/*-----------------------------------------*\ | RGBController_SRGBmodsLEDControllerV1.cpp| | | | Generic RGB Interface for SRGBmods | | LED Controller V1 | | | | Adam Honse (CalcProgrammer1) 6/30/2023 | \*-----------------------------------------*/ #include "RGBController_SRGBmodsLEDControllerV1.h" /**------------------------------------------------------------------*\ @name SRGBmods LED Controller V1 @category LEDStrip @type USB @save :x: @direct :white_check_mark: @effects :white_check_mark: @detectors DetectSRGBmodsControllers @comment \*-------------------------------------------------------------------*/ RGBController_SRGBmodsLEDControllerV1::RGBController_SRGBmodsLEDControllerV1(SRGBmodsLEDControllerV1* controller_ptr) { controller = controller_ptr; name = "SRGBmods Device"; vendor = "SRGBmods.net"; description = "SRGBmods LED Controller V1 Device"; type = DEVICE_TYPE_LEDSTRIP; location = controller->GetLocationString(); serial = controller->GetSerialString(); mode Direct; Direct.name = "Direct"; Direct.value = SRGBMODS_LED_CONTROLLER_V1_MODE_DIRECT; Direct.flags = MODE_FLAG_HAS_PER_LED_COLOR; Direct.color_mode = MODE_COLORS_PER_LED; modes.push_back(Direct); mode Rainbow; Rainbow.name = "Rainbow Wave"; Rainbow.value = SRGBMODS_LED_CONTROLLER_V1_MODE_RAINBOW; Rainbow.flags = MODE_FLAG_HAS_RANDOM_COLOR | MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_BRIGHTNESS | MODE_FLAG_AUTOMATIC_SAVE; Rainbow.color_mode = MODE_COLORS_RANDOM; Rainbow.brightness_min = 0x00; Rainbow.brightness_max = 0xFF; Rainbow.brightness = 0xFF; Rainbow.speed_min = 0x0A; Rainbow.speed_max = 0xFF; Rainbow.speed = 0x7F; modes.push_back(Rainbow); mode Breathing; Breathing.name = "Breathing"; Breathing.value = SRGBMODS_LED_CONTROLLER_V1_MODE_BREATHING_MODE_SPECIFIC; Breathing.flags = MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_RANDOM_COLOR | MODE_FLAG_HAS_SPEED | MODE_FLAG_HAS_BRIGHTNESS | MODE_FLAG_AUTOMATIC_SAVE; Breathing.color_mode = MODE_COLORS_MODE_SPECIFIC; Breathing.brightness_min = 0x00; Breathing.brightness_max = 0xFF; Breathing.brightness = 0xFF; Breathing.speed_min = 0x0A; Breathing.speed_max = 0xFF; Breathing.speed = 0x7F; Breathing.colors_min = 1; Breathing.colors_max = 1; Breathing.colors.resize(1); modes.push_back(Breathing); mode Static; Static.name = "Static"; Static.value = SRGBMODS_LED_CONTROLLER_V1_MODE_STATIC; Static.flags = MODE_FLAG_HAS_MODE_SPECIFIC_COLOR | MODE_FLAG_HAS_BRIGHTNESS | MODE_FLAG_AUTOMATIC_SAVE; Static.color_mode = MODE_COLORS_MODE_SPECIFIC; Static.brightness_min = 0x00; Static.brightness_max = 0xFF; Static.brightness = 0xFF; Static.colors_min = 1; Static.colors_max = 1; Static.colors.resize(1); modes.push_back(Static); SetupZones(); } RGBController_SRGBmodsLEDControllerV1::~RGBController_SRGBmodsLEDControllerV1() { delete controller; } void RGBController_SRGBmodsLEDControllerV1::SetupZones() { /*-------------------------------------------------*\ | Only set LED count on the first run | \*-------------------------------------------------*/ bool first_run = false; if(zones.size() == 0) { first_run = true; } /*-------------------------------------------------*\ | Clear any existing color/LED configuration | \*-------------------------------------------------*/ leds.clear(); colors.clear(); zones.resize(SRGBMODS_LED_CONTROLLER_V1_NUM_CHANNELS); /*-------------------------------------------------*\ | Set zones and leds | \*-------------------------------------------------*/ for(unsigned int channel_idx = 0; channel_idx < SRGBMODS_LED_CONTROLLER_V1_NUM_CHANNELS; channel_idx++) { char ch_idx_string[2]; snprintf(ch_idx_string, 2, "%d", channel_idx + 1); zones[channel_idx].name = "Channel "; zones[channel_idx].name.append(ch_idx_string); zones[channel_idx].type = ZONE_TYPE_LINEAR; /*-------------------------------------------------*\ | The maximum number of LEDs per channel is 800 | | according to https://srgbmods.net/lcv1/ | \*-------------------------------------------------*/ zones[channel_idx].leds_min = 0; zones[channel_idx].leds_max = 800; if(first_run) { zones[channel_idx].leds_count = 0; } zones[channel_idx].matrix_map = NULL; for(unsigned int led_ch_idx = 0; led_ch_idx < zones[channel_idx].leds_count; led_ch_idx++) { char led_idx_string[4]; snprintf(led_idx_string, 4, "%d", led_ch_idx + 1); led new_led; new_led.name = "LED "; new_led.name.append(led_idx_string); leds.push_back(new_led); leds_channel.push_back(channel_idx); } } SetupColors(); } void RGBController_SRGBmodsLEDControllerV1::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_SRGBmodsLEDControllerV1::DeviceUpdateLEDs() { if(modes[active_mode].value == SRGBMODS_LED_CONTROLLER_V1_MODE_DIRECT) { for(std::size_t zone_idx = 0; zone_idx < zones.size(); zone_idx++) { if(zones[zone_idx].leds_count > 0) { controller->SetChannelLEDs(zone_idx, zones[zone_idx].colors, zones[zone_idx].leds_count); } } } else { DeviceUpdateMode(); } } void RGBController_SRGBmodsLEDControllerV1::UpdateZoneLEDs(int /*zone*/) { DeviceUpdateLEDs(); } void RGBController_SRGBmodsLEDControllerV1::UpdateSingleLED(int /*led*/) { DeviceUpdateLEDs(); } void RGBController_SRGBmodsLEDControllerV1::DeviceUpdateMode() { if(modes[active_mode].value == SRGBMODS_LED_CONTROLLER_V1_MODE_DIRECT) { controller->SetDirect(); DeviceUpdateLEDs(); } else { unsigned int value = modes[active_mode].value; RGBColor color = 0; if(modes[active_mode].value == SRGBMODS_LED_CONTROLLER_V1_MODE_BREATHING_MODE_SPECIFIC && modes[active_mode].color_mode == MODE_COLORS_RANDOM) { value = SRGBMODS_LED_CONTROLLER_V1_MODE_BREATHING_RANDOM; } if(modes[active_mode].color_mode == MODE_COLORS_MODE_SPECIFIC) { color = modes[active_mode].colors[0]; } controller->SetConfiguration(value, modes[active_mode].speed, modes[active_mode].brightness, color); } }