 ms)
591      CALL GSMEncodeFrame( state_data = pEncState,
592                           mode = mode,
593                           new_speech = pEncInput,
594                           serial = &ets_output_bfr[0],
595                           usedMode = &usedMode )
596        MODIFYING(nothing)
597        RETURNING(return_value = 0)
598 
599      // Determine transmit frame type
600      CALL sid_sync(st = pSidSyncState,
601                    mode = usedMode
602                    tx_frame_type = &tx_frame_type)
603        MODIFYING(nothing)
604        RETURNING(nothing)
605 
606      IF (tx_frame_type != TX_NO_DATA)
607      THEN
608          // There is data to transmit
609          *p3gpp_frame_type = (enum Frame_Type_3GPP) usedMode
610 
611          // Add SID type and mode info for SID frames
612          IF (*p3gpp_frame_type == AMR_SID)
613          THEN
614              // Add SID type to encoder output buffer
615              IF (tx_frame_type == TX_SID_FIRST)
616              THEN
617                  ets_output_bfr[AMRSID_TXTYPE_BIT_OFFSET] &= 0x7f
618 
619              ELSEIF (tx_frame_type == TX_SID_UPDATE )
620              THEN
621                  ets_output_bfr[AMRSID_TXTYPE_BIT_OFFSET] |= 0x80
622 
623              ENDIF
624 
625              // Add mode information bits
626              FOR i = 0 TO NUM_AMRSID_TXMODE_BITS-1
627 
628                  ets_output_bfr[AMRSID_TXMODE_BIT_OFFSET+i] = (mode>>i)&&0x0001
629 
630              ENDFOR
631 
632          ENDIF
633 
634      ELSE
635          // There is no data to transmit
636          *p3gpp_frame_type = NO_DATA
637 
638      ENDIF
639 
640      // Determine the output format to use
641      IF (output_format == AMR_TX_WMF)
642      THEN
643          // Change output data format to WMF
644          CALL ets_to_wmf( frame_type_3gpp = *p3gpp_frame_type,
645                           ets_input_ptr = &ets_output_bfr[0],
646                           wmf_output_ptr = pEncOutput         )
647            MODIFYING(nothing)
648            RETURNING(nothing)
649 
650          // Set up the number of encoded WMF bytes
651          num_enc_bytes = WmfEncBytesPerFrame[(int) *p3gpp_frame_type]
652 
653      ELSEIF (output_format == AMR_TX_IF2)
654      THEN
655          // Change output data format to IF2
656          CALL ets_to_if2( frame_type_3gpp = *p3gpp_frame_type,
657                           ets_input_ptr = &ets_output_bfr[0],
658                           if2_output_ptr = pEncOutput         )
659            MODIFYING(nothing)
660            RETURNING(nothing)
661 
662          // Set up the number of encoded IF2 bytes
663          num_enc_bytes = If2EncBytesPerFrame[(int) *p3gpp_frame_type]
664 
665      ENDIF
666 
667  ELSEIF (output_format = AMR_TX_ETS)
668  THEN
669      // Encode one speech frame (20 ms)
670      CALL GSMEncodeFrame( state_data = pEncState,
671                           mode = mode,
672                           new_speech = pEncInput,
673                           serial = &ets_output_bfr[1],
674                           usedMode = &usedMode )
675        MODIFYING(nothing)
676        RETURNING(return_value = 0)
677 
678      // Save used mode
679      *p3gpp_frame_type = (enum Frame_Type_3GPP) usedMode
680 
681      // Determine transmit frame type
682      CALL sid_sync(st = pSidSyncState,
683                    mode = usedMode
684                    tx_frame_type = &tx_frame_type)
685        MODIFYING(nothing)
686        RETURNING(nothing)
687 
688      // Put TX frame type in output buffer
689      ets_output_bfr[0] = tx_frame_type
690 
691      // Put mode information after the encoded speech parameters
692      IF (tx_frame_type != TX_NO_DATA)
693      THEN
694          ets_output_bfr[MAX_SERIAL_SIZE+1] = mode
695 
696      ELSE
697          ets_output_bfr[MAX_SERIAL_SIZE+1] = -1
698 
699      ENDIF
700 
701      // Copy output of encoder to pEncOutput buffer
702      ets_output_ptr = (unsigned char *) &ets_output_bfr[0]
703 
704      // Copy 16-bit data in 8-bit chunks using Little Endian configuration
705      FOR i = 0 TO (2*(MAX_SERIAL_SIZE+6))-1
706 
707          *(pEncOutput+i) = *ets_output_ptr
708          ets_output_ptr = ets_output_ptr + 1
709 
710      ENDFOR
711 
712      // Set up number of encoded bytes
713      num_enc_bytes = 2*(MAX_SERIAL_SIZE+6)
714 
715  ELSE
716      // Invalid output_format, set up error code
717      num_enc_bytes = -1
718 
719  ENDIF
720 
721  MODIFY (nothing)
722  RETURN (num_enc_bytes)
723 
724 ------------------------------------------------------------------------------
725  RESOURCES USED [optional]
726 
727  When the code is written for a specific target processor the
728  the resources used should be documented below.
