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Initial AtmoOrb support including sample json config.
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doc/datasheets/AtmoOrb_sample_config.json
Normal file
163
doc/datasheets/AtmoOrb_sample_config.json
Normal file
@ -0,0 +1,163 @@
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// Automatically generated configuration file for 'Hyperion daemon'
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// Generated by: HyperCon (The Hyperion deamon configuration file builder)
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// Created with HyperCon V1.00.0 (11.03.2016)
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{
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/// Device configuration contains the following fields:
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/// * 'name' : The user friendly name of the device (only used for display purposes)
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/// * 'type' : The type of the device or leds (known types for now are
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/// APA102, Adalight, AdalightAPA102, AmbiLed, Atmo, Hyperion-USBASP-WS2801, Hyperion-USBASP-WS2812, Lightberry, Lightpack, LPD6803, LPD8806, Multi-Lightpack, P9813, Paintpack, PhilipsHUE, PiBlaster, SEDU, Test, ThinkerForge, TPM2, WS2801, WS2812b, None)
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/// * [device type specific configuration]
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/// * 'colorOrder' : The order of the color bytes ('rgb', 'rbg', 'bgr', etc.).
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///
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/// * 'Specific of Philips Hue:
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/// * 'username' : The name of user registred on the Philips Hue Bridge
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/// * 'switchOffOnBlack': Define if Hue light switch off when black is detected
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/// * 'transitiontime' : Set the time of transition between color of Hue light
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"device" :
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{
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"name" : "MyPi",
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"type" : "atmoorb",
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"output" : "239.15.18.2",
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"transitiontime" : 0,
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"port" : 49692,
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"numLeds" : 24,
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"orbIds" : [1],
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"switchOffOnBlack" : true,
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"colorOrder" : "rgb"
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},
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/// Color manipulation configuration used to tune the output colors to specific surroundings.
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/// The configuration contains a list of color-transforms. Each transform contains the
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/// following fields:
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/// * 'id' : The unique identifier of the color transformation (eg 'device_1') /// * 'leds' : The indices (or index ranges) of the leds to which this color transform applies
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/// (eg '0-5, 9, 11, 12-17'). The indices are zero based. /// * 'hsv' : The manipulation in the Hue-Saturation-Value color domain with the following
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/// tuning parameters:
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/// - 'saturationGain' The gain adjustement of the saturation
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/// - 'valueGain' The gain adjustement of the value
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/// * 'red'/'green'/'blue' : The manipulation in the Red-Green-Blue color domain with the
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/// following tuning parameters for each channel:
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/// - 'threshold' The minimum required input value for the channel to be on
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/// (else zero)
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/// - 'gamma' The gamma-curve correction factor
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/// - 'blacklevel' The lowest possible value (when the channel is black)
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/// - 'whitelevel' The highest possible value (when the channel is white)
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///
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/// Next to the list with color transforms there is also a smoothing option.
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/// * 'smoothing' : Smoothing of the colors in the time-domain with the following tuning
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/// parameters:
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/// - 'type' The type of smoothing algorithm ('linear' or 'none')
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/// - 'time_ms' The time constant for smoothing algorithm in milliseconds
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/// - 'updateFrequency' The update frequency of the leds in Hz
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/// - 'updateDelay' The delay of the output to leds (in periods of smoothing)
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"color" :
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{
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"transform" :
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[
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{
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"id" : "default",
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"leds" : "*",
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"hsv" :
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{
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"saturationGain" : 1.0000,
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"valueGain" : 1.0000
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},
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"red" :
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{
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"threshold" : 0.0000,
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"gamma" : 2.2000,
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"blacklevel" : 0.0000,
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"whitelevel" : 1.0000
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},
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"green" :
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{
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"threshold" : 0.0000,
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"gamma" : 2.2000,
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"blacklevel" : 0.0000,
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"whitelevel" : 1.0000
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},
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"blue" :
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{
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"threshold" : 0.0000,
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"gamma" : 2.2000,
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"blacklevel" : 0.0000,
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"whitelevel" : 1.0000
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}
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}
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],
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"smoothing" :
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{
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"type" : "linear",
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"time_ms" : 100,
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"updateFrequency" : 60.0000,
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"updateDelay" : 0
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}
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},
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/// The black border configuration, contains the following items:
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/// * enable : true if the detector should be activated
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/// * threshold : Value below which a pixel is regarded as black (value between 0.0 and 1.0)
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/// * unknownFrameCnt : Number of frames without any detection before the border is set to 0 (default 600)
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/// * borderFrameCnt : Number of frames before a consistent detected border gets set (default 50)
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/// * maxInconsistentCnt : Number of inconsistent frames that are ignored before a new border gets a chance to proof consistency
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/// * blurRemoveCnt : Number of pixels that get removed from the detected border to cut away blur (default 1)
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/// * mode : Border detection mode (values=default,classic,osd)
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"blackborderdetector" :
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{
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"enable" : false,
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"threshold" : 0.01,
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"unknownFrameCnt" : 600,
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"borderFrameCnt" : 50,
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"maxInconsistentCnt" : 10,
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"blurRemoveCnt" : 1,
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"mode" : "default"
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},
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/// The configuration of the effect engine, contains the following items:
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/// * paths : An array with absolute location(s) of directories with effects
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/// * color : Set static color after boot -> set effect to "" (empty) and input the values [R,G,B] and set duration_ms NOT to 0 (use 1) instead
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/// * effect : The effect selected as 'boot sequence'
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/// * duration_ms : The duration of the selected effect (0=endless)
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/// * priority : The priority of the selected effect/static color (default=990) HINT: lower value result in HIGHER priority!
