library for m3Dpi robot, based on the Pololu 3pi and m3pi. m3Dpi has multiple distance sensors, gyroscope, compass and accelerometer sensor to be fully aware of its environment. With the addition of xbee or nrf24n01 module it has wireless communication capabilities.
Dependencies: m3pi ADXL345_I2C HMC5583L ITG3200 PCA9547 TLC59116 VL6180x RGB-fun xbee
M3Dpi.cpp@4:b2fe3a2545bf, 2015-12-03 (annotated)
- Committer:
- sillevl
- Date:
- Thu Dec 03 16:34:59 2015 +0000
- Revision:
- 4:b2fe3a2545bf
- Parent:
- 0:9f02ae958e20
- Child:
- 6:b60a3c005d3c
- Child:
- 10:4200a8140b10
return data structures for sensor values instead of array pointers
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
sillevl | 0:9f02ae958e20 | 1 | |
sillevl | 0:9f02ae958e20 | 2 | #include "M3Dpi.h" |
sillevl | 0:9f02ae958e20 | 3 | |
sillevl | 0:9f02ae958e20 | 4 | M3Dpi::M3Dpi() : |
sillevl | 0:9f02ae958e20 | 5 | status(STATUS_RED,STATUS_GREEN,STATUS_BLUE), |
sillevl | 0:9f02ae958e20 | 6 | compass(SDA, SCL, 0x3D), |
sillevl | 0:9f02ae958e20 | 7 | gyro(SDA, SCL), |
sillevl | 0:9f02ae958e20 | 8 | accelerometer(SDA,SCL), |
sillevl | 0:9f02ae958e20 | 9 | leds(SDA, SCL), |
sillevl | 0:9f02ae958e20 | 10 | distance(SDA, SCL), |
sillevl | 0:9f02ae958e20 | 11 | xbee(XBEE_TX, XBEE_RX, XBEE_RESET) |
sillevl | 0:9f02ae958e20 | 12 | { |
sillevl | 0:9f02ae958e20 | 13 | xbee.baud(XBEE_BAUD); |
sillevl | 0:9f02ae958e20 | 14 | xbee.reset(); |
sillevl | 0:9f02ae958e20 | 15 | |
sillevl | 0:9f02ae958e20 | 16 | gyro.setLpBandwidth(LPFBW_42HZ); |
sillevl | 0:9f02ae958e20 | 17 | |
sillevl | 0:9f02ae958e20 | 18 | //Go into standby mode to configure the device. |
sillevl | 0:9f02ae958e20 | 19 | accelerometer.setPowerControl(0x00); |
sillevl | 0:9f02ae958e20 | 20 | wait(.001); |
sillevl | 0:9f02ae958e20 | 21 | //Full resolution, +/-16g, 4mg/LSB. |
sillevl | 0:9f02ae958e20 | 22 | accelerometer.setDataFormatControl(0x0B); |
sillevl | 0:9f02ae958e20 | 23 | wait(.001); |
sillevl | 0:9f02ae958e20 | 24 | //3.2kHz data rate. |
sillevl | 0:9f02ae958e20 | 25 | accelerometer.setDataRate(ADXL345_3200HZ); |
sillevl | 0:9f02ae958e20 | 26 | wait(.001); |
sillevl | 0:9f02ae958e20 | 27 | //Measurement mode. |
sillevl | 0:9f02ae958e20 | 28 | accelerometer.setPowerControl(0x08); |
sillevl | 0:9f02ae958e20 | 29 | wait(.001); |
sillevl | 0:9f02ae958e20 | 30 | } |
sillevl | 0:9f02ae958e20 | 31 | |
sillevl | 0:9f02ae958e20 | 32 | void M3Dpi::setStatus(Color* color) |
sillevl | 0:9f02ae958e20 | 33 | { |
sillevl | 0:9f02ae958e20 | 34 | status.setColor(color); |
sillevl | 0:9f02ae958e20 | 35 | } |
sillevl | 0:9f02ae958e20 | 36 | |
sillevl | 0:9f02ae958e20 | 37 | void M3Dpi::setStatus(int color) |
sillevl | 0:9f02ae958e20 | 38 | { |
sillevl | 0:9f02ae958e20 | 39 | status.setColor(color); |
sillevl | 0:9f02ae958e20 | 40 | } |
