AP_Baro: rename all local variable with prefix

fix last missing spaces
8 years ago · 2d0bce18a8
2 changed files with 27 additions and 27 deletions
--- a/libraries/AP_Baro/AP_Baro_SITL.cpp
+++ b/libraries/AP_Baro/AP_Baro_SITL.cpp
@ -13,8 +13,8 @@ AP_Baro_SITL::AP_Baro_SITL(AP_Baro &baro) :
				@@ -13,8 +13,8 @@ AP_Baro_SITL::AP_Baro_SITL(AP_Baro &baro) :
    _has_sample(false),
    AP_Baro_Backend(baro)
 {
-    sitl = (SITL::SITL *)AP_Param::find_object("SIM_");
-    if (sitl != nullptr) {
+    _sitl = (SITL::SITL *)AP_Param::find_object("SIM_");
+    if (_sitl != nullptr) {
        _instance = _frontend.register_sensor();
        hal.scheduler->register_timer_process(FUNCTOR_BIND(this, &AP_Baro_SITL::_timer, void));
    }
@ -24,10 +24,10 @@ AP_Baro_SITL::AP_Baro_SITL(AP_Baro &baro) :
				@@ -24,10 +24,10 @@ AP_Baro_SITL::AP_Baro_SITL(AP_Baro &baro) :
 void AP_Baro_SITL::temperature_adjustment(float &p, float &T)
 {
    const float tsec = AP_HAL::millis() * 0.001f;
-    const float T0 = sitl->temp_start;
-    const float T1 = sitl->temp_flight;
-    const float tconst = sitl->temp_tconst;
-    const float baro_factor = sitl->temp_baro_factor;
+    const float T0 = _sitl->temp_start;
+    const float T1 = _sitl->temp_flight;
+    const float tconst = _sitl->temp_tconst;
+    const float baro_factor = _sitl->temp_baro_factor;
    const float Tzero = 30.0f;  // start baro adjustment at 30C
    T = T1 - (T1 - T0) * expf(-tsec / tconst);
    if (is_positive(baro_factor)) {
@ -48,42 +48,42 @@ void AP_Baro_SITL::_timer()
				@@ -48,42 +48,42 @@ void AP_Baro_SITL::_timer()
    }
    _last_sample_time = now;

-    float sim_alt = sitl->state.altitude;
+    float sim_alt = _sitl->state.altitude;

-    if (sitl->baro_disable) {
+    if (_sitl->baro_disable) {
        // barometer is disabled
        return;
    }

-    sim_alt += sitl->baro_drift * now / 1000.0f;
-    sim_alt += sitl->baro_noise * rand_float();
+    sim_alt += _sitl->baro_drift * now / 1000.0f;
+    sim_alt += _sitl->baro_noise * rand_float();

    // add baro glitch
-    sim_alt += sitl->baro_glitch;
+    sim_alt += _sitl->baro_glitch;

    // add delay
    uint32_t best_time_delta = 200;  // initialise large time representing buffer entry closest to current time - delay.
    uint8_t best_index = 0;  // initialise number representing the index of the entry in buffer closest to delay.

    // storing data from sensor to buffer
-    if (now - last_store_time >= 10) {  // store data every 10 ms.
-        last_store_time = now;
-        if (store_index > buffer_length-1) {  // reset buffer index if index greater than size of buffer
-            store_index = 0;
+    if (now - _last_store_time >= 10) {  // store data every 10 ms.
+        _last_store_time = now;
+        if (_store_index > _buffer_length - 1) {  // reset buffer index if index greater than size of buffer
+            _store_index = 0;
        }
-        buffer[store_index].data = sim_alt;  // add data to current index
-        buffer[store_index].time = last_store_time;  // add time_stamp to current index
-        store_index = store_index + 1;  // increment index
+        _buffer[_store_index].data = sim_alt;  // add data to current index
+        _buffer[_store_index].time = _last_store_time;  // add time_stamp to current index
+        _store_index = _store_index + 1;  // increment index
    }

    // return delayed measurement
-    const uint32_t delayed_time = now - sitl->baro_delay;  // get time corresponding to delay
+    const uint32_t delayed_time = now - _sitl->baro_delay;  // get time corresponding to delay

    // find data corresponding to delayed time in buffer
-    for (uint8_t i=0; i<=buffer_length-1; i++) {
+    for (uint8_t i = 0; i <= _buffer_length - 1; i++) {
        // find difference between delayed time and time stamp in buffer
        uint32_t time_delta = abs(
-                (int32_t)(delayed_time - buffer[i].time));
+                (int32_t)(delayed_time - _buffer[i].time));
        // if this difference is smaller than last delta, store this time
        if (time_delta < best_time_delta) {
            best_index = i;
@ -91,7 +91,7 @@ void AP_Baro_SITL::_timer()
				@@ -91,7 +91,7 @@ void AP_Baro_SITL::_timer()
        }
    }
    if (best_time_delta < 200) {  // only output stored state if < 200 msec retrieval error
-        sim_alt = buffer[best_index].data;
+        sim_alt = _buffer[best_index].data;
    }

    float sigma, delta, theta;
--- a/libraries/AP_Baro/AP_Baro_SITL.h
+++ b/libraries/AP_Baro/AP_Baro_SITL.h
@ -18,17 +18,17 @@ protected:
				@@ -18,17 +18,17 @@ protected:

 private:
    uint8_t _instance;
-    SITL::SITL *sitl;
+    SITL::SITL *_sitl;

    // barometer delay buffer variables
    struct readings_baro {
        uint32_t time;
        float data;
    };
-    uint8_t store_index;
-    uint32_t last_store_time;
-    static const uint8_t buffer_length = 50;
-    VectorN<readings_baro, buffer_length> buffer;
+    uint8_t _store_index;
+    uint32_t _last_store_time;
+    static const uint8_t _buffer_length = 50;
+    VectorN<readings_baro, _buffer_length> _buffer;

    // adjust for simulated board temperature
    void temperature_adjustment(float &p, float &T);