/* SSD1306 - Screen module Copyright (C) 2018 by Xose Pérez 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 "GPS.h" #include "MeshService.h" #include "NodeDB.h" #include "Screen.h" #include "configs.h" #include "configuration.h" #include "graphics/images.h" #include "main.h" #include "mesh-pb-constants.h" #include "target_specific.h" #include "utils.h" using namespace meshtastic; /** @todo remove */ namespace graphics { // A text message frame + debug frame + all the node infos static FrameCallback normalFrames[MAX_NUM_NODES + NUM_EXTRA_FRAMES]; static uint32_t targetFramerate = IDLE_FRAMERATE; static char btPIN[16] = "888888"; // This image definition is here instead of images.h because it's modified dynamically by the drawBattery function uint8_t imgBattery[16] = {0xFF, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0x81, 0xE7, 0x3C}; // Threshold values for the GPS lock accuracy bar display uint32_t dopThresholds[5] = {2000, 1000, 500, 200, 100}; // Stores the last 4 of our hardware ID, to make finding the device for pairing easier static char ourId[5]; #ifdef SHOW_REDRAWS static bool heartbeat = false; #endif static void drawBootScreen(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) { // draw an xbm image. // Please note that everything that should be transitioned // needs to be drawn relative to x and y display->drawXbm(x + 32, y, icon_width, icon_height, (const uint8_t *)icon_bits); display->setFont(ArialMT_Plain_16); display->setTextAlignment(TEXT_ALIGN_CENTER); display->drawString(64 + x, SCREEN_HEIGHT - FONT_HEIGHT_16, "meshtastic.org"); display->setFont(ArialMT_Plain_10); const char *region = xstr(HW_VERSION); if (*region && region[3] == '-') // Skip past 1.0- in the 1.0-EU865 string region += 4; char buf[16]; snprintf(buf, sizeof(buf), "%s", xstr(APP_VERSION)); // Note: we don't bother printing region or now, it makes the string too long display->drawString(SCREEN_WIDTH - 20, 0, buf); } static void drawFrameBluetooth(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) { display->setTextAlignment(TEXT_ALIGN_CENTER); display->setFont(ArialMT_Plain_16); display->drawString(64 + x, y, "Bluetooth"); display->setFont(ArialMT_Plain_10); display->drawString(64 + x, FONT_HEIGHT + y + 2, "Enter this code"); display->setFont(ArialMT_Plain_24); display->drawString(64 + x, 26 + y, btPIN); display->setFont(ArialMT_Plain_10); char buf[30]; const char *name = "Name: "; strcpy(buf, name); strcat(buf, getDeviceName()); display->drawString(64 + x, 48 + y, buf); } /// Draw the last text message we received static void drawTextMessageFrame(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) { displayedNodeNum = 0; // Not currently showing a node pane MeshPacket &mp = devicestate.rx_text_message; NodeInfo *node = nodeDB.getNode(mp.from); // DEBUG_MSG("drawing text message from 0x%x: %s\n", mp.from, // mp.decoded.variant.data.decoded.bytes); // Demo for drawStringMaxWidth: // with the third parameter you can define the width after which words will // be wrapped. Currently only spaces and "-" are allowed for wrapping display->setTextAlignment(TEXT_ALIGN_LEFT); display->setFont(ArialMT_Plain_16); String sender = (node && node->has_user) ? node->user.short_name : "???"; display->drawString(0 + x, 0 + y, sender); display->setFont(ArialMT_Plain_10); // the max length of this buffer is much longer than we can possibly print static char tempBuf[96]; assert(mp.decoded.which_payload == SubPacket_data_tag); snprintf(tempBuf, sizeof(tempBuf), " %s", mp.decoded.data.payload.bytes); display->drawStringMaxWidth(4 + x, 10 + y, SCREEN_WIDTH - (6 + x), tempBuf); } /// Draw a series of fields in a column, wrapping to multiple colums if needed static void drawColumns(OLEDDisplay *display, int16_t x, int16_t