From 5601c52c464a824bec4426ae556f4c29eb9d009f Mon Sep 17 00:00:00 2001
From: uncrustify <pat@moreproductive.org>
Date: Thu, 16 Aug 2012 23:19:49 -0700
Subject: [PATCH] uncrustify libraries/AP_IMU/IMU.h

---
 libraries/AP_IMU/IMU.h | 178 +++++++++++++++++++++--------------------
 1 file changed, 92 insertions(+), 86 deletions(-)

diff --git a/libraries/AP_IMU/IMU.h b/libraries/AP_IMU/IMU.h
index d3b1041c00..506158a5a7 100644
--- a/libraries/AP_IMU/IMU.h
+++ b/libraries/AP_IMU/IMU.h
@@ -15,113 +15,119 @@ class IMU
 {
 
 public:
-	/// Constructor
-	IMU();
+    /// Constructor
+    IMU();
 
-	enum Start_style {
-		COLD_START = 0,
-		WARM_START
-	};
+    enum Start_style {
+        COLD_START = 0,
+        WARM_START
+    };
 
-	/// Perform startup initialisation.
-	///
-	/// Called to initialise the state of the IMU.
-	///
-	/// For COLD_START, implementations using real sensors can assume
-	/// that the airframe is stationary and nominally oriented.
-	///
-	/// For WARM_START, no assumptions should be made about the
-	/// orientation or motion of the airframe.  Calibration should be
-	/// as for the previous COLD_START call.
-	///
-	/// @param style	The initialisation startup style.
-	///
-	virtual void	init( Start_style style,
-                          void (*delay_cb)(unsigned long t),
-						  void (*flash_leds_cb)(bool on),
-                          AP_PeriodicProcess * scheduler );
+    /// Perform startup initialisation.
+    ///
+    /// Called to initialise the state of the IMU.
+    ///
+    /// For COLD_START, implementations using real sensors can assume
+    /// that the airframe is stationary and nominally oriented.
+    ///
+    /// For WARM_START, no assumptions should be made about the
+    /// orientation or motion of the airframe.  Calibration should be
+    /// as for the previous COLD_START call.
+    ///
+    /// @param style	The initialisation startup style.
+    ///
+    virtual void        init( Start_style           style,
+                              void                  (*delay_cb)(unsigned long t),
+                              void                  (*flash_leds_cb)(bool on),
+                              AP_PeriodicProcess *  scheduler );
 
-	/// Perform cold startup initialisation for just the accelerometers.
-	///
-	/// @note This should not be called unless ::init has previously
-	///       been called, as ::init may perform other work.
-	///
-	virtual void	init_accel(void (*callback)(unsigned long t), void (*flash_leds_cb)(bool on));
+    /// Perform cold startup initialisation for just the accelerometers.
+    ///
+    /// @note This should not be called unless ::init has previously
+    ///       been called, as ::init may perform other work.
+    ///
+    virtual void        init_accel(void (*callback)(unsigned long t), void (*flash_leds_cb)(bool on));
 
-	/// Perform cold-start initialisation for just the gyros.
-	///
-	/// @note This should not be called unless ::init has previously
-	///       been called, as ::init may perform other work
-	///
-	virtual void	init_gyro(void (*callback)(unsigned long t), void (*flash_leds_cb)(bool on));
+    /// Perform cold-start initialisation for just the gyros.
+    ///
+    /// @note This should not be called unless ::init has previously
+    ///       been called, as ::init may perform other work
+    ///
+    virtual void        init_gyro(void (*callback)(unsigned long t), void (*flash_leds_cb)(bool on));
 
-	/// Give the IMU some cycles to perform/fetch an update from its
-	/// sensors.
-	///
-	/// @returns	True if some state was updated.
-	///
-	virtual bool	update(void);
+    /// Give the IMU some cycles to perform/fetch an update from its
+    /// sensors.
+    ///
+    /// @returns	True if some state was updated.
+    ///
+    virtual bool        update(void);
 
-	// true if new data is available from the sensors
-	virtual bool new_data_available(void);
+    // true if new data is available from the sensors
+    virtual bool        new_data_available(void);
 
-	/// Fetch the current gyro values
-	///
-	/// @returns	vector of rotational rates in radians/sec
-	///
-	Vector3f		get_gyro(void) { return _gyro; }
+    /// Fetch the current gyro values
+    ///
+    /// @returns	vector of rotational rates in radians/sec
+    ///
+    Vector3f        get_gyro(void) {
+        return _gyro;
+    }
 
-	/// Fetch the current accelerometer values
-	///
-	/// @returns	vector of current accelerations in m/s/s
-	///
-	Vector3f		get_accel(void) { return _accel; }
+    /// Fetch the current accelerometer values
+    ///
+    /// @returns	vector of current accelerations in m/s/s
+    ///
+    Vector3f        get_accel(void) {
+        return _accel;
+    }
 
 
-	/// return the number of seconds that the last update represents
-	///
-	/// @returns	number of seconds
-	///
-	float			get_delta_time(void) { return _sample_time * 1.0e-6; }
+    /// return the number of seconds that the last update represents
+    ///
+    /// @returns	number of seconds
+    ///
+    float        get_delta_time(void) {
+        return _sample_time * 1.0e-6;
+    }
 
-	/// return the maximum gyro drift rate in radians/s/s. This
-	/// depends on what gyro chips are being used
-	virtual float	get_gyro_drift_rate(void);
+    /// return the maximum gyro drift rate in radians/s/s. This
+    /// depends on what gyro chips are being used
+    virtual float        get_gyro_drift_rate(void);
 
-	/// A count of bad sensor readings
-	///
-	/// @todo This should be renamed, as there's no guarantee that sensors
-	///       are using ADCs, etc.
-	///
-	uint8_t 	adc_constraints;
+    /// A count of bad sensor readings
+    ///
+    /// @todo This should be renamed, as there's no guarantee that sensors
+    ///       are using ADCs, etc.
+    ///
+    uint8_t                 adc_constraints;
 
-	virtual float		gx(void);
-	virtual float		gy(void);
-	virtual float		gz(void);
-	virtual float		ax(void);
-	virtual float		ay(void);
-	virtual float		az(void);
-	virtual void		ax(const float v);
-	virtual void		ay(const float v);
-	virtual void		az(const float v);
+    virtual float           gx(void);
+    virtual float           gy(void);
+    virtual float           gz(void);
+    virtual float           ax(void);
+    virtual float           ay(void);
+    virtual float           az(void);
+    virtual void            ax(const float v);
+    virtual void            ay(const float v);
+    virtual void            az(const float v);
 
-	static const struct AP_Param::GroupInfo var_info[];
+    static const struct AP_Param::GroupInfo        var_info[];
 
 protected:
 
     AP_Vector6f         _sensor_cal;    ///< Calibrated sensor offsets
 
-	/// Most recent accelerometer reading obtained by ::update
-	Vector3f		_accel;
+    /// Most recent accelerometer reading obtained by ::update
+    Vector3f            _accel;
 
-	/// Most recent gyro reading obtained by ::update
-	Vector3f		_gyro;
+    /// Most recent gyro reading obtained by ::update
+    Vector3f            _gyro;
 
-	/// number of microseconds that the accel and gyro values
-	/// were sampled over
-	uint32_t       _sample_time;
-	
-	AP_Int16 	   _product_id; // this is the product id returned from the INS init
+    /// number of microseconds that the accel and gyro values
+    /// were sampled over
+    uint32_t        _sample_time;
+
+    AP_Int16        _product_id;        // this is the product id returned from the INS init
 };
 
 #endif