/*---------------------------------------------------------*\ | RGBController_AnnePro2.cpp | | | | RGBController for Obins Lab AnnePro2 keyboard | | | | Sergey Gavrilov (DrZlo13) 06 Jun 2021 | | | | This file is part of the OpenRGB project | | SPDX-License-Identifier: GPL-2.0-or-later | \*---------------------------------------------------------*/ #include "RGBControllerKeyNames.h" #include "RGBController_AnnePro2.h" #define NA 0xFFFFFFFF #define LED_REAL_COUNT (5*14) #define LED_COUNT (LED_REAL_COUNT - 9) static unsigned int matrix_map[5][14] = { { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13 }, { 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27 }, { 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, NA }, { 41, NA, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, NA }, { 53, NA, 54, 55, NA, NA, 56, NA, NA, 57, 58, 59, 60, NA } }; static const char* zone_names[] = { ZONE_EN_KEYBOARD, }; static zone_type zone_types[] = { ZONE_TYPE_MATRIX }; static const unsigned int zone_sizes[] = { LED_COUNT, }; typedef struct { const char * name; const unsigned char idx; } annepro2_led_type; static const annepro2_led_type led_names[] = { /* Key Label Index */ { KEY_EN_ESCAPE, 0 }, { KEY_EN_1, 1 }, { KEY_EN_2, 2 }, { KEY_EN_3, 3 }, { KEY_EN_4, 4 }, { KEY_EN_5, 5 }, { KEY_EN_6, 6 }, { KEY_EN_7, 7 }, { KEY_EN_8, 8 }, { KEY_EN_9, 9 }, { KEY_EN_0, 10 }, { KEY_EN_MINUS, 11 }, { KEY_EN_EQUALS, 12 }, { KEY_EN_BACKSPACE, 13 }, { KEY_EN_TAB, 14 }, { KEY_EN_Q, 15 }, { KEY_EN_W, 16 }, { KEY_EN_E, 17 }, { KEY_EN_R, 18 }, { KEY_EN_T, 19 }, { KEY_EN_Y, 20 }, { KEY_EN_U, 21 }, { KEY_EN_I, 22 }, { KEY_EN_O, 23 }, { KEY_EN_P, 24 }, { KEY_EN_LEFT_BRACKET, 25 }, { KEY_EN_RIGHT_BRACKET, 26 }, { KEY_EN_ANSI_BACK_SLASH, 27 }, { KEY_EN_CAPS_LOCK, 28 }, { KEY_EN_A, 29 }, { KEY_EN_S, 30 }, { KEY_EN_D, 31 }, { KEY_EN_F, 32 }, { KEY_EN_G, 33 }, { KEY_EN_H, 34 }, { KEY_EN_J, 35 }, { KEY_EN_K, 36 }, { KEY_EN_L, 37 }, { KEY_EN_SEMICOLON, 38 }, { KEY_EN_QUOTE, 39 }, { KEY_EN_ANSI_ENTER, 40 }, { KEY_EN_LEFT_SHIFT, 41 }, { KEY_EN_Z, 42 }, { KEY_EN_X, 43 }, { KEY_EN_C, 44 }, { KEY_EN_V, 45 }, { KEY_EN_B, 46 }, { KEY_EN_N, 47 }, { KEY_EN_M, 48 }, { KEY_EN_COMMA, 49 }, { KEY_EN_PERIOD, 50 }, { KEY_EN_FORWARD_SLASH, 51 }, { KEY_EN_RIGHT_SHIFT, 52 }, { KEY_EN_LEFT_CONTROL, 53 }, { KEY_EN_LEFT_WINDOWS, 54 }, { KEY_EN_LEFT_ALT, 55 }, { KEY_EN_SPACE, 56 }, { KEY_EN_RIGHT_ALT, 57 }, { KEY_EN_RIGHT_FUNCTION, 58 }, { KEY_EN_MENU, 59 }, { KEY_EN_RIGHT_CONTROL, 60 }, }; /**------------------------------------------------------------------*\ @name Anne Pro 2 @category Keyboard @type USB @save :x: @direct :white_check_mark: @effects :x: @detectors DetectAnnePro2Controllers @comment \*-------------------------------------------------------------------*/ RGBController_AnnePro2::RGBController_AnnePro2(AnnePro2Controller* controller_ptr) { controller = controller_ptr; name = "Anne Pro 2"; vendor = "Obinslab"; type = DEVICE_TYPE_KEYBOARD; description = "Obinslab Anne Pro 2 Device"; location = controller->GetDeviceLocation(); serial = controller->GetSerialString(); 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); SetupZones(); } RGBController_AnnePro2::~RGBController_AnnePro2() { delete controller; } void RGBController_AnnePro2::SetupZones() { /*---------------------------------------------------------*\ | Set up zones | \*---------------------------------------------------------*/ unsigned int total_led_count = 0; for(unsigned int zone_idx = 0; zone_idx < 1; zone_idx++) { zone new_zone; new_zone.name = zone_names[zone_idx]; new_zone.type = zone_types[zone_idx]; new_zone.leds_min = zone_sizes[zone_idx]; new_zone.leds_max = zone_sizes[zone_idx]; new_zone.leds_count = zone_sizes[zone_idx]; if(zone_types[zone_idx] == ZONE_TYPE_MATRIX) { new_zone.matrix_map = new matrix_map_type; new_zone.matrix_map->height = 5; new_zone.matrix_map->width = 14; new_zone.matrix_map->map = (unsigned int *)&matrix_map; } else { new_zone.matrix_map = NULL; } zones.push_back(new_zone); total_led_count += zone_sizes[zone_idx]; } for(unsigned int led_idx = 0; led_idx < total_led_count; led_idx++) { led new_led; new_led.name = led_names[led_idx].name; new_led.value = led_names[led_idx].idx; leds.push_back(new_led); } SetupColors(); } void RGBController_AnnePro2::ResizeZone(int /*zone*/, int /*new_size*/) { /*---------------------------------------------------------*\ | This device does not support resizing zones | \*---------------------------------------------------------*/ } void RGBController_AnnePro2::DeviceUpdateLEDs() { const unsigned char frame_buf_length = LED_REAL_COUNT * 3; unsigned char frame_buf[frame_buf_length]; /*---------------------------------------------------------*\ | TODO: Send packets with multiple LED frames | \*---------------------------------------------------------*/ std::size_t led_real_idx = 0; for(std::size_t led_idx = 0; led_idx < leds.size(); led_idx++) { frame_buf[(led_real_idx * 3) + 0] = RGBGetRValue(colors[led_idx]); frame_buf[(led_real_idx * 3) + 1] = RGBGetGValue(colors[led_idx]); frame_buf[(led_real_idx * 3) + 2] = RGBGetBValue(colors[led_idx]); if(led_idx == 40 || led_idx == 41 || led_idx == 52 || led_idx == 53 || led_idx == 60) { led_real_idx++; } else if(led_idx == 55 || led_idx == 56) { led_real_idx++; led_real_idx++; } led_real_idx++; } controller->SendDirect(frame_buf_length, frame_buf); } void RGBController_AnnePro2::UpdateZoneLEDs(int /*zone*/) { DeviceUpdateLEDs(); } void RGBController_AnnePro2::UpdateSingleLED(int /*led*/) { DeviceUpdateLEDs(); } void RGBController_AnnePro2::DeviceUpdateMode() { }