added AudioBiquadFilter:: public: void updateCoefs(int *source, bool noReset); void updateCoefs(int *source); added AudioControlSGTL5000:: private: unsigned int modify(unsigned int reg, unsigned int val, unsigned int iMask); public: unsigned int micGain(unsigned int n) { return modify(0x002A, n&3, 3); } unsigned short lo_lvl_right(uint8_t n); unsigned short lo_lvl_left(uint8_t n); unsigned short lo_lvl(uint8_t n); unsigned short dac_vol_right(float n); unsigned short dac_vol_left(float n); unsigned short dac_vol(float n); unsigned short dap_mix_enable(uint8_t n); unsigned short dap_enable(uint8_t n); unsigned short dap_peqs(uint8_t n); unsigned short dap_audio_eq(uint8_t n); unsigned short dap_audio_eq_band(uint8_t bandNum, float n); void dap_audio_eq_geq(float bass, float mid_bass, float midrange, float mid_treble, float treble); void dap_audio_eq_tone(float bass, float treble); void load_peq(uint8_t filterNum, int *filterParameters); void route(uint8_t via_i2s, uint8_t via_dap);

пре 10 година · f62bd8ef11
--- a/Audio.cpp
+++ b/Audio.cpp
@@ -2204,7 +2204,28 @@ void AudioFilterBiquad::update(void)
 	release(block);
 }

 void AudioFilterBiquad::updateCoefs(int *source, bool noReset)
 {
 	int32_t *dest=(int32_t *)definition;
 	int32_t *src=(int32_t *)source;
 	__disable_irq();
 	for(uint8_t index=0;index<5;index++)
 	{
 		*dest++=*src++;
 	}
 	if(!noReset)
 	{
 		*dest++=0;
 		*dest++=0;
 		*dest++=0;
 	}
 	__enable_irq();
 }

 void AudioFilterBiquad::updateCoefs(int *source)
 {
 	updateCoefs(source,false);
 }

 /******************************************************************/

@@ -3005,13 +3026,14 @@ bool AudioControlSGTL5000::enable(void)
 	write(CHIP_ANA_POWER, 0x4060);  // VDDD is externally driven with 1.8V
 	write(CHIP_LINREG_CTRL, 0x006C);  // VDDA & VDDIO both over 3.1V
 	write(CHIP_REF_CTRL, 0x01F1); // VAG=1.575 slow ramp, normal bias current
 	write(CHIP_LINE_OUT_CTRL, 0x0322);
 	write(CHIP_LINE_OUT_CTRL, 0x0322); // LO_VAGCNTRL=1.65V, OUT_CURRENT=0.36mA
 	write(CHIP_SHORT_CTRL, 0x4446);  // allow up to 125mA
 	write(CHIP_ANA_CTRL, 0x0137);  // enable zero cross detectors
 	write(CHIP_ANA_POWER, 0x40FF); // power up: lineout, hp, adc, dac
 	write(CHIP_DIG_POWER, 0x0073); // power up all digital stuff
 	delay(400);
 	write(CHIP_LINE_OUT_VOL, 0x0505); // TODO: correct value for 3.3V
 	// 40*log((1.575)/(1.65)) + 15 = 13.1391993746043 
 	write(CHIP_LINE_OUT_VOL, 0x0D0D); // [S]TODO: correct value for 3.3V[/S] 
 	write(CHIP_CLK_CTRL, 0x0004);  // 44.1 kHz, 256*Fs
 	write(CHIP_I2S_CTRL, 0x0130); // SCLK=32*Fs, 16bit, I2S format
 	// default signal routing is ok?
@@ -3050,6 +3072,13 @@ bool AudioControlSGTL5000::write(unsigned int reg, unsigned int val)
 	return false;
 }

 unsigned int AudioControlSGTL5000::modify(unsigned int reg, unsigned int val, unsigned int iMask)
 {
 	unsigned int val1 = (read(reg)&(~iMask))|val;
 	if(!write(reg,val1)) return 0;
 	return val1;
 }

 bool AudioControlSGTL5000::volumeInteger(unsigned int n)
 {
 	if (n == 0) {
@@ -3069,6 +3098,134 @@ bool AudioControlSGTL5000::volumeInteger(unsigned int n)
 	return write(CHIP_ANA_HP_CTRL, n);  // set volume
 }

