//------------------------------------------------------------------------------ // Copyright (c) 2001-2004, Haiku, Inc. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the "Software"), // to deal in the Software without restriction, including without limitation // the rights to use, copy, modify, merge, publish, distribute, sublicense, // and/or sell copies of the Software, and to permit persons to whom the // Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING // FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS IN THE SOFTWARE. // // File Name: clipping.h // Author: Stefano Ceccherini (burton666@libero.it) // Description: Helper methods to manipulate clipping_rects //------------------------------------------------------------------------------ #ifndef __CLIPPING_H #define __CLIPPING_H #include #include /* Some methods to manipulate clipping_rects. basically you can do almost everything you do with BRects, just that clipping_rects can only have integer coordinates (a thing that makes these perfect for drawing calculations). */ // Returns the union of the given rects. static inline clipping_rect union_rect(const clipping_rect &r1, const clipping_rect &r2) { clipping_rect rect; rect.left = min_c(r1.left, r2.left); rect.top = min_c(r1.top, r2.top); rect.right = max_c(r1.right, r2.right); rect.bottom = max_c(r1.bottom, r2.bottom); return rect; } // Returns the intersection of the given rects. // The caller should check if the returned rect is valid. If it isn't valid, // then the two rectangles don't intersect. static inline clipping_rect sect_rect(const clipping_rect &r1, const clipping_rect &r2) { clipping_rect rect; rect.left = max_c(r1.left, r2.left); rect.top = max_c(r1.top, r2.top); rect.right = min_c(r1.right, r2.right); rect.bottom = min_c(r1.bottom, r2.bottom); return rect; } // Adds the given offsets to the given rect. static inline void offset_rect(clipping_rect &rect, int32 x, int32 y) { rect.left += x; rect.top += y; rect.right += x; rect.bottom += y; } // Converts the given clipping_rect to a BRect static inline BRect to_BRect(const clipping_rect &rect) { return BRect((float)rect.left, (float)rect.top, (float)rect.right, (float)rect.bottom); } // Converts the given BRect to a clipping_rect. static inline clipping_rect to_clipping_rect(const BRect &rect) { clipping_rect clipRect; clipRect.left = (int32)floor(rect.left); clipRect.top = (int32)floor(rect.top); clipRect.right = (int32)ceil(rect.right); clipRect.bottom = (int32)ceil(rect.bottom); return clipRect; } // Checks if the given point lies in the given rect's area static inline bool point_in(const clipping_rect &rect, int32 px, int32 py) { if (px >= rect.left && px <= rect.right && py >= rect.top && py <= rect.bottom) return true; return false; } // Same as above, but it accepts a BPoint parameter static inline bool point_in(const clipping_rect &rect, const BPoint &pt) { if (pt.x >= rect.left && pt.x <= rect.right && pt.y >= rect.top && pt.y <= rect.bottom) return true; return false; } // Checks if the rect is valid static inline bool valid_rect(const clipping_rect &rect) { if (rect.left <= rect.right && rect.top <= rect.bottom) return true; return false; } // Checks if the two rects intersect. static inline bool rects_intersect(const clipping_rect &rectA, const clipping_rect &rectB) { // We behave like BRect::Intersects() does: // we return false if one of the two rects is not valid if (!valid_rect(rectA) || !valid_rect(rectB)) return false; // TODO: Is there a better algorithm ? // the one we used is faster than // ' return valid_rect(sect_rect(rectA, rectB)); ', though. return !(rectA.left > rectB.right || rectA.top > rectB.bottom || rectA.right < rectB.left || rectA.bottom < rectB.top); } // Returns the width of the given rect. static inline int32 rect_width(const clipping_rect &rect) { return rect.right - rect.left; } // Returns the height of the given rect. static inline int32 rect_height(const clipping_rect &rect) { return rect.bottom - rect.top; } #endif // __CLIPPING_H