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https://github.com/CalcProgrammer1/OpenRGB.git
synced 2025-12-31 11:17:52 -05:00
316 lines
12 KiB
C++
316 lines
12 KiB
C++
/*-------------------------------------------------------------------*\
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| RGBController_CMARGBController.cpp |
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| Driver for Coolermaster ARGB Controller |
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| Chris M (Dr_No) 14th Oct 2020 |
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\*-------------------------------------------------------------------*/
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#include "RGBController_CMARGBController.h"
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RGBController_CMARGBController::RGBController_CMARGBController(CMARGBController *cmargb_ptr)
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{
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cmargb = cmargb_ptr;
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unsigned char speed = cmargb->GetLedSpeed();
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name = argb_header_data[cmargb->GetZoneIndex()].name;
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vendor = "Cooler Master";
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type = DEVICE_TYPE_LEDSTRIP;
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description = cmargb->GetDeviceName();
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version = "1.0";
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serial = cmargb->GetSerial();
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location = cmargb->GetLocation();
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if ( argb_header_data[cmargb->GetZoneIndex()].digital)
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{
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mode Off;
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Off.name = "Turn Off";
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Off.value = CM_ARGB_MODE_OFF;
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Off.color_mode = MODE_COLORS_NONE;
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modes.push_back(Off);
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mode Reload;
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Reload.name = "Reload";
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Reload.value = CM_ARGB_MODE_RELOAD;
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Reload.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_RANDOM_COLOR;
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Reload.colors_min = 1;
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Reload.colors_max = 1;
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Reload.colors.resize(Reload.colors_max);
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Reload.speed_min = CM_ARGB_SPEED_SLOWEST;
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Reload.speed_max = CM_ARGB_SPEED_FASTEST;
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Reload.color_mode = MODE_COLORS_RANDOM;
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Reload.speed = speed;
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modes.push_back(Reload);
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mode Recoil;
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Recoil.name = "Recoil";
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Recoil.value = CM_ARGB_MODE_RECOIL;
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Recoil.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_RANDOM_COLOR;
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Recoil.colors_min = 1;
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Recoil.colors_max = 1;
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Recoil.colors.resize(Reload.colors_max);
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Recoil.speed_min = CM_ARGB_SPEED_SLOWEST;
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Recoil.speed_max = CM_ARGB_SPEED_FASTEST;
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Recoil.color_mode = MODE_COLORS_RANDOM;
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Recoil.speed = speed;
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modes.push_back(Recoil);
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mode Breathing;
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Breathing.name = "Breathing";
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Breathing.value = CM_ARGB_MODE_BREATHING;
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Breathing.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_RANDOM_COLOR;
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Breathing.colors_min = 1;
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Breathing.colors_max = 1;
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Breathing.colors.resize(Reload.colors_max);
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Breathing.speed_min = CM_ARGB_SPEED_SLOWEST;
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Breathing.speed_max = CM_ARGB_SPEED_FASTEST;
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Breathing.color_mode = MODE_COLORS_RANDOM;
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Breathing.speed = speed;
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modes.push_back(Breathing);
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mode Refill;
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Refill.name = "Refill";
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Refill.value = CM_ARGB_MODE_REFILL;
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Refill.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_RANDOM_COLOR;
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Refill.colors_min = 1;
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Refill.colors_max = 1;
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Refill.colors.resize(Reload.colors_max);
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Refill.speed_min = CM_ARGB_SPEED_SLOWEST;
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Refill.speed_max = CM_ARGB_SPEED_FASTEST;
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Refill.color_mode = MODE_COLORS_RANDOM;
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Refill.speed = speed;
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modes.push_back(Refill);
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mode Demo;
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Demo.name = "Demo";
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Demo.value = CM_ARGB_MODE_DEMO;
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Demo.flags = MODE_FLAG_HAS_SPEED;
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Demo.speed_min = CM_ARGB_SPEED_SLOWEST;
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Demo.speed_max = CM_ARGB_SPEED_FASTEST;
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Demo.color_mode = MODE_COLORS_NONE;
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Demo.speed = speed;
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modes.push_back(Demo);
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mode Spectrum;
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Spectrum.name = "Spectrum";
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Spectrum.value = CM_ARGB_MODE_SPECTRUM;
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Spectrum.flags = MODE_FLAG_HAS_SPEED;
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Spectrum.speed_min = CM_ARGB_SPEED_SLOWEST;
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Spectrum.speed_max = CM_ARGB_SPEED_FASTEST;
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Spectrum.color_mode = MODE_COLORS_NONE;
