📄 sacm_user.lst
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< .DEFINE C_PLL_Freq_49M 0x0080 //
<
<
< // Define for P_ADC_Ctrl
< //----------------------------------------------
< .if BODY_TYPE == SPCE061A
< .DEFINE C_AD_Enable 0x0001; //b0=1: enable A/D converter
< .DEFINE C_AD_Disable 0x0000; //b0=0: disable A/D converter
< .DEFINE C_AD_Line_In 0x0002; //b1=1: microphone disable
< .DEFINE C_AD_MIC_In 0x0000; //b1=0: microphone enable
< .DEFINE C_AGC_Enable 0x0004; //b2=1: enable AGC function
< .DEFINE C_AGC_Disable 0x0000; //b2=0: disable AGC function
< .DEFINE C_AD_Sample 0x0004; //b3=1: sample the analog signal(manual mode)
< .DEFINE C_AD_Hold 0x0000; //b3=0: hold(manual mode)
< .DEFINE C_Auto_Mode 0x0010; //b4=1: A/D auto mode
< .DEFINE C_Manual_Mode 0x0000; //b4=0: A/D manual mode
< //b5: ADINI?
< .DEFINE C_DAC_Current_2mA 0x0040; //b6=1: DAC current = 2mA @ vdd=3V(new option)
< .DEFINE C_DAC_Current_3mA 0x0000; //b6=0: DAC current = 3mA @ vdd=3V(Default)
< .DEFINE C_AD_Vref_VDD 0x0080; //b7=1: Vref is VDD
< .DEFINE C_AD_Vref_VRTPAD 0x0000; //b7=0: Vref is from pin "VRTPAD"
< .DEFINE C_AD_COMP 0x4000; //b14=1: output voltage of DAC0<Analog input signal
< //b14=0: output voltage of DAC0>Analog input signal
< .DEFINE C_AD_RDY 0x8000; //b15=1: A/D digital data ready; 0: not ready
< .endif
<
< .if BODY_TYPE == SPCE500A
< .DEFINE C_AD 0x0001 //
< .DEFINE C_DA 0x0000 //
< .DEFINE C_MIC 0x0000 //
< .DEFINE C_LINE 0x0002 //
< .endif
< //----------------------------------------------
<
<
< // Define for P_DAC_Ctrl
< //----------------------------------------------
< .if BODY_TYPE == SPCE061A
< .DEFINE C_DAC1_Direct 0x0000; // b8 b7: DAC1 latch
< .DEFINE C_DAC1_LatchA 0x0080; // Latch data to DAC1 by TimerA
< .DEFINE C_DAC1_LatchB 0x0100; // Latch data to DAC1 by TimerB
< .DEFINE C_DAC1_LatchAB 0x0180; // Latch data to DAC1 by TimerA or TimerB
<
< .DEFINE C_DAC2_Direct 0x0000; // b6 b5: DAC2 latch
< .DEFINE C_DAC2_LatchA 0x0020; // Latch data to DAC2 by TimerA
< .DEFINE C_DAC2_LatchB 0x0040; // Latch data to DAC2 by TimerB
< .DEFINE C_DAC2_LatchAB 0x0060; // Latch data to DAC2 by TimerA or TimerB
<
< .DEFINE C_ADC_Direct 0x0000; // b4 b3: ADC latch
< .DEFINE C_ADC_LatchA 0x0008; // Latch data to ADC by TimerA
< .DEFINE C_ADC_LatchB 0x0010; // Latch data to ADC by TimerB
< .DEFINE C_ADC_LatchAB 0x0018; // Latch data to ADC by TimerA or TimerB
< .endif
<
< .if BODY_TYPE == SPCE500A
< .DEFINE C_PushPull 0x0000 // b0, (default)
< .DEFINE C_DoubleEnd 0x0001 // b0
< .DEFINE C_DAC_Mode 0x0000 // b1, (default)
< .DEFINE C_PWM_Mode 0x0002 // b1
<
< .DEFINE C_D1_Direct 0x0000 // DAC1 latch
< .DEFINE C_D1_LatchA 0x0008 //
< .DEFINE C_D1_LatchB 0x0010 //
< .DEFINE C_D1_LatchAB 0x0018 //
<
< .DEFINE C_D2_Direct 0x0000 // DAC2 latch
< .DEFINE C_D2_LatchA 0x0020 //
< .DEFINE C_D2_LatchB 0x0040 //
< .DEFINE C_D2_LatchAB 0x00C0 //
< .endif
< //----------------------------------------------
<
< // Define for P_LVD_Ctrl
< //----------------------------------------------
< .if BODY_TYPE == SPCE061A
< .DEFINE C_LVD24V 0x0000; // LVD = 2.4V; b1b0
< .DEFINE C_LVD28V 0x0001; // LVD = 2.8V
< .DEFINE C_LVD32V 0x0002; // LVD = 3.2V
< .endif
<
< .if BODY_TYPE == SPCE500A
< .DEFINE C_LVD26V 0x0000 // LVD = 2.6V
< .DEFINE C_LVD30V 0x0001 // LVD = 3.0V
< .DEFINE C_LVD36V 0x0002 // LVD = 3.6V
< .DEFINE C_LVD40V 0x0003 // LVD = 4.0V
< .endif
<
< .DEFINE C_LVD_Result 0x8000; // b15 = 1: below the selected LVD level
< //----------------------------------------------
<
<
< // SPCE061 flash operation instruction definition
< //----------------------------------------------
< .if BODY_TYPE == SPCE061A
< .DEFINE C_EnableFlashAccess 0xAAAA;
< .DEFINE C_EraseFlashPage 0x5511;
< .DEFINE C_ProgramFlash 0x5533;
< .endif
< //----------------------------------------------
<
<
<
< //===============================================================
< // Sunplus APIs for SPCE 061A
< //===============================================================
< //////////////////////////////////////////////////
< // Note: This register will map to the P_INT_Ctrl
< // (0x7010), The SACMvxx.lib use this register to
< // combine with user's interrupt setting.
