GY-63_MS5611/libraries/M62429/M62429.cpp
2021-01-29 12:31:58 +01:00

126 lines
2.8 KiB
C++

//
// FILE: M62429.cpp
// AUTHOR: Rob Tillaart
// PURPOSE: Arduino library for M62429 volume control IC
// VERSION: 0.2.1
// HISTORY: See M62429.cpp2
// URL: https://github.com/RobTillaart/M62429
// HISTORY:
// 0.1.0 2019-01-17 initial version
// 0.2.0 2020-08-02 refactor
// 0.2.1 2020-12-30 add arduino-ci + unit test
#include "M62429.h"
void M62429::begin(uint8_t dataPin, uint8_t clockPin)
{
_data = dataPin;
_clock = clockPin;
pinMode(_data, OUTPUT);
pinMode(_clock, OUTPUT);
digitalWrite(_data, LOW);
digitalWrite(_clock, LOW);
_muted = false;
setVolume(2, 0);
}
int M62429::getVolume(uint8_t channel)
{
if (channel > 2) return M62429_CHANNEL_ERROR;
return _vol[channel & 1];
}
int M62429::setVolume(uint8_t channel, uint8_t volume)
{
if (channel > 2) return M62429_CHANNEL_ERROR;
if (_muted) return M62429_MUTED;
uint8_t attn = volume/3 + 2;
if (attn <= 2) attn = 0;
_setVolume(channel, attn);
// update cached values
if (channel == 0) _vol[0] = volume;
if (channel == 1) _vol[1] = volume;
if (channel == 2) _vol[0] = _vol[1] = volume;
return 0;
}
void M62429::incr()
{
if (_vol[0] < 255) _vol[0]++;
setVolume(0, _vol[0]);
if (_vol[1] < 255) _vol[1]++;
setVolume(1, _vol[1]);
}
void M62429::decr()
{
if (_vol[0] > 0) _vol[0]--;
setVolume(0, _vol[0]);
if (_vol[1] > 0) _vol[1]--;
setVolume(1, _vol[1]);
}
void M62429::average()
{
uint8_t v = (((int)_vol[0]) + _vol[1]) / 2;
setVolume(0, v);
setVolume(1, v);
}
void M62429::muteOn()
{
_muted = true;
setVolume(2, 0);
}
void M62429::muteOff()
{
_muted = false;
setVolume(0, _vol[0]);
setVolume(1, _vol[1]);
}
////////////////////////////////////////////////////////////////////
//
// PRIVATE
//
// attn = 0, 3..87
void M62429::_setVolume(uint8_t channel, uint8_t attn)
{
uint16_t databits = 0xFE00; // latch bits
databits |= (attn & 0x007C);
databits |= ((attn & 0x03) << 7);
// channel == 2 -> both 0x00 is default
if (channel == 0) databits |= 0x03; // 11
if (channel == 1) databits |= 0x02; // 01
for (uint16_t mask = 1; mask < 0x0200; mask <<= 1)
{
digitalWrite(_data, databits & mask);
digitalWrite(_clock, HIGH);
// Note that if clock pulses are long enough the data pulses are automatically too.
if (M62429_CLOCK_DELAY > 0) delayMicroseconds(M62429_CLOCK_DELAY);
digitalWrite(_data, LOW);
digitalWrite(_clock, LOW);
if (M62429_CLOCK_DELAY > 0) delayMicroseconds(M62429_CLOCK_DELAY);
}
// Last latch bit must be high
digitalWrite(_data, HIGH);
digitalWrite(_clock, HIGH);
if (M62429_CLOCK_DELAY > 0) delayMicroseconds(M62429_CLOCK_DELAY);
// _data is already high
digitalWrite(_clock, LOW);
if (M62429_CLOCK_DELAY > 0) delayMicroseconds(M62429_CLOCK_DELAY);
}
// -- END OF FILE --