Sutherland–Hodgman algorithm: Difference between revisions

Browse history interactively

← Previous edit

Content deleted Content added

VisualWikitext

Revision as of 07:31, 13 January 2021 edit 81.185.169.191 (talk) Remove unnecessary addition in algorithm ← Previous edit		Latest revision as of 10:26, 5 June 2024 edit undo 101.190.93.135 (talk) Added book publication date
(9 intermediate revisions by 7 users not shown)
Line 1: {{Short description\|Algorithm for clipping polygons}} The '''Sutherland–Hodgman algorithm''' is an [[algorithm]] used for [[Clipping (computer graphics)\|clipping]] [[polygon]]s. It works by extending each line of the [[convex polygon\|convex]] ''clip polygon'' in turn and selecting only vertices from the ''subject polygon'' that are on the visible side. Line 41 ⟶ 42: The vertices of the clipped polygon are to be found in ''outputList'' when the algorithm terminates. Note that a point is defined as being ''inside'' an edge if it lies on the same side of the edge as the remainder of the polygon. If the vertices of the clip polygon are consistently listed in a counter-clockwise direction, then this is equivalent to testing whether the point lies to the left of the line (left means ''inside'', while right means ''outside''), and can be implemented simply by using a [[cross product]]. ''ComputeIntersection'' is a function, omitted here for clarity, which returns the intersection of a line segment and an infinite edge. Note that itthe intersecting point is only ~~called~~added ifto ~~such~~the anoutput list when the intersection is known to exist, ~~and~~therefore ~~hence~~both lines can ~~simply~~always ~~treat~~be ~~both lines~~treated as being infinitely long. ==Implementations== A Python implementation of the Sutherland-Hodgman can be found [https://github.com/mdabdk/sutherland-hodgman here]. ==See also== Other polygon clipping algorithms: [[Weiler–Atherton clipping algorithm]] [[Vatti clipping algorithm]] On the subject of clipping: [[Clipping (computer graphics)]] [[Rasterisation#Clipping\|Clipping (in rasterisation)]] [[Line clipping\|Line clipping algorithms]] == References== Mel Slater, Anthony Steed, Yiorgos Chrysanthou: ''Computer Graphics and Virtual Environments: From Realism to Real-Time.'' Addison Wesley, 2002. {{ISBN\|0-201-62420-6}}. * [[Ivan Sutherland]], Gary W. Hodgman: ''Reentrant Polygon Clipping.'' [[Communications of the ACM]], vol. 17, pp. 32–42, 1974 ==External links== * [http://www.cs.drexel.edu/~david/Classes/CS430/Lectures/L-05_Polygons.6.pdf Polygon clipping and filling] Describes the algorithm using images that are easy to understand. * [https://rosettacode.org/wiki/Sutherland-Hodgman_polygon_clipping] Rosetta Code ~~examples~~example] {{DEFAULTSORT:Sutherland-Hodgman algorithm}}