view src/cs/layer1/audio_cfile/l1audio_back.c @ 205:81f5c4ca1fb3

mmiDialogs.c: make dialog_info() static The function in question was first declared as static, then defined as non-static, which should be considered invalid C. Given that this function is not referenced from any other modules and appears to have been intended as static, make it so.
author Mychaela Falconia <falcon@freecalypso.org>
date Tue, 06 Apr 2021 01:28:52 +0000
parents 4e78acac3d88
children
line wrap: on
line source

/************* Revision Controle System Header *************
 *                  GSM Layer 1 software
 * L1AUDIO_SRBACK.C
 *
 *        Filename l1audio_back.c
 *  Copyright 2003 (C) Texas Instruments  
 *
 ************* Revision Controle System Header *************/

/************************************/
/* Include files...                 */
/************************************/

#define L1_SRBACK_COM // switch to define the l1_srback_com variable
#define L1_AUDIOBACK_MELODYE2 // switch to define the audio background variable

#include "l1_macro.h"
#include "l1_confg.h"

#if (AUDIO_TASK == 1) && (L1_AUDIO_BACKGROUND_TASK)

  #include "l1_types.h"
  #include "sys_types.h"

  #if (CODE_VERSION == SIMULATION) && (AUDIO_SIMULATION)


    #include <stdlib.h>
    #include <string.h>

    #include "iq.h"             // Debug / Init hardware  ("eva3.lib")
    #include "l1_ver.h"
    #include "l1_const.h"
    #include "l1_signa.h"

    #if TESTMODE
      #include "l1tm_defty.h"
    #endif

    #include "l1audio_const.h"
    #include "l1audio_cust.h"
    #include "l1audio_signa.h"
    #include "l1audio_defty.h"
    #include "l1audio_msgty.h"
    #include "l1audio_varex.h"

    #if (L1_GTT == 1)
      #include "l1gtt_const.h"
      #include "l1gtt_defty.h"
    #endif
//added form e-sample for AAC
    #if (L1_DYN_DSP_DWNLD == 1)
      #include "l1_dyn_dwl_const.h"
      #include "l1_dyn_dwl_defty.h"
    #endif
    #if (L1_MP3 == 1)
      #include "l1mp3_defty.h"
    #endif

    #if (L1_MIDI == 1)
      #include "l1midi_defty.h"
    #endif
//added form e-sample for AAC
    #if (L1_AAC == 1)
      #include "l1aac_defty.h"
    #endif

    #include "l1_defty.h"
    #include "cust_os.h"
    #include "l1_msgty.h"
    #include "l1_varex.h"

    #include "l1_mftab.h"
    #include "l1_tabs.h"
    #include "l1_ctl.h"


    #include "l1_time.h"
    #include "l1_scen.h"

  #else
  // Layer1 and debug include files.

    #include <ctype.h>
    #include <math.h>
    #include "l1_ver.h"
    #include "l1_const.h"
    #include "l1_signa.h"

    #if TESTMODE
      #include "l1tm_defty.h"
    #endif

    #include "l1audio_const.h"
    #include "l1audio_cust.h"
    #include "l1audio_signa.h"
    #include "l1audio_defty.h"
    #include "l1audio_msgty.h"
    #include "l1audio_varex.h"

    #if (L1_GTT == 1)
      #include "l1gtt_const.h"
      #include "l1gtt_defty.h"
    #endif
//added form e-sample for AAC
    #if (L1_DYN_DSP_DWNLD == 1)
      #include "l1_dyn_dwl_const.h"
      #include "l1_dyn_dwl_defty.h"
    #endif
    #if (L1_MP3 == 1)
      #include "l1mp3_defty.h"
    #endif

    #if (L1_MIDI == 1)
      #include "l1midi_defty.h"
    #endif
//added form e-sample for AAC
    #if (L1_AAC == 1)
      #include "l1aac_defty.h"
    #endif

    #include "l1_defty.h"
    #include "cust_os.h"
    #include "l1_msgty.h"
    #include "tpudrv.h"       // TPU drivers.           ("eva3.lib")
    #include "l1_varex.h"

    #include "l1_proto.h"
    #include "l1_mftab.h"
    #include "l1_tabs.h"
    #include "mem.h"
    #include "armio.h"
    #include "timer.h"
    #include "timer1.h"
    #include "dma.h"
    #include "inth.h"
    #include "ulpd.h"
    #include "rhea_arm.h"
    #include "clkm.h"         // Clockm  ("eva3.lib")
    #include "l1_ctl.h"

