hyperion.ng/libsrc/leddevice/LedDeviceWS281x.cpp
redPanther 4033de85ec Logging leds (#50)
* switch to new logger for folowing led devices:
LedDeviceAtmo
LedDeviceFactory
LedDeviceFadeCandy
LedDeviceHyperionUsbasp
LedDeviceLightpack-hidapi
LedDevicePiBlaster
LedDeviceWS281x
LedRs232Device

leddevice base class defines logger already as protected member _log

* migrate to new logger for led devices.
still todo:
LedDeviceWS2812b
LedDeviceWs2812SPI
LedDeviceTinkerforge
LedDeviceLightpack
LedDeviceMultiLightpack
2016-06-25 22:08:17 +02:00

102 lines
2.6 KiB
C++

#include <iostream>
#include "LedDeviceWS281x.h"
// Constructor
LedDeviceWS281x::LedDeviceWS281x(const int gpio, const int leds, const uint32_t freq, const int dmanum, const int pwmchannel, const int invert, const int rgbw, const std::string& whiteAlgorithm)
{
_whiteAlgorithm = whiteAlgorithm;
Debug( _log, "whiteAlgorithm : %s", whiteAlgorithm.c_str());
initialized = false;
led_string.freq = freq;
led_string.dmanum = dmanum;
if (pwmchannel != 0 && pwmchannel != 1) {
Error( _log, "WS281x: invalid PWM channel; must be 0 or 1.");
throw -1;
}
chan = pwmchannel;
led_string.channel[chan].gpionum = gpio;
led_string.channel[chan].invert = invert;
led_string.channel[chan].count = leds;
led_string.channel[chan].brightness = 255;
if (rgbw == 1) {
led_string.channel[chan].strip_type = SK6812_STRIP_GRBW;
} else {
led_string.channel[chan].strip_type = WS2811_STRIP_RGB;
}
led_string.channel[!chan].gpionum = 0;
led_string.channel[!chan].invert = invert;
led_string.channel[!chan].count = 0;
led_string.channel[!chan].brightness = 0;
led_string.channel[!chan].strip_type = WS2811_STRIP_RGB;
if (ws2811_init(&led_string) < 0) {
Error( _log, "Unable to initialize ws281x library.");
throw -1;
}
initialized = true;
}
// Send new values down the LED chain
int LedDeviceWS281x::write(const std::vector<ColorRgb> &ledValues)
{
if (!initialized)
return -1;
int idx = 0;
for (const ColorRgb& color : ledValues)
{
if (idx >= led_string.channel[chan].count)
break;
_temp_rgbw.red = color.red;
_temp_rgbw.green = color.green;
_temp_rgbw.blue = color.blue;
_temp_rgbw.white = 0;
if (led_string.channel[chan].strip_type == SK6812_STRIP_GRBW) {
Rgb_to_Rgbw(color, &_temp_rgbw, _whiteAlgorithm);
}
led_string.channel[chan].leds[idx++] =
((uint32_t)_temp_rgbw.white << 24) + ((uint32_t)_temp_rgbw.red << 16) + ((uint32_t)_temp_rgbw.green << 8) + _temp_rgbw.blue;
}
while (idx < led_string.channel[chan].count)
led_string.channel[chan].leds[idx++] = 0;
if (ws2811_render(&led_string))
return -1;
return 0;
}
// Turn off the LEDs by sending 000000's
// TODO Allow optional power switch out another gpio, if this code handles it can
// make it more likely we don't accidentally drive data into an off strip
int LedDeviceWS281x::switchOff()
{
if (!initialized)
return -1;
int idx = 0;
while (idx < led_string.channel[chan].count)
led_string.channel[chan].leds[idx++] = 0;
if (ws2811_render(&led_string))
return -1;
return 0;
}
// Destructor
LedDeviceWS281x::~LedDeviceWS281x()
{
if (initialized)
{
ws2811_fini(&led_string);
}
initialized = false;
}