}
float iio_float;
- int iio_integer;
+ int iio_int;
mraa_result_t ret;
ret = mraa_iio_write_float(iio_device0, "in_accel_scale", 0.019163);
fprintf(stdout, "IIO read %f\n", iio_float);
}
- ret = mraa_iio_write_integer(iio_device0, "scan_elements/in_accel_x_en", 1);
+ ret = mraa_iio_write_int(iio_device0, "scan_elements/in_accel_x_en", 1);
if (ret == MRAA_SUCCESS) {
- fprintf(stdout, "IIO write success\n", iio_integer);
+ fprintf(stdout, "IIO write success\n");
}
- ret = mraa_iio_read_integer(iio_device0, "scan_elements/in_accel_x_en", &iio_integer);
+ ret = mraa_iio_read_int(iio_device0, "scan_elements/in_accel_x_en", &iio_int);
if (ret == MRAA_SUCCESS) {
- fprintf(stdout, "IIO read %d\n", iio_integer);
+ fprintf(stdout, "IIO read %d\n", iio_int);
}
if (mraa_iio_trigger_buffer(iio_device0, interrupt, NULL) == MRAA_SUCCESS) {
if (iio_device6 == NULL) {
return EXIT_FAILURE;
}
- mraa_iio_write_integer(iio_device6, "events/in_proximity2_thresh_either_en", 1);
+ mraa_iio_write_int(iio_device6, "events/in_proximity2_thresh_either_en", 1);
// Blocking until event fired