problem 4 for HW 2
Dependencies: 4DGL-uLCD-SE LSM9DS0 mbed
Diff: main.cpp
- Revision:
- 0:05e5a0fe0f9d
diff -r 000000000000 -r 05e5a0fe0f9d main.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/main.cpp Wed Feb 18 14:51:57 2015 +0000 @@ -0,0 +1,106 @@ +// LSM9DS90/uLCD Demo +// ECE 4180 Lab Code Template + +#include "mbed.h" +#include "LSM9DS0.h" +#include "uLCD_4DGL.h" + +// uncomment this line to enable the uLCD for Part 4 of the lab +#define PART_4 + +// SDO_XM and SDO_G are pulled up, so our addresses are: +#define LSM9DS0_XM_ADDR 0x1D // Would be 0x1E if SDO_XM is LOW +#define LSM9DS0_G_ADDR 0x6B // Would be 0x6A if SDO_G is LOW + +// refresh time. set to 500 for part 2 and 50 for part 4 +#define REFRESH_TIME_MS 300 + +// Verify that the pin assignments below match your breadboard +LSM9DS0 imu(p9, p10, LSM9DS0_G_ADDR, LSM9DS0_XM_ADDR); +Serial pc(USBTX, USBRX); +DigitalIn sw(p18); + +#ifdef PART_4 +uLCD_4DGL lcd(p28, p27, p30); +#endif + +//Init Serial port and LSM9DS0 chip +void setup() +{ +#ifdef PART_4 + lcd.baudrate(3000000); + lcd.background_color(0); + lcd.cls(); + + lcd.printf("Initializing..."); +#endif + + // Use the begin() function to initialize the LSM9DS0 library. + // You can either call it with no parameters (the easy way): + uint16_t status = imu.begin(); + + //Make sure communication is working + pc.printf("LSM9DS0 WHO_AM_I's returned: 0x%X\n", status); + pc.printf("Should be 0x49D4\n\n"); +} + +int main() +{ + setup(); //Setup sensor and Serial + pc.printf("------ LSM0DS0 Demo -----------\n"); + lcd.cls(); + float prevheading = imu.calcHeading(); + float pi = 3.14; + float prevline_x = 30*cos(prevheading*pi/180) + 64; + float prevline_y = 30*sin(prevheading*pi/180) + 64; + float prevcirc_x = 64; + float prevcirc_y = 64; + if (sw == 1) { + lcd.line(64,64,prevline_x, prevline_y, BLUE); + lcd.circle(64, 64, 30, GREEN); + } else { + lcd.circle(64, 64, 10, BLUE); + } + while (true) + { + // TODO - add code here to read compass or accelerometer data + // and print it to the USB serial port (part 2) and display it on the uLCD (part 3) + + // Compass Trigonometry tip: you can retrieve the compass heading (in degrees) directly from + // the IMU library. Example: + // imu.readMag(); + // float heading = imu.calcHeading(); + // Remember that x = length*cos(heading) and y = length*sin(heading) + // to convert from degrees to radians (for sin/cos functions), multiply by pi/180 + sw.read(); + if (sw) { + imu.readMag(); + imu.readAccel(); + imu.readTemp(); + float heading = imu.calcHeading(); + //lcd.circle(64, 64, 30, WHITE); + lcd.line(64,64,prevline_x,prevline_y, BLACK); + lcd.circle(prevcirc_x,prevcirc_y, 10, BLACK); + float line_x = 30*cos(heading*pi/180) + 64; + float line_y = 30*sin(heading*pi/180) + 64; + lcd.circle(64, 64, 30, GREEN); + lcd.line(64,64,line_x, line_y, BLUE); + prevline_x = line_x; + prevline_y = line_y; + wait_ms(REFRESH_TIME_MS); + } else { + imu.readMag(); + imu.readAccel(); + //lcd.circle(64, 64, 30, WHITE); + lcd.line(64,64,prevline_x,prevline_y, BLACK); + lcd.circle(64, 64, 30, BLACK); + lcd.circle(prevcirc_x,prevcirc_y, 10, BLACK); + float circ_x = imu.ax_raw*0.01 + 64; + float circ_y = imu.ay_raw*0.01 + 64; + lcd.circle(circ_x,circ_y,10, BLUE); + prevcirc_x = circ_x; + prevcirc_y = circ_y; + wait_ms(REFRESH_TIME_MS); + } + } +}