sillevl | 0:9f02ae958e20 | 41 | |
sillevl | 0:9f02ae958e20 | 42 | |
sillevl | 0:9f02ae958e20 | 43 | void M3Dpi::setLeds(int* colors) |
sillevl | 0:9f02ae958e20 | 44 | { |
sillevl | 0:9f02ae958e20 | 45 | leds.setAll(colors); |
sillevl | 0:9f02ae958e20 | 46 | } |
sillevl | 0:9f02ae958e20 | 47 | |
sillevl | 4:b2fe3a2545bf | 48 | m3dpi::Distance M3Dpi::getDistance() |
sillevl | 0:9f02ae958e20 | 49 | { |
sillevl | 4:b2fe3a2545bf | 50 | return distance.getAllDistance(); |
sillevl | 0:9f02ae958e20 | 51 | } |
sillevl | 0:9f02ae958e20 | 52 | |
sillevl | 4:b2fe3a2545bf | 53 | m3dpi::Direction M3Dpi::getDirection() |
sillevl | 0:9f02ae958e20 | 54 | { |
sillevl | 4:b2fe3a2545bf | 55 | m3dpi::Direction direction; |
sillevl | 0:9f02ae958e20 | 56 | coord c; |
sillevl | 0:9f02ae958e20 | 57 | c = compass.getCompass(); |
sillevl | 4:b2fe3a2545bf | 58 | direction.x = c.x; |
sillevl | 4:b2fe3a2545bf | 59 | direction.y = c.y; |
sillevl | 4:b2fe3a2545bf | 60 | direction.z = c.z; |
sillevl | 4:b2fe3a2545bf | 61 | return direction; |
sillevl | 0:9f02ae958e20 | 62 | } |
sillevl | 0:9f02ae958e20 | 63 | |
sillevl | 4:b2fe3a2545bf | 64 | m3dpi::Rotation M3Dpi::getRotation() |
sillevl | 0:9f02ae958e20 | 65 | { |
sillevl | 4:b2fe3a2545bf | 66 | m3dpi::Rotation rotation; |
sillevl | 4:b2fe3a2545bf | 67 | rotation.x = gyro.getGyroX(); |
sillevl | 4:b2fe3a2545bf | 68 | rotation.y = gyro.getGyroY(); |
sillevl | 4:b2fe3a2545bf | 69 | rotation.z = gyro.getGyroZ(); |
sillevl | 4:b2fe3a2545bf | 70 | return rotation; |
sillevl | 0:9f02ae958e20 | 71 | } |
sillevl | 0:9f02ae958e20 | 72 | |
sillevl | 4:b2fe3a2545bf | 73 | m3dpi::Acceleration M3Dpi::getAcceleration() |
sillevl | 0:9f02ae958e20 | 74 | { |
sillevl | 4:b2fe3a2545bf | 75 | m3dpi::Acceleration acc; |
sillevl | 0:9f02ae958e20 | 76 | int values[3] = {0}; |
sillevl | 0:9f02ae958e20 | 77 | accelerometer.getOutput(values); |
sillevl | 4:b2fe3a2545bf | 78 | acc.x = (int16_t) values[0]; |
sillevl | 4:b2fe3a2545bf | 79 | acc.y = (int16_t) values[1]; |
sillevl | 4:b2fe3a2545bf | 80 | acc.z = (int16_t) values[2]; |
sillevl | 4:b2fe3a2545bf | 81 | return acc; |
sillevl | 0:9f02ae958e20 | 82 | } |
sillevl | 0:9f02ae958e20 | 83 | |
sillevl | 0:9f02ae958e20 | 84 | int M3Dpi::_putc(int c) |
sillevl | 0:9f02ae958e20 | 85 | { |
sillevl | 0:9f02ae958e20 | 86 | return xbee.putc(c); |
sillevl | 0:9f02ae958e20 | 87 | } |
sillevl | 0:9f02ae958e20 | 88 | |
sillevl | 0:9f02ae958e20 | 89 | int M3Dpi::_getc() |
sillevl | 0:9f02ae958e20 | 90 | { |
sillevl | 0:9f02ae958e20 | 91 | return xbee.getc(); |
sillevl | 0:9f02ae958e20 | 92 | } |
sillevl | 0:9f02ae958e20 | 93 | |
sillevl | 4:b2fe3a2545bf | 94 | time_t M3Dpi::getTime() |
sillevl | 0:9f02ae958e20 | 95 | { |
sillevl | 4:b2fe3a2545bf | 96 | return time(NULL); |
sillevl | 0:9f02ae958e20 | 97 | } |