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view src/gpf/ccd/gsm1_v.c @ 287:3dee79757ae4

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UI fw: load handheld audio mode on boot We have now reached the point where use of audio mode config files should be considered mandatory. In ACI usage we can tell users that they need to perform an AT@AUL of some appropriate audio mode, but in UI-enabled fw we really need to have the firmware load audio modes on its own, so that correct audio config gets established when the handset or development board runs on its own, without a connected host computer. Once have FC Venus with both main and headset audio channels and headset plug insertion detection, our fw will need to automatically load the handheld mode or the headset mode depending on the plug insertion state. For now we load only the handheld mode, which has been tuned for FC-HDS4 on FC Luna.
author Mychaela Falconia <falcon@freecalypso.org>
date Sat, 13 Nov 2021 03:20:57 +0000
parents 4e78acac3d88
children
line wrap: on
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/* 
+----------------------------------------------------------------------------- 
|  Project :  
|  Modul   : gsm1_v.c
+----------------------------------------------------------------------------- 
|  Copyright 2002 Texas Instruments Berlin, AG 
|                 All rights reserved. 
| 
|                 This file is confidential and a trade secret of Texas 
|                 Instruments Berlin, AG 
|                 The receipt of or possession of this file does not convey 
|                 any rights to reproduce or disclose its contents or to 
|                 manufacture, use, or sell anything it may describe, in 
|                 whole, or in part, without the specific written consent of 
|                 Texas Instruments Berlin, AG. 
+----------------------------------------------------------------------------- 
|  Purpose :  Definition of encoding and decoding functions for GSM1_V elements 
+----------------------------------------------------------------------------- 
*/ 


/*
 * standard definitions like GLOBAL, UCHAR, ERROR etc.
 */
#include "typedefs.h"
#include "header.h"

/*
 * Prototypes of ccd (USE_DRIVER EQ undef) for prototypes only
 * look at ccdapi.h
 */
#undef USE_DRIVER
#include "ccdapi.h"

/*
 * Types and functions for bit access and manipulation
 */
#include "ccd_globs.h"
#include "bitfun.h"

/*
 * Prototypes of ccd internal functions
 */
#include "ccd.h"


/*
 * Declaration of coder/decoder tables
 */
#include "ccdtable.h"
#include "ccddata.h"

#ifndef RUN_FLASH
/*
+--------------------------------------------------------------------+
| PROJECT : CCD (6144)                 MODULE  : CDC_GSM             |
| STATE   : code                       ROUTINE : cdc_gsm1v_decode    |
+--------------------------------------------------------------------+

  PURPOSE : Decoding of the GSM Type 1V element. This element
            consists of a V component with max. 4 Bit length.
*/

SHORT cdc_gsm1v_decode (const ULONG c_ref, const ULONG e_ref, T_CCD_Globs *globs)
{
  SHORT ret; 
  ULONG  cix_ref, num_prolog_steps, prolog_step_ref;

#ifdef DEBUG_CCD
  #ifndef CCD_SYMBOLS
  TRACE_CCD (globs, "cdc_gsm1v_decode()");
  #else
  TRACE_CCD (globs, "cdc_gsm1v_decode() %s", ccddata_get_alias((USHORT) e_ref, 1));
  #endif
#endif

  cix_ref = melem[e_ref].calcIdxRef;
  num_prolog_steps = calcidx[cix_ref].numPrologSteps;
  prolog_step_ref  = calcidx[cix_ref].prologStepRef;

  /*
   * if this element have a defined Prolog
   * we have to process it before decoding the bitstream
   */
  if (num_prolog_steps)
  {
    ccd_performOperations (num_prolog_steps, prolog_step_ref, globs);
  }
  
  if (!globs->Swap1V_inProgress)
  {
    /*
     * check if the next element is a GSM1V too
     */
    if ((ULONG)(mcomp[c_ref].componentRef
        +mcomp[c_ref].numOfComponents) > e_ref
      AND (melem[e_ref].codingType EQ melem[e_ref+1].codingType
           OR melem[e_ref+1].elemType EQ 'S'))
    { 
	    if (melem[e_ref+1].elemType EQ 'S') 
	    {
		    /*
		     * if the next element is a spare then skip the next 4 bits
		     * do not decode the spare bits.
		     */
	      bf_setBitpos ((globs->bitpos+4), globs);