    #include "l1_time.h"
    #if L2_L3_SIMUL
      #include "l1_scen.h"
    #endif
  #endif

  /****************************************/
  /* Prototypes for audio background task */
  /****************************************/
  void l1_audio_background_task       (UWORD32 argc, void *argv);
  #if (SPEECH_RECO)
  void srback_CTO_algorithm         (API *RAM_address);
  void srback_save_model_temp       (API *RAM_address_input, UWORD16 *RAM_address_output);
  #endif
  #if (MELODY_E2 && FIR)
    void audio_background_melody_e2_download_instrument_manager(xSignalHeaderRec *msg);
  #endif
  /**************************************/
  /* External prototypes                */
  /**************************************/
  #if (SPEECH_RECO)
  extern void Cust_srback_save_model     (UWORD8 database, UWORD8 index, API *RAM_address);
  extern void Cust_srback_save_speech    (UWORD8 database, UWORD8 index, UWORD16 *start_buffer, UWORD16 *stop_buffer, UWORD16 *start_speech, UWORD16 *stop_speech);
  extern void Cust_srback_load_model     (UWORD8 database, UWORD8 index, API *RAM_address);
  #endif
  #if (MELODY_E2 && FIR)
    extern UWORD16 Cust_audio_melody_E2_load_instrument (UWORD8 customer_instrument_id,
                                                         API *API_address,
                                                         UWORD16 allowed_size);
  #endif

#if (OP_RIV_AUDIO == 0)
  /*--------------------------------------------------------*/
  /* l1_audio_background_task()                             */
  /*--------------------------------------------------------*/
  /*                                                        */
  /* Description:                                           */
  /* ------------                                           */
  /* This function is a state machine which handles the     */
  /* audio background feature.                              */
  /*                                                        */
  /* Starting messages:        L1_SRBACK_SAVE_DATA_REQ      */
  /*                           L1_SRBACK_TEMP_SAVE_DATA_REQ */
  /*                           L1_SRBACK_LOAD_MODEL_REQ     */
  /*                L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ   */
  /*                L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ */
  /*                                                        */
  /* Result messages (input):  none                         */
  /*                                                        */
  /* Result messages (output): L1_SRBACK_SAVE_DATA_CON      */
  /*                           L1_SRBACK_TEMP_SAVE_DATA_CON */
  /*                           L1_SRBACK_LOAD_MODEL_CON     */
  /*                L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON   */
  /*                L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON */
  /*                                                        */
  /* Reset messages (input):   none                         */
  /*                                                        */
  /* Stop message (input):     non                          */
  /*                                                        */
  /* Stop message (output):    L1_SRBACK_SAVE_DATA_CON      */
  /*                           L1_SRBACK_TEMP_SAVE_DATA_CON */
  /*                           L1_SRBACK_LOAD_MODEL_CON     */
  /*                L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON   */
  /*                L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON */
  /*                                                        */
  /* Rem: to stop immeditly the speech reco feature a flag  */
  /* ---- is created: l1_srback_com.emergency_stop          */
  /*                                                        */
  /*--------------------------------------------------------*/
  void l1_audio_background_task(UWORD32 argc, void *argv)
  {
    xSignalHeaderRec *receive_msg, *confirm_msg;
    UWORD8  index;

    while(1)
    {
      // Wait until a message is receive
      receive_msg = os_receive_sig(SRBACK_QUEUE);

      #if (SPEECH_RECO)
        if (receive_msg->SignalCode == L1_SRBACK_SAVE_DATA_REQ)
        {
          if (l1_srback_com.emergency_stop == FALSE)
          {
            // Call the customer function to save the model
            Cust_srback_save_model( ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->database_id,
                                    ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->model_index,
                                    ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->model_RAM_address );
          }
          if ( ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->speech )
          {
            if (l1_srback_com.emergency_stop == FALSE)
            {
              // Call the customer function to save the speech from a circular buffer to the database
              Cust_srback_save_speech( ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->database_id,
                                       ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->model_index,
                                       ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->start_buffer,
                                       ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->stop_buffer,
                                       ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->start_address,
                                       ((T_L1_SRBACK_SAVE_DATA_REQ *)(receive_msg->SigP))->stop_address);
            }
          }

