source: code/forks/sandbox_light/src/external/ogremath/OgreColourValue.h @ 7908

/*
-----------------------------------------------------------------------------
This source file is part of OGRE
    (Object-oriented Graphics Rendering Engine)
For the latest info, see http://www.ogre3d.org/

Copyright (c) 2000-2006 Torus Knot Software Ltd
Also see acknowledgements in Readme.html

This program is free software; you can redistribute it and/or modify it under
the terms of the GNU Lesser General Public License as published by the Free Software
Foundation; either version 2 of the License, or (at your option) any later
version.

This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.

You should have received a copy of the GNU Lesser General Public License along with
this program; if not, write to the Free Software Foundation, Inc., 59 Temple
Place - Suite 330, Boston, MA 02111-1307, USA, or go to
http://www.gnu.org/copyleft/lesser.txt.

You may alternatively use this source under the terms of a specific version of
the OGRE Unrestricted License provided you have obtained such a license from
Torus Knot Software Ltd.
-----------------------------------------------------------------------------
*/
#ifndef _COLOURVALUE_H__
#define _COLOURVALUE_H__

#include "OgrePrerequisites.h"

#include <cassert>
#include <ostream>

namespace Ogre {

    typedef uint32 RGBA;
    typedef uint32 ARGB;
    typedef uint32 ABGR;
        typedef uint32 BGRA;

    /** Class representing colour.
            @remarks
                    Colour is represented as 4 components, each of which is a
                    floating-point value from 0.0 to 1.0.
            @par
                    The 3 'normal' colour components are red, green and blue, a higher
                    number indicating greater amounts of that component in the colour.
                    The forth component is the 'alpha' value, which represents
                    transparency. In this case, 0.0 is completely transparent and 1.0 is
                    fully opaque.
    */
    class _OgreExport ColourValue
    {
    public:
        static const ColourValue ZERO;
        static const ColourValue Black;
        static const ColourValue White;
        static const ColourValue Red;
        static const ColourValue Green;
        static const ColourValue Blue;

            explicit ColourValue( float red = 1.0f,
                                    float green = 1.0f,
                                    float blue = 1.0f,
                                    float alpha = 1.0f ) : r(red), g(green), b(blue), a(alpha)
        { }

            bool operator==(const ColourValue& rhs) const;
            bool operator!=(const ColourValue& rhs) const;

        float r,g,b,a;

            /** Retrieves colour as RGBA.
            */
            RGBA getAsRGBA(void) const;

            /** Retrieves colour as ARGB.
            */
            ARGB getAsARGB(void) const;

                /** Retrieves colour as BGRA.
                */
                BGRA getAsBGRA(void) const;

                /** Retrieves colours as ABGR */
            ABGR getAsABGR(void) const;

            /** Sets colour as RGBA.
            */
        void setAsRGBA(const RGBA val);

            /** Sets colour as ARGB.
            */
        void setAsARGB(const ARGB val);

                /** Sets colour as BGRA.
                */
                void setAsBGRA(const BGRA val);

            /** Sets colour as ABGR.
            */
        void setAsABGR(const ABGR val);

        /** Clamps colour value to the range [0, 1].
        */
        void saturate(void)
        {
            if (r < 0)
                r = 0;
            else if (r > 1)
                r = 1;

            if (g < 0)
                g = 0;
            else if (g > 1)
                g = 1;

            if (b < 0)
                b = 0;
            else if (b > 1)
                b = 1;

            if (a < 0)
                a = 0;
            else if (a > 1)
                a = 1;
        }

        /** As saturate, except that this colour value is unaffected and
            the saturated colour value is returned as a copy. */
        ColourValue saturateCopy(void) const
        {
            ColourValue ret = *this;
            ret.saturate();
            return ret;
        }

                /// Array accessor operator
                inline float operator [] ( const size_t i ) const
                {
                        assert( i < 4 );

                        return *(&r+i);
                }

                /// Array accessor operator
                inline float& operator [] ( const size_t i )
                {
                        assert( i < 4 );

                        return *(&r+i);
                }

                /// Pointer accessor for direct copying
                inline float* ptr()
                {
                        return &r;
                }
                /// Pointer accessor for direct copying
                inline const float* ptr() const
                {
                        return &r;
                }

