OP-1149 Uncrustify

2025-01-18 03:52:11 +01:00 · 2013-12-29 18:45:44 +01:00 · 2013-12-29 18:45:44 +01:00 · e04cef2fa4
commit e04cef2fa4
parent ac3d7b8d11
2 changed files with 81 additions and 79 deletions
--- a/flight/modules/Attitude/attitude.c
+++ b/flight/modules/Attitude/attitude.c
@ -103,15 +103,17 @@ static int8_t rotate = 0;
 static bool zero_during_arming = false;
 static bool bias_correct_gyro  = true;
 // static float gyros_passed[3];
 // temp coefficient to calculate gyro bias
 static bool apply_gyro_temp     = false;
 static bool apply_accel_temp    = false;
-static float gyro_temp_coeff[4] = {0};
+static float gyro_temp_coeff[4] = { 0 };
-static float accel_temp_coeff[4] = {0};
+static float accel_temp_coeff[4] = { 0 };
 // Accel and Gyro scaling (this is the product of sensor scale and adjustement in AccelGyroSettings
-static float gyro_scale[3] = {0};
+static float gyro_scale[3] = { 0 };
-static float accel_scale[3] = {0};
+static float accel_scale[3] = { 0 };
 // For running trim flights
@ -424,13 +426,13 @@ static int32_t updateSensorsCC3D(AccelStateData *accelStateData, GyroStateData *
    accels[1] = mpu6000_data.accel_y * accel_scale[1];
    accels[2] = mpu6000_data.accel_z * accel_scale[2];
-    if(apply_gyro_temp) {
+    if (apply_gyro_temp) {
        gyros[0] -= gyro_temp_coeff[0] * mpu6000_data.temperature;
        gyros[1] -= gyro_temp_coeff[1] * mpu6000_data.temperature;
        gyros[2] -= (gyro_temp_coeff[2] + gyro_temp_coeff[3] * mpu6000_data.temperature) * mpu6000_data.temperature;
    }
-    if(apply_accel_temp){
+    if (apply_accel_temp) {
        accels[0] -= accel_temp_coeff[0] * mpu6000_data.temperature;
        accels[1] -= accel_temp_coeff[1] * mpu6000_data.temperature;
        accels[2] -= accel_temp_coeff[2] * mpu6000_data.temperature;
@ -641,28 +643,28 @@ static void settingsUpdatedCb(__attribute__((unused)) UAVObjEvent *objEv)
    accel_temp_coeff[1] = accelGyroSettings.accel_temp_coeff.Y;
    accel_temp_coeff[2] = accelGyroSettings.accel_temp_coeff.Z;
-    apply_gyro_temp = ( fabsf(gyro_temp_coeff[0])> 1e-6f ||
+    apply_gyro_temp     = (fabsf(gyro_temp_coeff[0]) > 1e-6f ||
-                        fabsf(gyro_temp_coeff[1])> 1e-6f ||
+                           fabsf(gyro_temp_coeff[1]) > 1e-6f ||
-                        fabsf(gyro_temp_coeff[2])> 1e-6f ||
+                           fabsf(gyro_temp_coeff[2]) > 1e-6f ||
-                        fabsf(gyro_temp_coeff[3])> 1e-6f);
+                           fabsf(gyro_temp_coeff[3]) > 1e-6f);
-    apply_accel_temp = (fabsf(accel_temp_coeff[0])> 1e-6f ||
+    apply_accel_temp = (fabsf(accel_temp_coeff[0]) > 1e-6f ||
-                        fabsf(accel_temp_coeff[1])> 1e-6f ||
+                        fabsf(accel_temp_coeff[1]) > 1e-6f ||
-                        fabsf(accel_temp_coeff[2])> 1e-6f);
+                        fabsf(accel_temp_coeff[2]) > 1e-6f);
    gyro_correct_int[0] = accelGyroSettings.gyro_bias.X;
    gyro_correct_int[1] = accelGyroSettings.gyro_bias.Y;
    gyro_correct_int[2] = accelGyroSettings.gyro_bias.Z;
-    if(BOARDISCC3D) {
+    if (BOARDISCC3D) {
        accelbias[0]   = accelGyroSettings.accel_bias.X;
        accelbias[1]   = accelGyroSettings.accel_bias.Y;
        accelbias[2]   = accelGyroSettings.accel_bias.Z;
-        gyro_scale[0] = accelGyroSettings.gyro_scale.X * PIOS_MPU6000_GetScale ();
+        gyro_scale[0]  = accelGyroSettings.gyro_scale.X * PIOS_MPU6000_GetScale();
-        gyro_scale[1] = accelGyroSettings.gyro_scale.Y * PIOS_MPU6000_GetScale ();
+        gyro_scale[1]  = accelGyroSettings.gyro_scale.Y * PIOS_MPU6000_GetScale();
-        gyro_scale[2] = accelGyroSettings.gyro_scale.Z * PIOS_MPU6000_GetScale ();
+        gyro_scale[2]  = accelGyroSettings.gyro_scale.Z * PIOS_MPU6000_GetScale();
        accel_scale[0] = accelGyroSettings.accel_scale.X * PIOS_MPU6000_GetAccelScale();
        accel_scale[1] = accelGyroSettings.accel_scale.Y * PIOS_MPU6000_GetAccelScale();
--- a/flight/modules/Sensors/sensors.c
+++ b/flight/modules/Sensors/sensors.c
@ -90,8 +90,8 @@ static float accel_scale[3] = { 0, 0, 0 };
 static float gyro_staticbias[3] = { 0, 0, 0 };
 static float gyro_scale[3] = { 0, 0, 0 };
 // temp coefficient to calculate gyro bias
-static float gyro_temp_coeff[4] = {0};
+static float gyro_temp_coeff[4] = { 0 };
-static float accel_temp_coeff[4] = {0};
+static float accel_temp_coeff[4] = { 0 };
 static float R[3][3] = {
    { 0 }
@ -358,7 +358,7 @@ static void SensorsTask(__attribute__((unused)) void *parameters)
                                - accel_temp_coeff[1] * accelSensorData.temperature,
                                accels[2] * accel_scaling * accel_scale[2]
                                - accel_bias[2]
-                                - accel_temp_coeff[2] * accelSensorData.temperature};
+                                - accel_temp_coeff[2] * accelSensorData.temperature };
        if (rotate) {
            rot_mult(R, accels_out, accels);
            accelSensorData.x = accels[0];
@ -384,7 +384,7 @@ static void SensorsTask(__attribute__((unused)) void *parameters)
                               gyros[2] * gyro_scaling * gyro_scale[2]
                               - gyro_staticbias[2]
                               - gyro_temp_coeff[2] * gyroSensorData.temperature
-                                - gyro_temp_coeff[3] * gyroSensorData.temperature * gyroSensorData.temperature};
+                               - gyro_temp_coeff[3] * gyroSensorData.temperature * gyroSensorData.temperature };
        if (rotate) {
            rot_mult(R, gyros_out, gyros);
            gyroSensorData.x = gyros[0];