          // Send the stop confirmation message
          confirm_msg = os_alloc_sig(0);
          DEBUGMSG(status,NU_ALLOC_ERR)
          confirm_msg->SignalCode = L1_SRBACK_SAVE_DATA_CON;
          os_send_sig(confirm_msg, L1C1_QUEUE);
          DEBUGMSG(status,NU_SEND_QUEUE_ERR)
        } // L1_SRBACK_SAVE_DATA_REQ
        else
        if (receive_msg->SignalCode == L1_SRBACK_LOAD_MODEL_REQ)
        {
          if ( ( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->CTO_enable ) == FALSE )
          {
            if (l1_srback_com.emergency_stop == FALSE)
            {
              // Call the function to load a model
              Cust_srback_load_model( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->database_id,
                                      ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_index,
                                      ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_RAM_address );
            }
          }
          else
          {
            if (l1_srback_com.emergency_stop == FALSE)
            {
              // Calculate the good index
              index = ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_index>>1;

              // Call the function to load a model with the good index
              Cust_srback_load_model( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->database_id,
                                      index,
                                      ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_RAM_address );
            }

            // The CTO algorithm is used and the model index is odd
            if ( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_index & 0x01 )
            {
              if (l1_srback_com.emergency_stop == FALSE)
              {
                // Call the function to apply the CTO algorithm to the loaded model
                srback_CTO_algorithm( ((T_L1_SRBACK_LOAD_MODEL_REQ *)(receive_msg->SigP))->model_RAM_address );
              }
            }
          }

          // Send the stop confirmation message
          confirm_msg = os_alloc_sig(0);
          DEBUGMSG(status,NU_ALLOC_ERR)
          confirm_msg->SignalCode = L1_SRBACK_LOAD_MODEL_CON;
          os_send_sig(confirm_msg, L1C1_QUEUE);
          DEBUGMSG(status,NU_SEND_QUEUE_ERR)
        } // L1_SRBACK_LOAD_MODEL_REQ
        else
        if (receive_msg->SignalCode == L1_SRBACK_TEMP_SAVE_DATA_REQ)
        {
          if (l1_srback_com.emergency_stop == FALSE)
          {
            // Call the function to save the model in a temporary buffer
            srback_save_model_temp( ((T_L1_SRBACK_TEMP_SAVE_DATA_REQ *)(receive_msg->SigP))->model_RAM_address_input,
                                    ((T_L1_SRBACK_TEMP_SAVE_DATA_REQ *)(receive_msg->SigP))->model_RAM_address_output );
          }

          // Send the stop confirmation message
          confirm_msg = os_alloc_sig(0);
          DEBUGMSG(status,NU_ALLOC_ERR)
          confirm_msg->SignalCode = L1_SRBACK_TEMP_SAVE_DATA_CON;
          os_send_sig(confirm_msg, L1C1_QUEUE);
          DEBUGMSG(status,NU_SEND_QUEUE_ERR)
        } // L1_SRBACK_TEMP_SAVE_DATA_REQ
      #endif // SPEECH_RECO
      #if (MELODY_E2 && FIR)
        if ( (receive_msg->SignalCode == L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ) ||
             (receive_msg->SignalCode == L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ) )
        {
          audio_background_melody_e2_download_instrument_manager(receive_msg);
        } // L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ
      #endif // MELODY_E2

      // Deallocate the received message
      os_free_sig(receive_msg);
      DEBUGMSG(status,NU_ALLOC_ERR)
    } // while(1)
  }
#endif // OP_RIV_AUDIO

  #if (SPEECH_RECO)
    /*-------------------------------------------------------*/
    /* srback_CTO_algorithm()                                */
    /*-------------------------------------------------------*/
    /*                                                       */
    /* Parameters : RAM_address                              */
    /*                                                       */
    /* Return     : none                                     */
    /*                                                       */
    /* Description : apply the CTO algorithm to the model.   */
    /*                                                       */
    /*-------------------------------------------------------*/
    void srback_CTO_algorithm (API *RAM_address)
    {
      UWORD16 model_size, frame;
      UWORD8  frame_size;

      // This alogrithm changes the model:
      // |frame 0|frame 1|frame 2|frame 3|frame 4|frame 5|frame 6|frame 7|...
      // into a garbage model:
      // |0000000|frame 1|0000000|0000000|frame 4|0000000|0000000|frame 7|...

