Fixed endianness issue in LDP6803 device

Former-commit-id: 6762890065d791f3ad5f24526f2f735822b451e1
This commit is contained in:
johan 2013-11-02 19:30:19 +01:00
parent fb23befdee
commit e5395951a5
8 changed files with 406 additions and 414 deletions

View File

@ -2,390 +2,390 @@
// Generated by: HyperCon (The Hyperion deamon configuration file builder // Generated by: HyperCon (The Hyperion deamon configuration file builder
{ {
/// Device configuration contains the following fields: /// Device configuration contains the following fields:
/// * 'name' : The user friendly name of the device (only used for display purposes) /// * 'name' : The user friendly name of the device (only used for display purposes)
/// * 'type' : The type of the device or leds (known types for now are 'ws2801', 'test' and 'none') /// * 'type' : The type of the device or leds (known types for now are 'ws2801', 'ldp6803', 'test' and 'none')
/// * 'output' : The output specification depends on selected device /// * 'output' : The output specification depends on selected device
/// - 'ws2801' this is the device (eg '/dev/spidev0.0') /// - 'ws2801' this is the device (eg '/dev/spidev0.0')
/// - 'test' this is the file used to write test output (eg '/home/pi/hyperion.out') /// - 'test' this is the file used to write test output (eg '/home/pi/hyperion.out')
/// * 'rate' : The baudrate of the output to the device (only applicable for 'ws2801') /// * 'rate' : The baudrate of the output to the device (only applicable for 'ws2801')
/// * 'bgr-output' : Use BGR output instead of RGB (reverse red and blue). /// * 'bgr-output' : Use BGR output instead of RGB (reverse red and blue).
"device" : "device" :
{ {
"name" : "MyPi", "name" : "MyPi",
"type" : "ws2801", "type" : "ws2801",
"output" : "/dev/spidev0.0", "output" : "/dev/spidev0.0",
"rate" : 1000000, "rate" : 1000000,
"bgr-output" : false "bgr-output" : false
}, },
/// Color manipulation configuration used to tune the output colors to specific surroundings. Contains the following fields: /// Color manipulation configuration used to tune the output colors to specific surroundings. Contains the following fields:
/// * 'hsv' : The manipulation in the Hue-Saturation-Value color domain with the following tuning parameters: /// * 'hsv' : The manipulation in the Hue-Saturation-Value color domain with the following tuning parameters:
/// - 'saturationGain' The gain adjustement of the saturation /// - 'saturationGain' The gain adjustement of the saturation
/// - 'valueGain' The gain adjustement of the value /// - 'valueGain' The gain adjustement of the value
/// * 'red'/'green'/'blue' : The manipulation in the Red-Green-Blue color domain with the following tuning parameters for each channel: /// * 'red'/'green'/'blue' : The manipulation in the Red-Green-Blue color domain with the following tuning parameters for each channel:
/// - 'threshold' The minimum required input value for the channel to be on (else zero) /// - 'threshold' The minimum required input value for the channel to be on (else zero)
/// - 'gamma' The gamma-curve correction factor /// - 'gamma' The gamma-curve correction factor
/// - 'blacklevel' The lowest possible value (when the channel is black) /// - 'blacklevel' The lowest possible value (when the channel is black)
/// - 'whitelevel' The highest possible value (when the channel is white) /// - 'whitelevel' The highest possible value (when the channel is white)
/// * 'smoothing' : Smoothing of the colors in the time-domain with the following tuning parameters: /// * 'smoothing' : Smoothing of the colors in the time-domain with the following tuning parameters:
/// - 'type' The type of smoothing algorithm ('linear' or 'none') /// - 'type' The type of smoothing algorithm ('linear' or 'none')
/// - 'time_ms' The time constant for smoothing algorithm in milliseconds /// - 'time_ms' The time constant for smoothing algorithm in milliseconds
/// - 'updateFrequency' The update frequency of the leds in Hz /// - 'updateFrequency' The update frequency of the leds in Hz
"color" : "color" :
{ {
"hsv" : "hsv" :
{ {
"saturationGain" : 1.0000, "saturationGain" : 1.0000,