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"effects" :
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{
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"paths" :
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[
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"/opt/hyperion/effects"
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]
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},
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/// The configuration of the Json server which enables the json remote interface
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/// * port : Port at which the json server is started
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"jsonServer" :
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{
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"port" : 19446
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},
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/// The configuration of the Proto server which enables the protobuffer remote interface
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/// * port : Port at which the protobuffer server is started
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"protoServer" :
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{
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"port" : 19447
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},
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/// The configuration for each individual led. This contains the specification of the area
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/// averaged of an input image for each led to determine its color. Each item in the list
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/// contains the following fields:
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/// * index: The index of the led. This determines its location in the string of leds; zero
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/// being the first led.
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/// * hscan: The fractional part of the image along the horizontal used for the averaging
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/// (minimum and maximum inclusive)
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/// * vscan: The fractional part of the image along the vertical used for the averaging
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/// (minimum and maximum inclusive)
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"leds" :
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[
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{
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"index" : 0,
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"hscan" : { "minimum" : 0.0000, "maximum" : 1.0000 },
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"vscan" : { "minimum" : 0.0000, "maximum" : 1.0000 }
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}
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],
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"endOfJson" : "endOfJson"
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}
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@ -17,6 +17,7 @@ SET(Leddevice_QT_HEADERS
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${CURRENT_SOURCE_DIR}/LedDeviceAdalight.h
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${CURRENT_SOURCE_DIR}/LedDeviceAdalightApa102.h
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${CURRENT_SOURCE_DIR}/LedDeviceAmbiLed.h
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${CURRENT_SOURCE_DIR}/LedDeviceAtmoOrb.h
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${CURRENT_SOURCE_DIR}/LedDevicePhilipsHue.h
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${CURRENT_SOURCE_DIR}/LedHIDDevice.h
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${CURRENT_SOURCE_DIR}/LedDeviceRawHID.h
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@ -50,6 +51,7 @@ SET(Leddevice_SOURCES
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${CURRENT_SOURCE_DIR}/LedDeviceAdalight.cpp
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${CURRENT_SOURCE_DIR}/LedDeviceAdalightApa102.cpp
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${CURRENT_SOURCE_DIR}/LedDeviceAmbiLed.cpp
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${CURRENT_SOURCE_DIR}/LedDeviceAtmoOrb.cpp
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${CURRENT_SOURCE_DIR}/LedDeviceRawHID.cpp
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${CURRENT_SOURCE_DIR}/LedDeviceLightpack.cpp
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${CURRENT_SOURCE_DIR}/LedDeviceMultiLightpack.cpp
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152
libsrc/leddevice/LedDeviceAtmoOrb.cpp
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152
libsrc/leddevice/LedDeviceAtmoOrb.cpp
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// Local-Hyperion includes
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#include "LedDeviceAtmoOrb.h"
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// qt includes
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#include <QtCore/qmath.h>
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#include <QEventLoop>
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#include <QtNetwork>
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#include <QNetworkReply>
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#include <QTime>
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#include <stdexcept>
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#include <string>
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#include <set>
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AtmoOrbLight::AtmoOrbLight(unsigned int id) {
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// Not implemented
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}
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LedDeviceAtmoOrb::LedDeviceAtmoOrb(const std::string& output, bool switchOffOnBlack,
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int transitiontime, int port, int numLeds, std::vector<unsigned int> orbIds) :
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multicastGroup(output.c_str()), switchOffOnBlack(switchOffOnBlack), transitiontime(transitiontime),
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multiCastGroupPort(port), numLeds(numLeds), orbIds(orbIds) {
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manager = new QNetworkAccessManager();
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groupAddress = QHostAddress(multicastGroup);
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udpSocket = new QUdpSocket(this);
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udpSocket->bind(multiCastGroupPort, QUdpSocket::ShareAddress | QUdpSocket::ReuseAddressHint);
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if (!udpSocket->joinMulticastGroup(groupAddress))
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{
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joinedMulticastgroup = false;
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}
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else
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{
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joinedMulticastgroup = true;
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}
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}
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int LedDeviceAtmoOrb::write(const std::vector<ColorRgb> & ledValues) {
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// If not in multicast group return
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if (!joinedMulticastgroup)
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{
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return 0;
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}
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// Iterate through colors and set Orb color.
