/* * Rect.cpp, part of VCMI engine * * Authors: listed in file AUTHORS in main folder * * License: GNU General Public License v2.0 or later * Full text of license available in license.txt file, in main folder * */ #include "StdInc.h" #include "Rect.h" VCMI_LIB_NAMESPACE_BEGIN /// Returns rect union - rect that covers both this rect and provided rect Rect Rect::include(const Rect & other) const { Point topLeft{ std::min(this->left(), other.left()), std::min(this->top(), other.top()) }; Point bottomRight{ std::max(this->right(), other.right()), std::max(this->bottom(), other.bottom()) }; return Rect(topLeft, bottomRight - topLeft); } Rect Rect::createCentered( const Point & around, const Point & dimensions ) { return Rect(around - dimensions/2, dimensions); } Rect Rect::createAround(const Rect &r, int width) { return Rect(r.x - width, r.y - width, r.w + width * 2, r.h + width * 2); } Rect Rect::createCentered( const Rect & rect, const Point & dimensions) { return createCentered(rect.center(), dimensions); } bool Rect::intersectionTest(const Rect & other) const { // this rect is above other rect if(this->bottom() < other.top()) return false; // this rect is below other rect if(this->top() > other.bottom() ) return false; // this rect is to the left of other rect if(this->right() < other.left()) return false; // this rect is to the right of other rect if(this->left() > other.right()) return false; return true; } /// Algorithm to test whether line segment between points line1-line2 will intersect with /// rectangle specified by top-left and bottom-right points /// Note that in order to avoid floating point rounding errors algorithm uses integers with no divisions bool Rect::intersectionTest(const Point & line1, const Point & line2) const { // check whether segment is located to the left of our rect if (line1.x < left() && line2.x < left()) return false; // check whether segment is located to the right of our rect if (line1.x > right() && line2.x > right()) return false; // check whether segment is located on top of our rect if (line1.y < top() && line2.y < top()) return false; // check whether segment is located below of our rect if (line1.y > bottom() && line2.y > bottom()) return false; Point vector { line2.x - line1.x, line2.y - line1.y}; // compute position of corners relative to our line int tlTest = vector.y*topLeft().x - vector.x*topLeft().y + (line2.x*line1.y-line1.x*line2.y); int trTest = vector.y*bottomRight().x - vector.x*topLeft().y + (line2.x*line1.y-line1.x*line2.y); int blTest = vector.y*topLeft().x - vector.x*bottomRight().y + (line2.x*line1.y-line1.x*line2.y); int brTest = vector.y*bottomRight().x - vector.x*bottomRight().y + (line2.x*line1.y-line1.x*line2.y); // if all points are on the left of our line then there is no intersection if ( tlTest > 0 && trTest > 0 && blTest > 0 && brTest > 0 ) return false; // if all points are on the right of our line then there is no intersection if ( tlTest < 0 && trTest < 0 && blTest < 0 && brTest < 0 ) return false; // if all previous checks failed, this means that there is an intersection between line and AABB return true; } Rect Rect::intersect(const Rect & other) const { if(intersectionTest(other)) { Point topLeft{ std::max(this->left(), other.left()), std::max(this->top(), other.top()) }; Point bottomRight{ std::min(this->right(), other.right()), std::min(this->bottom(), other.bottom()) }; return Rect(topLeft, bottomRight - topLeft); } else { return Rect(); } } VCMI_LIB_NAMESPACE_END