Loading drivers/hid/hid-qvr.c +18 −26 Original line number Diff line number Diff line Loading @@ -106,7 +106,6 @@ struct qvr_external_sensor { static DECLARE_WAIT_QUEUE_HEAD(wq); static struct qvr_external_sensor qvr_external_sensor; static uint8_t DEBUG_ORIENTATION; static int read_calibration_len(void) { Loading Loading @@ -256,10 +255,6 @@ static int qvr_send_package_wrap(u8 *message, int msize, struct hid_device *hid) memcpy((void *)&imuData, (void *)message, sizeof(struct external_imu_format)); if (!sensor->ts_base) { if (imuData.gNumerator == 1 && imuData.aNumerator == 1) DEBUG_ORIENTATION = 1; else DEBUG_ORIENTATION = 0; pr_debug("qvr msize = %d reportID=%d padding=%d\n" "qvr version=%d numImu=%d nspip=%d pSize=%d\n" "qvr imuID=%d sampleID=%d temp=%d\n", Loading Loading @@ -303,27 +298,24 @@ static int qvr_send_package_wrap(u8 *message, int msize, struct hid_device *hid) data->mts = data->ats; data->gts = data->ats; if (DEBUG_ORIENTATION == 1) { data->ax = -imuData.ax0; data->ax = imuData.ax0; data->ay = imuData.ay0; data->az = -imuData.az0; data->gx = -imuData.gx0; data->az = imuData.az0; data->gx = imuData.gx0; data->gy = imuData.gy0; data->gz = -imuData.gz0; data->mx = -imuData.my0; data->my = -imuData.mx0; data->mz = -imuData.mz0; } else { data->ax = -imuData.ay0; data->ay = -imuData.ax0; data->az = -imuData.az0; data->gx = -imuData.gy0; data->gy = -imuData.gx0; data->gz = -imuData.gz0; data->mx = -imuData.my0; data->my = -imuData.mx0; data->mz = -imuData.mz0; } data->gz = imuData.gz0; data->mx = imuData.my0; data->my = imuData.mx0; data->mz = imuData.mz0; data->ax = imuData.ax0; data->ay = imuData.ay0; data->az = imuData.az0; data->gx = imuData.gx0; data->gy = imuData.gy0; data->gz = imuData.gz0; data->mx = imuData.my0; data->my = imuData.mx0; data->mz = imuData.mz0; trace_qvr_recv_sensor("gyro", data->gts, data->gx, data->gy, data->gz); trace_qvr_recv_sensor("accel", data->ats, data->ax, data->ay, data->az); Loading Loading
drivers/hid/hid-qvr.c +18 −26 Original line number Diff line number Diff line Loading @@ -106,7 +106,6 @@ struct qvr_external_sensor { static DECLARE_WAIT_QUEUE_HEAD(wq); static struct qvr_external_sensor qvr_external_sensor; static uint8_t DEBUG_ORIENTATION; static int read_calibration_len(void) { Loading Loading @@ -256,10 +255,6 @@ static int qvr_send_package_wrap(u8 *message, int msize, struct hid_device *hid) memcpy((void *)&imuData, (void *)message, sizeof(struct external_imu_format)); if (!sensor->ts_base) { if (imuData.gNumerator == 1 && imuData.aNumerator == 1) DEBUG_ORIENTATION = 1; else DEBUG_ORIENTATION = 0; pr_debug("qvr msize = %d reportID=%d padding=%d\n" "qvr version=%d numImu=%d nspip=%d pSize=%d\n" "qvr imuID=%d sampleID=%d temp=%d\n", Loading Loading @@ -303,27 +298,24 @@ static int qvr_send_package_wrap(u8 *message, int msize, struct hid_device *hid) data->mts = data->ats; data->gts = data->ats; if (DEBUG_ORIENTATION == 1) { data->ax = -imuData.ax0; data->ax = imuData.ax0; data->ay = imuData.ay0; data->az = -imuData.az0; data->gx = -imuData.gx0; data->az = imuData.az0; data->gx = imuData.gx0; data->gy = imuData.gy0; data->gz = -imuData.gz0; data->mx = -imuData.my0; data->my = -imuData.mx0; data->mz = -imuData.mz0; } else { data->ax = -imuData.ay0; data->ay = -imuData.ax0; data->az = -imuData.az0; data->gx = -imuData.gy0; data->gy = -imuData.gx0; data->gz = -imuData.gz0; data->mx = -imuData.my0; data->my = -imuData.mx0; data->mz = -imuData.mz0; } data->gz = imuData.gz0; data->mx = imuData.my0; data->my = imuData.mx0; data->mz = imuData.mz0; data->ax = imuData.ax0; data->ay = imuData.ay0; data->az = imuData.az0; data->gx = imuData.gx0; data->gy = imuData.gy0; data->gz = imuData.gz0; data->mx = imuData.my0; data->my = imuData.mx0; data->mz = imuData.mz0; trace_qvr_recv_sensor("gyro", data->gts, data->gx, data->gy, data->gz); trace_qvr_recv_sensor("accel", data->ats, data->ax, data->ay, data->az); Loading