 // CHIP_LINE_OUT_VOL
 unsigned short AudioControlSGTL5000::lo_lvl_right(uint8_t n)
 {
 	n&=31;
 	return modify(CHIP_LINE_OUT_VOL,n<<8,31<<8);
 }
 unsigned short AudioControlSGTL5000::lo_lvl_left(uint8_t n)
 {
 	n&=31;
 	return modify(CHIP_LINE_OUT_VOL,n,31);
 }
 unsigned short AudioControlSGTL5000::lo_lvl(uint8_t n)
 {
 	n&=31;
 	return modify(CHIP_LINE_OUT_VOL,(n<<8)|n,(31<<8)|31);
 }

 // CHIP_DAC_VOL
 unsigned short AudioControlSGTL5000::dac_vol_right(float n) //  by percentage 0-100
 {
 	unsigned char m=calcVol(n,0xC0);
 	return modify(CHIP_DAC_VOL,(0xFC-m)<<8,255<<8);
 }
 unsigned short AudioControlSGTL5000::dac_vol_left(float n)
 {
 	unsigned char m=calcVol(n,0xC0);
 	return modify(CHIP_DAC_VOL,(0xFC-m),255);
 }
 unsigned short AudioControlSGTL5000::dac_vol(float n) // set both directly
 {
 	unsigned char m=calcVol(n,0xC0);
 	return modify(CHIP_DAC_VOL,((0xFC-m)<<8)|(0xFC-m),65535);
 }

 // DAP_CONTROL
 unsigned short AudioControlSGTL5000::dap_mix_enable(uint8_t n)
 {
 	return modify(DAP_CONTROL,(n&1)<<4,1<<4);
 }
 unsigned short AudioControlSGTL5000::dap_enable(uint8_t n)
 {
 	return modify(DAP_CONTROL,(n&1),1);
 }

 // DAP_PEQ
 unsigned short AudioControlSGTL5000::dap_peqs(uint8_t n) // valid to n&7, 0 thru 7 filters enabled.
 {
 	return modify(DAP_PEQ,(n&7),7);
 }

 // DAP_AUDIO_EQ
 unsigned short AudioControlSGTL5000::dap_audio_eq(uint8_t n) // 0=NONE, 1=PEQ (7 IIR Biquad filters), 2=TONE (tone), 3=GEQ (5 band EQ)
 {
 	return modify(DAP_AUDIO_EQ,n&3,3);
 }

 // DAP_AUDIO_EQ_BASS_BAND0 & DAP_AUDIO_EQ_BAND1 & DAP_AUDIO_EQ_BAND2 etc etc
 unsigned short AudioControlSGTL5000::dap_audio_eq_band(uint8_t bandNum, float n) // by signed percentage -100/+100; dap_audio_eq(3);
 { // 0x00==-12dB, 0x2F==0dB, 0x5F==12dB
 	n=((n/100)*48)+0.499;
 	if(n<-48) n=-48;
 	if(n>48) n=48;
 	unsigned char m=0x2F+(unsigned char)n;
 	return modify(DAP_AUDIO_EQ_BASS_BAND0+bandNum,m&127,127);
 }
 void AudioControlSGTL5000::dap_audio_eq_geq(float bass, float mid_bass, float midrange, float mid_treble, float treble)
 {
 	dap_audio_eq_band(0,bass);
 	dap_audio_eq_band(1,mid_bass);
 	dap_audio_eq_band(2,midrange);
 	dap_audio_eq_band(3,mid_treble);
 	dap_audio_eq_band(4,treble);
 }
 void AudioControlSGTL5000::dap_audio_eq_tone(float bass, float treble) // dap_audio_eq(2);
 {
 	dap_audio_eq_band(0,bass);
 	dap_audio_eq_band(4,treble);
 }