      // look the size of the model in model frame unit (16 words unit)
      model_size = *RAM_address++;

      frame = 0;

      while( (frame <= model_size) &&
             (l1_srback_com.emergency_stop == FALSE) )
      {
        if ((frame % 3) == 1)
        {
          // This frame is kept
          RAM_address += SC_SR_MODEL_FRAME_SIZE;
        }
        else
        {
          // This frame is set to 0
          frame_size = SC_SR_MODEL_FRAME_SIZE;
          while ( (frame_size != 0) &&
                  (l1_srback_com.emergency_stop == FALSE) )
          {
            *RAM_address++ = 0;
            frame_size--;
          }
        }

        frame++;
      }
    }

    /*-------------------------------------------------------*/
    /* srback_CTO_algorithm()                                */
    /*-------------------------------------------------------*/
    /*                                                       */
    /* Parameters : RAM_address_input                        */
    /*              RAM_address_output                       */
    /*                                                       */
    /* Return     : none                                     */
    /*                                                       */
    /* Description : apply the CTO algorithm to the model.   */
    /*                                                       */
    /*-------------------------------------------------------*/
    void srback_save_model_temp (API *RAM_address_input, UWORD16 *RAM_address_output)
    {
      UWORD16 model_size;
      UWORD8  frame_size;

      // look the size of the model in model frame unit (16 words unit)
      model_size = *RAM_address_input;

      // save the header of the model
      *RAM_address_output++ = *RAM_address_input++;

      while( (model_size != 0) &&
             (l1_srback_com.emergency_stop == FALSE) )
      {
        frame_size = SC_SR_MODEL_FRAME_SIZE;
        while ( (frame_size != 0) &&
                (l1_srback_com.emergency_stop == FALSE) )
        {
          *RAM_address_output++ = *RAM_address_input++;
          frame_size--;
        }
        model_size--;
      }
    }
  #endif // SPEECH_RECO

#if (OP_RIV_AUDIO == 0)
  #if (MELODY_E2 && FIR)
    /*--------------------------------------------------------*/
    /*audio_background_melody_e2_download_instrument_manager()*/
    /*--------------------------------------------------------*/
    /*                                                        */
    /* Description:                                           */
    /* ------------                                           */
    /* This function is used to load/unload the instrument of */
    /* the melodies E2.                                       */
    /*                                                        */
    /* Starting messages:                                     */
    /*                L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ   */
    /*                L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ */
    /*                                                        */
    /* Result messages (input):  none                         */
    /*                                                        */
    /* Result messages (output):                              */
    /*                L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON   */
    /*                L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON */
    /*                                                        */
    /* Reset messages (input):   none                         */
    /*                                                        */
    /* Stop message (input):     none.                        */
    /*                                                        */
    /* Stop message (output):                                 */
    /*                L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON   */
    /*                L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON */
    /*                                                        */
    /* Rem: to stop immediatly the instrument download flags  */
    /* ---- is created:                                       */
    /* l1a_l1s_com.melody0_e2_task.parameters.emergency_stop  */
    /* l1a_l1s_com.melody1_e2_task.parameters.emergency_stop  */
    /*                                                        */
    /*--------------------------------------------------------*/
    void audio_background_melody_e2_download_instrument_manager(xSignalHeaderRec *msg)
    {
      xSignalHeaderRec  *confirm_msg;
      UWORD8            instrument_number, max_number_of_instrument, instrument_id, id;
      UWORD16           size;
      UWORD32           address;

      if (msg->SignalCode == L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ)
      {
        // Load the instrument

        // Init the first address
        address = ( ((UWORD32)(l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_wave))
          - SC_AUDIO_MCU_API_BEGIN_ADDRESS );
        l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_ptr[0] =
            (API)( (address>>1) + SC_AUDIO_DSP_API_BEGIN_ADDRESS );

        // Download the instrument
        max_number_of_instrument = ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(msg->SigP))->number_of_instrument;
        for(instrument_number=0; instrument_number < max_number_of_instrument ; instrument_number++)
        {
          // No instrument was previously download
          if (audioback_melody_e2.number_of_user[instrument_number] == 0)
          {
            // load the insturment ID
            instrument_id =
              ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(msg->SigP))->waves_table_id[instrument_number];

            // Find if this instrument was already downloaded
            id = 0;
            while ( (id < SC_AUDIO_MELODY_E2_MAX_NUMBER_OF_INSTRUMENT) &&
                    ((instrument_id != audioback_melody_e2.instrument_id[id]) ||
                     (audioback_melody_e2.number_of_user[id] == 0)) )
            {
              id++;
            }

            if (id < SC_AUDIO_MELODY_E2_MAX_NUMBER_OF_INSTRUMENT)
            {
              // This insturment was already downloaded
              // copy the address of this instrument
              l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_ptr[instrument_number] =
                l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_ptr[id];

              // The size of this instrument is 0
              audioback_melody_e2.instrument_size[instrument_number] = 0;
            }
            else
            {
                // Load the customer instrument
              size = Cust_audio_melody_E2_load_instrument (
                      ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(msg->SigP))->waves_table_id[instrument_number],
                      audioback_melody_e2.API_address,
                      audioback_melody_e2.allowed_size);