y, const char **fields) { // The coordinates define the left starting point of the text display->setTextAlignment(TEXT_ALIGN_LEFT); const char **f = fields; int xo = x, yo = y; while (*f) { display->drawString(xo, yo, *f); yo += FONT_HEIGHT; if (yo > SCREEN_HEIGHT - FONT_HEIGHT) { xo += SCREEN_WIDTH / 2; yo = 0; } f++; } } #if 0 /// Draw a series of fields in a row, wrapping to multiple rows if needed /// @return the max y we ended up printing to static uint32_t drawRows(OLEDDisplay *display, int16_t x, int16_t y, const char **fields) { // The coordinates define the left starting point of the text display->setTextAlignment(TEXT_ALIGN_LEFT); const char **f = fields; int xo = x, yo = y; const int COLUMNS = 2; // hardwired for two columns per row.... int col = 0; // track which column we are on while (*f) { display->drawString(xo, yo, *f); xo += SCREEN_WIDTH / COLUMNS; // Wrap to next row, if needed. if (++col >= COLUMNS) { xo = x; yo += FONT_HEIGHT; col = 0; } f++; } if (col != 0) { // Include last incomplete line in our total. yo += FONT_HEIGHT; } return yo; } #endif // Draw power bars or a charging indicator on an image of a battery, determined by battery charge voltage or percentage. static void drawBattery(OLEDDisplay *display, int16_t x, int16_t y, uint8_t *imgBuffer, const PowerStatus *powerStatus) { static const uint8_t powerBar[3] = {0x81, 0xBD, 0xBD}; static const uint8_t lightning[8] = {0xA1, 0xA1, 0xA5, 0xAD, 0xB5, 0xA5, 0x85, 0x85}; // Clear the bar area on the battery image for (int i = 1; i < 14; i++) { imgBuffer[i] = 0x81; } // If charging, draw a charging indicator if (powerStatus->getIsCharging()) { memcpy(imgBuffer + 3, lightning, 8); // If not charging, Draw power bars } else { for (int i = 0; i < 4; i++) { if (powerStatus->getBatteryChargePercent() >= 25 * i) memcpy(imgBuffer + 1 + (i * 3), powerBar, 3); } } display->drawFastImage(x, y, 16, 8, imgBuffer); } // Draw nodes status static void drawNodes(OLEDDisplay *display, int16_t x, int16_t y, NodeStatus *nodeStatus) { char usersString[20]; sprintf(usersString, "%d/%d", nodeStatus->getNumOnline(), nodeStatus->getNumTotal()); display->drawFastImage(x, y, 8, 8, imgUser); display->drawString(x + 10, y - 2, usersString); } // Draw GPS status summary static void drawGPS(OLEDDisplay *display, int16_t x, int16_t y, const GPSStatus *gps) { if (!gps->getIsConnected()) { display->drawString(x, y - 2, "No GPS"); return; } display->drawFastImage(x, y, 6, 8, gps->getHasLock() ? imgPositionSolid : imgPositionEmpty); if (!gps->getHasLock()) { display->drawString(x + 8, y - 2, "No sats"); return; } else { char satsString[3]; uint8_t bar[2] = {0}; // Draw DOP signal bars for (int i = 0; i < 5; i++) { if (gps->getDOP() <= dopThresholds[i]) bar[0] = ~((1 << (5 - i)) - 1); else bar[0] = 0b10000000; // bar[1] = bar[0]; display->drawFastImage(x + 9 + (i * 2), y, 2, 8, bar); } // Draw satellite image display->drawFastImage(x + 24, y, 8, 8, imgSatellite); // Draw the number of satellites sprintf(satsString, "%d", gps->getNumSatellites()); display->drawString(x + 34, y - 2, satsString); } } // Draw GPS status coordinates static void drawGPScoordinates(OLEDDisplay *display, int16_t x, int16_t y, const GPSStatus *gps) { String displayLine = ""; if (!gps->getIsConnected()) { displayLine = "No GPS Module"; display->drawString(x + (SCREEN_WIDTH - (display->getStringWidth(displayLine))) / 2, y, displayLine); } else if (!gps->getHasLock()) { displayLine = "No GPS Lock"; display->drawString(x + (SCREEN_WIDTH - (display->getStringWidth(displayLine))) / 2, y, displayLine); } else { char coordinateLine[22]; sprintf(coordinateLine, "%f %f", gps->getLatitude() * 1e-7, gps->getLongitude() * 1e-7); display->drawString(x + (SCREEN_WIDTH - (display->getStringWidth(coordinateLine))) / 