klubhaus-doorbell/boards/esp32-32e-4/DisplayDriverTFT.cpp

#include "DisplayDriverTFT.h"

#include <Arduino.h>
#include <KlubhausCore.h>
#include <TFT_eSPI.h>

extern DisplayManager display;

// ── Fonts ───────────────────────────────────────────────────
// TFT_eSPI built-in fonts for 320x480 display (scaled from 800x480)
// Using FreeFonts - scaled bitmap fonts via setTextSize would be too pixelated
// Note: FreeFonts are enabled via LOAD_GFXFF=1 in board-config.sh

void DisplayDriverTFT::setTitleFont() { _tft.setFreeFont(&FreeSansBold18pt7b); }

void DisplayDriverTFT::setBodyFont() { _tft.setFreeFont(&FreeSans12pt7b); }

void DisplayDriverTFT::setLabelFont() { _tft.setFreeFont(&FreeSans9pt7b); }

void DisplayDriverTFT::setDefaultFont() { _tft.setTextFont(2); }

// ── Test harness ───────────────────────────────────────────────

// Test harness: parse serial commands to inject synthetic touches
// Commands:
//   TEST:touch x y press   - simulate press at (x, y)
//   TEST:touch x y release - simulate release at (x, y)
//   TEST:touch clear       - clear test mode
bool DisplayDriverTFT::parseTestTouch(int* outX, int* outY, bool* outPressed) {
    if(!Serial.available())
        return false;

    if(Serial.peek() != 'T') {
        return false;
    }

    String cmd = Serial.readStringUntil('\n');
    cmd.trim();

    if(!cmd.startsWith("TEST:touch"))
        return false;

    int firstSpace = cmd.indexOf(' ');
    if(firstSpace < 0)
        return false;

    String args = cmd.substring(firstSpace + 1);
    args.trim();

    if(args.equals("clear")) {
        _testMode = false;
        Serial.println("[TEST] Test mode cleared");
        return false;
    }

    int secondSpace = args.indexOf(' ');
    if(secondSpace < 0)
        return false;

    String xStr = args.substring(0, secondSpace);
    String yState = args.substring(secondSpace + 1);
    yState.trim();

    int x = xStr.toInt();
    int y = yState.substring(0, yState.indexOf(' ')).toInt();
    String state = yState.substring(yState.indexOf(' ') + 1);
    state.trim();

    bool pressed = state.equals("press");

    Serial.printf("[TEST] Injecting touch: (%d,%d) %s\n", x, y, pressed ? "press" : "release");

    if(outX)
        *outX = x;
    if(outY)
        *outY = y;
    if(outPressed)
        *outPressed = pressed;

    _testMode = true;
    return true;
}

void DisplayDriverTFT::begin() {
    // Backlight
    pinMode(PIN_LCD_BL, OUTPUT);
    digitalWrite(PIN_LCD_BL, LOW);

    _tft.init();
    _tft.setRotation(DISPLAY_ROTATION);
    _tft.fillScreen(TFT_BLACK);

    Serial.printf("[GFX] Display OK: %dx%d\n", DISPLAY_WIDTH, DISPLAY_HEIGHT);
    Serial.flush();

    // Debug: check if touch controller is responding
    uint16_t z = _tft.getTouchRawZ();
    Serial.printf("[TOUCH] Raw Z=%d (non-zero = controller detected)\n", z);
    Serial.flush();

    ScreenState st;
    st.screen = ScreenID::BOOT;
    st.bootStage = BootStage::SPLASH;
    drawBoot(st);

    digitalWrite(PIN_LCD_BL, HIGH);
    Serial.println("[GFX] Backlight ON");
    Serial.flush();
}

void DisplayDriverTFT::setBacklight(bool on) { digitalWrite(PIN_LCD_BL, on ? HIGH : LOW); }