"valueGain" : 1.5000 "valueGain" : 1.5000
}, },
"red" : "red" :
{ {
"threshold" : 0.1000, "threshold" : 0.1000,
"gamma" : 2.0000, "gamma" : 2.0000,
"blacklevel" : 0.0000, "blacklevel" : 0.0000,
"whitelevel" : 0.8000 "whitelevel" : 0.8000
}, },
"green" : "green" :
{ {
"threshold" : 0.1000, "threshold" : 0.1000,
"gamma" : 2.0000, "gamma" : 2.0000,
"blacklevel" : 0.0000, "blacklevel" : 0.0000,
"whitelevel" : 1.0000 "whitelevel" : 1.0000
}, },
"blue" : "blue" :
{ {
"threshold" : 0.1000, "threshold" : 0.1000,
"gamma" : 2.0000, "gamma" : 2.0000,
"blacklevel" : 0.0000, "blacklevel" : 0.0000,
"whitelevel" : 1.0000 "whitelevel" : 1.0000
}, },
"smoothing" : "smoothing" :
{ {
"type" : "none", "type" : "none",
"time_ms" : 200, "time_ms" : 200,
"updateFrequency" : 20.0000 "updateFrequency" : 20.0000
} }
}, },
/// The configuration for each individual led. This contains the specification of the area /// The configuration for each individual led. This contains the specification of the area
/// averaged of an input image for each led to determine its color. Each item in the list /// averaged of an input image for each led to determine its color. Each item in the list
/// contains the following fields: /// contains the following fields:
/// * index: The index of the led. This determines its location in the string of leds; zero /// * index: The index of the led. This determines its location in the string of leds; zero
/// being the first led. /// being the first led.
/// * hscan: The fractional part of the image along the horizontal used for the averaging /// * hscan: The fractional part of the image along the horizontal used for the averaging
/// (minimum and maximum inclusive) /// (minimum and maximum inclusive)
/// * vscan: The fractional part of the image along the vertical used for the averaging /// * vscan: The fractional part of the image along the vertical used for the averaging
/// (minimum and maximum inclusive) /// (minimum and maximum inclusive)
"leds" : "leds" :
[ [
{ {
"index" : 0, "index" : 0,
"hscan" : { "minimum" : 0.4375, "maximum" : 0.5000 }, "hscan" : { "minimum" : 0.4375, "maximum" : 0.5000 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 1, "index" : 1,
"hscan" : { "minimum" : 0.3750, "maximum" : 0.4375 }, "hscan" : { "minimum" : 0.3750, "maximum" : 0.4375 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 2, "index" : 2,
"hscan" : { "minimum" : 0.3125, "maximum" : 0.3750 }, "hscan" : { "minimum" : 0.3125, "maximum" : 0.3750 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 3, "index" : 3,
"hscan" : { "minimum" : 0.2500, "maximum" : 0.3125 }, "hscan" : { "minimum" : 0.2500, "maximum" : 0.3125 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 4, "index" : 4,
"hscan" : { "minimum" : 0.1875, "maximum" : 0.2500 }, "hscan" : { "minimum" : 0.1875, "maximum" : 0.2500 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 5, "index" : 5,
"hscan" : { "minimum" : 0.1250, "maximum" : 0.1875 }, "hscan" : { "minimum" : 0.1250, "maximum" : 0.1875 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 6, "index" : 6,
"hscan" : { "minimum" : 0.0625, "maximum" : 0.1250 }, "hscan" : { "minimum" : 0.0625, "maximum" : 0.1250 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 7, "index" : 7,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0625 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0625 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 8, "index" : 8,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 9, "index" : 9,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 },
"vscan" : { "minimum" : 0.8571, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.8571, "maximum" : 1.0000 }
}, },
{ {
"index" : 10, "index" : 10,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 },
"vscan" : { "minimum" : 0.7143, "maximum" : 0.8571 } "vscan" : { "minimum" : 0.7143, "maximum" : 0.8571 }
}, },
{ {
"index" : 11, "index" : 11,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 },
"vscan" : { "minimum" : 0.5714, "maximum" : 0.7143 } "vscan" : { "minimum" : 0.5714, "maximum" : 0.7143 }
}, },
{ {
"index" : 12, "index" : 12,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 },