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unsigned int idx = 0;
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for (const ColorRgb& color : ledValues)
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{
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// If color is identical skip color setter
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if(color.red == lastRed && color.green == lastGreen && color.blue == lastBlue)
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{
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continue;
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}
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// Options parameter:
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//
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// 1 = force off
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// 2 = use lamp smoothing and validate by Orb ID
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// 4 = validate by Orb ID
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//
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if (switchOffOnBlack && color.red == 0 && color.green == 0 && color.blue == 0) {
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// Force to black
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for (int i = 0; i < orbIds.size(); i++) {
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setColor(orbIds[i], color, 1);
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}
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}
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else
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{
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// Default send color
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for (int i = 0; i < orbIds.size(); i++) {
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setColor(orbIds[i], color, 4);
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}
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}
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// Store current colors
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lastRed = color.red;
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lastGreen = color.green;
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lastBlue = color.blue;
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// Next light id.
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idx++;
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}
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return 0;
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}
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void LedDeviceAtmoOrb::setColor(unsigned int orbId, const ColorRgb& color, int commandType) {
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QByteArray bytes;
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bytes.resize(5 + 24 * 3);
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// Command identifier: C0FFEE
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bytes[0] = 0xC0;
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bytes[1] = 0xFF;
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bytes[2] = 0xEE;
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// Command type
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bytes[3] = 2;
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// Orb ID
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bytes[4] = orbId;
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// RED / GREEN / BLUE
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bytes[5] = color.red;
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bytes[6] = color.green;
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bytes[7] = color.blue;
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sendCommand(bytes);
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}
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void LedDeviceAtmoOrb::sendCommand(const QByteArray & bytes) {
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QByteArray datagram = bytes;
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udpSocket->writeDatagram(datagram.data(), datagram.size(),
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groupAddress, multiCastGroupPort);
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}
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int LedDeviceAtmoOrb::switchOff() {
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// Default send color
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for (int i = 0; i < orbIds.size(); i++) {
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QByteArray bytes;
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bytes.resize(5 + 24 * 3);
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// Command identifier: C0FFEE
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bytes[0] = 0xC0;
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bytes[1] = 0xFF;
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bytes[2] = 0xEE;
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// Command type
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bytes[3] = 1;
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// Orb ID
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bytes[4] = orbIds[i];
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// RED / GREEN / BLUE
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bytes[5] = 0;
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bytes[6] = 0;
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bytes[7] = 0;
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sendCommand(bytes);
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}
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return 0;
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}
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void LedDeviceAtmoOrb::switchOn(unsigned int nLights) {
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// Not implemented
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}
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LedDeviceAtmoOrb::~LedDeviceAtmoOrb() {
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delete manager;
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}
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111
libsrc/leddevice/LedDeviceAtmoOrb.h
Normal file
111
libsrc/leddevice/LedDeviceAtmoOrb.h
Normal file
@ -0,0 +1,111 @@
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#pragma once
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// STL includes
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#include <string>
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// Qt includes
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#include <QObject>
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#include <QString>
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#include <QNetworkAccessManager>
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#include <QHostAddress>
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#include <QTime>
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// Leddevice includes
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#include <leddevice/LedDevice.h>
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class QUdpSocket;
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class AtmoOrbLight {
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public:
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unsigned int id;
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///
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/// Constructs the light.
