mirror of
https://github.com/CalcProgrammer1/OpenRGB.git
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524675108d
+ Added build-supported-devices.sh script + Added new target in CI/CD to build at compile time
346 lines
12 KiB
C++
346 lines
12 KiB
C++
#include "RGBController_RazerAddressable.h"
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#include "RazerDevices.h"
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#include <string.h>
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/**------------------------------------------------------------------*\
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@name Razer ARGB
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@category LEDStrip
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@type USB
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@save :warning:
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@direct :white_check_mark:
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@effects :white_check_mark:
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@detectors DetectRazerARGBControllers
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@comment
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\*-------------------------------------------------------------------*/
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RGBController_RazerAddressable::RGBController_RazerAddressable(RazerController* controller_ptr)
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{
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controller = controller_ptr;
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name = controller->GetName();
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vendor = "Razer";
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type = controller->GetDeviceType();
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description = "Razer Addressable Device";
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location = controller->GetDeviceLocation();
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version = controller->GetFirmwareString();
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serial = controller->GetSerialString();
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mode Direct;
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Direct.name = "Direct";
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Direct.value = RAZER_ADDRESSABLE_MODE_DIRECT;
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Direct.flags = MODE_FLAG_HAS_PER_LED_COLOR | MODE_FLAG_HAS_BRIGHTNESS;
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Direct.color_mode = MODE_COLORS_PER_LED;
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Direct.brightness_min = 0;
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Direct.brightness_max = 255;
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Direct.brightness = 255;
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modes.push_back(Direct);
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mode Off;
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Off.name = "Off";
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Off.value = RAZER_ADDRESSABLE_MODE_OFF;
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Off.flags = 0;
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Off.color_mode = MODE_COLORS_NONE;
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modes.push_back(Off);
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mode Static;
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Static.name = "Static";
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Static.value = RAZER_ADDRESSABLE_MODE_STATIC;
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Static.flags = MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_BRIGHTNESS;
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Static.color_mode = MODE_COLORS_MODE_SPECIFIC;
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Static.colors_min = 1;
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Static.colors_max = 1;
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Static.colors.resize(1);
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Static.brightness_min = 0;
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Static.brightness_max = 255;
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Static.brightness = 255;
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modes.push_back(Static);
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mode Breathing;
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Breathing.name = "Breathing";
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Breathing.value = RAZER_ADDRESSABLE_MODE_BREATHING;
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Breathing.flags = MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_RANDOM_COLOR | MODE_FLAG_HAS_BRIGHTNESS;
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Breathing.color_mode = MODE_COLORS_MODE_SPECIFIC;
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Breathing.colors_min = 1;
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Breathing.colors_max = 2;
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Breathing.colors.resize(1);
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Breathing.brightness_min = 0;
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Breathing.brightness_max = 255;
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Breathing.brightness = 255;
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modes.push_back(Breathing);
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mode SpectrumCycle;
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SpectrumCycle.name = "Spectrum Cycle";
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SpectrumCycle.value = RAZER_ADDRESSABLE_MODE_SPECTRUM_CYCLE;
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SpectrumCycle.flags = MODE_FLAG_HAS_BRIGHTNESS;
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SpectrumCycle.color_mode = MODE_COLORS_NONE;
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SpectrumCycle.brightness_min = 0;
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SpectrumCycle.brightness_max = 255;
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SpectrumCycle.brightness = 255;
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modes.push_back(SpectrumCycle);
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if(controller->SupportsWave())
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{
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mode Wave;
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Wave.name = "Wave";
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Wave.value = RAZER_ADDRESSABLE_MODE_WAVE;
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Wave.flags = MODE_FLAG_HAS_DIRECTION_LR | MODE_FLAG_HAS_BRIGHTNESS;
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Wave.direction = MODE_DIRECTION_RIGHT;
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Wave.color_mode = MODE_COLORS_NONE;
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Wave.brightness_min = 0;
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Wave.brightness_max = 255;
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Wave.brightness = 255;
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modes.push_back(Wave);
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}
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if(controller->SupportsReactive())
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{
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mode Reactive;
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Reactive.name = "Reactive";
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Reactive.value = RAZER_ADDRESSABLE_MODE_REACTIVE;
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Reactive.flags = MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_BRIGHTNESS;
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Reactive.color_mode = MODE_COLORS_MODE_SPECIFIC;
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Reactive.colors_min = 1;
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Reactive.colors_max = 1;
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Reactive.colors.resize(1);
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Reactive.brightness_min = 0;
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Reactive.brightness_max = 255;
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Reactive.brightness = 255;
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modes.push_back(Reactive);
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}
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SetupZones();
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}
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RGBController_RazerAddressable::~RGBController_RazerAddressable()
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{
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delete controller;
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}
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void RGBController_RazerAddressable::SetupZones()
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{
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unsigned int device_index = controller->GetDeviceIndex();
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unsigned int zone_count = 0;
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/*-------------------------------------------------*\
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| Only set LED count on the first run |
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\*-------------------------------------------------*/
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bool first_run = false;
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if(zones.size() == 0)
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{
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first_run = true;
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}
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/*-------------------------------------------------*\
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| Count the number of zones for this device |
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\*-------------------------------------------------*/
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for(unsigned int zone_id = 0; zone_id < RAZER_MAX_ZONES; zone_id++)
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{
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if(device_list[device_index]->zones[zone_id] != NULL)
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{
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zone_count++;
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}
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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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zones.resize(zone_count);
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/*---------------------------------------------------------*\
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| Fill in zone information based on device table |
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\*---------------------------------------------------------*/
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zone_count = 0;
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for(unsigned int zone_id = 0; zone_id < RAZER_MAX_ZONES; zone_id++)
