GlosSI-fork/dependencies/SFML-2.4.1-x86/include/SFML/Graphics/BlendMode.hpp

////////////////////////////////////////////////////////////
//
// SFML - Simple and Fast Multimedia Library
// Copyright (C) 2007-2016 Laurent Gomila (laurent@sfml-dev.org)
//
// This software is provided 'as-is', without any express or implied warranty.
// In no event will the authors be held liable for any damages arising from the use of this software.
//
// Permission is granted to anyone to use this software for any purpose,
// including commercial applications, and to alter it and redistribute it freely,
// subject to the following restrictions:
//
// 1. The origin of this software must not be misrepresented;
//    you must not claim that you wrote the original software.
//    If you use this software in a product, an acknowledgment
//    in the product documentation would be appreciated but is not required.
//
// 2. Altered source versions must be plainly marked as such,
//    and must not be misrepresented as being the original software.
//
// 3. This notice may not be removed or altered from any source distribution.
//
////////////////////////////////////////////////////////////

#ifndef SFML_BLENDMODE_HPP
#define SFML_BLENDMODE_HPP

////////////////////////////////////////////////////////////
// Headers
////////////////////////////////////////////////////////////
#include <SFML/Graphics/Export.hpp>


namespace sf
{

////////////////////////////////////////////////////////////
/// \brief Blending modes for drawing
///
////////////////////////////////////////////////////////////
struct SFML_GRAPHICS_API BlendMode
{
    ////////////////////////////////////////////////////////
    /// \brief Enumeration of the blending factors
    ///
    /// The factors are mapped directly to their OpenGL equivalents,
    /// specified by glBlendFunc() or glBlendFuncSeparate().
    ////////////////////////////////////////////////////////
    enum Factor
    {
        Zero,             ///< (0, 0, 0, 0)
        One,              ///< (1, 1, 1, 1)
        SrcColor,         ///< (src.r, src.g, src.b, src.a)
        OneMinusSrcColor, ///< (1, 1, 1, 1) - (src.r, src.g, src.b, src.a)
        DstColor,         ///< (dst.r, dst.g, dst.b, dst.a)
        OneMinusDstColor, ///< (1, 1, 1, 1) - (dst.r, dst.g, dst.b, dst.a)
        SrcAlpha,         ///< (src.a, src.a, src.a, src.a)
        OneMinusSrcAlpha, ///< (1, 1, 1, 1) - (src.a, src.a, src.a, src.a)
        DstAlpha,         ///< (dst.a, dst.a, dst.a, dst.a)
        OneMinusDstAlpha  ///< (1, 1, 1, 1) - (dst.a, dst.a, dst.a, dst.a)
    };

    ////////////////////////////////////////////////////////
    /// \brief Enumeration of the blending equations
    ///
    /// The equations are mapped directly to their OpenGL equivalents,
    /// specified by glBlendEquation() or glBlendEquationSeparate().
    ////////////////////////////////////////////////////////
    enum Equation
    {
        Add,            ///< Pixel = Src * SrcFactor + Dst * DstFactor
        Subtract,       ///< Pixel = Src * SrcFactor - Dst * DstFactor
        ReverseSubtract ///< Pixel = Dst * DstFactor - Src * SrcFactor
    };

    ////////////////////////////////////////////////////////////
    /// \brief Default constructor
    ///
    /// Constructs a blending mode that does alpha blending.
    ///
    ////////////////////////////////////////////////////////////
    BlendMode();

    ////////////////////////////////////////////////////////////
    /// \brief Construct the blend mode given the factors and equation.
    ///
    /// This constructor uses the same factors and equation for both
    /// color and alpha components. It also defaults to the Add equation.
    ///
    /// \param sourceFactor      Specifies how to compute the source factor for the color and alpha channels.
    /// \param destinationFactor Specifies how to compute the destination factor for the color and alpha channels.
    /// \param blendEquation     Specifies how to combine the source and destination colors and alpha.
    ///
    ////////////////////////////////////////////////////////////
    BlendMode(Factor sourceFactor, Factor destinationFactor, Equation blendEquation = Add);

    ////////////////////////////////////////////////////////////
    /// \brief Construct the blend mode given the factors and equation.
    ///
    /// \param colorSourceFactor      Specifies how to compute the source factor for the color channels.
    /// \param colorDestinationFactor Specifies how to compute the destination factor for the color channels.
    /// \param colorBlendEquation     Specifies how to combine the source and destination colors.
    /// \param alphaSourceFactor      Specifies how to compute the source factor.
    /// \param alphaDestinationFactor Specifies how to compute the destination factor.
    /// \param alphaBlendEquation     Specifies how to combine the source and destination alphas.
    ///
    ////////////////////////////////////////////////////////////
    BlendMode(Factor colorSourceFactor, Factor colorDestinationFactor,
              Equation colorBlendEquation, Factor alphaSourceFactor,
              Factor alphaDestinationFactor, Equation alphaBlendEquation);