          ret = cdc_std_decode (c_ref, e_ref, globs);

          if (ret EQ 1)
            ret++;

          return ret;
	    }
	    else
	    {
		    /*
		     * another 1V-element follow. We have to swap the nibbles.
		     */
		    globs->Swap1V_inProgress = TRUE;
		    /*
		     * store the akt position
		     */
		    globs->akt1VPos  = (USHORT)(globs->bitpos+4);
		    globs->next1VPos = globs->bitpos;

		    bf_setBitpos (globs->akt1VPos, globs);
        ret = cdc_std_decode (c_ref, e_ref, globs);
        /*
         * increment the globs->maxBitpos by 1 so the bf_endOfBitstream
         * will return FALSE
         */
        globs->maxBitpos++;

        return ret;
      }
    }
    ret = cdc_std_decode (c_ref, e_ref, globs);

  }
  else
  {
    globs->akt1VPos = globs->next1VPos;
    globs->next1VPos = globs->bitpos;

    bf_setBitpos (globs->akt1VPos, globs);
    
    /*
     * decrement the globs->maxBitpos by 1 so the bf_endOfBitstream
     * will return TRUE if the bitstream ended
     */
    globs->maxBitpos--;

    ret = cdc_std_decode (c_ref, e_ref, globs);

    bf_setBitpos (globs->next1VPos, globs);

    globs->Swap1V_inProgress = FALSE;

  }
  return ret;
}
#endif /* !RUN_FLASH */
 
#ifndef RUN_FLASH
/*
+--------------------------------------------------------------------+
| PROJECT : CCD (6144)                 MODULE  : CDC_GSM             |
| STATE   : code                       ROUTINE : cdc_gsm1v_encode    |
+--------------------------------------------------------------------+

  PURPOSE : encoding of the GSM Type 1V element. This element
            consists of a V component with max. 4 Bit length.
*/

SHORT cdc_gsm1v_encode (const ULONG c_ref, const ULONG e_ref, T_CCD_Globs *globs)
{
#ifdef DEBUG_CCD
  #ifndef CCD_SYMBOLS
  TRACE_CCD (globs, "cdc_gsm1v_encode()");
  #else
  TRACE_CCD (globs, "cdc_gsm1v_encode() %s", ccddata_get_alias((USHORT) e_ref, 1));
  #endif
#endif

  if (!globs->Swap1V_inProgress)
  {
    /*
     * check if the next element is a GSM1V too
     */
    if ((ULONG)(mcomp[c_ref].componentRef
        +mcomp[c_ref].numOfComponents) > e_ref
      AND (melem[e_ref].codingType EQ melem[e_ref+1].codingType
           OR melem[e_ref+1].elemType EQ 'S'))
    { 
	    if (melem[e_ref+1].elemType EQ 'S') 
	    {
        SHORT ret; 
		    /*
		     * if the next element is a spare then skip the next 4 bits
		     * do not code the spare bits because the bitstream is cleared.
		     */
	      bf_setBitpos (globs->bitpos+4, globs);

        ret = cdc_std_encode (c_ref, e_ref, globs);

        if (ret EQ 1)
          ret++;

        return ret;
	    }
	    else
      {
        /*
         * another 1V-element follow. We have to swap the nibbles.
         */
        globs->Swap1V_inProgress = TRUE;
        /*
         * store the akt position
         */
        globs->akt1VPos  = (USHORT)(globs->bitpos+4);
        globs->next1VPos = globs->bitpos;

        bf_setBitpos (globs->akt1VPos, globs);
      }
    }
    return cdc_std_encode (c_ref, e_ref, globs);
  }
  else
  {
    SHORT ret;

    globs->akt1VPos = globs->next1VPos;
    globs->next1VPos = globs->bitpos;

    bf_setBitpos (globs->akt1VPos, globs);
    
    ret = cdc_std_encode (c_ref, e_ref, globs);

    bf_setBitpos (globs->next1VPos, globs);

    globs->Swap1V_inProgress = FALSE;

    return ret;
  }
}
#endif /* !RUN_FLASH */