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{
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if(device_list[device_index]->zones[zone_id] != NULL)
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{
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zones[zone_count].name = device_list[device_index]->zones[zone_id]->name;
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zones[zone_count].type = device_list[device_index]->zones[zone_id]->type;
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zones[zone_count].leds_min = 0;
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zones[zone_count].leds_max = device_list[device_index]->zones[zone_id]->rows * device_list[device_index]->zones[zone_id]->cols;
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if(first_run)
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{
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zones[zone_count].leds_count = 0;
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}
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if(zones[zone_count].type == ZONE_TYPE_MATRIX)
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{
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matrix_map_type * new_map = new matrix_map_type;
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zones[zone_count].matrix_map = new_map;
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new_map->height = device_list[device_index]->zones[zone_id]->rows;
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new_map->width = device_list[device_index]->zones[zone_id]->cols;
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new_map->map = new unsigned int[new_map->height * new_map->width];
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for(unsigned int y = 0; y < new_map->height; y++)
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{
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for(unsigned int x = 0; x < new_map->width; x++)
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{
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new_map->map[(y * new_map->width) + x] = (y * new_map->width) + x;
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}
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}
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}
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else
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{
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zones[zone_count].matrix_map = NULL;
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}
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zone_count++;
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}
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}
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for(unsigned int zone_id = 0; zone_id < zones.size(); zone_id++)
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{
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for(unsigned int led_id = 0; led_id < zones[zone_id].leds_count; led_id++)
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{
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led new_led;
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new_led.name = "Channel " + std::to_string(zone_id + 1) + ", LED " + std::to_string(led_id + 1);
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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_RazerAddressable::ResizeZone(int zone, int new_size)
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{
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/*---------------------------------------------------------*\
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| Only the Razer Chroma Addressable RGB Controller supports |
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| zone resizing |
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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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controller->SetAddressableZoneSizes(zones[0].leds_count,
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zones[1].leds_count,
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zones[2].leds_count,
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zones[3].leds_count,
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zones[4].leds_count,
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zones[5].leds_count);
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SetupZones();
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}
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}
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void RGBController_RazerAddressable::DeviceUpdateLEDs()
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{
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/*---------------------------------------------------------*\
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| Only the Razer Chroma Addressable RGB Controller supports |
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| zone resizing |
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\*---------------------------------------------------------*/
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RGBColor colors_buf[80 * 6];
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for(unsigned int zone_id = 0; zone_id < zones.size(); zone_id++)
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{
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memcpy(&colors_buf[(80 * zone_id)], zones[zone_id].colors, sizeof(RGBColor) * zones[zone_id].leds_count);
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}
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controller->SetLEDs(&colors_buf[0]);
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}
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void RGBController_RazerAddressable::UpdateZoneLEDs(int /*zone*/)
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{
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DeviceUpdateLEDs();
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}
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void RGBController_RazerAddressable::UpdateSingleLED(int /*led*/)
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{
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DeviceUpdateLEDs();
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}
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void RGBController_RazerAddressable::SetCustomMode()
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{
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active_mode = 0;
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}
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void RGBController_RazerAddressable::DeviceUpdateMode()
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{
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switch(modes[active_mode].value)
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{
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case RAZER_ADDRESSABLE_MODE_OFF:
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controller->SetModeOff();
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break;
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case RAZER_ADDRESSABLE_MODE_STATIC:
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if(modes[active_mode].colors.size() == 1)
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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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controller->SetModeStatic(red, grn, blu);
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}
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break;
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case RAZER_ADDRESSABLE_MODE_BREATHING:
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if(modes[active_mode].color_mode == MODE_COLORS_RANDOM)
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{
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controller->SetModeBreathingRandom();
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}
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else if(modes[active_mode].color_mode == MODE_COLORS_MODE_SPECIFIC)
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{
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if(modes[active_mode].colors.size() == 1)
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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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controller->SetModeBreathingOneColor(red, grn, blu);
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}
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else if(modes[active_mode].colors.size() == 2)
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{
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unsigned char red1 = RGBGetRValue(modes[active_mode].colors[0]);
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unsigned char grn1 = RGBGetGValue(modes[active_mode].colors[0]);
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unsigned char blu1 = RGBGetBValue(modes[active_mode].colors[0]);
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unsigned char red2 = RGBGetRValue(modes[active_mode].colors[1]);
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unsigned char grn2 = RGBGetGValue(modes[active_mode].colors[1]);
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unsigned char blu2 = RGBGetBValue(modes[active_mode].colors[1]);
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controller->SetModeBreathingTwoColors(red1, grn1, blu1, red2, grn2, blu2);
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}
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}
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break;
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case RAZER_ADDRESSABLE_MODE_SPECTRUM_CYCLE:
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controller->SetModeSpectrumCycle();
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break;
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case RAZER_ADDRESSABLE_MODE_WAVE:
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switch(modes[active_mode].direction)
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{
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case MODE_DIRECTION_LEFT:
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controller->SetModeWave(2);
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break;
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default:
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controller->SetModeWave(1);
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break;
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}
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break;
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}
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if(modes[active_mode].flags & MODE_FLAG_HAS_BRIGHTNESS)
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{
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controller->SetBrightness(modes[active_mode].brightness);
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}
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else
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{
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controller->SetBrightness(255);
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}
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}
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