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OpenRGB/Controllers/CorsairHydroPlatinumController/RGBController_CorsairHydroPlatinum.cpp
Nikola Jurkovic 2dd013a0a0 AIO H1xx ELITE Series
2025-08-13 17:37:10 -05:00

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4.4 KiB
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/*---------------------------------------------------------*\
| RGBController_CorsairHydroPlatinum.cpp |
| |
| RGBController for Corsair Hydro Platinum coolers |
| |
| Kasper 28 Mar 2021 |
| Nikola Jurkovic (jurkovic.nikola) 13 Aug 2025 |
| |
| This file is part of the OpenRGB project |
| SPDX-License-Identifier: GPL-2.0-only |
\*---------------------------------------------------------*/
#include "RGBController_CorsairHydroPlatinum.h"
#define NA 0xFFFFFFFF
static unsigned int matrix_map[5][5] =
{
{ NA, 11, 12, 13, NA },
{ 10, NA, 1, NA, 14 },
{ 9, 0, NA, 2, 15 },
{ 8, NA, 3, NA, 4 },
{ NA, 7, 6, 5, NA }
};
/**------------------------------------------------------------------*\
@name Corsair Hydro Platinum
@category Cooler
@type USB
@save :x:
@direct :white_check_mark:
@effects :x:
@detectors DetectCorsairHydroPlatinumControllers
@comment
\*-------------------------------------------------------------------*/
RGBController_CorsairHydroPlatinum::RGBController_CorsairHydroPlatinum(CorsairHydroPlatinumController* controller_ptr)
{
controller = controller_ptr;
name = controller->GetName();
vendor = "Corsair";
description = "Corsair Hydro Platinum Series Device";
type = DEVICE_TYPE_COOLER;
location = controller->GetLocation();
version = controller->GetFirmwareString();
mode Direct;
Direct.name = "Direct";
Direct.value = 0;
Direct.flags = MODE_FLAG_HAS_PER_LED_COLOR;
Direct.color_mode = MODE_COLORS_PER_LED;
modes.push_back(Direct);
Init_Controller();
SetupZones();
}
RGBController_CorsairHydroPlatinum::~RGBController_CorsairHydroPlatinum()
{
delete controller;
}
void RGBController_CorsairHydroPlatinum::Init_Controller()
{
zone cpu_block_zone;
cpu_block_zone.name = "CPU Block";
cpu_block_zone.type = ZONE_TYPE_MATRIX;
cpu_block_zone.leds_min = 16;
cpu_block_zone.leds_max = 16;
cpu_block_zone.leds_count = 16;
cpu_block_zone.matrix_map = new matrix_map_type;
cpu_block_zone.matrix_map->height = 5;
cpu_block_zone.matrix_map->width = 5;
cpu_block_zone.matrix_map->map = (unsigned int *)&matrix_map;
zones.push_back(cpu_block_zone);
/*-----------------------------------------------------*\
| If the device is RGB fan-capable, set up fan zones. |
\*-----------------------------------------------------*/
if(controller->HaveRgbFan())
{
zone fans_zone;
fans_zone.name = "Fans";
fans_zone.type = ZONE_TYPE_LINEAR;
fans_zone.leds_min = 0;
fans_zone.leds_max = 32;
fans_zone.leds_count = 0;
fans_zone.matrix_map = NULL;
zones.push_back(fans_zone);
}
}
void RGBController_CorsairHydroPlatinum::SetupZones()
{
/*-------------------------------------------------*\
| Clear any existing color/LED configuration |
\*-------------------------------------------------*/
leds.clear();
colors.clear();
for(unsigned int zone_idx = 0; zone_idx < zones.size(); zone_idx++)
{
for(unsigned int led_idx = 0; led_idx < zones[zone_idx].leds_count; led_idx++)
{
led new_led;
new_led.name = zones[zone_idx].name + " " + std::to_string(led_idx);;
leds.push_back(new_led);
}
}
SetupColors();
}
void RGBController_CorsairHydroPlatinum::ResizeZone(int zone, int new_size)
{
if((size_t) zone >= zones.size())
{
return;
}
if(((unsigned int)new_size >= zones[zone].leds_min) && ((unsigned int)new_size <= zones[zone].leds_max))
{
zones[zone].leds_count = new_size;
SetupZones();
}
}
void RGBController_CorsairHydroPlatinum::DeviceUpdateLEDs()
{
controller->SetupColors(colors);
}
void RGBController_CorsairHydroPlatinum::UpdateZoneLEDs(int /*zone*/)
{
DeviceUpdateLEDs();
}
void RGBController_CorsairHydroPlatinum::UpdateSingleLED(int /*led*/)
{
DeviceUpdateLEDs();
}
void RGBController_CorsairHydroPlatinum::DeviceUpdateMode()
{
}
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