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Spectrum.speed = speed;
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modes.push_back(Spectrum);
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mode FillFlow;
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FillFlow.name = "Fill Flow";
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FillFlow.value = CM_ARGB_MODE_FILLFLOW;
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FillFlow.flags = MODE_FLAG_HAS_SPEED;
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FillFlow.speed_min = CM_ARGB_SPEED_SLOWEST;
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FillFlow.speed_max = CM_ARGB_SPEED_FASTEST;
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FillFlow.color_mode = MODE_COLORS_NONE;
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FillFlow.speed = speed;
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modes.push_back(FillFlow);
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mode Rainbow;
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Rainbow.name = "Rainbow";
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Rainbow.value = CM_ARGB_MODE_RAINBOW;
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Rainbow.flags = MODE_FLAG_HAS_SPEED;
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Rainbow.speed_min = CM_ARGB_SPEED_SLOWEST;
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Rainbow.speed_max = CM_ARGB_SPEED_FASTEST;
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Rainbow.color_mode = MODE_COLORS_NONE;
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Rainbow.speed = speed;
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modes.push_back(Rainbow);
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mode Direct;
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Direct.name = "Direct";
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Direct.value = CM_ARGB_MODE_DIRECT;
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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 PassThru;
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PassThru.name = "Pass Thru";
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PassThru.value = CM_ARGB_MODE_PASSTHRU;
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PassThru.color_mode = MODE_COLORS_NONE;
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modes.push_back(PassThru);
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}
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else
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{
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mode Off;
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Off.name = "Turn Off";
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Off.value = CM_RGB_MODE_OFF;
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Off.color_mode = MODE_COLORS_NONE;
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modes.push_back(Off);
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mode Breathing;
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Breathing.name = "Breathing";
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Breathing.value = CM_RGB_MODE_BREATHING;
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Breathing.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_RANDOM_COLOR;
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Breathing.colors_min = 1;
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Breathing.colors_max = 1;
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Breathing.colors.resize(Breathing.colors_max);
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Breathing.speed_min = CM_ARGB_SPEED_SLOWEST;
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Breathing.speed_max = CM_ARGB_SPEED_FASTEST;
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Breathing.color_mode = MODE_COLORS_RANDOM;
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Breathing.speed = speed;
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modes.push_back(Breathing);
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mode Flash;
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Breathing.name = "Flash";
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Breathing.value = CM_RGB_MODE_FLASH;
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Breathing.flags = MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_RANDOM_COLOR;
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Breathing.colors_min = 1;
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Breathing.colors_max = 1;
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Breathing.colors.resize(Breathing.colors_max);
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Breathing.speed_min = CM_ARGB_SPEED_SLOWEST;
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Breathing.speed_max = CM_ARGB_SPEED_FASTEST;
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Breathing.color_mode = MODE_COLORS_RANDOM;
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Breathing.speed = speed;
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modes.push_back(Breathing);
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mode ColourCycle;
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ColourCycle.name = "Colour Cycle";
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ColourCycle.value = CM_RGB_MODE_COLOUR_CYCLE;
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ColourCycle.flags = MODE_FLAG_HAS_SPEED;
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ColourCycle.speed_min = CM_ARGB_SPEED_SLOWEST;
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ColourCycle.speed_max = CM_ARGB_SPEED_FASTEST;
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ColourCycle.color_mode = MODE_COLORS_NONE;
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ColourCycle.speed = speed;
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modes.push_back(ColourCycle);
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mode PassThru;
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PassThru.name = "Pass Thru";
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PassThru.value = CM_RGB_MODE_PASSTHRU;
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PassThru.color_mode = MODE_COLORS_NONE;
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modes.push_back(PassThru);
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}
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Init_Controller(); //Only processed on first run
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SetupZones();
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//active_mode = cmargb->GetMode();
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}
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RGBController_CMARGBController::~RGBController_CMARGBController()
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{
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}
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void RGBController_CMARGBController::Init_Controller()
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{
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int zone_idx = cmargb->GetZoneIndex();
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int zone_led_count = argb_header_data[zone_idx].count;
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bool boolSingleLED = ( zone_led_count == 1 ); //If argb_header_data[zone_idx].count == 1 then the zone is ZONE_TYPE_SINGLE
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zone ARGB_zone;
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ARGB_zone.name = std::to_string(zone_idx);
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ARGB_zone.type = (boolSingleLED) ? ZONE_TYPE_SINGLE : ZONE_TYPE_LINEAR;