 // SGTL5000 PEQ Coefficient loader
 void AudioControlSGTL5000::load_peq(uint8_t filterNum, int *filterParameters)
 {
 	// 1111 11111111 11111111

 	write(DAP_COEF_WR_B0_MSB,(*filterParameters>>4)&65535);
 	write(DAP_COEF_WR_B0_LSB,(*filterParameters++)&15);
 	write(DAP_COEF_WR_B1_MSB,(*filterParameters>>4)&65535);
 	write(DAP_COEF_WR_B1_LSB,(*filterParameters++)&15);
 	write(DAP_COEF_WR_B2_MSB,(*filterParameters>>4)&65535);
 	write(DAP_COEF_WR_B2_LSB,(*filterParameters++)&15);
 	write(DAP_COEF_WR_A1_MSB,(*filterParameters>>4)&65535);
 	write(DAP_COEF_WR_A1_LSB,(*filterParameters++)&15);
 	write(DAP_COEF_WR_A2_MSB,(*filterParameters>>4)&65535);
 	write(DAP_COEF_WR_A2_LSB,(*filterParameters++)&15);
 }

 // a route selection routine to simplify a little
 void AudioControlSGTL5000::route(uint8_t via_i2s, uint8_t via_dap)
 {
 	if(via_i2s)
 	{
 		modify(CHIP_SSS_CTRL,0,3); // I2S_OUT select ADC
 		if(via_dap)
 		{
 			modify(CHIP_SSS_CTRL,1<<6,3<<6); // DAP select I2S_IN
 			modify(CHIP_SSS_CTRL,3<<4,3<<4); // DAC select DAP
 			modify(DAP_CONTROL,1,1); // enable DAP
 		} else {
 			modify(CHIP_SSS_CTRL,1<<4,3<<4); // DAC select I2S_IN
 			modify(DAP_CONTROL,0,1); // disable DAP
 		}
 	} else {
 		if(via_dap)
 		{
 			modify(CHIP_SSS_CTRL,0,3<<6); // DAP select ADC
 			modify(CHIP_SSS_CTRL,3<<4,3<<4); // DAC select DAP
 			modify(DAP_CONTROL,1,1); // enable DAP
 		} else {
 			modify(CHIP_SSS_CTRL,0,3<<4); // DAC select ADC
 			modify(DAP_CONTROL,0,1); // disable DAP
 		}
 	}
 }

 unsigned char AudioControlSGTL5000::calcVol(float n, unsigned char range)
 {
 	n=(n*(((float)range)/100))+0.499;
 	if ((unsigned char)n>range) n=range;
 	return (unsigned char)n;
 }

--- a/Audio.h
+++ b/Audio.h
@@ -377,6 +377,9 @@ public:
 	AudioFilterBiquad(int *parameters)
 	   : AudioStream(1, inputQueueArray), definition(parameters) { }
 	virtual void update(void);
 	
 	void updateCoefs(int *source, bool noReset);
 	void updateCoefs(int *source);
 private:
 	int *definition;
 	audio_block_t *inputQueueArray[1];
@@ -527,29 +530,34 @@ public:
 	}
 	//bool inputLinein(void) { return write(0x0024, ana_ctrl | (1<<2)); }
 	//bool inputMic(void) { return write(0x002A, 0x0172) && write(0x0024, ana_ctrl & ~(1<<2)); }

 	unsigned int micGain(unsigned int n) { return modify(0x002A, n&3, 3); }
 	unsigned short lo_lvl_right(uint8_t n);
 	unsigned short lo_lvl_left(uint8_t n);
 	unsigned short lo_lvl(uint8_t n);
 	unsigned short dac_vol_right(float n);
 	unsigned short dac_vol_left(float n);
 	unsigned short dac_vol(float n);
 	unsigned short dap_mix_enable(uint8_t n);
 	unsigned short dap_enable(uint8_t n);
 	unsigned short dap_peqs(uint8_t n);
 	unsigned short dap_audio_eq(uint8_t n);
 	unsigned short dap_audio_eq_band(uint8_t bandNum, float n);
 	void dap_audio_eq_geq(float bass, float mid_bass, float midrange, float mid_treble, float treble);
 	void dap_audio_eq_tone(float bass, float treble);
 	void load_peq(uint8_t filterNum, int *filterParameters);
 	void route(uint8_t via_i2s, uint8_t via_dap);
 	
 	
 protected:
 	bool muted;
 	bool volumeInteger(unsigned int n); // range: 0x00 to 0x80
 	uint16_t ana_ctrl;


 	unsigned char calcVol(float n, unsigned char range);

 	unsigned int read(unsigned int reg);
 	bool write(unsigned int reg, unsigned int val);
 	unsigned int modify(unsigned int reg, unsigned int val, unsigned int iMask);
 };