"vscan" : { "minimum" : 0.4286, "maximum" : 0.5714 } "vscan" : { "minimum" : 0.4286, "maximum" : 0.5714 }
}, },
{ {
"index" : 13, "index" : 13,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 },
"vscan" : { "minimum" : 0.2857, "maximum" : 0.4286 } "vscan" : { "minimum" : 0.2857, "maximum" : 0.4286 }
}, },
{ {
"index" : 14, "index" : 14,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 },
"vscan" : { "minimum" : 0.1429, "maximum" : 0.2857 } "vscan" : { "minimum" : 0.1429, "maximum" : 0.2857 }
}, },
{ {
"index" : 15, "index" : 15,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.1429 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.1429 }
}, },
{ {
"index" : 16, "index" : 16,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0500 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 17, "index" : 17,
"hscan" : { "minimum" : 0.0000, "maximum" : 0.0625 }, "hscan" : { "minimum" : 0.0000, "maximum" : 0.0625 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 18, "index" : 18,
"hscan" : { "minimum" : 0.0625, "maximum" : 0.1250 }, "hscan" : { "minimum" : 0.0625, "maximum" : 0.1250 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 19, "index" : 19,
"hscan" : { "minimum" : 0.1250, "maximum" : 0.1875 }, "hscan" : { "minimum" : 0.1250, "maximum" : 0.1875 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 20, "index" : 20,
"hscan" : { "minimum" : 0.1875, "maximum" : 0.2500 }, "hscan" : { "minimum" : 0.1875, "maximum" : 0.2500 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 21, "index" : 21,
"hscan" : { "minimum" : 0.2500, "maximum" : 0.3125 }, "hscan" : { "minimum" : 0.2500, "maximum" : 0.3125 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 22, "index" : 22,
"hscan" : { "minimum" : 0.3125, "maximum" : 0.3750 }, "hscan" : { "minimum" : 0.3125, "maximum" : 0.3750 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 23, "index" : 23,
"hscan" : { "minimum" : 0.3750, "maximum" : 0.4375 }, "hscan" : { "minimum" : 0.3750, "maximum" : 0.4375 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 24, "index" : 24,
"hscan" : { "minimum" : 0.4375, "maximum" : 0.5000 }, "hscan" : { "minimum" : 0.4375, "maximum" : 0.5000 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 25, "index" : 25,
"hscan" : { "minimum" : 0.5000, "maximum" : 0.5625 }, "hscan" : { "minimum" : 0.5000, "maximum" : 0.5625 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 26, "index" : 26,
"hscan" : { "minimum" : 0.5625, "maximum" : 0.6250 }, "hscan" : { "minimum" : 0.5625, "maximum" : 0.6250 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 27, "index" : 27,
"hscan" : { "minimum" : 0.6250, "maximum" : 0.6875 }, "hscan" : { "minimum" : 0.6250, "maximum" : 0.6875 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 28, "index" : 28,
"hscan" : { "minimum" : 0.6875, "maximum" : 0.7500 }, "hscan" : { "minimum" : 0.6875, "maximum" : 0.7500 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 29, "index" : 29,
"hscan" : { "minimum" : 0.7500, "maximum" : 0.8125 }, "hscan" : { "minimum" : 0.7500, "maximum" : 0.8125 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 30, "index" : 30,
"hscan" : { "minimum" : 0.8125, "maximum" : 0.8750 }, "hscan" : { "minimum" : 0.8125, "maximum" : 0.8750 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 31, "index" : 31,
"hscan" : { "minimum" : 0.8750, "maximum" : 0.9375 }, "hscan" : { "minimum" : 0.8750, "maximum" : 0.9375 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 32, "index" : 32,
"hscan" : { "minimum" : 0.9375, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9375, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 33, "index" : 33,
"hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.0800 }
}, },
{ {
"index" : 34, "index" : 34,
"hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.0000, "maximum" : 0.1429 } "vscan" : { "minimum" : 0.0000, "maximum" : 0.1429 }
}, },
{ {
"index" : 35, "index" : 35,
"hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.1429, "maximum" : 0.2857 } "vscan" : { "minimum" : 0.1429, "maximum" : 0.2857 }
}, },
{ {
"index" : 36, "index" : 36,
"hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.2857, "maximum" : 0.4286 } "vscan" : { "minimum" : 0.2857, "maximum" : 0.4286 }
