/* Copyright (C) 2019 Peter Barker. All rights reserved. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include #include #include #include #ifdef WITH_SITL_RGBLED #include #include "SITL_SFML_LED.h" /* return layout size for a LED layout scheme */ bool SITL_SFML_LED::layout_size(SITL::LedLayout layout, uint16_t &xsize, uint16_t &ysize) { switch (layout) { case SITL::LedLayout::ROWS: xsize = MAX_LEDS; ysize = 16; break; case SITL::LedLayout::LUMINOUSBEE: xsize = 5 + 3 + 5; ysize = 5 + 3 + 5; break; default: return false; } return true; } /* return layout position for a LED layout scheme */ bool SITL_SFML_LED::layout_pos(SITL::LedLayout layout, uint8_t chan, uint8_t led, uint16_t &xpos, uint16_t &ypos) { switch (layout) { case SITL::LedLayout::ROWS: xpos = led; ypos = chan; break; case SITL::LedLayout::LUMINOUSBEE: /* Luminousbee has 60 LEDs, 15 on each arm, connected on PWM7 */ if (chan != 6) { return false; } if (led < 15) { xpos = 5 + led / 5; ypos = led % 5; if (((led/5) & 1) == 0) { ypos = 4 - ypos; } } else if (led < 30) { led -= 15; xpos = led % 5; ypos = 5 + led / 5; if (((led/5) & 1) == 1) { xpos = 4 - xpos; } xpos += 8; } else if (led < 45) { led -= 30; xpos = 5 + led / 5; ypos = led % 5; if (((led/5) & 1) == 0) { ypos = 4 - ypos; } ypos += 8; } else if (led < 60) { led -= 45; xpos = led % 5; ypos = 5 + led / 5; if (((led/5) & 1) == 0) { xpos = 4 - xpos; } } else { return false; } break; default: return false; } return true; } /* update simulation of WS2812 (NeoPixel) serial LEDs */ void SITL_SFML_LED::update_serial_LEDs() { static sf::RenderWindow *w; static sf::RectangleShape *leds[16][MAX_LEDS]; SITL::SIM *sitl = AP::sitl(); if (sitl == nullptr || sitl->led.send_counter == 0) { // no SerialLEDs set return; } SITL::LedLayout layout = SITL::LedLayout(sitl->led_layout.get()); if (w == nullptr) { uint8_t max_leds = 0; for (uint8_t i=0; i<16; i++) { max_leds = MAX(max_leds, sitl->led.num_leds[i]); } uint16_t xsize=0, ysize=0; if (!layout_size(layout, xsize, ysize)) { return; } w = new sf::RenderWindow(sf::VideoMode(xsize*(serialLED_size+1), ysize*(serialLED_size+1)), "SerialLED"); if (!w) { return; } w->clear(sf::Color(0, 0, 0, 255)); } WITH_SEMAPHORE(AP::notify().sf_window_mutex); sf::Event event; while (w->pollEvent(event)) { if (event.type == sf::Event::Closed) { w->close(); break; } } if (!w->isOpen()) { return; } for (uint8_t chan=0; chan<16; chan++) { for (uint8_t led=0; ledled.num_leds[chan]; led++) { uint8_t *rgb = &sitl->led.rgb[chan][led].rgb[0]; if (leds[chan][led] == nullptr) { leds[chan][led] = new sf::RectangleShape(sf::Vector2f(serialLED_size, serialLED_size)); if (!leds[chan][led]) { return; } uint16_t xpos, ypos; if (layout_pos(layout, chan, led, xpos, ypos)) { leds[chan][led]->setPosition(xpos*(serialLED_size+1), ypos*(serialLED_size+1)); } } leds[chan][led]->setFillColor(sf::Color(rgb[0], rgb[1], rgb[2], 255)); w->draw(*leds[chan][led]); } } w->display(); } void SITL_SFML_LED::update_thread(void) { while (true) { { WITH_SEMAPHORE(AP::notify().sf_window_mutex); update_serial_LEDs(); } usleep(10000); } } // trampoline for update thread void *SITL_SFML_LED::update_thread_start(void *obj) { ((SITL_SFML_LED *)obj)->update_thread(); return nullptr; } bool SITL_SFML_LED::init() { pthread_create(&thread, NULL, update_thread_start, this); return true; } void SITL_SFML_LED::update() { // all updates are done in the thread } #endif