hyperion.ng/libsrc/leddevice/LedDeviceFactory.cpp
redPanther 946f9fc603 compile fix (#114)
* multi fix commit

- refactoring leddevicefactory
- adalight: default for "delayAfterConnect" is 1s now - needed for most arduino's because of there special behaviour on open
- fadecandy: new option for disabling configuration send - if you want to keep your fadecandy defaults
- Hyperion.cpp: simplify createSmoothing discussed in #105
- smoothing:
-- add option for continuous output
-- when updatedelay>0 and continousOutput is disabled, buffer is flushed correctly after no input is detected

* add doxygen to travis

* fix code

* fix compile fir ws281x pwm

* remove git merge stuff

* fix compile
2016-07-13 16:19:19 +02:00

325 lines
8.8 KiB
C++
Executable File

// Stl includes
#include <string>
#include <sstream>
#include <algorithm>
// Build configuration
#include <HyperionConfig.h>
// Leddevice includes
#include <leddevice/LedDeviceFactory.h>
#include <utils/Logger.h>
// Local Leddevice includes
#ifdef ENABLE_SPIDEV
#include "LedDeviceLpd6803.h"
#include "LedDeviceLpd8806.h"
#include "LedDeviceP9813.h"
#include "LedDeviceWs2801.h"
#include "LedDeviceWs2812SPI.h"
#include "LedDeviceSk6812SPI.h"
#include "LedDeviceAPA102.h"
#endif
#ifdef ENABLE_TINKERFORGE
#include "LedDeviceTinkerforge.h"
#endif
#include "LedDeviceAdalight.h"
#include "LedDeviceRawHID.h"
#include "LedDeviceLightpack.h"
#include "LedDeviceMultiLightpack.h"
#include "LedDevicePaintpack.h"
#include "LedDevicePiBlaster.h"
#include "LedDeviceSedu.h"
#include "LedDeviceFile.h"
#include "LedDeviceFadeCandy.h"
#include "LedDeviceUdp.h"
#include "LedDeviceUdpRaw.h"
#include "LedDeviceHyperionUsbasp.h"
#include "LedDevicePhilipsHue.h"
#include "LedDeviceTpm2.h"
#include "LedDeviceAtmo.h"
#include "LedDeviceAdalightApa102.h"
#include "LedDeviceAtmoOrb.h"
#ifdef ENABLE_WS2812BPWM
#include "LedDeviceWS2812b.h"
#endif
#ifdef ENABLE_WS281XPWM
#include "LedDeviceWS281x.h"
#endif
LedDevice * LedDeviceFactory::construct(const Json::Value & deviceConfig)
{
Logger * log = Logger::getInstance("LedDevice");
std::stringstream ss;
ss << deviceConfig;
Info(log, "configuration: %s ", ss.str().c_str());
std::string type = deviceConfig.get("type", "UNSPECIFIED").asString();
std::transform(type.begin(), type.end(), type.begin(), ::tolower);
LedDevice* device = nullptr;
if (false) {}
else if (type == "adalight")
{
device = new LedDeviceAdalight(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt(),
deviceConfig.get("delayAfterConnect",1000).asInt()
);
}
else if (type == "adalightapa102")
{
device = new LedDeviceAdalightApa102(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt(),
deviceConfig.get("delayAfterConnect",1000).asInt()
);
}
#ifdef ENABLE_SPIDEV
else if (type == "lpd6803" || type == "ldp6803")
{
device = new LedDeviceLpd6803(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt()
);
}
else if (type == "lpd8806" || type == "ldp8806")
{
device = new LedDeviceLpd8806(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt()
);
}
else if (type == "p9813")
{
device = new LedDeviceP9813(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt()
);
}
else if (type == "apa102")
{
device = new LedDeviceAPA102(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt()
);
}
else if (type == "ws2801" || type == "lightberry")
{
device = new LedDeviceWs2801(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt(),
deviceConfig.get("latchtime",500000).asInt()
);
}
else if (type == "ws2812spi")
{
device = new LedDeviceWs2812SPI(
deviceConfig["output"].asString(),
deviceConfig.get("rate",2857143).asInt()
);
}
else if (type == "sk6812rgbw-spi")
{
device = new LedDeviceSk6812SPI(
deviceConfig["output"].asString(),
deviceConfig.get("rate",2857143).asInt(),
deviceConfig.get("white_algorithm","").asString()
);
}
#endif
#ifdef ENABLE_TINKERFORGE
else if (type=="tinkerforge")
{
device = new LedDeviceTinkerforge(
deviceConfig.get("output", "127.0.0.1").asString(),
deviceConfig.get("port", 4223).asInt(),
deviceConfig["uid"].asString(),
deviceConfig["rate"].asInt()
);
}
#endif
else if (type == "rawhid")
{
const int delay_ms = deviceConfig["delayAfterConnect"].asInt();
auto VendorIdString = deviceConfig.get("VID", "0x2341").asString();
auto ProductIdString = deviceConfig.get("PID", "0x8036").asString();
// Convert HEX values to integer
auto VendorId = std::stoul(VendorIdString, nullptr, 16);
auto ProductId = std::stoul(ProductIdString, nullptr, 16);
device = new LedDeviceRawHID(VendorId, ProductId, delay_ms);
}
else if (type == "lightpack")
{