    ////////////////////////////////////////////////////////////
    // Member Data
    ////////////////////////////////////////////////////////////
    Factor   colorSrcFactor; ///< Source blending factor for the color channels
    Factor   colorDstFactor; ///< Destination blending factor for the color channels
    Equation colorEquation;  ///< Blending equation for the color channels
    Factor   alphaSrcFactor; ///< Source blending factor for the alpha channel
    Factor   alphaDstFactor; ///< Destination blending factor for the alpha channel
    Equation alphaEquation;  ///< Blending equation for the alpha channel
};

////////////////////////////////////////////////////////////
/// \relates BlendMode
/// \brief Overload of the == operator
///
/// \param left  Left operand
/// \param right Right operand
///
/// \return True if blending modes are equal, false if they are different
///
////////////////////////////////////////////////////////////
SFML_GRAPHICS_API bool operator ==(const BlendMode& left, const BlendMode& right);

////////////////////////////////////////////////////////////
/// \relates BlendMode
/// \brief Overload of the != operator
///
/// \param left  Left operand
/// \param right Right operand
///
/// \return True if blending modes are different, false if they are equal
///
////////////////////////////////////////////////////////////
SFML_GRAPHICS_API bool operator !=(const BlendMode& left, const BlendMode& right);

////////////////////////////////////////////////////////////
// Commonly used blending modes
////////////////////////////////////////////////////////////
SFML_GRAPHICS_API extern const BlendMode BlendAlpha;    ///< Blend source and dest according to dest alpha
SFML_GRAPHICS_API extern const BlendMode BlendAdd;      ///< Add source to dest
SFML_GRAPHICS_API extern const BlendMode BlendMultiply; ///< Multiply source and dest
SFML_GRAPHICS_API extern const BlendMode BlendNone;     ///< Overwrite dest with source

} // namespace sf


#endif // SFML_BLENDMODE_HPP


////////////////////////////////////////////////////////////
/// \class sf::BlendMode
/// \ingroup graphics
///
/// sf::BlendMode is a class that represents a blend mode. A blend
/// mode determines how the colors of an object you draw are
/// mixed with the colors that are already in the buffer.
///
/// The class is composed of 6 components, each of which has its
/// own public member variable:
/// \li %Color Source Factor (@ref colorSrcFactor)
/// \li %Color Destination Factor (@ref colorDstFactor)
/// \li %Color Blend Equation (@ref colorEquation)
/// \li Alpha Source Factor (@ref alphaSrcFactor)
/// \li Alpha Destination Factor (@ref alphaDstFactor)
/// \li Alpha Blend Equation (@ref alphaEquation)
///
/// The source factor specifies how the pixel you are drawing contributes
/// to the final color. The destination factor specifies how the pixel
/// already drawn in the buffer contributes to the final color.
///
/// The color channels RGB (red, green, blue; simply referred to as
/// color) and A (alpha; the transparency) can be treated separately. This
/// separation can be useful for specific blend modes, but most often you
/// won't need it and will simply treat the color as a single unit.
///
/// The blend factors and equations correspond to their OpenGL equivalents.
/// In general, the color of the resulting pixel is calculated according
/// to the following formula (\a src is the color of the source pixel, \a dst
/// the color of the destination pixel, the other variables correspond to the
/// public members, with the equations being + or - operators):
/// \code
/// dst.rgb = colorSrcFactor * src.rgb (colorEquation) colorDstFactor * dst.rgb
/// dst.a   = alphaSrcFactor * src.a   (alphaEquation) alphaDstFactor * dst.a
/// \endcode
/// All factors and colors are represented as floating point numbers between
/// 0 and 1. Where necessary, the result is clamped to fit in that range.
///
/// The most common blending modes are defined as constants
/// in the sf namespace:
///
/// \code
/// sf::BlendMode alphaBlending          = sf::BlendAlpha;
/// sf::BlendMode additiveBlending       = sf::BlendAdd;
/// sf::BlendMode multiplicativeBlending = sf::BlendMultiply;
/// sf::BlendMode noBlending             = sf::BlendNone;
/// \endcode
///
/// In SFML, a blend mode can be specified every time you draw a sf::Drawable
/// object to a render target. It is part of the sf::RenderStates compound
/// that is passed to the member function sf::RenderTarget::draw().
///
/// \see sf::RenderStates, sf::RenderTarget
///
////////////////////////////////////////////////////////////