// ── Rendering ───────────────────────────────────────────────

void DisplayDriverTFT::render(const ScreenState& st) {
    if(st.screen != _lastScreen
        || (st.screen == ScreenID::BOOT && st.bootStage != _lastBootStage)) {
        _needsRedraw = true;
        _lastScreen = st.screen;
        _lastBootStage = st.bootStage;
    }

    switch(st.screen) {
    case ScreenID::BOOT:
        if(_needsRedraw) {
            drawBoot(st);
            _needsRedraw = false;
        }
        break;
    case ScreenID::ALERT:
        drawAlert(st);
        break;

    case ScreenID::DASHBOARD:
        if(_needsRedraw) {
            drawDashboard(st);
            _needsRedraw = false;
        }
        break;
    case ScreenID::OFF:
        if(_needsRedraw) {
            _tft.fillScreen(TFT_BLACK);
            _needsRedraw = false;
        }
        break;
    }
}

void DisplayDriverTFT::drawBoot(const ScreenState& st) {
    BootStage stage = st.bootStage;

    _tft.fillScreen(TFT_BLACK);
    _tft.setTextColor(TFT_WHITE, TFT_BLACK);

    setTitleFont();
    _tft.setCursor(10, 10);
    _tft.print("KLUBHAUS");

    setBodyFont();
    _tft.setCursor(10, 40);
    _tft.print(BOARD_NAME);

    // Show boot stage status
    setLabelFont();
    _tft.setCursor(10, 70);
    switch(stage) {
    case BootStage::SPLASH:
        _tft.print("Initializing...");
        break;
    case BootStage::INIT_DISPLAY:
        _tft.print("Display OK");
        break;
    case BootStage::INIT_NETWORK:
        _tft.print("Network init...");
        break;
    case BootStage::CONNECTING_WIFI:
        _tft.print("Connecting WiFi...");
        break;
    case BootStage::READY:
        _tft.print("All systems go!");
        break;
    case BootStage::DONE:
        _tft.print("Ready!");
        break;
    }
}

void DisplayDriverTFT::drawAlert(const ScreenState& st) {
    uint32_t elapsed = millis() - st.alertStartMs;
    uint8_t pulse = 180 + (uint8_t)(75.0f * sinf(elapsed / 300.0f));
    uint16_t bg = _tft.color565(pulse, 0, 0);

    _tft.fillScreen(bg);
    _tft.setTextColor(TFT_WHITE, bg);

    setTitleFont();
    _tft.setCursor(10, 20);
    _tft.print(st.alertTitle.length() > 0 ? st.alertTitle : "ALERT");

    setBodyFont();
    _tft.setCursor(10, 80);
    _tft.print(st.alertBody);

    setLabelFont();
    _tft.setCursor(10, DISPLAY_HEIGHT - 20);
    _tft.print("Hold to silence...");
}

void DisplayDriverTFT::drawDashboard(const ScreenState& st) {
    _tft.fillScreen(TFT_BLACK);

    // Header
    _tft.fillRect(0, 0, DISPLAY_WIDTH, 30, 0x1A1A); // Dark gray header
    setBodyFont();
    _tft.setTextColor(TFT_WHITE);
    _tft.setCursor(5, 10);
    _tft.print("KLUBHAUS");

    // WiFi indicator
    _tft.setCursor(DISPLAY_WIDTH - 60, 10);
    _tft.print(st.wifiSsid.length() > 0 ? "WiFi:ON" : "WiFi:OFF");

    // Get tile layouts from library helper
    int tileCount = display.calculateDashboardLayouts(30, 8);
    const TileLayout* layouts = display.getTileLayouts();

    const char* tileLabels[] = { "Alert", "Silent", "Status", "Reboot" };
    const uint16_t tileColors[] = { 0x0280, 0x0400, 0x0440, 0x0100 };

    for(int i = 0; i < tileCount && i < 4; i++) {
        const TileLayout& lay = layouts[i];
        int x = lay.x;
        int y = lay.y;
        int w = lay.w;
        int h = lay.h;

        // Tile background
        _tft.fillRoundRect(x, y, w, h, 8, tileColors[i]);