                
                // arithmetic operations
        inline ColourValue operator + ( const ColourValue& rkVector ) const
        {
            ColourValue kSum;

            kSum.r = r + rkVector.r;
            kSum.g = g + rkVector.g;
            kSum.b = b + rkVector.b;
            kSum.a = a + rkVector.a;

            return kSum;
        }

        inline ColourValue operator - ( const ColourValue& rkVector ) const
        {
            ColourValue kDiff;

            kDiff.r = r - rkVector.r;
            kDiff.g = g - rkVector.g;
            kDiff.b = b - rkVector.b;
            kDiff.a = a - rkVector.a;

            return kDiff;
        }

        inline ColourValue operator * (const float fScalar ) const
        {
            ColourValue kProd;

            kProd.r = fScalar*r;
            kProd.g = fScalar*g;
            kProd.b = fScalar*b;
            kProd.a = fScalar*a;

            return kProd;
        }

        inline ColourValue operator * ( const ColourValue& rhs) const
        {
            ColourValue kProd;

            kProd.r = rhs.r * r;
            kProd.g = rhs.g * g;
            kProd.b = rhs.b * b;
            kProd.a = rhs.a * a;

            return kProd;
        }

        inline ColourValue operator / ( const ColourValue& rhs) const
        {
            ColourValue kProd;

            kProd.r = rhs.r / r;
            kProd.g = rhs.g / g;
            kProd.b = rhs.b / b;
            kProd.a = rhs.a / a;

            return kProd;
        }

        inline ColourValue operator / (const float fScalar ) const
        {
            assert( fScalar != 0.0 );

            ColourValue kDiv;

            float fInv = 1.0 / fScalar;
            kDiv.r = r * fInv;
            kDiv.g = g * fInv;
            kDiv.b = b * fInv;
            kDiv.a = a * fInv;

            return kDiv;
        }

        inline friend ColourValue operator * (const float fScalar, const ColourValue& rkVector )
        {
            ColourValue kProd;

            kProd.r = fScalar * rkVector.r;
            kProd.g = fScalar * rkVector.g;
            kProd.b = fScalar * rkVector.b;
            kProd.a = fScalar * rkVector.a;

            return kProd;
        }

        // arithmetic updates
        inline ColourValue& operator += ( const ColourValue& rkVector )
        {
            r += rkVector.r;
            g += rkVector.g;
            b += rkVector.b;
            a += rkVector.a;

            return *this;
        }

        inline ColourValue& operator -= ( const ColourValue& rkVector )
        {
            r -= rkVector.r;
            g -= rkVector.g;
            b -= rkVector.b;
            a -= rkVector.a;

            return *this;
        }

        inline ColourValue& operator *= (const float fScalar )
        {
            r *= fScalar;
            g *= fScalar;
            b *= fScalar;
            a *= fScalar;
            return *this;
        }

        inline ColourValue& operator /= (const float fScalar )
        {
            assert( fScalar != 0.0 );

            float fInv = 1.0 / fScalar;

            r *= fInv;
            g *= fInv;
            b *= fInv;
            a *= fInv;

            return *this;
        }

                /** Set a colour value from Hue, Saturation and Brightness.
                @param hue Hue value, scaled to the [0,1] range as opposed to the 0-360
                @param saturation Saturation level, [0,1]
                @param brightness Brightness level, [0,1]
                */
                void setHSB(Real hue, Real saturation, Real brightness);

                /** Convert the current colour to Hue, Saturation and Brightness values. 
                @param hue Output hue value, scaled to the [0,1] range as opposed to the 0-360
                @param saturation Output saturation level, [0,1]
                @param brightness Output brightness level, [0,1]
                */
                void getHSB(Real* hue, Real* saturation, Real* brightness) const;



                /** Function for writing to a stream.
                */
                inline _OgreExport friend std::ostream& operator <<
                        ( std::ostream& o, const ColourValue& c )
                {
                        o << "ColourValue(" << c.r << ", " << c.g << ", " << c.b << ", " << c.a << ")";
                        return o;
                }

    };

} // namespace

#endif