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ui: use LPPDataHelper and conditionals for sensors page
This commit is contained in:
Florent de Lamotte
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#pragma once
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#include <stdint.h>
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#define LPP_DIGITAL_INPUT 0 // 1 byte
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#define LPP_DIGITAL_OUTPUT 1 // 1 byte
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#define LPP_ANALOG_INPUT 2 // 2 bytes, 0.01 signed
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#define LPP_ANALOG_OUTPUT 3 // 2 bytes, 0.01 signed
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#define LPP_GENERIC_SENSOR 100 // 4 bytes, unsigned
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#define LPP_LUMINOSITY 101 // 2 bytes, 1 lux unsigned
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#define LPP_PRESENCE 102 // 1 byte, bool
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#define LPP_TEMPERATURE 103 // 2 bytes, 0.1°C signed
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#define LPP_RELATIVE_HUMIDITY 104 // 1 byte, 0.5% unsigned
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#define LPP_ACCELEROMETER 113 // 2 bytes per axis, 0.001G
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#define LPP_BAROMETRIC_PRESSURE 115 // 2 bytes 0.1hPa unsigned
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#define LPP_VOLTAGE 116 // 2 bytes 0.01V unsigned
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#define LPP_CURRENT 117 // 2 bytes 0.001A unsigned
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#define LPP_FREQUENCY 118 // 4 bytes 1Hz unsigned
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#define LPP_PERCENTAGE 120 // 1 byte 1-100% unsigned
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#define LPP_ALTITUDE 121 // 2 byte 1m signed
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#define LPP_CONCENTRATION 125 // 2 bytes, 1 ppm unsigned
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#define LPP_POWER 128 // 2 byte, 1W, unsigned
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#define LPP_DISTANCE 130 // 4 byte, 0.001m, unsigned
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#define LPP_ENERGY 131 // 4 byte, 0.001kWh, unsigned
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#define LPP_DIRECTION 132 // 2 bytes, 1deg, unsigned
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#define LPP_UNIXTIME 133 // 4 bytes, unsigned
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#define LPP_GYROMETER 134 // 2 bytes per axis, 0.01 °/s
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#define LPP_COLOUR 135 // 1 byte per RGB Color
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#define LPP_GPS 136 // 3 byte lon/lat 0.0001 °, 3 bytes alt 0.01 meter
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#define LPP_SWITCH 142 // 1 byte, 0/1
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#define LPP_POLYLINE 240 // 1 byte size, 1 byte delta factor, 3 byte lon/lat 0.0001° * factor, n (size-8) bytes deltas
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// Multipliers
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#define LPP_DIGITAL_INPUT_MULT 1
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#define LPP_DIGITAL_OUTPUT_MULT 1
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#define LPP_ANALOG_INPUT_MULT 100
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#define LPP_ANALOG_OUTPUT_MULT 100
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#define LPP_GENERIC_SENSOR_MULT 1
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#define LPP_LUMINOSITY_MULT 1
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#define LPP_PRESENCE_MULT 1
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#define LPP_TEMPERATURE_MULT 10
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#define LPP_RELATIVE_HUMIDITY_MULT 2
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#define LPP_ACCELEROMETER_MULT 1000
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#define LPP_BAROMETRIC_PRESSURE_MULT 10
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#define LPP_VOLTAGE_MULT 100
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#define LPP_CURRENT_MULT 1000
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#define LPP_FREQUENCY_MULT 1
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#define LPP_PERCENTAGE_MULT 1
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#define LPP_ALTITUDE_MULT 1
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#define LPP_POWER_MULT 1
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#define LPP_DISTANCE_MULT 1000
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#define LPP_ENERGY_MULT 1000
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#define LPP_DIRECTION_MULT 1
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#define LPP_UNIXTIME_MULT 1
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#define LPP_GYROMETER_MULT 100
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#define LPP_GPS_LAT_LON_MULT 10000
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#define LPP_GPS_ALT_MULT 100
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#define LPP_SWITCH_MULT 1
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#define LPP_CONCENTRATION_MULT 1
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#define LPP_COLOUR_MULT 1
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#define LPP_ERROR_OK 0
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#define LPP_ERROR_OVERFLOW 1
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#define LPP_ERROR_UNKOWN_TYPE 2
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class LPPReader {
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const uint8_t* _buf;
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uint8_t _len;
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uint8_t _pos;
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float getFloat(const uint8_t * buffer, uint8_t size, uint32_t multiplier, bool is_signed) {
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uint32_t value = 0;
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for (uint8_t i = 0; i < size; i++) {
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value = (value << 8) + buffer[i];
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}
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int sign = 1;
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if (is_signed) {
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uint32_t bit = 1ul << ((size * 8) - 1);
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if ((value & bit) == bit) {
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value = (bit << 1) - value;
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sign = -1;
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}
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}
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return sign * ((float) value / multiplier);
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}
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public:
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LPPReader(const uint8_t buf[], uint8_t len) : _buf(buf), _len(len), _pos(0) { }
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void reset() {
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_pos = 0;
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}
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bool readHeader(uint8_t& channel, uint8_t& type) {
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if (_pos + 2 < _len) {
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channel = _buf[_pos++];
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type = _buf[_pos++];
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return channel != 0; // channel 0 is End-of-data
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}
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return false; // end-of-buffer
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}
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bool readGPS(float& lat, float& lon, float& alt) {
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lat = getFloat(&_buf[_pos], 3, 10000, true); _pos += 3;
