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source: trunk/nv/core/transform.hh @ 482

Last change on this file since 482 was 482, checked in by epyon, 10 years ago
skeletal animation updated
File size: 3.1 KB

Rev	Line
[395]	1	// Copyright (C) 2012-2015 ChaosForge Ltd
[230]	2	// http://chaosforge.org/
	3	//
[395]	4	// This file is part of Nova libraries.
	5	// For conditions of distribution and use, see copying.txt file in root folder.
[230]	6
[319]	7	#ifndef NV_CORE_TRANSFORM_HH
	8	#define NV_CORE_TRANSFORM_HH
[230]	9
[395]	10	#include <nv/common.hh>
[368]	11	#include <nv/stl/math.hh>
[230]	12
	13	namespace nv
	14	{
	15
	16	class transform
	17	{
	18	public:
	19	transform() {}
	20	explicit transform( const vec3& a_position ) : m_position( a_position ) {}
	21	explicit transform( const quat& a_orientation ) : m_orientation( a_orientation ) {}
[282]	22	explicit transform( const mat4& a_matrix ) { set( a_matrix ); }
[230]	23	transform( const vec3& a_position, const quat& a_orientation ) : m_position( a_position ), m_orientation( a_orientation ) {}
	24
	25	void set_position( const vec3& a_position ) { m_position = a_position; }
	26	void set_orientation( const quat& a_orientation ) { m_orientation = a_orientation; }
[397]	27	void set_orientation( float radians, const vec3& axis )
[454]	28	{
	29	m_orientation = math::angle_axis( radians, axis );
[397]	30	}
[230]	31
	32	const vec3& get_position() const { return m_position; }
	33	const quat& get_orientation() const { return m_orientation; }
	34
	35	public:
	36	void move( const vec3& heading, float distance )
	37	{
[454]	38	m_position += math::normalize( heading ) * distance;
[230]	39	}
	40	void translate( const vec3& absolute )
	41	{
	42	m_position += absolute;
	43	}
[454]	44	void rotate( const vec3& axis, f32 angle )
	45	{
	46	quat temp( angle, axis );
	47	m_orientation = temp * m_orientation;
	48	}
[230]	49	void set( const mat4& from )
	50	{
	51	m_orientation = quat( from );
	52	m_position = vec3( from[3] );
	53	}
	54	mat4 extract() const
	55	{
[454]	56	mat4 result = math::mat4_cast( m_orientation );
[230]	57	result[3] = vec4( m_position, 1.0f );
	58	return result;
	59	}
[259]	60	transform inverse() const
	61	{
[454]	62	quat new_orient( math::inverse( m_orientation ) );
[259]	63	// TODO: simplify
[454]	64	return transform( -math::mat3_cast(new_orient) * m_position, new_orient );
[259]	65	}
	66
	67	transform& operator*=(const transform& rhs)
	68	{
	69	m_position = m_position + m_orientation * rhs.m_position;
	70	m_orientation = m_orientation * rhs.m_orientation;
	71	return *this;
	72	}
	73
[261]	74	vec3 transformed( const vec3& v ) const
[259]	75	{
	76	return m_orientation * v + m_position;
	77	}
[482]	78
	79	transform scaled( float v ) const
	80	{
	81	return transform( v * m_position, v * m_orientation );
	82	}
	83
[230]	84	private:
	85	vec3 m_position;
	86	quat m_orientation;
	87	};
	88
[259]	89	inline transform operator*(transform lhs, const transform& rhs)
	90	{
	91	lhs *= rhs;
	92	return lhs;
	93	}
	94
	95	inline vec3 operator*(const vec3 lhs, const transform& rhs)
	96	{
	97	return rhs.transformed( lhs );
	98	}
	99
[482]	100	inline transform operator*( float value, const transform& lhs )
	101	{
	102	return lhs.scaled( value );
	103	}
	104
[282]	105	template <> struct enum_to_type< TRANSFORM > { typedef transform type; };
	106	template <> struct type_to_enum< transform > { static const datatype type = TRANSFORM; };
[259]	107
[241]	108	template<>
	109	inline transform interpolate( const transform& a, const transform& b, float value )
[230]	110	{
	111	return transform(
[454]	112	math::mix ( a.get_position(), b.get_position(), value ),
	113	math::slerp( a.get_orientation(), b.get_orientation(), value )
[230]	114	);
	115	}
	116	}
	117
[319]	118	#endif // NV_CORE_TRANSFORM_HH

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