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///
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/// @param id the orb id
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AtmoOrbLight(unsigned int id);
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};
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/**
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* Implementation for the AtmoOrb
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*
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* To use set the device to "atmoorb".
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*
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* @author RickDB (github)
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*/
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class LedDeviceAtmoOrb : public QObject, public LedDevice {
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Q_OBJECT
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public:
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// Last color sent
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int lastRed;
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int lastGreen;
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int lastBlue;
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// Last command sent timer
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QTime timer;
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// Multicast status
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bool joinedMulticastgroup;
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///
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/// Constructs the device.
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///
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/// @param output is the multicast address of Orbs
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///
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/// @param switchOffOnBlack kill lights for black (default: false)
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///
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/// @param transitiontime is optional and not used at the moment
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///
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/// @param port is the multicast port.
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///
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/// @param numLeds is the total amount of leds per Orb
|
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///
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/// @param orb ids to control
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||||
///
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LedDeviceAtmoOrb(const std::string& output, bool switchOffOnBlack =
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false, int transitiontime = 0, int port = 49692, int numLeds = 24, std::vector<unsigned int> orbIds = std::vector<unsigned int>());
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///
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/// Destructor of this device
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///
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||||
virtual ~LedDeviceAtmoOrb();
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///
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/// Sends the given led-color values to the Orbs
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///
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/// @param ledValues The color-value per led
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///
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/// @return Zero on success else negative
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///
|
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virtual int write(const std::vector<ColorRgb> & ledValues);
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virtual int switchOff();
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private:
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/// Array to save the lamps.
|
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std::vector<AtmoOrbLight> lights;
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||||
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/// QNetworkAccessManager object for sending requests.
|
||||
QNetworkAccessManager* manager;
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||||
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||||
QString multicastGroup;
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bool switchOffOnBlack;
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int transitiontime;
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int multiCastGroupPort;
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int numLeds;
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QHostAddress groupAddress;
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QUdpSocket *udpSocket;
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||||
/// Array of the light ids.
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std::vector<unsigned int> orbIds;
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||||
///
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/// Switches the leds on.
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///
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/// @param nLights the number of lights
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///
|
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void switchOn(unsigned int nLights);
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// Set color
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void setColor(unsigned int orbId, const ColorRgb& color, int commandType);
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||||
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// Send color command
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void sendCommand(const QByteArray & bytes);
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};
|
@ -37,6 +37,7 @@
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||||
#include "LedDeviceTpm2.h"
|
||||
#include "LedDeviceAtmo.h"
|
||||
#include "LedDeviceAdalightApa102.h"
|
||||
#include "LedDeviceAtmoOrb.h"
|
||||
|
||||
#ifdef ENABLE_WS2812BPWM
|
||||
#include "LedDeviceWS2812b.h"
|
||||
@ -245,6 +246,21 @@ LedDevice * LedDeviceFactory::construct(const Json::Value & deviceConfig)
|
||||
}
|
||||
device = new LedDevicePhilipsHue(output, username, switchOffOnBlack, transitiontime, lightIds);
|
||||
}
|
||||
else if (type == "atmoorb")
|
||||
{
|
||||
const std::string output = deviceConfig["output"].asString();
|
||||
const bool switchOffOnBlack = deviceConfig.get("switchOffOnBlack", true).asBool();
|
||||
const int transitiontime = deviceConfig.get("transitiontime", 1).asInt();
|
||||
const int port = deviceConfig.get("port", 1).asInt();
|
||||
const int numLeds = deviceConfig.get("numLeds", 1).asInt();
|
||||
|
||||
std::vector<unsigned int> orbIds;
|
||||
for (Json::Value::ArrayIndex i = 0; i < deviceConfig["orbIds"].size(); i++) {
|
||||
orbIds.push_back(deviceConfig["orbIds"][i].asInt());
|
||||
}
|
||||
|
||||
device = new LedDeviceAtmoOrb(output, switchOffOnBlack, transitiontime, port, numLeds, orbIds);
|
||||
}
|
||||
else if (type == "test")
|
||||
{
|
||||
const std::string output = deviceConfig["output"].asString();
|
||||
|
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Reference in New Issue
Block a user