}, },
{ {
"index" : 37, "index" : 37,
"hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.4286, "maximum" : 0.5714 } "vscan" : { "minimum" : 0.4286, "maximum" : 0.5714 }
}, },
{ {
"index" : 38, "index" : 38,
"hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.5714, "maximum" : 0.7143 } "vscan" : { "minimum" : 0.5714, "maximum" : 0.7143 }
}, },
{ {
"index" : 39, "index" : 39,
"hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.7143, "maximum" : 0.8571 } "vscan" : { "minimum" : 0.7143, "maximum" : 0.8571 }
}, },
{ {
"index" : 40, "index" : 40,
"hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.8571, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.8571, "maximum" : 1.0000 }
}, },
{ {
"index" : 41, "index" : 41,
"hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9500, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 42, "index" : 42,
"hscan" : { "minimum" : 0.9375, "maximum" : 1.0000 }, "hscan" : { "minimum" : 0.9375, "maximum" : 1.0000 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 43, "index" : 43,
"hscan" : { "minimum" : 0.8750, "maximum" : 0.9375 }, "hscan" : { "minimum" : 0.8750, "maximum" : 0.9375 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 44, "index" : 44,
"hscan" : { "minimum" : 0.8125, "maximum" : 0.8750 }, "hscan" : { "minimum" : 0.8125, "maximum" : 0.8750 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 45, "index" : 45,
"hscan" : { "minimum" : 0.7500, "maximum" : 0.8125 }, "hscan" : { "minimum" : 0.7500, "maximum" : 0.8125 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 46, "index" : 46,
"hscan" : { "minimum" : 0.6875, "maximum" : 0.7500 }, "hscan" : { "minimum" : 0.6875, "maximum" : 0.7500 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 47, "index" : 47,
"hscan" : { "minimum" : 0.6250, "maximum" : 0.6875 }, "hscan" : { "minimum" : 0.6250, "maximum" : 0.6875 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 48, "index" : 48,
"hscan" : { "minimum" : 0.5625, "maximum" : 0.6250 }, "hscan" : { "minimum" : 0.5625, "maximum" : 0.6250 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
}, },
{ {
"index" : 49, "index" : 49,
"hscan" : { "minimum" : 0.5000, "maximum" : 0.5625 }, "hscan" : { "minimum" : 0.5000, "maximum" : 0.5625 },
"vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 } "vscan" : { "minimum" : 0.9200, "maximum" : 1.0000 }
} }
], ],
/// The black border configuration, contains the following items: /// The black border configuration, contains the following items:
/// * enable : true if the detector should be activated /// * enable : true if the detector should be activated
"blackborderdetector" : "blackborderdetector" :
{ {
"enable" : true "enable" : true
}, },
/// The boot-sequence configuration, contains the following items: /// The boot-sequence configuration, contains the following items:
/// * type : The type of the boot-sequence ('rainbow', 'knight_rider', 'none') /// * type : The type of the boot-sequence ('rainbow', 'knight_rider', 'none')
/// * duration_ms : The length of the boot-sequence [ms] /// * duration_ms : The length of the boot-sequence [ms]
"bootsequence" : "bootsequence" :
{ {
"type" : "Rainbow", "type" : "Rainbow",
"duration_ms" : 3000 "duration_ms" : 3000
}, },
/// The configuration for the frame-grabber, contains the following items: /// The configuration for the frame-grabber, contains the following items:
/// * width : The width of the grabbed frames [pixels] /// * width : The width of the grabbed frames [pixels]
/// * height : The height of the grabbed frames [pixels] /// * height : The height of the grabbed frames [pixels]
/// * frequency_Hz : The frequency of the frame grab [Hz] /// * frequency_Hz : The frequency of the frame grab [Hz]
"framegrabber" : "framegrabber" :
{ {
"width" : 64, "width" : 64,
"height" : 64, "height" : 64,
"frequency_Hz" : 10.0 "frequency_Hz" : 10.0
}, },
/// The configuration of the XBMC connection used to enable and disable the frame-grabber. Contains the following fields: /// The configuration of the XBMC connection used to enable and disable the frame-grabber. Contains the following fields:
