/*-----------------------------------------*\ | RGBController_SapphireNitroGlowV1.cpp | | | | Generic RGB Interface for OpenRGB | | Sapphire Nitro Glow V1 GPU Driver | | | | Adam Honse (CalcProgrammer1) 7/15/2020 | \*-----------------------------------------*/ #include "RGBController_SapphireNitroGlowV1.h" /**------------------------------------------------------------------*\ @name Sapphire Nitro Glow v1 @category GPU @type I2C @save :x: @direct :x: @effects :white_check_mark: @detectors DetectSapphireV1Controllers @comment \*-------------------------------------------------------------------*/ RGBController_SapphireNitroGlowV1::RGBController_SapphireNitroGlowV1(SapphireNitroGlowV1Controller* controller_ptr) { controller = controller_ptr; name = "Sapphire Nitro Glow V1 Device"; vendor = "Sapphire"; description = "Sapphire Nitro Glow V1 Device"; location = controller->GetDeviceLocation(); type = DEVICE_TYPE_GPU; mode Static; Static.name = "Static"; Static.value = 0x04; Static.flags = MODE_FLAG_HAS_PER_LED_COLOR; Static.color_mode = MODE_COLORS_PER_LED; modes.push_back(Static); mode Rainbow; Rainbow.name = "Rainbow Wave"; Rainbow.value = 0x01; Rainbow.flags = 0; Rainbow.color_mode = MODE_COLORS_NONE; modes.push_back(Rainbow); SetupZones(); ReadConfiguration(); } RGBController_SapphireNitroGlowV1::~RGBController_SapphireNitroGlowV1() { delete controller; } void RGBController_SapphireNitroGlowV1::SetupZones() { /*---------------------------------------------------------*\ | This device only has one LED, so create a single zone and | | LED for it | \*---------------------------------------------------------*/ zone* new_zone = new zone(); led* new_led = new led(); new_zone->name = "GPU Zone"; new_zone->type = ZONE_TYPE_SINGLE; new_zone->leds_min = 1; new_zone->leds_max = 1; new_zone->leds_count = 1; new_zone->matrix_map = NULL; new_led->name = "GPU LED"; /*---------------------------------------------------------*\ | Push the zone and LED on to device vectors | \*---------------------------------------------------------*/ leds.push_back(*new_led); zones.push_back(*new_zone); SetupColors(); } void RGBController_SapphireNitroGlowV1::ReadConfiguration() { colors[0] = ToRGBColor( controller->GetRed(), controller->GetGreen(), controller->GetBlue() ); switch(controller->GetMode()) { case SAPPHIRE_NITRO_GLOW_V1_MODE_CUSTOM: active_mode = 0; break; case SAPPHIRE_NITRO_GLOW_V1_MODE_RAINBOW: active_mode = 1; break; case SAPPHIRE_NITRO_GLOW_V1_MODE_BOARD_TEMPERATURE: active_mode = 2; break; case SAPPHIRE_NITRO_GLOW_V1_MODE_FAN_SPEED: active_mode = 3; break; case SAPPHIRE_NITRO_GLOW_V1_MODE_OFF: active_mode = 0; colors[0] = ToRGBColor(0, 0, 0); break; default: active_mode = 0; break; } } void RGBController_SapphireNitroGlowV1::ResizeZone(int /*zone*/, int /*new_size*/) { /*---------------------------------------------------------*\ | This device does not support resizing zones | \*---------------------------------------------------------*/ } void RGBController_SapphireNitroGlowV1::DeviceUpdateLEDs() { RGBColor color = colors[0]; unsigned char red = RGBGetRValue(color); unsigned char grn = RGBGetGValue(color); unsigned char blu = RGBGetBValue(color); controller->SetColor(red, grn, blu); } void RGBController_SapphireNitroGlowV1::UpdateZoneLEDs(int /*zone*/) { DeviceUpdateLEDs(); } void RGBController_SapphireNitroGlowV1::UpdateSingleLED(int /*led*/) { DeviceUpdateLEDs(); } void RGBController_SapphireNitroGlowV1::DeviceUpdateMode() { controller->SetMode((unsigned char)modes[(unsigned int)active_mode].value); }