device = new LedDeviceLightpack(
deviceConfig.get("output", "").asString()
);
}
else if (type == "multi-lightpack")
{
device = new LedDeviceMultiLightpack();
}
else if (type == "paintpack")
{
const int delay_ms = deviceConfig["delayAfterConnect"].asInt();
auto VendorIdString = deviceConfig.get("VID", "0x0EBF").asString();
auto ProductIdString = deviceConfig.get("PID", "0x0025").asString();
// Convert HEX values to integer
auto VendorId = std::stoul(VendorIdString, nullptr, 16);
auto ProductId = std::stoul(ProductIdString, nullptr, 16);
device = new LedDevicePaintpack(VendorId, ProductId, delay_ms);
}
else if (type == "piblaster")
{
const std::string output = deviceConfig.get("output", "").asString();
const std::string assignment = deviceConfig.get("assignment", "").asString();
const Json::Value gpioMapping = deviceConfig.get("gpiomap", Json::nullValue);
if (! assignment.empty())
{
throw std::runtime_error("Piblaster: The piblaster configuration syntax has changed in this version.");
}
if (gpioMapping.isNull())
{
throw std::runtime_error("Piblaster: no gpiomap defined.");
}
device = new LedDevicePiBlaster(output, gpioMapping);
}
else if (type == "sedu")
{
device = new LedDeviceSedu(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt()
);
}
else if (type == "hyperion-usbasp-ws2801")
{
device = new LedDeviceHyperionUsbasp(LedDeviceHyperionUsbasp::CMD_WRITE_WS2801);
}
else if (type == "hyperion-usbasp-ws2812")
{
device = new LedDeviceHyperionUsbasp(LedDeviceHyperionUsbasp::CMD_WRITE_WS2812);
}
else if (type == "philipshue")
{
const std::string output = deviceConfig["output"].asString();
const std::string username = deviceConfig.get("username", "newdeveloper").asString();
const bool switchOffOnBlack = deviceConfig.get("switchOffOnBlack", true).asBool();
const int transitiontime = deviceConfig.get("transitiontime", 1).asInt();
std::vector<unsigned int> lightIds;
for (Json::Value::ArrayIndex i = 0; i < deviceConfig["lightIds"].size(); i++) {
lightIds.push_back(deviceConfig["lightIds"][i].asInt());
}
device = new LedDevicePhilipsHue(output, username, switchOffOnBlack, transitiontime, lightIds);
}
else if (type == "atmoorb")
{
const std::string output = deviceConfig["output"].asString();
const bool useOrbSmoothing = deviceConfig.get("useOrbSmoothing", false).asBool();
const int transitiontime = deviceConfig.get("transitiontime", 1).asInt();
const int skipSmoothingDiff = deviceConfig.get("skipSmoothingDiff", 0).asInt();
const int port = deviceConfig.get("port", 1).asInt();
const int numLeds = deviceConfig.get("numLeds", 1).asInt();
const std::string orbId = deviceConfig["orbIds"].asString();
std::vector<unsigned int> orbIds;
// If we find multiple Orb ids separate them and add to list
const std::string separator (",");
if (orbId.find(separator) != std::string::npos) {
std::stringstream ss(orbId);
std::vector<int> output;
unsigned int i;
while (ss >> i) {
orbIds.push_back(i);
if (ss.peek() == ',' || ss.peek() == ' ')
ss.ignore();
}
}
else
{
orbIds.push_back(atoi(orbId.c_str()));
}
device = new LedDeviceAtmoOrb(output, useOrbSmoothing, transitiontime, skipSmoothingDiff, port, numLeds, orbIds);
}
else if (type == "fadecandy")
{
device = new LedDeviceFadeCandy(deviceConfig);
}
else if (type == "udp")
{
device = new LedDeviceUdp(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt(),
deviceConfig["protocol"].asInt(),
deviceConfig["maxpacket"].asInt()
);
}
else if (type == "udpraw")
{
device = new LedDeviceUdpRaw(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt(),
deviceConfig.get("latchtime",500000).asInt()
);
}
else if (type == "tpm2")
{
device = new LedDeviceTpm2(
deviceConfig["output"].asString(),
deviceConfig["rate"].asInt()
);
}
else if (type == "atmo")
{
device = new LedDeviceAtmo(
deviceConfig["output"].asString(),
38400
);
}
#ifdef ENABLE_WS2812BPWM
else if (type == "ws2812b")
{
device = new LedDeviceWS2812b();
}
#endif
#ifdef ENABLE_WS281XPWM
else if (type == "ws281x")
{
device = new LedDeviceWS281x(
deviceConfig.get("gpio", 18).asInt(),
deviceConfig.get("leds", 256).asInt(),
deviceConfig.get("freq", (Json::UInt)800000ul).asInt(),
deviceConfig.get("dmanum", 5).asInt(),
deviceConfig.get("pwmchannel", 0).asInt(),
deviceConfig.get("invert", 0).asInt(),
deviceConfig.get("rgbw", 0).asInt(),
deviceConfig.get("white_algorithm","").asString()
);
}
#endif
else
{
if (type != "file")
{
Error(log, "Dummy device used, because unknown device %s set.", type.c_str());
}
device = new LedDeviceFile(
deviceConfig.get("output", "/dev/null").asString()
);
}
device->open();
return device;
}