/// * xbmcAddress : The IP address of the XBMC-host /// * xbmcAddress : The IP address of the XBMC-host
/// * xbmcTcpPort : The TCP-port of the XBMC-server /// * xbmcTcpPort : The TCP-port of the XBMC-server
/// * grabVideo : Flag indicating that the frame-grabber is on(true) during video playback /// * grabVideo : Flag indicating that the frame-grabber is on(true) during video playback
/// * grabPictures : Flag indicating that the frame-grabber is on(true) during picture show /// * grabPictures : Flag indicating that the frame-grabber is on(true) during picture show
/// * grabAudio : Flag indicating that the frame-grabber is on(true) during audio playback /// * grabAudio : Flag indicating that the frame-grabber is on(true) during audio playback
/// * grabMenu : Flag indicating that the frame-grabber is on(true) in the XBMC menu /// * grabMenu : Flag indicating that the frame-grabber is on(true) in the XBMC menu
"xbmcVideoChecker" : "xbmcVideoChecker" :
{ {
"xbmcAddress" : "127.0.0.1", "xbmcAddress" : "127.0.0.1",
"xbmcTcpPort" : 9090, "xbmcTcpPort" : 9090,
"grabVideo" : true, "grabVideo" : true,
"grabPictures" : true, "grabPictures" : true,
"grabAudio" : true, "grabAudio" : true,
"grabMenu" : false "grabMenu" : false
}, },
/// The configuration of the Json server which enables the json remote interface /// The configuration of the Json server which enables the json remote interface
/// * port : Port at which the json server is started /// * port : Port at which the json server is started
"jsonServer" : "jsonServer" :
{ {
"port" : 19444 "port" : 19444
}, },
/// The configuration of the Proto server which enables the protobuffer remote interface /// The configuration of the Proto server which enables the protobuffer remote interface
/// * port : Port at which the protobuffer server is started /// * port : Port at which the protobuffer server is started
"protoServer" : "protoServer" :
{ {
"port" : 19445 "port" : 19445
} }
} }

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@ -1 +1 @@
e027a9a48c14dcffacb9539ede8ddca32cba2171 26d94964cc23d092b4504771bb1c0940e4d6d66e

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@ -20,31 +20,23 @@ LedDeviceLdp6803::LedDeviceLdp6803(const std::string& outputDevice, const unsign
int LedDeviceLdp6803::write(const std::vector<RgbColor> &ledValues) int LedDeviceLdp6803::write(const std::vector<RgbColor> &ledValues)
{ {
// Reconfigure if the current connfiguration does not match the required configuration // Reconfigure if the current connfiguration does not match the required configuration
if (ledValues.size() != _ledBuffer.size()) if (4 + 2*ledValues.size() != _ledBuffer.size())
{ {
// Initialise the buffer with all 'black' values // Initialise the buffer
_ledBuffer.resize(ledValues.size() + 2, 0x80); _ledBuffer.resize(4 + 2*ledValues.size(), 0x00);
_ledBuffer[0] = 0;
_ledBuffer[1] = 0;
} }
// Copy the colors from the RgbColor vector to the Ldp6803Rgb vector // Copy the colors from the RgbColor vector to the Ldp6803 data vector
for (unsigned iLed=0; iLed<ledValues.size(); ++iLed) for (unsigned iLed=0; iLed<ledValues.size(); ++iLed)
{ {
const RgbColor& rgb = ledValues[iLed]; const RgbColor& rgb = ledValues[iLed];
const char packedRed = rgb.red & 0xf8; _ledBuffer[4 + 2 * iLed] = 0x80 | ((rgb.red & 0xf8) >> 1) | (rgb.green >> 6);
const char packedGreen = rgb.green & 0xf8; _ledBuffer[5 + 2 * iLed] = ((rgb.green & 0x38) << 2) | (rgb.blue >> 3);
const char packedBlue = rgb.blue & 0xf8;
const unsigned short packedRgb = 0x80 | (packedRed << 7) | (packedGreen << 2) | (packedBlue >> 3);
_ledBuffer[iLed + 2] = packedRgb;
} }
// Write the data // Write the data
const unsigned bufCnt = _ledBuffer.size() * sizeof(short); if (writeBytes(_ledBuffer.size(), _ledBuffer.data()) < 0)
const char * bufPtr = reinterpret_cast<const char *>(_ledBuffer.data());
if (latch(bufCnt, bufPtr, 0) < 0)
{ {
return -1; return -1;
} }

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@ -6,12 +6,12 @@
/// ///
/// Implementation of the LedDevice interface for writing to LDP6803 led device. /// Implementation of the LedDevice interface for writing to LDP6803 led device.