2, y, coordinateLine); } } /// Ported from my old java code, returns distance in meters along the globe /// surface (by magic?) static float latLongToMeter(double lat_a, double lng_a, double lat_b, double lng_b) { double pk = (180 / 3.14169); double a1 = lat_a / pk; double a2 = lng_a / pk; double b1 = lat_b / pk; double b2 = lng_b / pk; double cos_b1 = cos(b1); double cos_a1 = cos(a1); double t1 = cos_a1 * cos(a2) * cos_b1 * cos(b2); double t2 = cos_a1 * sin(a2) * cos_b1 * sin(b2); double t3 = sin(a1) * sin(b1); double tt = acos(t1 + t2 + t3); if (isnan(tt)) tt = 0.0; // Must have been the same point? return (float)(6366000 * tt); } static inline double toRadians(double deg) { return deg * PI / 180; } static inline double toDegrees(double r) { return r * 180 / PI; } /** * Computes the bearing in degrees between two points on Earth. Ported from my * old Gaggle android app. * * @param lat1 * Latitude of the first point * @param lon1 * Longitude of the first point * @param lat2 * Latitude of the second point * @param lon2 * Longitude of the second point * @return Bearing between the two points in radians. A value of 0 means due * north. */ static float bearing(double lat1, double lon1, double lat2, double lon2) { double lat1Rad = toRadians(lat1); double lat2Rad = toRadians(lat2); double deltaLonRad = toRadians(lon2 - lon1); double y = sin(deltaLonRad) * cos(lat2Rad); double x = cos(lat1Rad) * sin(lat2Rad) - (sin(lat1Rad) * cos(lat2Rad) * cos(deltaLonRad)); return atan2(y, x); } namespace { /// A basic 2D point class for drawing class Point { public: float x, y; Point(float _x, float _y) : x(_x), y(_y) {} /// Apply a rotation around zero (standard rotation matrix math) void rotate(float radian) { float cos = cosf(radian), sin = sinf(radian); float rx = x * cos - y * sin, ry = x * sin + y * cos; x = rx; y = ry; } void translate(int16_t dx, int dy) { x += dx; y += dy; } void scale(float f) { x *= f; y *= f; } }; } // namespace static void drawLine(OLEDDisplay *d, const Point &p1, const Point &p2) { d->drawLine(p1.x, p1.y, p2.x, p2.y); } /** * Given a recent lat/lon return a guess of the heading the user is walking on. * * We keep a series of "after you've gone 10 meters, what is your heading since * the last reference point?" */ static float estimatedHeading(double lat, double lon) { static double oldLat, oldLon; static float b; if (oldLat == 0) { // just prepare for next time oldLat = lat; oldLon = lon; return b; } float d = latLongToMeter(oldLat, oldLon, lat, lon); if (d < 10) // haven't moved enough, just keep current bearing return b; b = bearing(oldLat, oldLon, lat, lon); oldLat = lat; oldLon = lon; return b; } /// Sometimes we will have Position objects that only have a time, so check for /// valid lat/lon static bool hasPosition(NodeInfo *n) { return n->has_position && (n->position.latitude_i != 0 || n->position.longitude_i != 0); } /// We will skip one node - the one for us, so we just blindly loop over all /// nodes static size_t nodeIndex; static int8_t prevFrame = -1; // Draw the arrow pointing to a node's location static void drawNodeHeading(OLEDDisplay *display, int16_t compassX, int16_t compassY, float headingRadian) { Point tip(0.0f, 0.5f), tail(0.0f, -0.5f); // pointing up initially float arrowOffsetX = 0.2f, arrowOffsetY = 0.2f; Point leftArrow(tip.x - arrowOffsetX, tip.y - arrowOffsetY), rightArrow(tip.x + arrowOffsetX, tip.y - arrowOffsetY); Point *arrowPoints[] = {&tip, &tail, &leftArrow, &rightArrow}; for (int i = 0; i < 4; i++) { arrowPoints[i]->rotate(headingRadian); arrowPoints[i]->scale(COMPASS_DIAM * 0.6); arrowPoints[i]->translate(compassX, compassY); } drawLine(display, tip, tail); drawLine(display, leftArrow, tip); drawLine(display, rightArrow, tip); } // Draw the