GY-63_MS5611/libraries/PT2314/PT2314.cpp
2023-09-24 17:31:03 +02:00

335 lines
4.8 KiB
C++

//
// FILE: PT2314.cpp
// AUTHOR: Rob Tillaart
// DATE: 2023-07-30
// VERSION: 0.1.2
// PURPOSE: Arduino library for PT2314 i2C 4 channel audio processor.
// URL: https://github.com/RobTillaart/PT2314
#include "PT2314.h"
PT2314::PT2314(TwoWire *wire)
{
_wire = wire;
}
#if defined (ESP8266) || defined(ESP32)
bool PT2314::begin(int dataPin, int clockPin)
{
if ((dataPin < 255) && (clockPin < 255))
{
_wire->begin(dataPin, clockPin);
} else {
_wire->begin();
}
if (! isConnected()) return false;
setChannel();
setMute();
setLoudness();
setVolume();
setBass();
setTreble();
setGain();
// setAttn(31,31); // already muted
return true;
}
#endif
bool PT2314::begin()
{
_wire->begin();
if (! isConnected()) return false;
setChannel();
setMute();
setLoudness();
setVolume();
setBass();
setTreble();
setGain();
// setAttn(31,31); // already muted
return true;
}
bool PT2314::isConnected()
{
_wire->beginTransmission(_address);
return ( _wire->endTransmission() == 0);
}
void PT2314::setChannel(uint8_t channel)
{
if (channel > 3) channel = 3;
_channel = channel;
updateAudioRegister();
}
uint8_t PT2314::getChannel()
{
return _channel;
}
///////////////////////////////////////////////////
//
// AUDIO
//
void PT2314::setMute(bool on)
{
_mute = on;
if (_mute)
{
write(0xDF); // left
write(0xFF); // right
}
else
{
write(0xC0 | _attnLeft);
write(0xE0 | _attnRight);
}
}
bool PT2314::getMute()
{
return _mute;
}
void PT2314::setLoudness(bool on)
{
_loudness = on;
updateAudioRegister();
}
bool PT2314::getLoudness()
{
return _loudness;
}
void PT2314::setVolume(uint8_t volume)
{
if (volume > 63) volume = 63;
_volume = volume;
write(_volume);
}
uint8_t PT2314::getVolume()
{
return _volume;
}
void PT2314::setBass(int8_t bass)
{
if (bass < -14) bass = -14;
if (bass > 14) bass = 14;
_bass = bass;
uint8_t value;
if (_bass <= 0) value = 7 + (_bass / 2);
else value = 15 - (_bass / 2);
write(0x60 | value);
}
int8_t PT2314::getBass()
{
return _bass;
}
void PT2314::setTreble(int8_t treble)
{
if (treble < -14) treble = -14;
if (treble > 14) treble = 14;
_treble = treble;
uint8_t value;
if (_treble <= 0) value = 7 + (_treble / 2);
else value = 15 - (_treble / 2);
write(0x70 | value);
}
int8_t PT2314::getTreble()
{
return _treble;
}
void PT2314::setGain(uint8_t gain)
{
if (gain > 3) gain = 3;
_gain = gain << 3;
updateAudioRegister();
}
uint8_t PT2314::getGain()
{
return _gain >> 3;
}
void PT2314::setAttnLeft(uint8_t attnLeft)
{
if (attnLeft > 31) attnLeft = 31;
_attnLeft = attnLeft;
write(0xC0 | _attnLeft);
}
uint8_t PT2314::getAttnLeft()
{
return _attnLeft;
}
void PT2314::setAttnRight(uint8_t attnRight)
{
if (attnRight > 31) attnRight = 31;
_attnRight = attnRight;
write(0xE0 | _attnRight);
}
uint8_t PT2314::getAttnRight()
{
return _attnRight;
}
void PT2314::setAttn(uint8_t attnLeft, uint8_t attnRight)
{
setAttnLeft(attnLeft);
setAttnRight(attnRight);
}
///////////////////////////////////////////////////
//
// PROTECTED
//
void PT2314::write(const uint8_t value)
{
_wire->beginTransmission(_address);
_wire->write(value);
_error = _wire->endTransmission();
}
void PT2314::updateAudioRegister()
{
uint8_t value = 0x40;
value |= _channel;
if (_loudness == false) value |= 0x04;
value |= _gain;
write(value);
}
///////////////////////////////////////////////////
//
// DERIVED CLASS
//
PT7314::PT7314(TwoWire *wire) : PT2314(wire)
{
}
PT7313::PT7313(TwoWire *wire) : PT2314(wire)
{
}
void PT7313::setMute(bool on)
{
_mute = on;
if (_mute)
{
write(0xDF); // left back
write(0xFF); // right back
write(0x9F); // left front
write(0xBF); // right front
}
else
{
write(0xC0 | _attnLeft); // back
write(0xE0 | _attnRight); // back
write(0x80 | _attnLeftFront);
write(0xA0 | _attnRightFront);
}
}
void PT7313::setChannel(uint8_t channel)
{
if (channel > 2) channel = 2;
_channel = channel;
updateAudioRegister();
}
void PT7313::setAttnLeftBack(uint8_t value)
{
setAttnLeft(value);
}
uint8_t PT7313::getAttnLeftBack()
{
return getAttnLeft();
}
void PT7313::setAttnRightBack(uint8_t value)
{
setAttnRight(value);
}
uint8_t PT7313::getAttnRightBack()
{
return getAttnRight();
}
void PT7313::setAttnLeftFront(uint8_t value)
{
if (value > 31) value = 31;
_attnLeftFront = value;
write(0x80 | _attnLeftFront);
}
uint8_t PT7313::getAttnLeftFront()
{
return _attnLeftFront;
}
void PT7313::setAttnRightFront(uint8_t value)
{
if (value > 31) value = 31;
_attnRightFront = value;
write(0xA0 | _attnRightFront);
}
uint8_t PT7313::getAttnRightFront()
{
return _attnRightFront;
}
// -- END OF FILE --