729 
730  HEAP MEMORY USED: x bytes
731 
732  STACK MEMORY USED: x bytes
733 
734  CLOCK CYCLES: (cycle count equation for this function) + (variable
735                 used to represent cycle count for each subroutine
736                 called)
737      where: (cycle count variable) = cycle count for [subroutine
738                                      name]
739 
740 ------------------------------------------------------------------------------
741  CAUTION [optional]
742  [State any special notes, constraints or cautions for users of this function]
743 
744 ------------------------------------------------------------------------------
745 */
AMREncode(void * pEncState,void * pSidSyncState,enum Mode mode,Word16 * pEncInput,UWord8 * pEncOutput,enum Frame_Type_3GPP * p3gpp_frame_type,Word16 output_format)746 Word16 AMREncode(
747     void *pEncState,
748     void *pSidSyncState,
749     enum Mode mode,
750     Word16 *pEncInput,
751     UWord8 *pEncOutput,
752     enum Frame_Type_3GPP *p3gpp_frame_type,
753     Word16 output_format
754 )
755 {
756     Word16 ets_output_bfr[MAX_SERIAL_SIZE+2];
757     UWord8 *ets_output_ptr;
758     Word16 num_enc_bytes = -1;
759     Word16 i;
760     enum TXFrameType tx_frame_type;
761     enum Mode usedMode = MR475;
762 
763     /* Encode WMF or IF2 frames */
764     if ((output_format == AMR_TX_WMF) | (output_format == AMR_TX_IF2))
765     {
766         /* Encode one speech frame (20 ms) */
767 
768 #ifndef CONSOLE_ENCODER_REF
769 
770         /* Use PV version of sp_enc.c */
771         GSMEncodeFrame(pEncState, mode, pEncInput, ets_output_bfr, &usedMode);
772 
773 #else
774         /* Use ETS version of sp_enc.c */
775         Speech_Encode_Frame(pEncState, mode, pEncInput, ets_output_bfr, &usedMode);
776 
777 #endif
778 
779         /* Determine transmit frame type */
780         sid_sync(pSidSyncState, usedMode, &tx_frame_type);
781 
782         if (tx_frame_type != TX_NO_DATA)
783         {
784             /* There is data to transmit */
785             *p3gpp_frame_type = (enum Frame_Type_3GPP) usedMode;
786 
787             /* Add SID type and mode info for SID frames */
788             if (*p3gpp_frame_type == AMR_SID)
789             {
790                 /* Add SID type to encoder output buffer */
791                 if (tx_frame_type == TX_SID_FIRST)
792                 {
793                     ets_output_bfr[AMRSID_TXTYPE_BIT_OFFSET] &= 0x0000;
794                 }
795                 else if (tx_frame_type == TX_SID_UPDATE)
796                 {
797                     ets_output_bfr[AMRSID_TXTYPE_BIT_OFFSET] |= 0x0001;
798                 }
799 
800                 /* Add mode information bits */
801                 for (i = 0; i < NUM_AMRSID_TXMODE_BITS; i++)
802                 {
803                     ets_output_bfr[AMRSID_TXMODE_BIT_OFFSET+i] =
804                         (mode >> i) & 0x0001;
805                 }
806             }
807         }
808         else
809         {
810             /* This is no data to transmit */
811             *p3gpp_frame_type = (enum Frame_Type_3GPP)AMR_NO_DATA;
812         }
813 
814         /* At this point, output format is ETS */
815         /* Determine the output format to use */
816         if (output_format == AMR_TX_WMF)
817         {
818             /* Change output data format to WMF */
819             ets_to_wmf(*p3gpp_frame_type, ets_output_bfr, pEncOutput);
820 
821             /* Set up the number of encoded WMF bytes */
822             num_enc_bytes = WmfEncBytesPerFrame[(Word16) *p3gpp_frame_type];
823 
824         }
825         else if (output_format == AMR_TX_IF2)
826         {
827             /* Change output data format to IF2 */
828             ets_to_if2(*p3gpp_frame_type, ets_output_bfr, pEncOutput);
829 
830             /* Set up the number of encoded IF2 bytes */
831             num_enc_bytes = If2EncBytesPerFrame[(Word16) *p3gpp_frame_type];
832 
833         }
834     }
835 
836     /* Encode ETS frames */
837     else if (output_format == AMR_TX_ETS)
838     {
839         /* Encode one speech frame (20 ms) */
840 
841 #ifndef CONSOLE_ENCODER_REF
842 
843         /* Use PV version of sp_enc.c */
844         GSMEncodeFrame(pEncState, mode, pEncInput, &ets_output_bfr[1], &usedMode);
845 
846 #else
847         /* Use ETS version of sp_enc.c */
848         Speech_Encode_Frame(pEncState, mode, pEncInput, &ets_output_bfr[1], &usedMode);
849 
850 #endif
851 
852         /* Save used mode */
853         *p3gpp_frame_type = (enum Frame_Type_3GPP) usedMode;
854 
855         /* Determine transmit frame type */
856         sid_sync(pSidSyncState, usedMode, &tx_frame_type);
857 
858         /* Put TX frame type in output buffer */
859         ets_output_bfr[0] = tx_frame_type;
860 
861         /* Put mode information after the encoded speech parameters */
862         if (tx_frame_type != TX_NO_DATA)
863         {
864             ets_output_bfr[1+MAX_SERIAL_SIZE] = (Word16) mode;
865         }
866         else
867         {
868             ets_output_bfr[1+MAX_SERIAL_SIZE] = -1;
869         }
870 
871         /* Copy output of encoder to pEncOutput buffer */
872         ets_output_ptr = (UWord8 *) & ets_output_bfr[0];
873 
874         /* Copy 16-bit data in 8-bit chunks  */
875         /* using Little Endian configuration */
876         for (i = 0; i < 2*(MAX_SERIAL_SIZE + 2); i++)
877         {
878             *(pEncOutput + i) = *ets_output_ptr;
879             ets_output_ptr += 1;
880         }
881 
882         /* Set up the number of encoded bytes */
883         num_enc_bytes = 2 * (MAX_SERIAL_SIZE + 2);
884 
885     }
886 
887     /* Invalid frame format */
888     else
889     {
890         /* Invalid output format, set up error code */
891         num_enc_bytes = -1;
892     }
893 
894     return(num_enc_bytes);
895 }
896 
897 
898