#define _GNU_SOURCE
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <math.h>
#include "lis3dh.h"
#include "interrupt.h"
#include "i2c.h"
#define GPIO_INTERRUPT_PIN_INT1 12
int main() {
lis3dh_t lis;
/* set fn ptrs to rw on bus (i2c or SPI) */
lis.dev.init = i2c_init;
lis.dev.read = i2c_read;
lis.dev.write = i2c_write;
lis.dev.sleep = usleep;
lis.dev.deinit = i2c_deinit;
/* initialise LIS3DH struct */
if (lis3dh_init(&lis)) {
/* error handling */
}
/* reset device because it sometimes corrupts itself */
if (lis3dh_reset(&lis)) {
/* error handling */
}
/* register interrupt */
if (int_register(GPIO_INTERRUPT_PIN_INT1)) {
/* error handling */
}
/* set up config */
lis.cfg.mode = LIS3DH_MODE_HR;
lis.cfg.range = LIS3DH_FS_2G;
lis.cfg.rate = LIS3DH_ODR_400_HZ;
lis.cfg.pin1.ia1 = 1; /* allow INT1 through INT_PIN1 */
/* 1 LSb = 16 mg @ FS_2G
* 0.1g threshold = 100/16 = 6.25
* add read error, +40mg => 140/16 ~= 9
*/
lis.cfg.int1_ths = 9;
/* Duration time is measured in N/ODR where:
* --- N = The content of the intX_dur integer
* --- ODR = the data rate, eg 100, 400...
* [ODR] [1 LSb in milliseconds]
* 400 2.5
*
* For ODR=400:
* 10 ms => 10/2.5 = 5
* lis.cfg.int1_dur = 5; <== 10 ms minimum duration to trig
*/
lis.cfg.int1_dur = 0; /* instantaneous */
/* enable Y-axis and X-axis, + and - */
lis.cfg.int1.yh = 1;
lis.cfg.int1.xh = 1;
lis.cfg.int1.yl = 1;
lis.cfg.int1.xl = 1;
/* 4D movement recognition */
lis.cfg.int1.aoi = 0;
lis.cfg.int1.en_6d = 1;
lis.cfg.int1.en_4d = 1;
/* latch interrupt */
lis.cfg.int1.latch = 1;
/* set up a HP filter to ignore constant earth acceleration */
lis.cfg.filter.mode = LIS3DH_FILTER_MODE_NORMAL_REF;
lis.cfg.filter.cutoff = LIS3DH_FILTER_CUTOFF_8;
lis.cfg.filter.ia1 = 1; /* enable filter for INT1 generator */
/* write device config */
if (lis3dh_configure(&lis)) {
/* error handling */
}
/* read REFERENCE to set filter to current accel field */
if (lis3dh_reference(&lis)) {
/* error handling */
}
/* read INT1_SRC to clear old interrupt if any */
if (lis3dh_read_int1(&lis)) {
/* error handling */
}
for( ;; ) {
/* wait for INT1 to go active */
if (int_poll(GPIO_INTERRUPT_PIN_INT1)) {
/* error handling */
}
/* read INT1_SRC and by doing so clear IA on device */
if (lis3dh_read_int1(&lis)) {
/* error handling */
}
/* only print if INT1 interrupt active = 1*/
/* ZH and ZL are always 0 in 4D mode */
if (LIS3DH_INT_SRC_IA(lis.src.int1)) {
/* print received interrupt .. */
printf("IA=%d ZH=%d ZL=%d YH=%d YL=%d XH=%d XL=%d\n",
LIS3DH_INT_SRC_IA(lis.src.int1),
LIS3DH_INT_SRC_Z_HIGH(lis.src.int1),
LIS3DH_INT_SRC_Z_LOW(lis.src.int1),
LIS3DH_INT_SRC_Y_HIGH(lis.src.int1),
LIS3DH_INT_SRC_Y_LOW(lis.src.int1),
LIS3DH_INT_SRC_X_HIGH(lis.src.int1),
LIS3DH_INT_SRC_X_LOW(lis.src.int1));
}
}
/* unregister interrupt */
if (int_unregister(GPIO_INTERRUPT_PIN_INT1)) {
/* error handling */
}
/* deinitalise struct */
if (lis3dh_deinit(&lis)) {
/* error handling */
}
return 0;
}