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lon = getFloat(&_buf[_pos], 3, 10000, true); _pos += 3;
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alt = getFloat(&_buf[_pos], 3, 100, true); _pos += 3;
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return _pos <= _len;
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}
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bool readVoltage(float& voltage) {
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voltage = getFloat(&_buf[_pos], 2, 100, false); _pos += 2;
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return _pos <= _len;
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}
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bool readCurrent(float& amps) {
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amps = getFloat(&_buf[_pos], 2, 1000, false); _pos += 2;
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return _pos <= _len;
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}
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bool readPower(float& watts) {
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watts = getFloat(&_buf[_pos], 2, 1, false); _pos += 2;
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return _pos <= _len;
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}
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bool readTemperature(float& degrees_c) {
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degrees_c = getFloat(&_buf[_pos], 2, 10, true); _pos += 2;
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return _pos <= _len;
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}
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bool readPressure(float& pa) {
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pa = getFloat(&_buf[_pos], 2, 10, false); _pos += 2;
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return _pos <= _len;
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}
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bool readRelativeHumidity(float& pct) {
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pct = getFloat(&_buf[_pos], 1, 2, false); _pos += 1;
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return _pos <= _len;
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}
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bool readAltitude(float& m) {
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m = getFloat(&_buf[_pos], 2, 1, true); _pos += 2;
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return _pos <= _len;
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}
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void skipData(uint8_t type) {
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switch (type) {
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case LPP_GPS:
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_pos += 9; break;
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case LPP_POLYLINE:
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_pos += 8; break; // TODO: this is MINIMIUM
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case LPP_GYROMETER:
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case LPP_ACCELEROMETER:
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_pos += 6; break;
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case LPP_GENERIC_SENSOR:
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case LPP_FREQUENCY:
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case LPP_DISTANCE:
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case LPP_ENERGY:
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case LPP_UNIXTIME:
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_pos += 4; break;
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case LPP_COLOUR:
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_pos += 3; break;
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case LPP_ANALOG_INPUT:
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case LPP_ANALOG_OUTPUT:
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case LPP_LUMINOSITY:
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case LPP_TEMPERATURE:
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case LPP_CONCENTRATION:
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case LPP_BAROMETRIC_PRESSURE:
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case LPP_ALTITUDE:
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case LPP_VOLTAGE:
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case LPP_CURRENT:
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case LPP_DIRECTION:
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case LPP_POWER:
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_pos += 2; break;
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default:
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_pos++;
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}
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}
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};
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class LPPWriter {
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uint8_t* _buf;
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uint8_t _max_len;
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uint8_t _len;
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void write(uint16_t value) {
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_buf[_len++] = (value >> 8) & 0xFF; // MSB
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_buf[_len++] = value & 0xFF; // LSB
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}
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public:
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LPPWriter(uint8_t buf[], uint8_t max_len): _buf(buf), _max_len(max_len), _len(0) { }
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bool writeVoltage(uint8_t channel, float voltage) {
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if (_len + 4 <= _max_len) {
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_buf[_len++] = channel;
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_buf[_len++] = LPP_VOLTAGE;
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uint16_t value = voltage * 100;
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write(value);
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return true;
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}
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return false;
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}
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bool writeGPS(uint8_t channel, float lat, float lon, float alt) {
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if (_len + 11 <= _max_len) {
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_buf[_len++] = channel;
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_buf[_len++] = LPP_GPS;
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int32_t lati = lat * 10000; // we lose some precision :-(
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int32_t loni = lon * 10000;
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int32_t alti = alt * 100;
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_buf[_len++] = lati >> 16;
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_buf[_len++] = lati >> 8;
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_buf[_len++] = lati;
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_buf[_len++] = loni >> 16;
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_buf[_len++] = loni >> 8;
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_buf[_len++] = loni;
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_buf[_len++] = alti >> 16;
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_buf[_len++] = alti >> 8;
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_buf[_len++] = alti;
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return true;
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}
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return false;
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}
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uint8_t length() { return _len; }
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};
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