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https://github.com/CalcProgrammer1/OpenRGB.git
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291 lines
10 KiB
C++
291 lines
10 KiB
C++
/*-----------------------------------------*\
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| RGBController_GigabyteRGBFusion2SMBus.cpp|
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| Generic RGB Interface for OpenRGB |
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| Gigabyte RGB Fusion 2 SMBUS Driver |
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| Matt Harper (5/5/2020) |
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\*-----------------------------------------*/
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#include "RGBController_GigabyteRGBFusion2SMBus.h"
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/* TODO - Validate all of these
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* CPU
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* ???
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* Mobo logo - Verified
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* Case rear
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* Case
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* ???
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* ???
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* ARGB header 1
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* ARGB header 2
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*
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* Do ??? actually map to anything? Are they even supported?
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* If not, what is an elegant way to display but not wreck existing logic?
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*/
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static const char* rgb_fusion_zone_names[] =
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{
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"CPU",
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"???",
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"Motherboard Logo",
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"Case Rear",
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"Case",
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"???",
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"???",
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"ARGB Header 1",
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"ARGB Header 2",
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"???"
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};
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RGBController_RGBFusion2SMBus::RGBController_RGBFusion2SMBus(RGBFusion2SMBusController* controller_ptr)
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{
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controller = controller_ptr;
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name = controller->GetDeviceName();
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vendor = "Gigabyte";
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description = "RGB Fusion 2 SMBus";
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location = controller->GetDeviceLocation();
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type = DEVICE_TYPE_MOTHERBOARD;
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mode Direct;
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Direct.name = "Direct";
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Direct.value = RGB_FUSION_2_MODE_STATIC;
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Direct.flags = MODE_FLAG_HAS_PER_LED_COLOR;
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Direct.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Direct);
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mode Pulse;
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Pulse.name = "Pulse";
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Pulse.value = RGB_FUSION_2_MODE_PULSE;
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Pulse.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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Pulse.speed_min = RGB_FUSION_2_SPEED_SLOW;
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Pulse.speed_max = RGB_FUSION_2_SPEED_FAST;
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Pulse.speed = RGB_FUSION_2_SPEED_NORMAL;
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Pulse.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Pulse);
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mode Flashing;
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Flashing.name = "Flashing";
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Flashing.value = RGB_FUSION_2_MODE_FLASHING;
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Flashing.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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Flashing.speed_min = 0x01;
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Flashing.speed_max = 0x04;
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Flashing.speed = 0x02;
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Flashing.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(Flashing);
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mode ColorCycle;
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ColorCycle.name = "Color Cycle";
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ColorCycle.value = RGB_FUSION_2_MODE_COLOR_CYCLE;
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ColorCycle.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR | MODE_FLAG_HAS_BRIGHTNESS;
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ColorCycle.speed_min = RGB_FUSION_2_SPEED_SLOW;
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ColorCycle.speed_max = RGB_FUSION_2_SPEED_FAST;
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ColorCycle.speed = RGB_FUSION_2_SPEED_NORMAL;
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ColorCycle.brightness_min = RGB_FUSION_2_BRIGHTNESS_MIN;
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ColorCycle.brightness_max = RGB_FUSION_2_BRIGHTNESS_MAX;
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ColorCycle.brightness = RGB_FUSION_2_BRIGHTNESS_MAX;
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ColorCycle.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(ColorCycle);
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mode DigitalWave;
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DigitalWave.name = "Digital Wave";
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DigitalWave.value = RGB_FUSION_2_MODE_DIGITAL_WAVE;
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DigitalWave.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR | MODE_FLAG_HAS_BRIGHTNESS;
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DigitalWave.speed_min = 0xff;
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DigitalWave.speed_max = 0x49;
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DigitalWave.speed = 0xc1;
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DigitalWave.brightness_min = RGB_FUSION_2_BRIGHTNESS_MIN;
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DigitalWave.brightness_max = RGB_FUSION_2_BRIGHTNESS_MAX;
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DigitalWave.brightness = RGB_FUSION_2_BRIGHTNESS_MAX;
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DigitalWave.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(DigitalWave);
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mode DigitalA;
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DigitalA.name = "Digital A";
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DigitalA.value = RGB_FUSION_2_MODE_DIGITAL_A;
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DigitalA.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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DigitalA.speed_min = RGB_FUSION_2_DIGITAL_SPEED_MIN;
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DigitalA.speed_max = RGB_FUSION_2_DIGITAL_SPEED_MAX;
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DigitalA.speed = RGB_FUSION_2_DIGITAL_SPEED;
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DigitalA.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(DigitalA);
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mode DigitalB;
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DigitalB.name = "Digital B";
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DigitalB.value = RGB_FUSION_2_MODE_DIGITAL_B;
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DigitalB.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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DigitalB.speed_min = 0xf0;
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DigitalB.speed_max = 0x3c;
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DigitalB.speed = 0xa0;
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DigitalB.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(DigitalB);
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mode DigitalC;
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DigitalC.name = "Digital C";
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DigitalC.value = RGB_FUSION_2_MODE_DIGITAL_C;
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DigitalC.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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DigitalC.speed_min = RGB_FUSION_2_DIGITAL_SPEED_MIN;
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DigitalC.speed_max = RGB_FUSION_2_DIGITAL_SPEED_MAX;
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DigitalC.speed = RGB_FUSION_2_DIGITAL_SPEED;
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DigitalC.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(DigitalC);
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mode DigitalD;
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DigitalD.name = "Digital D";
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DigitalD.value = RGB_FUSION_2_MODE_DIGITAL_D;
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DigitalD.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR | MODE_FLAG_HAS_BRIGHTNESS;
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DigitalD.speed_min = RGB_FUSION_2_DIGITAL_SPEED_MIN;
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DigitalD.speed_max = RGB_FUSION_2_DIGITAL_SPEED_MAX;
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DigitalD.speed = RGB_FUSION_2_DIGITAL_SPEED;
