Exemplo n.º 1
0
void showBatteryPage(void)
{
    uint8_t rowIndex = PAGE_TITLE_LINE_COUNT;

    if (feature(FEATURE_VBAT)) {
        tfp_sprintf(lineBuffer, "Volts: %d.%1d Cells: %d", vbat / 10, vbat % 10, batteryCellCount);
        padLineBuffer();
        i2c_OLED_set_line(rowIndex++);
        i2c_OLED_send_string(lineBuffer);

        uint8_t batteryPercentage = calculateBatteryPercentage();
        i2c_OLED_set_line(rowIndex++);
        drawHorizonalPercentageBar(SCREEN_CHARACTER_COLUMN_COUNT, batteryPercentage);
    }

    if (feature(FEATURE_CURRENT_METER)) {
        tfp_sprintf(lineBuffer, "Amps: %d.%2d mAh: %d", amperage / 100, amperage % 100, mAhDrawn);
        padLineBuffer();
        i2c_OLED_set_line(rowIndex++);
        i2c_OLED_send_string(lineBuffer);

        uint8_t capacityPercentage = calculateBatteryCapacityRemainingPercentage();
        i2c_OLED_set_line(rowIndex++);
        drawHorizonalPercentageBar(SCREEN_CHARACTER_COLUMN_COUNT, capacityPercentage);
    }
}
Exemplo n.º 2
0
static void sendFuelLevel(void)
{
    sendDataHead(ID_FUEL_LEVEL);

    if (batteryConfig->batteryCapacity > 0) {
        serialize16((uint16_t)calculateBatteryCapacityRemainingPercentage());
    } else {
        serialize16((uint16_t)constrain(mAhDrawn, 0, 0xFFFF));
    }
}
Exemplo n.º 3
0
static void applyLedFixedLayers()
{
    for (int ledIndex = 0; ledIndex < ledCounts.count; ledIndex++) {
        const ledConfig_t *ledConfig = &currentLedStripConfig->ledConfigs[ledIndex];
        hsvColor_t color = *getSC(LED_SCOLOR_BACKGROUND);

        int fn = ledGetFunction(ledConfig);
        int hOffset = HSV_HUE_MAX;

        switch (fn) {
            case LED_FUNCTION_COLOR:
                color = currentLedStripConfig->colors[ledGetColor(ledConfig)];
                break;

            case LED_FUNCTION_FLIGHT_MODE:
                for (unsigned i = 0; i < ARRAYLEN(flightModeToLed); i++)
                    if (!flightModeToLed[i].flightMode || FLIGHT_MODE(flightModeToLed[i].flightMode)) {
                        hsvColor_t *directionalColor = getDirectionalModeColor(ledIndex, &currentLedStripConfig->modeColors[flightModeToLed[i].ledMode]);
                        if (directionalColor) {
                            color = *directionalColor;
                        }

                        break; // stop on first match
                    }
                break;

            case LED_FUNCTION_ARM_STATE:
                color = ARMING_FLAG(ARMED) ? *getSC(LED_SCOLOR_ARMED) : *getSC(LED_SCOLOR_DISARMED);
                break;

            case LED_FUNCTION_BATTERY:
                color = HSV(RED);
                hOffset += scaleRange(calculateBatteryCapacityRemainingPercentage(), 0, 100, -30, 120);
                break;

            case LED_FUNCTION_RSSI:
                color = HSV(RED);
                hOffset += scaleRange(rssi * 100, 0, 1023, -30, 120);
                break;

            default:
                break;
        }

        if (ledGetOverlayBit(ledConfig, LED_OVERLAY_THROTTLE)) {
            hOffset += scaledAux;
        }

        color.h = (color.h + hOffset) % (HSV_HUE_MAX + 1);

        setLedHsv(ledIndex, &color);

    }
}
Exemplo n.º 4
0
static void showStatusPage(void)
{
    uint8_t rowIndex = PAGE_TITLE_LINE_COUNT;

    if (feature(FEATURE_VBAT)) {
        i2c_OLED_set_line(rowIndex++);
        tfp_sprintf(lineBuffer, "V: %d.%1d ", vbat / 10, vbat % 10);
        padLineBufferToChar(12);
        i2c_OLED_send_string(lineBuffer);

        uint8_t batteryPercentage = calculateBatteryPercentage();
        drawHorizonalPercentageBar(10, batteryPercentage);
    }

    if (feature(FEATURE_CURRENT_METER)) {
        i2c_OLED_set_line(rowIndex++);
        tfp_sprintf(lineBuffer, "mAh: %d", mAhDrawn);
        padLineBufferToChar(12);
        i2c_OLED_send_string(lineBuffer);

        uint8_t capacityPercentage = calculateBatteryCapacityRemainingPercentage();
        drawHorizonalPercentageBar(10, capacityPercentage);
    }

#ifdef GPS
    if (feature(FEATURE_GPS)) {
        tfp_sprintf(lineBuffer, "Sats: %d", gpsSol.numSat);
        padHalfLineBuffer();
        i2c_OLED_set_line(rowIndex);
        i2c_OLED_send_string(lineBuffer);

        tfp_sprintf(lineBuffer, "Fix: %s", gpsFixTypeText[gpsSol.fixType]);
        padHalfLineBuffer();
        i2c_OLED_set_xy(HALF_SCREEN_CHARACTER_COLUMN_COUNT, rowIndex++);
        i2c_OLED_send_string(lineBuffer);

        tfp_sprintf(lineBuffer, "HDOP: %d.%1d", gpsSol.hdop / 100, gpsSol.hdop % 100);
        padLineBuffer();
        i2c_OLED_set_line(rowIndex++);
        i2c_OLED_send_string(lineBuffer);

        tfp_sprintf(lineBuffer, "La/Lo: %d/%d", gpsSol.llh.lat / GPS_DEGREES_DIVIDER, gpsSol.llh.lon / GPS_DEGREES_DIVIDER);
        padLineBuffer();
        i2c_OLED_set_line(rowIndex++);
        i2c_OLED_send_string(lineBuffer);

    }
#endif

#ifdef MAG
    if (sensors(SENSOR_MAG)) {
        tfp_sprintf(lineBuffer, "HDG: %d", DECIDEGREES_TO_DEGREES(attitude.values.yaw));
        padHalfLineBuffer();
        i2c_OLED_set_line(rowIndex);
        i2c_OLED_send_string(lineBuffer);
    }
#endif

#ifdef BARO
    if (sensors(SENSOR_BARO)) {
        int32_t alt = baroCalculateAltitude();
        tfp_sprintf(lineBuffer, "Alt: %d", alt / 100);
        padHalfLineBuffer();
        i2c_OLED_set_xy(HALF_SCREEN_CHARACTER_COLUMN_COUNT, rowIndex);
        i2c_OLED_send_string(lineBuffer);
    }
#endif

    rowIndex++;
    char rollTrim[7], pitchTrim[7];
    formatTrimDegrees(rollTrim, boardAlignment()->rollDeciDegrees);
    formatTrimDegrees(pitchTrim, boardAlignment()->pitchDeciDegrees);
    tfp_sprintf(lineBuffer, "Acc: %sR, %sP", rollTrim, pitchTrim );
    i2c_OLED_set_line(rowIndex++);
    i2c_OLED_send_string(lineBuffer);
}