/// ///
/// 00000000 00000000 00000000 00000000 1XXXXXYY YYYZZZZZ 1XXXXXYY YYYZZZZZ ... /// 00000000 00000000 00000000 00000000 1RRRRRGG GGGBBBBB 1RRRRRGG GGGBBBBB ...
/// |---------------------------------| |---------------| |---------------| /// |---------------------------------| |---------------| |---------------|
/// 32 zeros to start the frame Led1 Led2 ... /// 32 zeros to start the frame Led1 Led2 ...
/// ///
/// For each led, the first bit is always 1, and then you have 5 bits each for red, green and blue /// For each led, the first bit is always 1, and then you have 5 bits each for red, green and blue
/// (X, Y and Z in the above illustration) making 16 bits per led. Total bits = 32 + (16 x number of /// (R, G and B in the above illustration) making 16 bits per led. Total bytes = 4 + (2 x number of
/// leds) /// leds)
/// ///
class LedDeviceLdp6803 : public LedSpiDevice class LedDeviceLdp6803 : public LedSpiDevice
@ -20,7 +20,7 @@ public:
/// ///
/// Constructs the LedDevice for a string containing leds of the type LDP6803 /// Constructs the LedDevice for a string containing leds of the type LDP6803
/// ///
/// @param[in] outputDevice The name of the output device (eg '/etc/SpiDev.0.0') /// @param[in] outputDevice The name of the output device (eg '/dev/spidev0.0')
/// @param[in] baudrate The used baudrate for writing to the output device /// @param[in] baudrate The used baudrate for writing to the output device
/// ///
LedDeviceLdp6803(const std::string& outputDevice, const unsigned baudrate); LedDeviceLdp6803(const std::string& outputDevice, const unsigned baudrate);
@ -38,5 +38,5 @@ public:
private: private:
/// The buffer containing the packed RGB values /// The buffer containing the packed RGB values
std::vector<unsigned short> _ledBuffer; std::vector<uint8_t> _ledBuffer;
}; };

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@ -12,7 +12,7 @@
#include "LedDeviceWs2801.h" #include "LedDeviceWs2801.h"
LedDeviceWs2801::LedDeviceWs2801(const std::string& outputDevice, const unsigned baudrate) : LedDeviceWs2801::LedDeviceWs2801(const std::string& outputDevice, const unsigned baudrate) :
LedSpiDevice(outputDevice, baudrate), LedSpiDevice(outputDevice, baudrate, 500000),
mLedCount(0) mLedCount(0)
{ {
// empty // empty
@ -23,10 +23,9 @@ int LedDeviceWs2801::write(const std::vector<RgbColor> &ledValues)
mLedCount = ledValues.size(); mLedCount = ledValues.size();
const unsigned dataLen = ledValues.size() * sizeof(RgbColor); const unsigned dataLen = ledValues.size() * sizeof(RgbColor);
const char * dataPtr = reinterpret_cast<const char *>(ledValues.data()); const uint8_t * dataPtr = reinterpret_cast<const uint8_t *>(ledValues.data());
const int retVal = latch(dataLen, dataPtr, 500000); return writeBytes(dataLen, dataPtr);
return retVal;
} }
int LedDeviceWs2801::switchOff() int LedDeviceWs2801::switchOff()

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@ -12,9 +12,10 @@
#include "LedSpiDevice.h" #include "LedSpiDevice.h"
LedSpiDevice::LedSpiDevice(const std::string& outputDevice, const unsigned baudrate) : LedSpiDevice::LedSpiDevice(const std::string& outputDevice, const unsigned baudrate, const int latchTime_ns) :
mDeviceName(outputDevice), mDeviceName(outputDevice),
mBaudRate_Hz(baudrate), mBaudRate_Hz(baudrate),
