diff options
Diffstat (limited to 'motionMonitor')
-rw-r--r-- | motionMonitor/motionMonitor.c | 110 |
1 files changed, 55 insertions, 55 deletions
diff --git a/motionMonitor/motionMonitor.c b/motionMonitor/motionMonitor.c index 2622ea6..8f72c47 100644 --- a/motionMonitor/motionMonitor.c +++ b/motionMonitor/motionMonitor.c @@ -5,20 +5,10 @@ #define N_CHANGE_BLOCKS 200 #define SAMPLE_PERIOD_MS 100 +#define DEFAULT_THRESHOLD_MS2 10 void* impactMonitor(void*); -typedef struct { - double x; - double y; - double z; -} Acceleration; - -double xAccImpact[N_CHANGE_BLOCKS]; -double yAccImpact[N_CHANGE_BLOCKS]; -double zAccImpact[N_CHANGE_BLOCKS]; -uint64_t timestamps[N_CHANGE_BLOCKS]; - static const char FormatStr[] = "/sys/bus/iio/devices/iio:device0/in_%s_%s"; static const char AccType[] = "accel"; static const char GyroType[] = "anglvel"; @@ -26,18 +16,20 @@ static const char CompX[] = "x_raw"; static const char CompY[] = "y_raw"; static const char CompZ[] = "z_raw"; static const char CompScale[] = "scale"; -int totalImpacts = 0; -static const double impactThreshold = 20.0; -Acceleration suddenImpact = {0, 0, 0}; - -pthread_t impactThread; -pthread_mutex_t impactMutex; +struct suddenImpacts_t { + int nValues; + double threshold; + double x[N_CHANGE_BLOCKS]; + double y[N_CHANGE_BLOCKS]; + double z[N_CHANGE_BLOCKS]; + uint64_t timestamps[N_CHANGE_BLOCKS]; + pthread_mutex_t lock; +} impacts = {0, DEFAULT_THRESHOLD_MS2}; /* * Reports the x, y and z accelerometer readings in meters per second squared. -*/ - + */ le_result_t brnkl_motion_getCurrentAcceleration(double* xAcc, double* yAcc, double* zAcc) { @@ -73,17 +65,19 @@ done: return r; } -le_result_t recordImpact(double* xAcc, double* yAcc, double* zAcc) { - if (totalImpacts > N_CHANGE_BLOCKS || totalImpacts > N_CHANGE_BLOCKS || - totalImpacts > N_CHANGE_BLOCKS) +le_result_t recordImpact(struct suddenImpacts_t* it, + double xAcc, + double yAcc, + double zAcc) { + if (it->nValues > N_CHANGE_BLOCKS || it->nValues > N_CHANGE_BLOCKS || + it->nValues > N_CHANGE_BLOCKS) return LE_OUT_OF_RANGE; - timestamps[totalImpacts] = GetCurrentTimestamp(); - xAccImpact[totalImpacts] = *xAcc; - yAccImpact[totalImpacts] = *yAcc; - zAccImpact[totalImpacts] = *zAcc; - totalImpacts++; - LE_INFO("New Impact, totalImpacts: %d", totalImpacts); + it->timestamps[it->nValues] = GetCurrentTimestamp(); + it->x[it->nValues] = xAcc; + it->y[it->nValues] = yAcc; + it->z[it->nValues] = zAcc; + it->nValues++; return LE_OK; } @@ -96,67 +90,73 @@ le_result_t brnkl_motion_getSuddenImpact(double* xAcc, size_t* zSize, uint64_t* timestampssOut, size_t* timeSize) { - if (!totalImpacts) + if (!impacts.nValues) LE_INFO("No Sudden Impacts to Report"); else { - pthread_mutex_lock(&impactMutex); - // check + pthread_mutex_lock(&impacts.lock); - if (totalImpacts > *xSize || totalImpacts > *ySize || totalImpacts > *zSize) + if (impacts.nValues > *xSize || impacts.nValues > *ySize || + impacts.nValues > *zSize) return LE_OUT_OF_RANGE; - for (int i = 0; i < totalImpacts; i++) { - xAcc[i] = xAccImpact[i]; - yAcc[i] = yAccImpact[i]; - zAcc[i] = zAccImpact[i]; - timestampssOut[i] = timestamps[i]; + for (int i = 0; i < impacts.nValues; i++) { + xAcc[i] = impacts.x[i]; + yAcc[i] = impacts.y[i]; + zAcc[i] = impacts.y[i]; + timestampssOut[i] = impacts.timestamps[i]; } - *xSize = *ySize = *zSize = totalImpacts; + *xSize = *ySize = *zSize = impacts.nValues; - totalImpacts = 0; + impacts.nValues = 0; - pthread_mutex_unlock(&impactMutex); + pthread_mutex_unlock(&impacts.lock); } return LE_OK; } /* -*Monitors accelerometer from iio on 100ms intervals -*Sets hasSuddenImpact flag when accelerometer surpasses threshold -*/ -void* impactMonitor(void* ptr) { + * Monitors accelerometer from iio on 100ms intervals + * + * We use a context pointer here such that this routine + * is not coupled to the global scope. This allows us to pass in + * a pointer to a struct that contains the data we care about + * instead of storing it globally. Ultimately, the struct we point to + * will likely be in the global scope, but this is still a good practice. + */ +void* impactMonitor(void* ctx) { double x, y, z; le_result_t r = LE_OK; + struct suddenImpacts_t* it = ctx; for (;;) { brnkl_motion_getCurrentAcceleration(&x, &y, &z); double impactMagnitude = sqrt(x * x + y * y + z * z); - if (impactMagnitude > impactThreshold) { + if (impactMagnitude > it->threshold) { // 3. add x, y, z to impact array - pthread_mutex_lock(&impactMutex); - r = recordImpact(&x, &y, &z); - pthread_mutex_unlock(&impactMutex); + pthread_mutex_lock(&it->lock); + r = recordImpact(it, x, y, z); + pthread_mutex_unlock(&it->lock); } if (r != LE_OK) LE_ERROR("Impact Not Recorded"); usleep(SAMPLE_PERIOD_MS * 1000); } - return ptr; + // should never get here + return NULL; } /* -*Create thread to monitor accelerometer iio -*/ + *Create thread to monitor accelerometer iio + */ void initThread() { + pthread_t impactThread; int thread, mutx; - LE_INFO("initThread called"); - mutx = pthread_mutex_init(&impactMutex, NULL); - thread = pthread_create(&impactThread, NULL, impactMonitor, NULL); - LE_INFO("mutexResult: %d", mutx); + mutx = pthread_mutex_init(&impacts.lock, NULL); + thread = pthread_create(&impactThread, NULL, impactMonitor, &impacts); if (thread || mutx) { LE_ERROR("Reader Thread or Mutex Creation Failed"); } else { |