        // Tile border
        _tft.drawRoundRect(x, y, w, h, 8, TFT_WHITE);

        // Tile label
        setBodyFont();
        _tft.setTextColor(TFT_WHITE);
        int textLen = strlen(tileLabels[i]);
        int textW = textLen * 12;
        _tft.setCursor(x + w / 2 - textW / 2, y + h / 2 - 10);
        _tft.print(tileLabels[i]);
    }
}

// ── Touch ───────────────────────────────────────────────────

TouchEvent DisplayDriverTFT::readTouch() {
    TouchEvent evt;

    // Check for test injection via serial
    int testX, testY;
    bool testPressed;
    if(parseTestTouch(&testX, &testY, &testPressed)) {
        if(testPressed && !_touchWasPressed) {
            evt.pressed = true;
            _touchDownX = testX;
            _touchDownY = testY;
            evt.downX = _touchDownX;
            evt.downY = _touchDownY;
        } else if(!testPressed && _touchWasPressed) {
            evt.released = true;
            evt.downX = _touchDownX;
            evt.downY = _touchDownY;
        }

        if(testPressed) {
            evt.x = testX;
            evt.y = testY;
            evt.downX = _touchDownX;
            evt.downY = _touchDownY;
        }

        _touchWasPressed = testPressed;
        return evt;
    }

    uint16_t tx, ty;
    uint8_t touched = _tft.getTouch(&tx, &ty, 100);

    // Detect transitions (press/release)
    if(touched && !_touchWasPressed) {
        // Press transition: finger just touched down
        evt.pressed = true;
        _touchDownX = tx;
        _touchDownY = ty;
        evt.downX = _touchDownX;
        evt.downY = _touchDownY;
    } else if(!touched && _touchWasPressed) {
        // Release transition: finger just lifted
        evt.released = true;
        evt.downX = _touchDownX;
        evt.downY = _touchDownY;
    }

    // Current position if still touched
    if(touched) {
        evt.x = tx;
        evt.y = ty;
        evt.downX = _touchDownX;
        evt.downY = _touchDownY;
    }

    // Track previous state for next call
    _touchWasPressed = touched;
    return evt;
}

void DisplayDriverTFT::transformTouch(int* x, int* y) {
    // Resistive touch panel is rotated 90° vs display - swap coordinates
    int temp = *x;
    *x = *y;
    *y = temp;
}

HoldState DisplayDriverTFT::updateHold(unsigned long holdMs) {
    HoldState h;
    TouchEvent t = readTouch();

    if(t.pressed) {
        if(!_holdActive) {
            _holdActive = true;
            _holdStartMs = millis();
            h.started = true;
        }
        uint32_t held = millis() - _holdStartMs;
        h.active = true;
        h.progress = constrain((float)held / (float)holdMs, 0.0f, 1.0f);
        h.completed = (held >= holdMs);

        // Simple progress bar at bottom of screen
        int barW = (int)(DISPLAY_WIDTH * h.progress);
        _tft.fillRect(0, DISPLAY_HEIGHT - 8, barW, 8, TFT_WHITE);
        _tft.fillRect(barW, DISPLAY_HEIGHT - 8, DISPLAY_WIDTH - barW, 8, TFT_DARKGREY);
    } else {
        if(_holdActive) {
            // Clear the progress bar when released
            _tft.fillRect(0, DISPLAY_HEIGHT - 8, DISPLAY_WIDTH, 8, TFT_DARKGREY);
        }
        _holdActive = false;
    }
    return h;
}

void DisplayDriverTFT::updateHint(int x, int y, bool active) {
    float period = active ? 500.0f : 2000.0f;
    float t = fmodf(millis(), period) / period;
    uint8_t v = static_cast<uint8_t>(30.0f + 30.0f * sinf(t * 2.0f * PI));
    uint16_t col = _tft.color565(v, v, v);
    _tft.drawRect(x - 40, y - 20, 80, 40, col);
}