src/Renderer/Vector.hpp

// Copyright 2016 The SwiftShader Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//    http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

#ifndef Vector_hpp
#define Vector_hpp

namespace sw
{
	struct Point;
	struct Matrix;
	struct Plane;

	struct Vector
	{
		Vector();
		Vector(const int i);
		Vector(const Vector &v);
		Vector(const Point &p);
		Vector(float v_x, float v_y, float v_z);

		Vector &operator=(const Vector &v);

		union
		{
			float v[3];

			struct
			{
				float x;
				float y;
				float z;
			};
		};

		float &operator[](int i);
		float &operator()(int i);

		const float &operator[](int i) const;
		const float &operator()(int i) const;

		Vector operator+() const;
		Vector operator-() const;

		Vector &operator+=(const Vector &v);
		Vector &operator-=(const Vector &v);
		Vector &operator*=(float s);
		Vector &operator/=(float s);

		friend bool operator==(const Vector &u, const Vector &v);
		friend bool operator!=(const Vector &u, const Vector &v);

		friend Vector operator+(const Vector &u, const Vector &v);
		friend Vector operator-(const Vector &u, const Vector &v);
		friend float operator*(const Vector &u, const Vector &v);   // Dot product
		friend Vector operator*(float s, const Vector &v);
		friend Vector operator*(const Vector &v, float s);
		friend Vector operator/(const Vector &v, float s);
		friend float operator^(const Vector &u, const Vector &v);   // Angle between vectors
		friend Vector operator%(const Vector &u, const Vector &v);   // Cross product

		friend Vector operator*(const Matrix &M, const Vector& v);
		friend Vector operator*(const Vector &v, const Matrix &M);
		friend Vector &operator*=(Vector &v, const Matrix &M);

		static float N(const Vector &v);   // Norm
		static float N2(const Vector &v);   // Squared norm

		static Vector mirror(const Vector &v, const Plane &p);
		static Vector reflect(const Vector &v, const Plane &p);
		static Vector lerp(const Vector &u, const Vector &v, float t);
	};
}

#include "Point.hpp"

namespace sw
{
	inline Vector::Vector()
	{
	}

	inline Vector::Vector(const int i)
	{
		const float s = (float)i;

		x = s;
		y = s;
		z = s;
	}

	inline Vector::Vector(const Vector &v)
	{
		x = v.x;
		y = v.y;
		z = v.z;
	}

	inline Vector::Vector(const Point &P)
	{
		x = P.x;
		y = P.y;
		z = P.z;
	}

	inline Vector::Vector(float v_x, float v_y, float v_z)
	{
		x = v_x;
		y = v_y;
		z = v_z;
	}

	inline Vector &Vector::operator=(const Vector &v)
	{
		x = v.x;
		y = v.y;
		z = v.z;

		return *this;
	}

	inline float &Vector::operator()(int i)
	{
		return v[i];
	}

	inline float &Vector::operator[](int i)
	{
		return v[i];
	}

	inline const float &Vector::operator()(int i) const
	{
		return v[i];
	}

	inline const float &Vector::operator[](int i) const
	{
		return v[i];
	}
}

#endif   // Vector_hpp