compass heading static void drawCompassHeading(OLEDDisplay *display, int16_t compassX, int16_t compassY, float myHeading) { Point N1(-0.04f, -0.65f), N2(0.04f, -0.65f); Point N3(-0.04f, -0.55f), N4(0.04f, -0.55f); Point *rosePoints[] = {&N1, &N2, &N3, &N4}; for (int i = 0; i < 4; i++) { rosePoints[i]->rotate(myHeading); rosePoints[i]->scale(-1 * COMPASS_DIAM); rosePoints[i]->translate(compassX, compassY); } drawLine(display, N1, N3); drawLine(display, N2, N4); drawLine(display, N1, N4); } /// Convert an integer GPS coords to a floating point #define DegD(i) (i * 1e-7) static void drawNodeInfo(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) { // We only advance our nodeIndex if the frame # has changed - because // drawNodeInfo will be called repeatedly while the frame is shown if (state->currentFrame != prevFrame) { prevFrame = state->currentFrame; nodeIndex = (nodeIndex + 1) % nodeDB.getNumNodes(); NodeInfo *n = nodeDB.getNodeByIndex(nodeIndex); if (n->num == nodeDB.getNodeNum()) { // Don't show our node, just skip to next nodeIndex = (nodeIndex + 1) % nodeDB.getNumNodes(); n = nodeDB.getNodeByIndex(nodeIndex); } displayedNodeNum = n->num; // We just changed to a new node screen, ask that node for updated state if it's older than 2 minutes if (sinceLastSeen(n) > 120) { service.sendNetworkPing(displayedNodeNum, true); } } NodeInfo *node = nodeDB.getNodeByIndex(nodeIndex); display->setFont(ArialMT_Plain_10); // The coordinates define the left starting point of the text display->setTextAlignment(TEXT_ALIGN_LEFT); const char *username = node->has_user ? node->user.long_name : "Unknown Name"; static char signalStr[20]; snprintf(signalStr, sizeof(signalStr), "Signal: %d%%", clamp((int)((node->snr + 10) * 5), 0, 100)); uint32_t agoSecs = sinceLastSeen(node); static char lastStr[20]; if (agoSecs < 120) // last 2 mins? snprintf(lastStr, sizeof(lastStr), "%u seconds ago", agoSecs); else if (agoSecs < 120 * 60) // last 2 hrs snprintf(lastStr, sizeof(lastStr), "%u minutes ago", agoSecs / 60); else snprintf(lastStr, sizeof(lastStr), "%u hours ago", agoSecs / 60 / 60); static char distStr[20]; strcpy(distStr, "? km"); // might not have location data float headingRadian; NodeInfo *ourNode = nodeDB.getNode(nodeDB.getNodeNum()); const char *fields[] = {username, distStr, signalStr, lastStr, NULL}; // coordinates for the center of the compass/circle int16_t compassX = x + SCREEN_WIDTH - COMPASS_DIAM / 2 - 5, compassY = y + SCREEN_HEIGHT / 2; bool hasNodeHeading = false; if (ourNode && hasPosition(ourNode)) { Position &op = ourNode->position; float myHeading = estimatedHeading(DegD(op.latitude_i), DegD(op.longitude_i)); drawCompassHeading(display, compassX, compassY, myHeading); if (hasPosition(node)) { // display direction toward node hasNodeHeading = true; Position &p = node->position; float d = latLongToMeter(DegD(p.latitude_i), DegD(p.longitude_i), DegD(op.latitude_i), DegD(op.longitude_i)); if (d < 2000) snprintf(distStr, sizeof(distStr), "%.0f m", d); else snprintf(distStr, sizeof(distStr), "%.1f km", d / 1000); // FIXME, also keep the guess at the operators heading and add/substract // it. currently we don't do this and instead draw north up only. float bearingToOther = bearing(DegD(p.latitude_i), DegD(p.longitude_i), DegD(op.latitude_i), DegD(op.longitude_i)); headingRadian = bearingToOther - myHeading; drawNodeHeading(display, compassX, compassY, headingRadian); } } if (!hasNodeHeading) // direction to node is unknown so display question mark // Debug info for gps lock errors // DEBUG_MSG("ourNode %d, ourPos %d, theirPos %d\n", !!ourNode, ourNode && hasPosition(ourNode), hasPosition(node)); display->drawString(compassX - FONT_HEIGHT / 4, compassY - FONT_HEIGHT / 2, "?"); display->drawCircle(compassX, compassY, COMPASS_DIAM / 2); // Must be after distStr is populated drawColumns(display, x, y, fields); } #if 0 void _screen_header() { if (!disp) return; // Message count //snprintf(buffer, sizeof(buffer), "#%03d", ttn_get_count() % 1000); //display->setTextAlignment(TEXT_ALIGN_LEFT); //display->drawString(0, 2, buffer); // Datetime display->setTextAlignment(TEXT_ALIGN_CENTER); display->drawString(display->getWidth()/2, 2, gps.getTimeStr()); // Satellite count display->setTextAlignment(TEXT_ALIGN_RIGHT); char buffer[10]; display->drawString(display->getWidth() - SATELLITE_IMAGE_WIDTH - 4, 2, itoa(gps.satellites.value(), buffer, 10)); display->drawXbm(display->getWidth() - SATELLITE_IMAGE_WIDTH, 0, SATELLITE_IMAGE_WIDTH, SATELLITE_IMAGE_HEIGHT, SATELLITE_IMAGE); } #endif Screen::Screen(uint8_t address, int sda, int scl) : cmdQueue(32), dispdev(address, sda, scl), ui(&dispdev) {} void Screen::handleSetOn(bool on) { if (!useDisplay) return; if (on != screenOn) { if (on) { DEBUG_MSG("Turning on screen\n"); dispdev.displayOn(); dispdev.displayOn(); } else { DEBUG_MSG("Turning off screen\n"); dispdev.displayOff(); } screenOn = on; } } void Screen::setup() { concurrency::PeriodicTask::setup(); // We don't set useDisplay until setup() is called, because some boards have a declaration of this object but the device // is never found when probing i2c and therefore we don't call setup and never want to do (invalid) accesses to this device. useDisplay = true; dispdev.resetOrientation(); // Initialising the UI will init the display too. ui.init(); ui.setTimePerTransition(300); // msecs ui.setIndicatorPosition(BOTTOM); // Defines where the first frame is located in the bar. ui.setIndicatorDirection(LEFT_RIGHT); ui.setFrameAnimation(SLIDE_LEFT); // Don't show the page swipe dots while in boot screen. ui.disableAllIndicators(); // Store a pointer to Screen so we can get to it from static functions. ui.getUiState()->userData = this; // Set the utf8 conversion function dispdev.setFontTableLookupFunction(customFontTableLookup); // Add frames. static FrameCallback bootFrames[] = {drawBootScreen}; static const int bootFrameCount = sizeof(bootFrames) / sizeof(bootFrames[0]); ui.setFrames(bootFrames, bootFrameCount); // No overlays. ui.setOverlays(nullptr, 0); // Require presses to switch between frames. ui.disableAutoTransition(); // Set up a log buffer with 3 lines, 32 chars each. dispdev.setLogBuffer(3, 32); #ifdef FLIP_SCREEN_VERTICALLY dispdev.flipScreenVertically(); #endif // Get our hardware ID uint8_t dmac[6]; getMacAddr(dmac); sprintf(ourId, "%02x%02x", dmac[4], dmac[5]); // Turn on the display. handleSetOn(true); // On some ssd1306 clones, the first draw command is discarded, so draw it // twice initially. ui.update(); ui.update(); // Subscribe to status updates powerStatusObserver.observe(&powerStatus->onNewStatus); gpsStatusObserver.observe(&gpsStatus->onNewStatus); nodeStatusObserver.observe(&nodeStatus->onNewStatus); } void Screen::doTask() { // If we don't have a screen, don't ever spend any CPU for us. if (!useDisplay) { setPeriod(0); return; } // Process incoming commands. for (;;) { ScreenCmd cmd; if (!cmdQueue.dequeue(&cmd, 0)) { break; } switch (cmd.cmd) { case Cmd::SET_ON: handleSetOn(true); break; case Cmd::SET_OFF: handleSetOn(false); break; case Cmd::ON_PRESS: handleOnPress(); break; case Cmd::START_BLUETOOTH_PIN_SCREEN: handleStartBluetoothPinScreen(cmd.bluetooth_pin); break; case Cmd::STOP_BLUETOOTH_PIN_SCREEN: case Cmd::STOP_BOOT_SCREEN: setFrames(); break; case Cmd::PRINT: handlePrint(cmd.print_text); free(cmd.print_text); break; default: DEBUG_MSG("BUG: invalid cmd"); } } if (!screenOn) { // If we didn't just wake and the screen is still off, then // stop updating until it is on again