//////////////////////////////////////////////////////////// // // SFML - Simple and Fast Multimedia Library // Copyright (C) 2007-2015 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_RECT_HPP #define SFML_RECT_HPP //////////////////////////////////////////////////////////// // Headers //////////////////////////////////////////////////////////// #include #include namespace sf { //////////////////////////////////////////////////////////// /// \brief Utility class for manipulating 2D axis aligned rectangles /// //////////////////////////////////////////////////////////// template class Rect { public: //////////////////////////////////////////////////////////// /// \brief Default constructor /// /// Creates an empty rectangle (it is equivalent to calling /// Rect(0, 0, 0, 0)). /// //////////////////////////////////////////////////////////// Rect(); //////////////////////////////////////////////////////////// /// \brief Construct the rectangle from its coordinates /// /// Be careful, the last two parameters are the width /// and height, not the right and bottom coordinates! /// /// \param rectLeft Left coordinate of the rectangle /// \param rectTop Top coordinate of the rectangle /// \param rectWidth Width of the rectangle /// \param rectHeight Height of the rectangle /// //////////////////////////////////////////////////////////// Rect(T rectLeft, T rectTop, T rectWidth, T rectHeight); //////////////////////////////////////////////////////////// /// \brief Construct the rectangle from position and size /// /// Be careful, the last parameter is the size, /// not the bottom-right corner! /// /// \param position Position of the top-left corner of the rectangle /// \param size Size of the rectangle /// //////////////////////////////////////////////////////////// Rect(const Vector2& position, const Vector2& size); //////////////////////////////////////////////////////////// /// \brief Construct the rectangle from another type of rectangle /// /// This constructor doesn't replace the copy constructor, /// it's called only when U != T. /// A call to this constructor will fail to compile if U /// is not convertible to T. /// /// \param rectangle Rectangle to convert /// //////////////////////////////////////////////////////////// template explicit Rect(const Rect& rectangle); //////////////////////////////////////////////////////////// /// \brief Check if a point is inside the rectangle's area /// /// \param x X coordinate of the point to test /// \param y Y coordinate of the point to test /// /// \return True if the point is inside, false otherwise /// /// \see intersects /// //////////////////////////////////////////////////////////// bool contains(T x, T y) const; //////////////////////////////////////////////////////////// /// \brief Check if a point is inside the rectangle's area /// /// \param point Point to test /// /// \return True if the point is inside, false otherwise /// /// \see intersects /// //////////////////////////////////////////////////////////// bool contains(const Vector2& point) const; //////////////////////////////////////////////////////////// /// \brief Check the intersection between two rectangles /// /// \param rectangle Rectangle to test /// /// \return True if rectangles overlap, false otherwise /// /// \see contains /// //////////////////////////////////////////////////////////// bool intersects(const Rect& rectangle) const; //////////////////////////////////////////////////////////// /// \brief Check the intersection between two rectangles /// /// This overload returns the overlapped rectangle in the /// \a intersection parameter. /// /// \param rectangle Rectangle to test /// \param intersection Rectangle to be filled with the intersection /// /// \return True if rectangles overlap, false otherwise /// /// \see contains /// //////////////////////////////////////////////////////////// bool intersects(const Rect& rectangle, Rect& intersection) const; //////////////////////////////////////////////////////////// // Member data //////////////////////////////////////////////////////////// T left; ///< Left coordinate of the rectangle T top; ///< Top coordinate of the rectangle T width; ///< Width of the rectangle T height; ///< Height of the rectangle }; //////////////////////////////////////////////////////////// /// \relates Rect /// \brief Overload of binary operator == /// /// This operator compares strict equality between two rectangles. /// /// \param left Left operand (a rectangle) /// \param right Right operand (a rectangle) /// /// \return True if \a left is equal to \a right /// //////////////////////////////////////////////////////////// template bool operator ==(const Rect& left, const Rect& right); //////////////////////////////////////////////////////////// /// \relates Rect /// \brief Overload of binary operator != /// /// This operator compares strict difference between two rectangles. /// /// \param left Left operand (a rectangle) /// \param right Right operand (a rectangle) /// /// \return True if \a left is not equal to \a right /// //////////////////////////////////////////////////////////// template bool operator !=(const Rect& left, const Rect& right); #include // Create typedefs for the most common types typedef Rect IntRect; typedef Rect FloatRect; } // namespace sf #endif // SFML_RECT_HPP //////////////////////////////////////////////////////////// /// \class sf::Rect /// \ingroup graphics /// /// A rectangle is defined by its top-left corner and its size. /// It is a very simple class defined for convenience, so /// its member variables (left, top, width and height) are public /// and can be accessed directly, just like the vector classes /// (Vector2 and Vector3). /// /// To keep things simple, sf::Rect doesn't define /// functions to emulate the properties that are not directly /// members (such as right, bottom, center, etc.), it rather /// only provides intersection functions. /// /// sf::Rect uses the usual rules for its boundaries: /// \li The left and top edges are included in the rectangle's area /// \li The right (left + width) and bottom (top + height) edges are excluded from the rectangle's area /// /// This means that sf::IntRect(0, 0, 1, 1) and sf::IntRect(1, 1, 1, 1) /// don't intersect. /// /// sf::Rect is a template and may be used with any numeric type, but /// for simplicity the instantiations used by SFML are typedef'd: /// \li sf::Rect is sf::IntRect /// \li sf::Rect is sf::FloatRect /// /// So that you don't have to care about the template syntax. /// /// Usage example: /// \code /// // Define a rectangle, located at (0, 0) with a size of 20x5 /// sf::IntRect r1(0, 0, 20, 5); /// /// // Define another rectangle, located at (4, 2) with a size of 18x10 /// sf::Vector2i position(4, 2); /// sf::Vector2i size(18, 10); /// sf::IntRect r2(position, size); /// /// // Test intersections with the point (3, 1) /// bool b1 = r1.contains(3, 1); // true /// bool b2 = r2.contains(3, 1); // false /// /// // Test the intersection between r1 and r2 /// sf::IntRect result; /// bool b3 = r1.intersects(r2, result); // true /// // result == (4, 2, 16, 3) /// \endcode /// ////////////////////////////////////////////////////////////