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DigitalD.brightness_min = RGB_FUSION_2_BRIGHTNESS_MIN;
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DigitalD.brightness_max = RGB_FUSION_2_BRIGHTNESS_MAX;
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DigitalD.brightness = RGB_FUSION_2_BRIGHTNESS_MAX;
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DigitalD.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(DigitalD);
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mode DigitalE;
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DigitalE.name = "Digital E";
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DigitalE.value = RGB_FUSION_2_MODE_DIGITAL_E;
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DigitalE.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR;
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DigitalE.speed_min = 0x96;
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DigitalE.speed_max = RGB_FUSION_2_DIGITAL_SPEED_MAX;
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DigitalE.speed = 0x6e;
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DigitalE.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(DigitalE);
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mode DigitalF;
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DigitalF.name = "Digital F";
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DigitalF.value = RGB_FUSION_2_MODE_DIGITAL_F;
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DigitalF.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR | MODE_FLAG_HAS_BRIGHTNESS; // F technically needs brightness when in color cycle mode (no color selected)
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DigitalF.speed_min = RGB_FUSION_2_DIGITAL_SPEED_MIN;
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DigitalF.speed_max = RGB_FUSION_2_DIGITAL_SPEED_MAX;
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DigitalF.speed = RGB_FUSION_2_DIGITAL_SPEED;
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DigitalF.brightness_min = RGB_FUSION_2_BRIGHTNESS_MIN;
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DigitalF.brightness_max = RGB_FUSION_2_BRIGHTNESS_MAX;
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DigitalF.brightness = RGB_FUSION_2_BRIGHTNESS_MAX;
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DigitalF.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(DigitalF);
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mode DigitalG;
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DigitalG.name = "Digital G";
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DigitalG.value = RGB_FUSION_2_MODE_DIGITAL_G;
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DigitalG.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_PER_LED_COLOR | MODE_FLAG_HAS_BRIGHTNESS;
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DigitalG.speed_min = 0x8c;
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DigitalG.speed_max = 0x46;
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DigitalG.speed = 0x6e;
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DigitalG.brightness_min = RGB_FUSION_2_BRIGHTNESS_MIN;
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DigitalG.brightness_max = RGB_FUSION_2_BRIGHTNESS_MAX;
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DigitalG.brightness = RGB_FUSION_2_BRIGHTNESS_MAX;
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DigitalG.color_mode = MODE_COLORS_PER_LED;
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modes.push_back(DigitalG);
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SetupZones();
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// Initialize active mode
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// TODO - broken. Need to complete GetDeviceMode
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active_mode = GetDeviceMode();
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}
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RGBController_RGBFusion2SMBus::~RGBController_RGBFusion2SMBus()
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{
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delete controller;
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}
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void RGBController_RGBFusion2SMBus::SetupZones()
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{
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/*---------------------------------------------------------*\
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| Search through all LEDs and create zones for each channel |
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| type |
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\*---------------------------------------------------------*/
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for(unsigned int zone_idx = 0; zone_idx < controller->GetLEDCount(); zone_idx++)
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{
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zone* new_zone = new zone();
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// Set zone name to channel name
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new_zone->name = rgb_fusion_zone_names[zone_idx];
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new_zone->leds_min = 1;
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new_zone->leds_max = 1;
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new_zone->leds_count = 1;
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// Push new zone to zones vector
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zones.push_back(*new_zone);
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}
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for(unsigned int led_idx = 0; led_idx < zones.size(); led_idx++)
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{
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led* new_led = new led();
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// Set LED name to channel name
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new_led->name = rgb_fusion_zone_names[led_idx];
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// Push new LED to LEDs vector
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leds.push_back(*new_led);
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}
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SetupColors();
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}
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void RGBController_RGBFusion2SMBus::ResizeZone(int /*zone*/, int /*new_size*/)
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{
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/*---------------------------------------------------------*\
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| This device does not support resizing zones |
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\*---------------------------------------------------------*/
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}
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void RGBController_RGBFusion2SMBus::DeviceUpdateLEDs()
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{
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for (std::size_t led = 0; led < colors.size(); led++)
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{
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RGBColor color = colors[led];
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unsigned char red = RGBGetRValue(color);
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unsigned char grn = RGBGetGValue(color);
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unsigned char blu = RGBGetBValue(color);
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int mode = modes[active_mode].value;
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unsigned int speed = modes[active_mode].speed;
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unsigned int brightness = modes[active_mode].brightness;
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controller->SetLEDEffect(led, mode, brightness, speed, red, grn, blu);
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}
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controller->Apply();
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}
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void RGBController_RGBFusion2SMBus::UpdateZoneLEDs(int zone)
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{
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RGBColor color = colors[zone];
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unsigned char red = RGBGetRValue(color);
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unsigned char grn = RGBGetGValue(color);
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unsigned char blu = RGBGetBValue(color);
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int mode = modes[active_mode].value;
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unsigned int speed = modes[active_mode].speed;
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unsigned int brightness = modes[active_mode].brightness;
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controller->SetLEDEffect(zone, mode, brightness, speed, red, grn, blu);
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controller->Apply();
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}
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void RGBController_RGBFusion2SMBus::UpdateSingleLED(int led)
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{
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UpdateZoneLEDs(led);
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}
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// TODO - Research if possible to read device state
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int RGBController_RGBFusion2SMBus::GetDeviceMode()
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{
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return(0);
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}
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void RGBController_RGBFusion2SMBus::SetCustomMode()
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{
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}
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void RGBController_RGBFusion2SMBus::DeviceUpdateMode()
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{
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}
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