setPeriod(0); return; } // Switch to a low framerate (to save CPU) when we are not in transition // but we should only call setTargetFPS when framestate changes, because // otherwise that breaks animations. if (targetFramerate != IDLE_FRAMERATE && ui.getUiState()->frameState == FIXED) { // oldFrameState = ui.getUiState()->frameState; DEBUG_MSG("Setting idle framerate\n"); targetFramerate = IDLE_FRAMERATE; ui.setTargetFPS(targetFramerate); } // While showing the bootscreen or Bluetooth pair screen all of our // standard screen switching is stopped. if (showingNormalScreen) { // standard screen loop handling here } ui.update(); // DEBUG_MSG("want fps %d, fixed=%d\n", targetFramerate, // ui.getUiState()->frameState); If we are scrolling we need to be called // soon, otherwise just 1 fps (to save CPU) We also ask to be called twice // as fast as we really need so that any rounding errors still result with // the correct framerate setPeriod(1000 / targetFramerate); } void Screen::drawDebugInfoTrampoline(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) { Screen *screen = reinterpret_cast(state->userData); screen->debugInfo.drawFrame(display, state, x, y); } void Screen::drawDebugInfoSettingsTrampoline(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) { Screen *screen = reinterpret_cast(state->userData); screen->debugInfo.drawFrameSettings(display, state, x, y); } // restore our regular frame list void Screen::setFrames() { DEBUG_MSG("showing standard frames\n"); showingNormalScreen = true; // We don't show the node info our our node (if we have it yet - we should) size_t numnodes = nodeStatus->getNumTotal(); if (numnodes > 0) numnodes--; size_t numframes = 0; // If we have a text message - show it first if (devicestate.has_rx_text_message) normalFrames[numframes++] = drawTextMessageFrame; // then all the nodes for (size_t i = 0; i < numnodes; i++) normalFrames[numframes++] = drawNodeInfo; // then the debug info // // Since frames are basic function pointers, we have to use a helper to // call a method on debugInfo object. normalFrames[numframes++] = &Screen::drawDebugInfoTrampoline; // call a method on debugInfoScreen object (for more details) normalFrames[numframes++] = &Screen::drawDebugInfoSettingsTrampoline; ui.setFrames(normalFrames, numframes); ui.enableAllIndicators(); prevFrame = -1; // Force drawNodeInfo to pick a new node (because our list // just changed) } void Screen::handleStartBluetoothPinScreen(uint32_t pin) { DEBUG_MSG("showing bluetooth screen\n"); showingNormalScreen = false; static FrameCallback btFrames[] = {drawFrameBluetooth}; snprintf(btPIN, sizeof(btPIN), "%06u", pin); ui.disableAllIndicators(); ui.setFrames(btFrames, 1); } void Screen::handlePrint(const char *text) { DEBUG_MSG("Screen: %s", text); if (!useDisplay) return; dispdev.print(text); } void Screen::handleOnPress() { // If screen was off, just wake it, otherwise advance to next frame // If we are in a transition, the press must have bounced, drop it. if (ui.getUiState()->frameState == FIXED) { setPeriod(1); // redraw ASAP ui.nextFrame(); DEBUG_MSG("Setting fast framerate\n"); // We are about to start a transition so speed up fps targetFramerate = TRANSITION_FRAMERATE; ui.setTargetFPS(targetFramerate); } } void DebugInfo::drawFrame(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) { displayedNodeNum = 0; // Not currently showing a node pane display->setFont(ArialMT_Plain_10); // The coordinates define the left starting point of the text display->setTextAlignment(TEXT_ALIGN_LEFT); char channelStr[20]; { concurrency::LockGuard guard(&lock); snprintf(channelStr, sizeof(channelStr), "%s", channelName.c_str()); // Display power status if (powerStatus->getHasBattery()) drawBattery(display, x, y + 2, imgBattery, powerStatus); else