              // Added to stop the L1 in case of download error
              if (size == 0)
              {
                // Send a message to stop the L1
                /* send the stop command to the audio L1 */
                /* allocate the buffer for the message to the L1 */
                confirm_msg = os_alloc_sig(0);
                DEBUGMSG(status,NU_ALLOC_ERR)

                if (confirm_msg != NULL)
                {
                  /* send the stop command to the audio L1 */
                  if ( ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(confirm_msg->SigP))->melody_id == 0)
                  {
                    confirm_msg->SignalCode = MMI_MELODY0_E2_STOP_REQ;
                  }
                  else
                  {
                    confirm_msg->SignalCode = MMI_MELODY1_E2_STOP_REQ;
                  }
                  os_send_sig(confirm_msg, L1C1_QUEUE);
                  DEBUGMSG(status,NU_SEND_QUEUE_ERR)
                }
              }

              // Save the size of this instrument
              audioback_melody_e2.instrument_size[instrument_number] = size;
            }

            // Update the Cust_audio_melody_E2_load_instrument argument
            audioback_melody_e2.API_address   += audioback_melody_e2.instrument_size[instrument_number];
            audioback_melody_e2.allowed_size  -= audioback_melody_e2.instrument_size[instrument_number];

            // Put the DSP address to the NDB API for the next instrument
            if (instrument_number < SC_AUDIO_MELODY_E2_MAX_NUMBER_OF_INSTRUMENT-1)
            {
              address = ( ((UWORD32)(audioback_melody_e2.API_address))
                - SC_AUDIO_MCU_API_BEGIN_ADDRESS );

              l1s_dsp_com.dsp_ndb_ptr->a_melody_e2_instrument_ptr[instrument_number + 1] =
                  (API)( (address>>1) + SC_AUDIO_DSP_API_BEGIN_ADDRESS );
            }

            // Save the instrument ID
            audioback_melody_e2.instrument_id[instrument_number] = instrument_id;
          }

          // Increase the number of user of this instrument number
          audioback_melody_e2.number_of_user[instrument_number]++;
        }

        // Send the load confirmation message
        confirm_msg = os_alloc_sig(sizeof(T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON));
        DEBUGMSG(status,NU_ALLOC_ERR)

        // Fill the parameter
        ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON *)(confirm_msg->SigP))->melody_id =
          ((T_L1_BACK_MELODY_E2_LOAD_INSTRUMENT_REQ *)(msg->SigP))->melody_id;

        confirm_msg->SignalCode = L1_BACK_MELODY_E2_LOAD_INSTRUMENT_CON;

        os_send_sig(confirm_msg, L1C1_QUEUE);
        DEBUGMSG(status,NU_SEND_QUEUE_ERR)
      }
      else
      if (msg->SignalCode == L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ)
      {
        // Unload the instrument
        max_number_of_instrument = ((T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ *)(msg->SigP))->number_of_instrument;
        for(instrument_number = max_number_of_instrument; instrument_number > 0 ; instrument_number--)
        {
          // Decrease the number of user of this instrument number
          audioback_melody_e2.number_of_user[instrument_number-1]--;

          // Check if the instrument must be removed
          if (audioback_melody_e2.number_of_user[instrument_number-1] == 0)
          {
            // Increase the size and decrease the pointer to the API with the size
            // of the removed instrument
            // Update the Cust_audio_melody_E2_load_instrument argument
            audioback_melody_e2.API_address   -= audioback_melody_e2.instrument_size[instrument_number-1];
            audioback_melody_e2.allowed_size  += audioback_melody_e2.instrument_size[instrument_number-1];
          }
        }

        // Send the unload confirmation message
        confirm_msg = os_alloc_sig(sizeof(T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON));
        DEBUGMSG(status,NU_ALLOC_ERR)

        // Fill the paramter
        ((T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON *)(confirm_msg->SigP))->melody_id =
          ((T_L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_REQ *)(msg->SigP))->melody_id;

        confirm_msg->SignalCode = L1_BACK_MELODY_E2_UNLOAD_INSTRUMENT_CON;

        os_send_sig(confirm_msg, L1C1_QUEUE);
        DEBUGMSG(status,NU_SEND_QUEUE_ERR)
      }
    }
  #endif // MELODY_E2
#endif // OP_RIV_AUDIO
#endif // AUDIO_TASK == 1 && L1_AUDIO_BACKGROUND_TASK