mLatchTime_ns(latchTime_ns),
mFid(-1) mFid(-1)
{ {
memset(&spi, 0, sizeof(spi)); memset(&spi, 0, sizeof(spi));
@ -56,30 +57,28 @@ int LedSpiDevice::open()
return 0; return 0;
} }
int LedSpiDevice::latch(const unsigned len, const char * vec, const int latchTime_ns) int LedSpiDevice::writeBytes(const unsigned size, const uint8_t * data)
{ {
if (mFid < 0) if (mFid < 0)
{ {
return -1; return -1;
} }
spi.tx_buf = __u64(vec); spi.tx_buf = __u64(data);
spi.len = __u32(len); spi.len = __u32(size);
int retVal = ioctl(mFid, SPI_IOC_MESSAGE(1), &spi); int retVal = ioctl(mFid, SPI_IOC_MESSAGE(1), &spi);
if (retVal == 0 && latchTime_ns > 0) if (retVal == 0 && mLatchTime_ns > 0)
{ {
// The 'latch' time for latching the shifted-value into the leds // The 'latch' time for latching the shifted-value into the leds
timespec latchTime; timespec latchTime;
latchTime.tv_sec = 0; latchTime.tv_sec = 0;
latchTime.tv_nsec = latchTime_ns; latchTime.tv_nsec = mLatchTime_ns;
// Sleep to latch the leds (only if write succesfull) // Sleep to latch the leds (only if write succesfull)
nanosleep(&latchTime, NULL); nanosleep(&latchTime, NULL);
} }
return retVal; return retVal;
} }

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@ -18,7 +18,7 @@ public:
/// @param[in] outputDevice The name of the output device (eg '/etc/SpiDev.0.0') /// @param[in] outputDevice The name of the output device (eg '/etc/SpiDev.0.0')
/// @param[in] baudrate The used baudrate for writing to the output device /// @param[in] baudrate The used baudrate for writing to the output device
/// ///
LedSpiDevice(const std::string& outputDevice, const unsigned baudrate); LedSpiDevice(const std::string& outputDevice, const unsigned baudrate, const int latchTime_ns = -1);
/// ///
/// Destructor of the LedDevice; closes the output device if it is open /// Destructor of the LedDevice; closes the output device if it is open
@ -37,20 +37,22 @@ protected:
* Writes the given bytes/bits to the SPI-device and sleeps the latch time to ensure that the * Writes the given bytes/bits to the SPI-device and sleeps the latch time to ensure that the
* values are latched. * values are latched.
* *
* @param[in[ len The length of the data * @param[in[ size The length of the data
* @param[in] vec The data * @param[in] data The data
* @param[in] latchTime_ns The latch-time to latch in the values across the SPI-device (negative * @param[in] latchTime_ns The latch-time to latch in the values across the SPI-device (negative
* means no latch required) [ns] * means no latch required) [ns]
* *
* @return Zero on succes else negative * @return Zero on succes else negative
*/ */
int latch(const unsigned len, const char * vec, const int latchTime_ns); int writeBytes(const unsigned size, const uint8_t *data);
private: private:
/// The name of the output device /// The name of the output device
const std::string mDeviceName; const std::string mDeviceName;
/// The used baudrate of the output device /// The used baudrate of the output device
const int mBaudRate_Hz; const int mBaudRate_Hz;
/// The time which the device should be untouched after a write
const int mLatchTime_ns;
/// The File Identifier of the opened output device (or -1 if not opened) /// The File Identifier of the opened output device (or -1 if not opened)
int mFid; int mFid;