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ARGB_zone.leds_min = 0;
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ARGB_zone.leds_max = 64;
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ARGB_zone.leds_count = zone_led_count;
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ARGB_zone.matrix_map = NULL;
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zones.push_back(ARGB_zone);
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}
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void RGBController_CMARGBController::SetupZones()
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{
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/*-------------------------------------------------*\
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| Clear any existing color/LED configuration |
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\*-------------------------------------------------*/
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leds.clear();
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colors.clear();
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/*---------------------------------------------------------*\
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| Set up zones |
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\*---------------------------------------------------------*/
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for(std::size_t zone_idx = 0; zone_idx < zones.size(); zone_idx++)
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{
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bool boolSingleLED = (zones[zone_idx].type == ZONE_TYPE_SINGLE); //Calculated for later use
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for(unsigned int lp_idx = 0; lp_idx < zones[zone_idx].leds_count; lp_idx++)
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{
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led new_led;
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unsigned int i = std::stoi(zones[zone_idx].name);
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if(boolSingleLED)
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{
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new_led.name = i;
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new_led.value = argb_header_data[i].header;
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}
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else
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{
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new_led.name = i;
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new_led.name.append(" LED " + std::to_string(lp_idx));
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new_led.value = argb_header_data[i].header;
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}
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leds.push_back(new_led);
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}
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}
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SetupColors();
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}
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void RGBController_CMARGBController::ResizeZone(int zone, int new_size)
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{
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if((size_t) zone >= zones.size())
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{
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return;
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}
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if(((unsigned int)new_size >= zones[zone].leds_min) && ((unsigned int)new_size <= zones[zone].leds_max))
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{
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zones[zone].leds_count = new_size;
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SetupZones();
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}
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}
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void RGBController_CMARGBController::DeviceUpdateLEDs()
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{
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/*unsigned char red = RGBGetRValue(colors[0]);
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unsigned char grn = RGBGetGValue(colors[0]);
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unsigned char blu = RGBGetBValue(colors[0]);
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cmargb->SetColor(red, grn, blu);*/
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//this one
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cmargb->SetMode( modes[active_mode].value, modes[active_mode].speed );
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cmargb->SetLedsDirect( zones[0].colors, zones[0].leds_count );
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}
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void RGBController_CMARGBController::UpdateZoneLEDs(int zone)
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{
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RGBColor colour = colors[zone];
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unsigned char red = RGBGetRValue(colour);
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unsigned char grn = RGBGetGValue(colour);
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unsigned char blu = RGBGetBValue(colour);
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cmargb->SetColor(red, grn, blu);
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}
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void RGBController_CMARGBController::UpdateSingleLED(int led)
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{
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//cmargb->SetMode( modes[active_mode].value, modes[active_mode].speed );
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//cmargb->SetLedsDirect( zones[0].colors, zones[0].leds_count );
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}
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void RGBController_CMARGBController::SetCustomMode()
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{
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active_mode = CM_ARGB_MODE_DIRECT;
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}
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void RGBController_CMARGBController::DeviceUpdateMode()
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{
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if( modes[active_mode].color_mode == MODE_COLORS_MODE_SPECIFIC )
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{
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unsigned char red = RGBGetRValue(modes[active_mode].colors[0]);
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unsigned char grn = RGBGetGValue(modes[active_mode].colors[0]);
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unsigned char blu = RGBGetBValue(modes[active_mode].colors[0]);
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cmargb->SetColor(red, grn, blu);
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}
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else
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{
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cmargb->SetColor(0, 0, 0); //If the mode is not colour specific then set colour to black for the random index
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}
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cmargb->SetMode( modes[active_mode].value, modes[active_mode].speed );
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}
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