| /hardware/bsp/intel/peripheral/libupm/examples/c++/ |
| H A D | lm35.cxx | 48 upm::LM35 *sensor = new upm::LM35(0); local
50 // Every half second, sample the sensor and output the temperature
54 cout << "Temperature: " << sensor->getTemperature() << " C" << endl;
63 delete sensor;
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| H A D | max44000.cxx | 33 upm::MAX44000 *sensor = new upm::MAX44000(0, ADDR); local
34 std::cout << "proximity value = " << sensor->getAmbient () << std::endl;
39 delete sensor;
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| H A D | sm130.cxx | 40 upm::SM130* sensor = new upm::SM130(); local
43 if (sensor->setBaudRate(19200))
50 sensor->reset();
52 cout << "Firmware revision: " << sensor->getFirmwareVersion() << endl;
56 if (sensor->waitForTag(5000))
59 << sensor->string2HexString(sensor->getUID()) << endl;
60 cout << "Tag Type: " << sensor->tag2String(sensor->getTagType())
66 cout << "waitForTag failed: " << sensor
[all...] |
| H A D | lsm303.cxx | 34 upm::LSM303 *sensor = new upm::LSM303(0); local
37 sensor->getCoordinates();
38 int16_t* coor = sensor->getRawCoorData(); // in XYZ order.
39 // The sensor returns XZY, but the driver compensates and makes it XYZ
46 std::cout << "coor: gX " << sensor->getCoorX()
47 << " - gY " << sensor->getCoorY()
48 << " - gZ " << sensor->getCoorZ()
53 << sensor->getHeading()
57 sensor->getAcceleration();
58 int16_t* accel = sensor
[all...] |
| H A D | max5487.cxx | 30 upm::MAX5487 *sensor = NULL; variable
45 sensor = new upm::MAX5487(7);
49 sensor->setWiperA(i);
55 sensor->setWiperA(255 - i);
63 delete sensor;
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| H A D | mg811.cxx | 50 upm::MG811 *sensor = new upm::MG811(0, 2, MG811_AREF); local
52 // Every tenth of a second, sample the sensor and output it's
57 cout << "CO2 concentration in PPM: " << sensor->ppm() << endl;
66 delete sensor;
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| H A D | micsv89.cxx | 31 * An example for using the MICSV89 sensor library.
60 upm::MICSV89 *sensor = new upm::MICSV89(6); local
64 sensor->update();
65 while(!sensor->valid());
66 cout << "co2: " << sensor->co2equ() << endl;
67 cout << "short: " << sensor->vocshort() << endl;
68 cout << "tvoc: " << sensor->tvoc() << endl;
69 cout << "resistor: " << sensor->resistor() << endl;
74 delete sensor;
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| H A D | stepmotor.cxx | 32 upm::StepMotor *sensor = NULL; variable
48 sensor = new upm::StepMotor(4, 6);
51 sensor->setSpeed (500);
52 sensor->stepForward (500);
54 sensor->stepBackwards (500);
57 sensor->setSpeed (750);
58 sensor->stepForward (500);
60 sensor->stepBackwards (500);
63 sensor->setSpeed (1000);
64 sensor
[all...] |
| H A D | tsl2561.cxx | 34 upm::TSL2561 *sensor = NULL; local
43 sensor = new upm::TSL2561();
46 fprintf(stdout, "Lux = %d\n", sensor->getLux());
51 delete(sensor);
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| H A D | wheelencoder.cxx | 47 upm::WheelEncoder* sensor = new upm::WheelEncoder(2); local
50 sensor->clearCounter();
51 sensor->startCounter();
55 // output milliseconds passed and current sensor count
56 cout << "Millis: " << sensor->getMillis() << " Count: "
57 << sensor->counter() << endl;
62 sensor->stopCounter();
67 delete sensor;
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| H A D | am2315.cxx | 33 upm::AM2315 *sensor = NULL; variable
54 sensor = new upm::AM2315(0, AM2315_I2C_ADDRESS);
56 sensor->testSensor();
59 humidity = sensor->getHumidity();
60 temperature = sensor->getTemperature();
72 delete sensor;
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| H A D | ecs1030.cxx | 32 upm::ECS1030 *sensor = NULL; variable
47 sensor = new upm::ECS1030(0);
51 std::cout << "I = " << sensor->getCurrency_A () << ", Power = " << sensor->getPower_A () << std::endl;