if (powerStatus->knowsUSB()) display->drawFastImage(x, y + 2, 16, 8, powerStatus->getHasUSB() ? imgUSB : imgPower); // Display nodes status drawNodes(display, x + (SCREEN_WIDTH * 0.25), y + 2, nodeStatus); // Display GPS status drawGPS(display, x + (SCREEN_WIDTH * 0.63), y + 2, gpsStatus); } // Draw the channel name display->drawString(x, y + FONT_HEIGHT, channelStr); // Draw our hardware ID to assist with bluetooth pairing display->drawFastImage(x + SCREEN_WIDTH - (10) - display->getStringWidth(ourId), y + 2 + FONT_HEIGHT, 8, 8, imgInfo); display->drawString(x + SCREEN_WIDTH - display->getStringWidth(ourId), y + FONT_HEIGHT, ourId); // Draw any log messages display->drawLogBuffer(x, y + (FONT_HEIGHT * 2)); /* Display a heartbeat pixel that blinks every time the frame is redrawn */ #ifdef SHOW_REDRAWS if (heartbeat) display->setPixel(0, 0); heartbeat = !heartbeat; #endif } // Jm void DebugInfo::drawFrameSettings(OLEDDisplay *display, OLEDDisplayUiState *state, int16_t x, int16_t y) { displayedNodeNum = 0; // Not currently showing a node pane display->setFont(ArialMT_Plain_10); // The coordinates define the left starting point of the text display->setTextAlignment(TEXT_ALIGN_LEFT); char batStr[20]; if (powerStatus->getHasBattery()) { int batV = powerStatus->getBatteryVoltageMv() / 1000; int batCv = (powerStatus->getBatteryVoltageMv() % 1000) / 10; snprintf(batStr, sizeof(batStr), "B %01d.%02dV %3d%% %c%c", batV, batCv, powerStatus->getBatteryChargePercent(), powerStatus->getIsCharging() ? '+' : ' ', powerStatus->getHasUSB() ? 'U' : ' '); // Line 1 display->drawString(x, y, batStr); } else { // Line 1 display->drawString(x, y, String("USB")); } //TODO: Display status of the BT radio // display->drawString(x + SCREEN_WIDTH - display->getStringWidth("BT On"), y, "BT On"); // Line 2 uint32_t currentMillis = millis(); uint32_t seconds = currentMillis / 1000; uint32_t minutes = seconds / 60; uint32_t hours = minutes / 60; uint32_t days = hours / 24; currentMillis %= 1000; seconds %= 60; minutes %= 60; hours %= 24; display->drawString(x, y + FONT_HEIGHT * 1, String(days) + "d " + (hours < 10 ? "0" : "") + String(hours) + ":" + (minutes < 10 ? "0" : "") + String(minutes) + ":" + (seconds < 10 ? "0" : "") + String(seconds)); display->drawString(x + SCREEN_WIDTH - display->getStringWidth("Mode " + String(channelSettings.modem_config)), y + FONT_HEIGHT * 1, "Mode " + String(channelSettings.modem_config)); // Line 3 // TODO: Use this line for WiFi information. // display->drawString(x + (SCREEN_WIDTH - (display->getStringWidth("WiFi: 192.168.0.100"))) / 2, y + FONT_HEIGHT * 2, "WiFi: 192.168.0.100"); // Line 4 drawGPScoordinates(display, x, y + FONT_HEIGHT * 3, gpsStatus); /* Display a heartbeat pixel that blinks every time the frame is redrawn */ #ifdef SHOW_REDRAWS if (heartbeat) display->setPixel(0, 0); heartbeat = !heartbeat; #endif } // adjust Brightness cycle trough 1 to 254 as long as attachDuringLongPress is true void Screen::adjustBrightness() { if (brightness == 254) { brightness = 0; } else { brightness++; } int width = brightness / (254.00 / SCREEN_WIDTH); dispdev.drawRect(0, 30, SCREEN_WIDTH, 4); dispdev.fillRect(0, 31, width, 2); dispdev.display(); dispdev.setBrightness(brightness); } int Screen::handleStatusUpdate(const meshtastic::Status *arg) { // DEBUG_MSG("Screen got status update %d\n", arg->getStatusType()); switch (arg->getStatusType()) { case STATUS_TYPE_NODE: if (nodeDB.updateTextMessage || nodeStatus->getLastNumTotal() != nodeStatus->getNumTotal()) { setFrames(); // Regen the list of screens prevFrame = -1; // Force a GUI update setPeriod(1); // Update the screen right away } nodeDB.updateGUI = false; nodeDB.updateTextMessage = false; break; } return 0; } } // namespace graphics