< // In SPCE061, it is not necessary since the
< // P_INT_Mask(0x702D) already does this. It is for
< // compatibility to keep it here.
< //////////////////////////////////////////////////
< //.EXTERNAL R_InterruptStatus
<
< //========================================================================================
< // End of SPCE.inc
< //========================================================================================
<
<
<
.external T_SACM_MS01_DrumTable
000000B7 .IRAM
000000B7 00 00 00 00 .var R_AdpcmBankCh0, R_AdpcmAddrCh0 // Used to keep ch0 ADPCM Address
000000B9 00 00 00 00 .var R_AdpcmBankCh1, R_AdpcmAddrCh1 // Used to keep ch1 ADPCM Address
000094E2 .CODE
.public F_USER_InitAdpcmData_Ch0
.public _USER_InitAdpcmData_Ch0
.public F_USER_InitAdpcmData_Ch1
.public _USER_InitAdpcmData_Ch1
// Library call-back functions
.public F_USER_MS01_GetAdpcmData_Ch0
.public F_USER_MS01_GetAdpcmData_Ch1
000094E2 .CODE
////////////////////////////////////////////////////////////////////////////////
// Function: F_SACM_MS01_SongEvent :Call back function for Song Notes events
// Input: R1 = return value
// [b15, b14] = [0, 0] : Note Event
// [b15, b14] = [0, 1] : Instrument Event
// [b15, b14] = [1, 0] : Command line event
// [b15, b14] = [1, 1] : Reserved
//
// if bit[15,14] ={0,0}, Note Event:
// bit[3:0] Note 1-12(1=C,2=C#,3=D,4=D#,5=E,6=F,7=F#,8=G,9=G#,10=A,11=A#,12=B
// bit[6:4] Channel 0-5
// bit[9:7] Octave 0-5
//
// if bit[15,14]={0,1}: Instrument Event:
// bit[14} = 1: Instrument change event
// bit[7:0] Instrument/speech index 0-255
// bit[10:8] Channel 0-5
//
// if bit[15,14] = [1,0] : * Event:(user-defined in pop file)
// bit[3..0] 0-15 Event from Command line in *.pop
//
// if bit[15,14] =[1,1], Reserved
//
// Output: user defined
//
/////////////////////////////////////////////////////////////////////////////////
.public F_SACM_MS01_SongEvent
F_SACM_MS01_SongEvent:
000094E2 A0 DA push r2,r5 to [sp]
//-----------------------
// Event processed by user
//-----------------------
000094E3 19 D3 05 70 [P_IOB_Data]=R1; // Show R1 on LED attached to IOB
000094E5 A0 92 pop r2,r5 from [sp]
//-----------------------
// End of Event processing
//-----------------------
000094E6 90 9A retf
///////////////////////////////////////////////////////////////////////////////
// Function: _USER_InitAdpcmData_Ch0
// Syntax : USER_InitAdpcmData_Ch0(DrumIndex)
// Input : DrumIndex (User defined)
// Output: (User defined)
// Note: 1. This C API calls F_USER_InitAdpcmData_Ch1 to initialize ADPCM playback
// from user storage.
// 2. User needs to implement the function body based on the external
// storage type.
///////////////////////////////////////////////////////////////////////////////
_USER_InitAdpcmData_Ch0: .proc
//-----------------------
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