52 std::cout << "I = " << sensor->getCurrency_B () << ", Power = " << sensor->getPower_B () << std::endl;
57 delete sensor;
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| H A D | grovegprs.cxx | 51 void sendCommand(upm::GroveGPRS* sensor, string cmd) argument
56 sensor->writeDataStr(cmd);
59 if (sensor->dataAvailable(1000))
61 cout << "Returned: " << sensor->readDataStr(1024) << endl;
75 upm::GroveGPRS* sensor = new upm::GroveGPRS(0); local
78 if (sensor->setBaudRate(19200) != mraa::SUCCESS)
89 sendCommand(sensor, argv[1]);
95 sendCommand(sensor, "AT+CGMI");
101 sendCommand(sensor, "AT&V");
109 delete sensor;
[all...] |
| H A D | joystick12-example.cxx | 33 upm::Joystick12 *sensor = NULL; variable
49 sensor = new upm::Joystick12(0,1);
54 float x = sensor->getXInput();
55 float y = sensor->getYInput();
62 delete sensor;
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| H A D | max31723.cxx | 31 upm::MAX31723 *sensor = NULL; variable
47 sensor = new upm::MAX31723(7);
51 std::cout << "Temperature " << sensor->getTemperature() << std::endl;
58 delete sensor;
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| H A D | maxds3231m.cxx | 31 upm::MAXDS3231M *sensor = NULL; variable
48 sensor = new upm::MAXDS3231M(0, ADDR);
57 sensor->setDate (t); // Note, second should be set to 1.
62 if (sensor->getDate (t)) {
65 std::cout << "Temperature " << sensor->getTemperature() << std::endl;
72 delete sensor;
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| H A D | mlx90614.cxx | 31 upm::MLX90614 *sensor = NULL; variable
47 sensor = new upm::MLX90614(0, DEVICE_ADDR);
50 std::cout << "Object Temperature (" << sensor->readObjectTempC() << ") Ambient Temperature (" << sensor->readAmbientTempC() << ")" << std::endl;
57 delete sensor;
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| H A D | nrf24l01-broadcast.cxx | 34 upm::NRF24L01 *sensor = NULL; variable
54 sensor = new upm::NRF24L01(7, 8);
55 sensor->setBeaconingMode ();
72 sensor->sendBeaconingMsg ((uint8_t*) (*item).c_str());
81 delete sensor;
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| H A D | pulsensor.cxx | 51 Pulsensor *sensor = new Pulsensor(handler); local
53 sensor->start_sampler();
57 sensor->stop_sampler();
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| H A D | tcs3414cs.cxx | 31 upm::TCS3414CS *sensor = NULL; variable
49 // Instantiate the color sensor on I2C
50 sensor = new upm::TCS3414CS ();
54 sensor->readRGB (&rgb);
62 delete sensor;
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| H A D | th02.cxx | 31 upm::TH02 *sensor = NULL; variable
49 sensor = new upm::TH02 ();
52 temperature = sensor->getTemperature ();
53 humidity = sensor->getHumidity ();
61 delete sensor;
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| /hardware/bsp/intel/peripheral/libupm/examples/python/ |
| H A D | grovegprs.py | 28 sensor = sensorObj.GroveGPRS(0) variable
45 if (sensor.setBaudRate(19200)):
58 def sendCommand(sensor, cmd):
61 sensor.writeDataStr(cmd)
64 if (sensor.dataAvailable(1000)):
66 print sensor.readDataStr(1024)
73 sendCommand(sensor, sys.argv[1])
77 sendCommand(sensor, "AT+CGMI");
83 sendCommand(sensor, "AT&V");
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| H A D | lm35.py | 29 sensor = sensorObj.LM35(0) variable
45 # Every half second, sample the sensor and output the temperature
48 print "Temperature:", sensor.getTemperature(), "C"
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| H A D | loudness.py | 27 # Instantiate a Loudness sensor on analog pin A0, with an analog
29 sensor = sensorObj.Loudness(0, 5.0) variable
49 print "Detected loudness (volts): ", sensor.loudness()
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| H A D | mg811.py | 30 sensor = sensorObj.MG811(0, 2, 5.0) variable
46 # Every tenth of a second, sample the sensor and output it's
50 print "CO2 concentration in PPM: ", sensor.ppm()
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